Commuter rail: Difference between revisions

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| image1            = Metra loco 180 West Chicago (cropped).jpg
| image1            = Metra train in Waukegan - July 2025.jpg
| image2            = RER NG porte maillot.jpg
| image2            = RER NG porte maillot.jpg
| image3            = Keikyu-Main-Line Type1000-355 445.jpg  
| image3            = 山手線E235系.jpg
| image4            = Trem Linha Coral CPTM (cropped).jpg
| image4            = Auckland AT Metro AM Class, Parnell, Auckland (20240202a) (cropped).jpg
| image5            = AMA 103 at Puhinui (cropped).jpg
| image5            = CPTM train.jpg
| image6            = Treno TSR livrea Trenord.JPG
| image6            = קרונוע חשמלי Siemens Desiro HC בתחנת הרכבת ירושלים – יצחק נבון, ינואר 2024.jpg
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*A [[Metra]] service of double-decker cars hauled by an [[F40PH]] in [[Chicago]]
*A [[Metra]] train of [[Gallery Car]]s hauled by an [[F40PH]] on the [[Union Pacific North Line]] in the [[Chicago]] area
*A [[RER NG]] train on [[RER E|line E]] of the [[Réseau Express Régional]] in Paris
*An [[RER NG]] train on [[RER E|line E]] of the [[Réseau Express Régional]] in Paris
*An [[New Zealand AM class electric multiple unit|AM class]] electric multiple unit used in [[Auckland]]
*An [[Israel Railways]] train in [[Jerusalem]]
*A [[Companhia Paulista de Trens Metropolitanos|CPTM]] train on the [[Line 11 (CPTM)|Coral Line]] in [[São Paulo]]
*A [[Companhia Paulista de Trens Metropolitanos|CPTM]] train on the [[Line 11 (CPTM)|Coral Line]] in [[São Paulo]]
*A [[Treno Servizio Regionale]] train in [[Milan]]
 
*An [[New Zealand AM class electric multiple unit|AM class]] electric multiple unit used in [[Auckland]]
*An [[E235 series]] EMU of the [[Yamanote Line]] railway in [[Tokyo]]
*Two [[Keikyu N1000 series|N1000 series]] EMUs of the [[Keikyu]] railway pass each other in [[Tokyo]]
*A ZS Serija 412 EMU of the [[BG Voz]] system pulling into a station in [[Belgrade]]
}}
}}


'''Commuter rail''' or '''suburban rail''' is a [[Passenger train|passenger rail]] service that primarily operates within a [[metropolitan area]], connecting [[Commuting|commuters]] to a [[Central business district|central city]] from adjacent [[suburb]]s or [[commuter town]]s.<ref>{{Cite web|url=http://onlinepubs.trb.org/Onlinepubs/glossary/001.pdf |archive-url=https://web.archive.org/web/20191012074110/http://onlinepubs.trb.org/Onlinepubs/glossary/001.pdf |archive-date=2019-10-12 |url-status=live|title=Urban Public Transportation Glossary|last=Transportation Research Board|date=1989}}</ref><ref name=":0">{{Cite web|url=https://www.apta.com/wp-content/uploads/Resources/resources/reportsandpublications/Documents/Transit_Glossary_1994.pdf |archive-url=https://web.archive.org/web/20191012074109/https://www.apta.com/wp-content/uploads/Resources/resources/reportsandpublications/Documents/Transit_Glossary_1994.pdf |archive-date=2019-10-12 |url-status=live|title=Glossary of Transit Terminology|last=American Public Transit Association|date=1994}}</ref><ref>{{Cite web|url=http://www.ntdprogram.gov/ntdprogram/Glossary.htm|archive-url=https://web.archive.org/web/20131113002142/http://www.ntdprogram.gov/ntdprogram/Glossary.htm|url-status=dead|archive-date=2013-11-13|title=National Transit Database Glossary|date=2013-11-13|access-date=2019-10-12}}</ref> Commuter rail systems can use locomotive-hauled trains or multiple units, using electric or diesel propulsion.<ref name=":0" /> Distance charges or zone pricing may be used.
'''Commuter rail''' or '''suburban rail''' is a [[Passenger train|passenger rail]] service that primarily operates within a [[metropolitan area]], connecting the [[Central business district|central city]] to its [[suburb]]s and [[commuter town]]s.<ref>{{Cite web|url=http://onlinepubs.trb.org/Onlinepubs/glossary/001.pdf |archive-url=https://web.archive.org/web/20191012074110/http://onlinepubs.trb.org/Onlinepubs/glossary/001.pdf |archive-date=2019-10-12 |url-status=live|title=Urban Public Transportation Glossary|last=Transportation Research Board|date=1989}}</ref><ref name=":0">{{Cite web|url=https://www.apta.com/wp-content/uploads/Resources/resources/reportsandpublications/Documents/Transit_Glossary_1994.pdf |archive-url=https://web.archive.org/web/20191012074109/https://www.apta.com/wp-content/uploads/Resources/resources/reportsandpublications/Documents/Transit_Glossary_1994.pdf |archive-date=2019-10-12 |url-status=live|title=Glossary of Transit Terminology|last=American Public Transit Association|date=1994}}</ref><ref>{{Cite web|url=http://www.ntdprogram.gov/ntdprogram/Glossary.htm|archive-url=https://web.archive.org/web/20131113002142/http://www.ntdprogram.gov/ntdprogram/Glossary.htm|url-status=dead|archive-date=2013-11-13|title=National Transit Database Glossary|date=2013-11-13|access-date=2019-10-12}}</ref> Commuter rail systems can use locomotive-hauled trains or [[Multiple unit|multiple units]], using electric or diesel propulsion.<ref name=":0" /> Distance charges or zone pricing may be used.


The term can refer to systems with a wide variety of different features and service frequencies, but is often used in contrast to [[rapid transit]] or [[light rail]].
The term can refer to systems with a wide variety of different features and service frequencies, but typically refers to [[Main line (railway)|mainline]] rail services connecting suburban communities with [[central business district]]s over medium distances; it is distinguished from [[rapid transit]] systems, which operate inside the urban core.  


Some services share similarities with both commuter rail and high-frequency [[rapid transit]]; examples include German [[S-Bahn]] in some cities, the [[Réseau Express Régional]] (RER) in Paris, the [[Milan S Lines|S Lines]] in Milan, many Japanese commuter systems, the [[East Rail line]] in Hong Kong, and some Australasian suburban networks, such as [[Sydney Trains]]. Many commuter rail systems share tracks with other passenger services and [[Cargo|freight]].
Some services blur the line between suburban rail and [[rapid transit]]; examples include German [[S-Bahn]] in some cities, the [[Réseau Express Régional]] (RER) in Paris, the [[Milan S Lines|S Lines]] in Milan, many Japanese commuter systems, the [[East Rail line]] in Hong Kong, and some Australasian suburban networks, such as [[Sydney Trains]] and [[Metro Trains Melbourne]]. Many commuter rail systems share tracks with other passenger services and [[Cargo|freight]].


In North America, commuter rail sometimes refers only to systems that primarily operate during [[rush hour]] and offer little to no service for the rest of the day, with [[regional rail]] being used to refer to systems that offer all-day service.<ref>{{Cite web|url=https://usa.streetsblog.org/2017/02/13/what-american-commuter-rail-can-learn-from-paris/|title=What American Commuter Rail Can Learn From Paris|date=2017-02-13|website=Streetsblog USA|language=en-US|access-date=2019-10-12}}</ref><ref>{{cite web |last1=Blumgart |first1=Jake |title=Taking the 'Commuter' Out of America's Rail Systems |url=https://www.governing.com/now/taking-the-commuter-out-of-americas-rail-systems |website=Governing |date=23 April 2021 |publisher=e.Republic LLC |access-date=11 April 2023}}</ref><ref>{{cite book |last1=Spieler |first1=Christof |title=Trains, Buses, People, Second Edition: An Opinionated Atlas of US and Canadian Transit |date=24 Aug 2021 |publisher=Island Press |isbn=9781642832136 |page=54}}</ref>
In North America, commuter rail sometimes refers only to systems that primarily operate during [[rush hour]] and offer little to no service for the rest of the day, with [[regional rail]] being used to refer to systems that offer all-day service.<ref>{{Cite web|url=https://usa.streetsblog.org/2017/02/13/what-american-commuter-rail-can-learn-from-paris/|title=What American Commuter Rail Can Learn From Paris|date=2017-02-13|website=Streetsblog USA|language=en-US|access-date=2019-10-12|archive-date=2019-10-12|archive-url=https://web.archive.org/web/20191012074109/https://usa.streetsblog.org/2017/02/13/what-american-commuter-rail-can-learn-from-paris/|url-status=dead}}</ref><ref>{{cite web |last1=Blumgart |first1=Jake |title=Taking the 'Commuter' Out of America's Rail Systems |url=https://www.governing.com/now/taking-the-commuter-out-of-americas-rail-systems |website=Governing |date=23 April 2021 |publisher=e.Republic LLC |access-date=11 April 2023}}</ref><ref>{{cite book |last1=Spieler |first1=Christof |title=Trains, Buses, People, Second Edition: An Opinionated Atlas of US and Canadian Transit |date=24 Aug 2021 |publisher=Island Press |isbn=9781642832136 |page=54}}</ref>


==Characteristics==
==Characteristics==
{{Train topics}}
{{Train topics}}
[[File:Mumbai Train.JPG|thumb|[[Mumbai Suburban Railway]] carries more than 7.24 million commuters on a daily basis]]
[[File:Mumbai Train.JPG|thumb|[[Mumbai Suburban Railway]] carries more than 7.24 million commuters daily]]
[[File:Brno, Královo Pole, železniční stanice, vůz 80-30 002 (01).jpg|thumb|Very short commuter train in [[Push–pull train|push mode.]]]]
[[File:Brno, Královo Pole, železniční stanice, vůz 80-30 002 (01).jpg|thumb|Very short commuter train in [[Push–pull train|push mode.]]]]
[[File:GO Transit Bombardier Bilevel CEM 322.JPG|thumb|[[GO Transit]] serves the Greater [[Golden Horseshoe]] region surrounding Toronto. Its train services are transitioning from a peak direction commuter railway to a [[GO Transit Regional Express Rail|Regional Express Network]].]]
[[File:GO Transit Bombardier Bilevel CEM 322.JPG|thumb|[[GO Transit]] serves the Greater [[Golden Horseshoe]] region surrounding Toronto. Its train services are transitioning from a peak direction commuter railway to a [[GO Transit Regional Express Rail|Regional Express Network]].]]
Line 42: Line 45:
*providing more seating and less standing room, owing to the longer distances involved
*providing more seating and less standing room, owing to the longer distances involved
*having (in most cases) a lower frequency of service
*having (in most cases) a lower frequency of service
*having scheduled services (i.e. trains run at specific times rather than at specific intervals)
*having scheduled services (i.e., trains run at specific times rather than at specific intervals)
*serving lower-density suburban areas, typically connecting [[suburb]]s to the city center
*serving lower-density suburban areas, typically connecting [[suburb]]s to the city center
*sharing track or [[Right-of-way (railroad)|right-of-way]] with intercity and/or [[freight]] trains
*sharing track or [[Right-of-way (railroad)|right-of-way]] with intercity and/or [[freight]] trains
*not fully grade separated (containing at-grade crossings with crossing gates)
*not fully grade separated (containing at-grade crossings with crossing gates)
*being able to skip certain stations as an express service due to normally being driver controlled
*being able to skip certain stations as an express service due to normally being driver-controlled


===Train schedule===
===Train schedule===
Compared to [[rapid transit]] (or metro rail), commuter/suburban rail often has lower [[headway|frequency]], following a schedule rather than fixed intervals, and fewer stations spaced further apart. They primarily serve lower density suburban areas (non inner-city), generally only having one or two stops in a city's central business district, and often share [[right-of-way (railroad)|right-of-way]] with intercity or [[freight]] trains.<ref name="2022 NTD Glossary">{{cite web |title=National Transit Database (NTD) Glossary |url=https://www.transit.dot.gov/ntd/national-transit-database-ntd-glossary#C |website=Federal Transit Administration |access-date=12 August 2022}}</ref> Some services operate only during peak hours and others use fewer departures during off peak hours and weekends. Average speeds are high, often {{convert|50|km/h|mph|abbr=on}} or higher. These higher speeds better serve the longer distances involved. Some services include express services which skip some stations in order to run faster and separate longer distance riders from short-distance ones.<ref>{{cite web | url=https://www.caltrain.com/?active_tab=route_explorer_tab | title=Caltrain &#124; Caltrain }}</ref>
Compared to [[rapid transit]] (or metro rail), commuter/suburban rail often has lower [[headway|frequency]], following a schedule rather than running to a headway, and wider station spacing. Such services primarily serve lower-density suburban areas (outside the inner city), generally only having one or two stops in a city's central business district, and often share [[right-of-way (railroad)|right-of-way]] with [[Inter-city rail|inter-city]] and [[Freight train|freight trains]].<ref name="2022 NTD Glossary">{{cite web |title=National Transit Database (NTD) Glossary |url=https://www.transit.dot.gov/ntd/national-transit-database-ntd-glossary#C |website=Federal Transit Administration |access-date=12 August 2022}}</ref> Often, service is concentrated in the [[Rush hour|peak]], with fewer trains per hour running during the day; service late into the evening and on weekends may be reduced or not run at all. Average speeds are usually higher than rapid transit, often {{convert|50|km/h|mph|abbr=on}} or higher. These higher speeds better serve the longer distances involved. Some suburban networks include [[skip-stop]] or [[Express train|express trains]] which serve only high-demand [[Central station|central]], [[Interchange station|interchange]] and other major stations.<ref>{{cite web | url=https://www.caltrain.com/?active_tab=route_explorer_tab | title=Caltrain &#124; Caltrain }}</ref>


The general range of commuter trains' travel distance varies between {{convert|15|and|200|km|mi|abbr=on}}, but longer distances can be covered when the trains run between two or several cities (e.g. S-Bahn in the [[Ruhr]] area of Germany). Distances between stations may vary, but are usually much longer than those of urban rail systems. In city centres the train either has a terminal station or passes through the city centre with notably fewer station stops than those of urban rail systems. Toilets are often available on-board trains and in stations.
The general range of commuter trains' travel distance varies between {{convert|15|and|200|km|mi|abbr=on}}. Still, longer distances can be covered when trains run between two or more cities (e.g., the S-Bahn in the [[Ruhr]] area of Germany). Distances between stations may vary, but are usually much longer than those of urban rail systems. In the city center, the train may terminate, or [[Through service|run through]] the city center to serve suburbs on the other side before returning.  


===Track===
===Track===
Their ability to coexist with freight or intercity services in the same [[Right-of-way (railroad)|right-of-way]] can drastically reduce system construction costs. However, they are frequently built with dedicated tracks within that right-of-way to prevent delays, especially where service densities have converged in the inner parts of the network.
Suburban trains' ability to coexist with freight or intercity services in the same [[Right-of-way (railroad)|right-of-way]] can drastically reduce system construction costs. However, as lines converge near the city center and the number of trains per hour increases, dedicated tracks may be built or existing tracks set aside for suburban trains only; commonly, two tracks of a [[Quadruple-track railway|quadruple-track]] line running through a city center are used for suburban services only.  


Most such trains run on the [[List of track gauges|local standard gauge]] track. Some systems may run on a narrower or broader gauge. Examples of [[Narrow-gauge railway|narrow-gauge]] systems are found in Japan, [[KAI Commuter|Indonesia]], [[KTM Komuter|Malaysia]], [[Greater Bangkok commuter rail|Thailand]], Taiwan, Switzerland, in the [[Brisbane]] ([[Queensland Rail]]'s [[Queensland Rail City network|City network]]) and [[Perth]] ([[Transperth]]) systems in Australia, in some systems in Sweden, and on the [[:it:Ferrovia Genova-Casella|Genoa-Casella line]] in Italy. Some countries and regions, including [[Helsinki commuter rail|Finland]], India, Pakistan, [[Elektrichka|Russia]], Brazil and Sri Lanka, as well as [[San Francisco]] ([[Bay Area Rapid Transit|BART]]) in the US and [[Metro Trains Melbourne|Melbourne]] and [[Adelaide Metro|Adelaide]] in Australia, use [[broad gauge]] track.
Most such trains run on the [[List of track gauges|local standard gauge]] track. Some systems may run on a narrower or broader gauge. Examples of [[Narrow-gauge railway|narrow-gauge]] systems are found in some systems in Sweden, Austria, Switzerland, and on the [[:it:Ferrovia Genova-Casella|Genoa-Casella line]] in Italy. Some countries and regions, such as [[San Francisco]] ([[Bay Area Rapid Transit|BART]]) in the US and the [[Keikyu]] system in Japan, use wider track gauges than their national standards.


===Distinction between other modes of rail===
===Distinction between other modes of rail===
====Metro====
====Metro====
Metro rail and [[rapid transit]] usually cover smaller inner-urban areas within {{convert|12|to|20|km|abbr=on|0}} of city centers, with shorter stop spacing, use rolling stocks with larger standing spaces, lower top speed and higher acceleration, designed for short-distance travel. They also run more frequently, to a headway rather than a published timetable and use dedicated tracks (underground or elevated), whereas commuter rail often shares tracks, technology and the legal framework within mainline railway systems, and uses rolling stocks with more seating and higher speed for comfort on longer city-suburban journeys.
Metro rail and [[rapid transit]] usually cover smaller inner-urban areas within {{convert|12|to|20|km|abbr=on|0}} of city centers, with shorter stop spacing, use rolling stocks with larger standing spaces, lower top speed and higher acceleration, designed for short-distance travel. They also run more frequently, with headways rather than a published timetable, and use dedicated tracks (underground or elevated). In contrast, commuter rail often shares tracks, technology, and the legal framework within mainline railway systems, and uses rolling stocks with more seating and higher speed for comfort on longer city-suburban journeys.


However, the classification as a metro or rapid rail can be difficult as both may typically cover a metropolitan area exclusively, run on separate tracks in the centre, and often feature purpose-built rolling stock. The fact that the terminology is not standardised across countries (even across English-speaking countries) further complicates matters. This distinction is most easily made when there are two (or more) systems such as New York's [[New York City Subway|subway]] and the [[Long Island Rail Road|LIRR]] and [[Metro-North Railroad]], Paris' [[Paris Métro|Métro]] and [[Réseau Express Régional|RER]] along with [[Transilien]], Washington D.C.'s [[Washington Metro|Metro]] along with its [[MARC Train|MARC]] and [[Virginia Railway Express|VRE]], London's tube lines of the [[London Underground|Underground]] and the [[London Overground|Overground]], [[Elizabeth line]], [[Thameslink]] along with other commuter rail [[Transport in London#Heavy rail|operators]], Madrid's [[Madrid Metro|Metro]] and [[Cercanías Madrid|Cercanías]], Barcelona's [[Barcelona Metro|Metro]] and [[Rodalies de Catalunya|Rodalies]], and Tokyo's [[Tokyo subway|subway]] and the [[East Japan Railway Company#Greater Tokyo Area|JR lines]] along with various privately owned and operated commuter rail systems.
However, classifying a line as metro or rapid rail can be difficult; many highly developed suburban networks run over dedicated rights-of-way in the city center and may primarily serve densely built-up [[inner suburbs]]. The fact that the terminology is not standardized across countries (even across English-speaking countries) further complicates matters. This distinction is most easily made when there are two (or more) systems such as New York's [[New York City Subway|subway]] and the [[Long Island Rail Road|LIRR]] and [[Metro-North Railroad]], Paris' [[Paris Métro|Métro]] and [[Réseau Express Régional|RER]] along with [[Transilien]], Washington D.C.'s [[Washington Metro|Metro]] along with its [[MARC Train|MARC]] and [[Virginia Railway Express|VRE]], London's tube lines of the [[London Underground|Underground]] and the [[London Overground|Overground]], [[Elizabeth line]], [[Thameslink]] along with other commuter rail [[Transport in London#Heavy rail|operators]], Madrid's [[Madrid Metro|Metro]] and [[Cercanías Madrid|Cercanías]], Barcelona's [[Barcelona Metro|Metro]] and [[Rodalies de Catalunya|Rodalies]], and Tokyo's [[Tokyo subway|subway]] and the [[East Japan Railway Company#Greater Tokyo Area|JR lines]] along with various privately owned and operated commuter rail systems.


====Regional rail====
====Regional rail====
[[Regional rail]] usually provides [[rail transport|rail services]] between towns and cities, rather than purely linking major population hubs in the way [[inter-city rail]] does. Regional rail operates outside major cities. Unlike Inter-city, it stops at most or all stations between cities. It provides a service between smaller communities along the line that are often byproducts of [[ribbon development]]s, and also connects with long-distance services at interchange stations located at junctions, terminals, or larger towns along the line. Alternative names are "local train" or "stopping train". Examples include the former [[British Rail|BR]]'s [[Regional Railways]], France's [[Transport express régional|TER]] (''Transport express régional''),<ref>{{Cite web|title=Transport Express Régional (TER) – SNCF {{!}} train types {{!}} railcc|url=https://rail.cc/train-type/ter-sncf/37|access-date=2021-04-27|website=rail.cc}}</ref> Germany's [[Regionalexpress]] and [[Regionalbahn]], and South Korea's [[Tonggeun]] and [[Mugunghwa-ho]] services.<ref>{{Cite web|title=KORAIL|url=http://info.korail.com/mbs/english/subview.jsp?id=english_050304000000|access-date=2021-04-27|website=info.korail.com}}</ref>
[[Regional rail]] usually provides [[rail transport|rail services]] between towns and cities, rather than solely linking major population hubs as [[inter-city rail]] does. Regional rail operates outside major cities. Unlike inter-city, it stops at most, if not all, stations between cities. It provides service to smaller communities along the line, which are often byproducts of [[ribbon development]]. Also, it connects to long-distance services at interchange stations located at junctions, terminals, or larger towns along the line. Alternative names are "local train" or "stopping train". Examples include the former [[British Rail|BR]]'s [[Regional Railways]], France's [[Transport express régional|TER]] (''Transport express régional''),<ref>{{Cite web|title=Transport Express Régional (TER) – SNCF {{!}} train types {{!}} railcc|url=https://rail.cc/train-type/ter-sncf/37|access-date=2021-04-27|website=rail.cc}}</ref> Germany's [[Regionalexpress]] and [[Regionalbahn]], and South Korea's [[Tonggeun]] and [[Mugunghwa-ho]] services.<ref>{{Cite web|title=KORAIL|url=http://info.korail.com/mbs/english/subview.jsp?id=english_050304000000|access-date=2021-04-27|website=info.korail.com}}</ref>


====Inter-city rail====
====Inter-city rail====
{{see also|Inter-city rail}}
{{see also|Inter-city rail}}
[[File:B set departing Panania 20180919 01 (Nimed).jpg|thumb|A [[Sydney Trains B set]] with an upper and lower deck]]
[[File:D44 DSC 0125 Cropped.jpg|thumb|A [[New South Wales D set]] with an upper and lower deck]]
In some European countries, the distinction between commuter trains and long-distance/intercity trains is subtle, due to the relatively short distances involved. For example, so-called "[[Inter-city rail|intercity]]" trains in Belgium and the Netherlands carry many commuters, while their equipment, range, and speeds are similar to those of commuter trains in some larger countries.
In some European countries, the distinction between commuter trains and long-distance/intercity trains is subtle, due to the relatively short distances involved. For example, [[Nederlandse Spoorwegen]] runs more than 80 direct trains a day over some 50 km between [[Amsterdam]] and [[The Hague]], used daily by numerous commuters, despite notionally being an intercity route (albeit one within the [[Randstad]] conurbation). Likewise, many suburban services in the [[Greater Tokyo Area]] in Japan connect downtown Tokyo with cities which are substantial in their own right, such as [[Yokohama]] (population 3.7 million), [[Saitama (city)|Saitama]] (1.3 million), and [[Chiba (city)|Chiba]] (983,000) but are less than 50 km from the centre of Tokyo.


The United Kingdom has a privatised rail system, with different routes and services covered by different private operators. The distinction between commuter and intercity rail is not as clear as it was before privatisation (when InterCity existed as a brand of its own), but usually it is still possible to tell them apart. Some operators, for example [[Thameslink]], focus solely on commuter services. Others, such as [[Avanti West Coast]] and [[London North Eastern Railway|LNER]], run solely intercity services. Others still, such as [[Great Western Railway (train operating company)|GWR]] and [[East Midlands Railway|EMR]], run a mixture of commuter, regional and intercity services. Some of these operators use different branding for different types of service (for example EMR brands its trains as either "InterCity", "Connect" for London commuter services, and "Regional") but even for those operators that do not, the type of train, amenities offered, and stopping pattern, usually tell the services apart.
The United Kingdom has a [[Rail privatisation in the UK|largely privatized]] rail system (though it is in the process of [[Great British Railways|renationalization]]), with different routes and services covered by different private operators. The distinction between commuter and intercity rail is not as clear as it was before privatization (when InterCity existed as a brand in its own right). However, usually it is still possible to tell them apart. Some operators, for example [[Thameslink]], focus solely on commuter services. Others, such as [[Avanti West Coast]] and [[London North Eastern Railway|LNER]], run solely intercity services. Others still, such as [[Great Western Railway (train operating company)|GWR]] and [[East Midlands Railway|EMR]], run a mixture of commuter, regional, and intercity services. Some of these operators use different branding for different types of service (for example, EMR brands its trains as either "InterCity", "Connect" for London commuter services, and "Regional"), but even for those operators that do not, the type of train, amenities offered, and stopping pattern usually tell the services apart.


[[Elektrichka|Russian commuter trains]], on the other hand, frequently cover areas larger than Belgium itself, although these are still short distances by Russian standards. They have a different ticketing system from long-distance trains, and in major cities they often operate from a separate section of the train station.
[[Elektrichka|Russian commuter trains]], on the other hand, frequently cover areas larger than Belgium itself, although these are still short distances by Russian standards. They have a different ticketing system from long-distance trains, and in major cities, they often operate from a separate section of the train station.


Some consider "inter-city" service to be that which operates as an express service between two main city stations, bypassing intermediate stations. However, this term is used in Australia (Sydney for example) to describe the regional trains operating beyond the boundaries of the suburban services, even though some of these "inter-city" services stop all stations similar to German regional services. In this regard, the German service delineations and naming conventions are clearer and better used for academic purposes.
Some consider "inter-city" service to be an express service operating between two main city stations, bypassing intermediate stations. However, this term is used in Australia (Sydney, for example) to describe the regional trains operating beyond the boundaries of the suburban services, even though some of these "inter-city" services stop at all stations, similar to German regional services. In this regard, the German service delineations and naming conventions are clearer and better used for academic purposes.


====High-speed rail====
====High-speed rail====
[[File:Shinkansen E4 series entering Omiya.jpg|thumb|right|A Tokyo-bound [[E4 Series Shinkansen]] train. As of October 2021, these have since been retired.]]
[[File:Shinkansen E4 series entering Omiya.jpg|thumb|right|A Tokyo-bound [[E4 Series Shinkansen]] train. As of October 2021, these have since been retired.]]
Sometimes [[high-speed rail]] can serve daily use of commuters. The Japanese [[Shinkansen]] high speed rail system is heavily used by commuters in the [[Greater Tokyo Area]], who commute between {{convert|100|and|200|km|abbr=on|0}} by [[Shinkansen]].<ref>{{Cite web|url=https://www.eesi.org/papers/view/fact-sheet-high-speed-rail-development-worldwide|title=Fact Sheet: High Speed Rail Development Worldwide {{!}} White Papers {{!}} EESI|website=www.eesi.org|access-date=2019-12-04}}</ref> To meet the demand of commuters, [[Japan Railways Group|JR]] sells commuter discount passes. Before 2021, they operated 16-car [[bilevel car|bilevel]] [[E4 Series Shinkansen]] trains at rush hour, providing a capacity of 1,600 seats.<ref>{{Cite web|title=JR East to Retire the Last Double-Decker Shinkansen Train – Japan Station|url=https://www.japanstation.com/jr-east-to-retire-the-last-double-decker-shinkansen-train/|access-date=2021-08-11|website=www.japanstation.com|date=18 July 2021 }}</ref> Several lines in [[high-speed rail in China|China]], such as the [[Beijing–Tianjin Intercity Railway]] and the [[Shanghai–Nanjing High-Speed Railway]], serve a similar role with many more under construction or planned.<ref>{{Cite web|url=https://www.shine.cn/news/metro/1806116099/|title=Metro closes the gap with areas across the border – SHINE|website=SHINE|language=en|access-date=2018-06-23}}</ref>
Sometimes [[high-speed rail]] can serve commuters' daily needs. The Japanese [[Shinkansen]] high speed rail system is heavily used by commuters in the [[Greater Tokyo Area]], who commute between {{convert|100|and|200|km|abbr=on|0}} by Shinkansen.<ref>{{Cite web|url=https://www.eesi.org/papers/view/fact-sheet-high-speed-rail-development-worldwide|title=Fact Sheet: High Speed Rail Development Worldwide {{!}} White Papers {{!}} EESI|website=www.eesi.org|access-date=2019-12-04}}</ref> To meet the demand of commuters, [[Japan Railways Group|JR]] sells commuter discount passes. Before 2021, they operated 16-car [[bilevel car|bilevel]] [[E4 Series Shinkansen]] trains at rush hour, providing a capacity of 1,600 seats.<ref>{{Cite web|title=JR East to Retire the Last Double-Decker Shinkansen Train – Japan Station|url=https://www.japanstation.com/jr-east-to-retire-the-last-double-decker-shinkansen-train/|access-date=2021-08-11|website=www.japanstation.com|date=18 July 2021 }}</ref> Several lines in [[high-speed rail in China|China]], such as the [[Beijing–Tianjin Intercity Railway]] and the [[Shanghai–Nanjing High-Speed Railway]], serve a similar role with many more under construction or planned.<ref>{{Cite web|url=https://www.shine.cn/news/metro/1806116099/|title=Metro closes the gap with areas across the border – SHINE|website=SHINE|language=en|access-date=2018-06-23}}</ref>


In [[high-speed rail in South Korea|South Korea]], some sections of the high-speed rail network are also heavily used by commuters, such as the section between [[Gwangmyeong Station]] and [[Seoul Station]] on the [[KTX]] network ([[Gyeongbu High-speed railway|Gyeongbu HSR Line]]), or the section between [[Dongtan Station]] and [[Suseo station]] on the [[Super Rapid Train|SRT]] Line.
In [[high-speed rail in South Korea|South Korea]], some sections of the high-speed rail network are also heavily used by commuters, such as the section between [[Gwangmyeong Station]] and [[Seoul Station]] on the [[KTX]] network ([[Gyeongbu High-speed railway|Gyeongbu HSR Line]]), or the section between [[Dongtan Station]] and [[Suseo Station]] on the [[Super Rapid Train|SRT]] Line.


The high-speed services linking [[Zurich]], [[Bern]] and [[Basel]] in [[high-speed rail in Switzerland|Switzerland]] ({{convert|200|km/h|abbr=on}}) have brought the Central Business Districts (CBDs) of these three cities within 1 hour of each other. This has resulted in unexpectedly high demand for new commuter trips between the three cities and a corresponding increase in suburban rail passengers accessing the high-speed services at the main city-centre stations ({{lang|de|Hauptbahnhof}}). The [[Regional-Express]] commuter service between [[Munich]] and [[Nuremberg]] in Germany runs at {{convert|200|km/h|abbr=on}} on the {{convert|300|km/h|abbr=on|0}} [[Nuremberg–Ingolstadt high-speed railway]].
The high-speed services linking [[Zürich]], [[Bern]], and [[Basel]] in [[high-speed rail in Switzerland|Switzerland]] ({{convert|200|km/h|abbr=on}}) have brought the Central Business Districts (CBDs) of these three cities within 1 hour of each other. This has resulted in unexpectedly high demand for new commuter trips between the three cities and a corresponding increase in suburban rail passengers accessing the high-speed services at the main city-center stations ({{lang|de|Hauptbahnhof}}). The [[Regional-Express]] commuter service between [[Munich]] and [[Nuremberg]] in Germany runs at {{convert|200|km/h|abbr=on}} on the {{convert|300|km/h|abbr=on|0}} [[Nuremberg–Ingolstadt high-speed railway]].


The regional trains [[Stockholm]]–[[Uppsala]], Stockholm–[[Västerås]], Stockholm–[[Eskilstuna]] and [[Gothenburg]]–[[Trollhättan]] in [[high-speed rail in Sweden|Sweden]] reach {{convert|200|km/h|abbr=on}} and have many daily commuters.
The regional trains [[Stockholm]]–[[Uppsala]], Stockholm–[[Västerås]], Stockholm–[[Eskilstuna]] and [[Gothenburg]]–[[Trollhättan]] in [[high-speed rail in Sweden|Sweden]] reach {{convert|200|km/h|abbr=on}} and have many daily commuters.


In [[Great Britain]], the [[HS1]] domestic services between London and Ashford runs at a top speed of 225&nbsp;km/h, and in peak hours the trains can be full with commuters standing.
In [[Great Britain]], the [[HS1]] domestic services between London and Ashford run at a top speed of 225&nbsp;km/h, and in peak hours the trains can be full with commuters standing.


The [[Athens Suburban Railway]] in Greece consists of five lines, 4 of which are electrified. The [[Kiato railway station|Kiato]]–[[Piraeus]] line and the [[Aigio railway station|Aigio]]–[[Athens Airport Station|Airport]] lines reach speeds of up to {{convert|180|km/h|abbr=on|0}}. The [[Athens]]–[[Chalcis]] line is also expected to attain speeds of up to {{convert|200|km/h|abbr=on|0}} upon upgrading of the SKA–Oinoi railway sector. These lines also have many daily commuters, with the number expected to rise even higher upon full completion of the [[Acharnes Railway Center]].
The [[Athens Suburban Railway]] in Greece consists of five lines, 4 of which are electrified. The [[Kiato railway station|Kiato]]–[[Piraeus]] line and the [[Aigio railway station|Aigio]]–[[Athens Airport Station|Airport]] lines reach speeds of up to {{convert|180|km/h|abbr=on|0}}. The [[Athens]]–[[Chalcis]] line is also expected to attain speeds of up to {{convert|200|km/h|abbr=on|0}} upon upgrading of the SKA–Oinoi railway sector. These lines also serve many daily commuters, with the number expected to rise further upon the full completion of the [[Acharnes Railway Center]].


[[Eskişehir]]-[[Ankara]] and [[Konya]]-[[Ankara]] high speed train routes serve as high speed commuter trains in [[high-speed rail in Turkey|Turkey]].
The [[Eskişehir]]-[[Ankara]] and [[Konya]]-[[Ankara]] high-speed train routes serve as commuter lines in [[high-speed rail in Turkey|Turkey]].


==Train types==
==Train types==
Commuter/suburban trains are usually optimized for maximum passenger volume, in most cases without sacrificing too much comfort and [[luggage]] space, though they seldom have all the amenities of long-distance trains. Cars may be single- or [[bilevel car|double-level]], and aim to provide seating for all. Compared to intercity trains, they have less space, fewer amenities and limited baggage areas.
Commuter/suburban trains are usually optimized for maximum passenger volume, in most cases without sacrificing too much comfort and [[luggage]] space. However, they seldom have all the amenities of long-distance trains. Cars may be single- or [[bilevel car|double-level]], and aim to provide seating for all. Compared to intercity trains, they have less space, fewer amenities, and limited baggage areas.


===Multiple unit type===
===Multiple unit type===
[[File:Treviglio - stazione ferroviaria - elettrotreno TSR.jpg|thumb|An electric multiple unit at Treviglio, on [[Milan S Lines|Milan suburban line]] S5]]
[[File:Treviglio - stazione ferroviaria - elettrotreno TSR.jpg|thumb|An electric multiple unit at Treviglio, on [[Milan S Lines|Milan suburban line]] S5]]
Commuter rail trains are usually composed of [[multiple unit]]s, which are self-propelled, bidirectional, articulated passenger rail cars with driving motors on each (or every other) [[bogie]]. Depending on local circumstances and tradition they may be powered either by [[diesel engines]] located below the passenger compartment ([[diesel multiple unit]]s) or by electricity picked up from [[third rail]]s or [[overhead lines]] ([[electric multiple unit]]s). Multiple units are almost invariably equipped with control cabs at both ends, which is why such units are so frequently used to provide commuter services, due to the associated short turn-around time.
Commuter rail trains are usually composed of [[multiple unit]]s, which are self-propelled, bidirectional, articulated passenger rail cars with driving motors on each (or every other) [[bogie]]. Depending on local circumstances and tradition, they may be powered either by [[diesel engines]] located below the passenger compartment ([[diesel multiple unit]]s) or by electricity picked up from [[third rail]]s or [[overhead lines]] ([[electric multiple unit]]s). Multiple units are almost invariably equipped with control cabs at both ends, which is why they are so frequently used to provide commuter services, owing to the associated short turnaround time.


===Locomotive hauled services===
===Locomotive hauled services===
[[File:ACE EMD F40PH Fremont - San Jose.jpg|thumb|left|An [[Altamont Corridor Express]] train operating along the [[San Francisco Bay]]; a [[EMD F40PH|MPI F40PH-2C]] locomotive hauls a consist of [[Bombardier BiLevel Coach]]es.]]
[[File:ACE EMD F40PH Fremont - San Jose.jpg|thumb|left|An [[Altamont Corridor Express]] train operating along the [[San Francisco Bay]]; a [[EMD F40PH|MPI F40PH-2C]] locomotive hauls a consist of [[Bombardier BiLevel Coach]]es.]]
Locomotive hauled services are used in some countries or locations. This is often a case of asset sweating, by using a single large combined fleet for intercity and regional services. Loco hauled services are usually run in [[Push-pull train|push-pull]] formation, that is, the train can run with the locomotive at the "front" or "rear" of the train (pushing or pulling). Trains are often equipped with a control cab at the other end of the train from the locomotive, allowing the train operator to operate the train from either end. The motive power for locomotive-hauled commuter trains may be either electric or [[diesel–electric powertrain|diesel–electric]], although some countries, such as Germany and some of the former Soviet-bloc countries, also use diesel–hydraulic locomotives.
Locomotive-hauled services are used in some countries or locations. This is often a case of asset-sweating, using a single large combined fleet for intercity and regional services. Loco-hauled services are usually run in [[Push-pull train|push-pull]] formation, that is, the train can run with the locomotive at the "front" or "rear" (pushing or pulling). Trains are often equipped with a control cab at the end opposite the locomotive, allowing the train operator to operate the train from either end. The motive power for locomotive-hauled commuter trains may be either electric or [[diesel–electric powertrain|diesel–electric]], although some countries, such as Germany and some of the former Soviet-bloc countries, also use diesel–hydraulic locomotives.


===Seat plans===
===Seat plans===
In the US and some other countries, a three-and-two seat plan is used. Middle seats on these trains are often less popular because passengers feel crowded and uncomfortable.<ref>{{cite news|url=https://www.nytimes.com/2005/05/31/nyregion/for-train-riders-middle-seat-isnt-the-center-of-attention.html|title=For Train Riders, Middle Seat Isn't the Center of Attention|first=Patrick|last=McGeehan|newspaper=The New York Times|date=31 May 2005}}</ref><ref>{{cite news|url=https://www.nytimes.com/2005/06/06/opinion/on-the-802-express-threes-a-crowd-139947.html|title=On the 8:02 Express, Three's a Crowd|newspaper=The New York Times|date=6 June 2005}}</ref>
In the US and some other countries, a three-and-two seat plan is used. Middle seats on these trains are often less popular because passengers feel crowded and uncomfortable.<ref>{{cite news|url=https://www.nytimes.com/2005/05/31/nyregion/for-train-riders-middle-seat-isnt-the-center-of-attention.html|title=For Train Riders, Middle Seat Isn't the Center of Attention|first=Patrick|last=McGeehan|newspaper=The New York Times|date=31 May 2005}}</ref><ref>{{cite news|url=https://www.nytimes.com/2005/06/06/opinion/on-the-802-express-threes-a-crowd-139947.html|title=On the 8:02 Express, Three's a Crowd|newspaper=The New York Times|date=6 June 2005}}</ref>


In Japan, South Korea and Indonesia, longitudinal (sideways window-lining) seating is widely used in many commuter rail trains to increase capacity in rush hours. Carriages are usually not organized to increase [[seating capacity]] (although in some trains at least one carriage would feature more doors to facilitate easier boarding and alighting and bench seats so that they can be folded up during rush hour to provide more standing room) even in the case of commuting longer than 50&nbsp;km and commuters in the [[Greater Tokyo Area]], [[Seoul metropolitan area]], and [[Jakarta metropolitan area|Jabodetabek area]] have to stand in the train for more than an hour.
In Japan, South Korea, and Indonesia, longitudinal (sideways window-lining) seating is widely used on many commuter trains to increase capacity during rush hours. Carriages are usually not organized to increase [[seating capacity]] (although in some trains at least one carriage would feature more doors to facilitate easier boarding and alighting and bench seats so that they can be folded up during rush hour to provide more standing room) even in the case of commuting longer than 50&nbsp;km and commuters in the [[Greater Tokyo Area]], [[Seoul metropolitan area]], and [[Jakarta metropolitan area|Jabodetabek area]] have to stand in the train for more than an hour.


==Commuter rail systems around the world==
==Commuter rail systems around the world==
Line 116: Line 119:
===Africa===
===Africa===
{{See also|Template:Suburban railways in Africa}}
{{See also|Template:Suburban railways in Africa}}
[[File:Kalk Bay Station 3.jpg|thumb|A [[Metrorail (South Africa)|Metrorail]] train pulling out of [[Kalk Bay]] station in [[Cape Town]]]]
[[File:PRASA X'trapolis Mega.jpg|thumb|A [[Metrorail (South Africa)|Metrorail]] train pulling out to [[Fish Hoek]] station in [[Cape Town]]]]
Currently there are not many examples of commuter rail in [[Africa]]. [[Metrorail (South Africa)|Metrorail]] operates in the major cities of [[South Africa]], and there are some commuter rail services in [[Algeria]], [[Botswana]], [[Kenya]], [[Morocco]], [[Egypt]] and [[Tunisia]].
Currently, there are not many examples of commuter rail in [[Africa]]. [[Metrorail (South Africa)|Metrorail]] operates in the major cities of [[South Africa]], and there are some commuter rail services in [[Algeria]], [[Botswana]], [[Kenya]], [[Morocco]], [[Egypt]] and [[Tunisia]].
In Algeria, [[SNTF]] operates commuter rail lines between the capital [[Algiers]] and its southern and eastern suburbs. They also serve to connect [[Algiers]]' main [[University of Science and Technology, Houari Boumediene|universities]] to each other. The [[Dar es Salaam commuter rail]] offers intracity services in [[Dar es Salaam]], Tanzania. In Botswana, the ([[Botswana Railways]]) "BR Express" has a commuter train between [[Lobatse]] and [[Gaborone]].
In Algeria, the [[Algiers suburban rail network]] serves the capital [[Algiers]] and its southern and eastern suburbs. It also connects Algiers' main [[University of Science and Technology, Houari Boumediene|universities]]. The [[Dar es Salaam commuter rail]] offers intracity services in [[Dar es Salaam]], Tanzania. In Botswana, the ([[Botswana Railways]]) "BR Express" has a commuter train between [[Lobatse]] and [[Gaborone]].


===Asia===
===Asia===
====East Asia====
====East Asia====
[[File:Series-E235-0_9.jpg|thumb|right|An [[E235 series]] train operating a through service on the [[JR East]] [[Yamanote Line]], an example of high-density commuter rail in Japan.]]
[[File:CRH6A-0439@LXI (20180630070543).jpg|thumb|right|An [[China Railway CRH6|CRH6]] train operating a through service on the [[Beijing Suburban Railway]] [[Sub-Center line]] in China.]]
In Japan, commuter rail systems have extensive network and frequent service and are heavily used. In many cases, Japanese commuter rail is operationally more like a typical metro system (frequent trains, an emphasis on [[standing passenger]]s, short station spacings) than it is like commuter rail in other countries. Japanese commuter rail commonly interline with city center subway lines, with commuter rail trains continuing into the subway network, and then out onto different commuter rail systems on the other side of the city. Many Japanese commuter systems operate various stopping patterns to reduce the travel time to distant locations, often using station [[passing loop]]s instead of dedicated express tracks. It is notable that the larger Japanese commuter rail systems are owned and operated by for-profit [[private railway]] companies, without public subsidy.
In Japan, commuter rail systems have extensive networks, frequent service, and high ridership. In many cases, Japanese commuter rail is operationally more like a typical metro system (frequent trains, an emphasis on [[standing passenger]]s, short station spacings) than it is like commuter rail in other countries. Japanese commuter rail commonly interlines with city-center subway lines, with commuter trains continuing into the subway network and then out onto other commuter rail systems on the city's other side. Many Japanese commuter systems operate various stopping patterns to reduce travel time to distant destinations, often using station [[passing loop]]s instead of dedicated express tracks. Notably, the larger Japanese commuter rail systems are owned and operated by for-profit [[private railway]] companies, without public subsidy.


[[East Japan Railway Company]] operates a large suburban train network in [[Tokyo]] with various lines connecting the suburban areas to the city center. While the [[Yamanote Line]], [[Keihin Tohoku Line]], [[Chūō–Sōbu Line]] services arguably are more akin to [[rapid transit]] with frequent stops, simple stopping patterns (relative to other JR East lines) no branching services and largely serving the inner suburbs; other services along the [[Chūō Line (Rapid)|Chūō Rapid Line]], [[Sōbu Line (Rapid)|Sōbu Rapid Line]]/[[Yokosuka Line]], [[Ueno–Tokyo Line]], [[Shōnan–Shinjuku Line]] etc. are mid-distance services from suburban lines in the outer reaches of Greater Tokyo through operating into these lines to form a high frequency corridor though central Tokyo.
[[East Japan Railway Company]] operates a large suburban train network in [[Tokyo]] with various lines connecting the suburban areas to the city center. While the [[Yamanote Line]], [[Keihin Tohoku Line]], [[Chūō–Sōbu Line]] services arguably are more akin to [[rapid transit]] with frequent stops, simple stopping patterns (relative to other JR East lines) no branching services and largely serving the inner suburbs; other services along the [[Chūō Line (Rapid)|Chūō Rapid Line]], [[Sōbu Line (Rapid)|Sōbu Rapid Line]]/[[Yokosuka Line]], [[Ueno–Tokyo Line]], [[Shōnan–Shinjuku Line]] etc. are mid-distance services from suburban lines in the outer reaches of Greater Tokyo through operating into these lines to form a high frequency corridor though central Tokyo.
Line 130: Line 133:
* [[Hanshin Namba Line]] and [[Nara Line (Kintetsu)#Kintetsu Namba Line|Kintetsu Namba Line]] have a busy east west underground section that allow trains from both [[Hanshin Electric Railway]] and [[Kintetsu Railway]] to access [[Namba]], a major commercial center of Osaka, and service destinations east and west of Osaka.
* [[Hanshin Namba Line]] and [[Nara Line (Kintetsu)#Kintetsu Namba Line|Kintetsu Namba Line]] have a busy east west underground section that allow trains from both [[Hanshin Electric Railway]] and [[Kintetsu Railway]] to access [[Namba]], a major commercial center of Osaka, and service destinations east and west of Osaka.
* [[Osaka Metro]] [[Sakaisuji Line]] is a north south line that allows [[Hankyu]] services from the [[Hankyu Senri Line|Senri Line]], [[Hankyu Kyoto Main Line|Kyoto Main Line]] and [[Hankyu Arashiyama Line|Arashiyama Line]] to enter Osaka city center.
* [[Osaka Metro]] [[Sakaisuji Line]] is a north south line that allows [[Hankyu]] services from the [[Hankyu Senri Line|Senri Line]], [[Hankyu Kyoto Main Line|Kyoto Main Line]] and [[Hankyu Arashiyama Line|Arashiyama Line]] to enter Osaka city center.
* [[JR West]] [[Tozai Line (JR West)|Tozai Line]] is an underground east west corridor allowing trains from the [[JR Kobe Line|Kobe Line]], [[JR Takarazuka Line|Takarazuka Line]] and [[Gakkentoshi Line]] to access [[Umeda]] in central Osaka.
* [[JR West]] [[Tozai Line (JR West)|Tozai Line]] is an underground east-west corridor allowing trains from the [[JR Kobe Line|Kobe Line]], [[JR Takarazuka Line|Takarazuka Line]] and [[Gakkentoshi Line]] to access [[Umeda]] in central Osaka.
*JR West [[Osaka Loop Line]] is a mostly elevated loop line that allows for services from the [[Yamatoji Line]], [[Hanwa Line]] and [[Sakurajima Line]] to loop around central Osaka.
*JR West [[Osaka Loop Line]] is a mostly elevated loop line that allows for services from the [[Yamatoji Line]], [[Hanwa Line]], and [[Sakurajima Line]] to loop around central Osaka.
*JR West [[JR Kobe Line|Kobe Line]]/[[JR Kyoto Line|Kyoto Line]] is a four track corridor allowing [[Biwako Line]], [[Kosei Line]], [[JR Takarazuka Line|Takarazuka Line]], [[San'yō Main Line]] and [[Akō Line]] services to service [[Kyoto]], [[Osaka]] and [[Kobe]].
*JR West [[JR Kobe Line|Kobe Line]]/[[JR Kyoto Line|Kyoto Line]] is a four track corridor allowing [[Biwako Line]], [[Kosei Line]], [[JR Takarazuka Line|Takarazuka Line]], [[San'yō Main Line]] and [[Akō Line]] services to service [[Kyoto]], [[Osaka]] and [[Kobe]].
*A special private railway [[Kōbe Rapid Transit Railway]] owns two underground corridors (a north south and east west line) that allow for [[Sanyo Electric Railway]], [[Hankyu|Hankyu railway]], [[Hanshin Electric Railway]] and [[Kobe Electric Railway]] services to enter and cross Kobe city center.
*A special private railway [[Kōbe Rapid Transit Railway]] owns two underground corridors (a north-south and east-west line) that allow for [[Sanyo Electric Railway]], [[Hankyu|Hankyu railway]], [[Hanshin Electric Railway]], and [[Kobe Electric Railway]] services to enter and cross Kobe city center.
* Most of the trains on the [[Meitetsu]] network through operate into a high frequency trunk line on the [[Meitetsu Nagoya Main Line]] branching out to other lines on the other side of [[Nagoya]].
* Most of the trains on the [[Meitetsu]] network operate on a high-frequency trunk line on the [[Meitetsu Nagoya Main Line]], branching out to other lines on the other side of [[Nagoya]].


Commuter rail systems have been inaugurated in several cities in China such as [[Beijing Suburban Railway|Beijing]], [[Shanghai Suburban Railway|Shanghai]], [[Central Plain Metropolitan Intercity Rail|Zhengzhou]], [[Wuhan Metropolitan Area Intercity Railway|Wuhan]], [[Changsha–Zhuzhou–Xiangtan Intercity Railway|Changsha]] and the [[Pearl River Delta Rapid Transit|Pearl River Delta]]. With plans for large systems in northeastern [[Zhejiang]], [[Jingjinji]], and [[Yangtze River Delta]] areas. The level of service varies considerably from line to line ranging [[high speed rail|high]] to near high speeds. More developed and established lines such as the [[Guangzhou–Shenzhen Railway|Guangshen Railway]] have more frequent metro-like service.
Commuter rail systems have been inaugurated in several cities in China such as [[Beijing Suburban Railway|Beijing]], [[Shanghai Suburban Railway|Shanghai]], [[Central Plain Metropolitan Intercity Rail|Zhengzhou]], [[Wuhan Metropolitan Area Intercity Railway|Wuhan]], [[Changsha–Zhuzhou–Xiangtan Intercity Railway|Changsha]] and the [[Pearl River Delta Rapid Transit|Pearl River Delta]]. With plans for large systems in the northeastern [[Zhejiang]], [[Jingjinji]], and [[Yangtze River Delta]] areas. The level of service varies considerably from line to line, ranging from [[high speed rail|high]] to near high speeds. More developed and established lines, such as the [[Guangzhou–Shenzhen Railway|Guangshen Railway]], offer more frequent metro-like service.


The two [[MTR]] lines which are owned and formerly operated by the [[Kowloon-Canton Railway Corporation]] ([[East Rail line]] and [[Tuen Ma line]] which is integrated from the former [[West Rail line]] and [[Ma On Shan line]] in 2021), then the [[Kowloon–Canton Railway|"KCR"]]), and MTR's own [[Tung Chung line]] connect the new towns in [[New Territories]] and the city centre [[Kowloon]] together with frequent intervals, and some New Territories-bound trains terminate at intermediate stations, providing more frequent services in Kowloon and the towns closer to Kowloon. They use rolling stocks with a faster maximum speed and have longer stop spacing compared to other lines which only run in the inner urban area, but in order to maximise capacity and throughput, these rolling stocks have longitudinal seatings, 5 pairs of doors in each carriage with large standing spaces like the urban lines, and run as frequent as well. Most of the sections of these four lines are overground and some sections of the East Rail Line share tracks with intercity trains to [[mainland China]]. The three KCR lines are integrated into the MTR network since 2008 and most passengers do not need to exit and re-enter the system through separate fare gates and purchase separate tickets to transfer between such lines and the rest of the network (the exceptions are between the Tuen Ma line's [[East Tsim Sha Tsui station]] and the Tsuen Wan line's [[Tsim Sha Tsui station]].
The two [[MTR]] lines which are owned and formerly operated by the [[Kowloon-Canton Railway Corporation]] ([[East Rail line]] and [[Tuen Ma line]] which is integrated from the former [[West Rail line]] and [[Ma On Shan line]] in 2021), then the [[Kowloon–Canton Railway|"KCR"]]), and MTR's own [[Tung Chung line]] connect the new towns in [[New Territories]] and the city centre [[Kowloon]] with frequent intervals, and some New Territories-bound trains terminate at intermediate stations, providing more frequent services in Kowloon and the towns closer to Kowloon. They use rolling stock with a higher maximum speed and have longer stop spacing than other lines, which only run in the inner urban area. Still, to maximize capacity and throughput, these rolling stocks have longitudinal seating, 5 pairs of doors in each carriage with large standing spaces like the urban lines, and run as frequently as well. Most of the four lines are overground, and some sections of the East Rail Line share tracks with intercity trains to [[mainland China]]. The three KCR lines have been integrated into the MTR network since 2008. Most passengers do not need to exit and re-enter the system through separate fare gates and purchase separate tickets to transfer between such lines and the rest of the network (the exceptions are between the Tuen Ma line's [[East Tsim Sha Tsui station]] and the Tsuen Wan line's [[Tsim Sha Tsui station]].


In Taiwan, the [[Western Trunk line|Western line]] in the [[Taipei]]-[[Taoyuan City|Taoyuan]] Metropolitan Area, [[Taichung]] Metropolitan Area and [[Tainan]]-[[Kaohsiung]] Metropolitan Area as well as the [[Neiwan line|Neiwan]]-[[Liujia line]] in the [[Hsinchu]] Area are considered commuter rail.
In Taiwan, the [[Western Trunk line|Western line]] in the [[Taipei]]-[[Taoyuan City|Taoyuan]] Metropolitan Area, [[Taichung]] Metropolitan Area and [[Tainan]]-[[Kaohsiung]] Metropolitan Area as well as the [[Neiwan line|Neiwan]]-[[Liujia line]] in the [[Hsinchu]] Area are considered commuter rail.


In South Korea, the [[Seoul Metropolitan Subway]] includes a total of 22 lines, and some of its lines are suburban lines. This is especially the case for lines operated by [[Korail]], such as the [[Gyeongui-Jungang Line]], the [[Gyeongchun Line]], the [[Suin-Bundang Line]], or the [[Gyeonggang Line]]. Even some lines not operated by Korail, such as the [[AREX]] Line, the [[Seohae Line]] or the [[Shinbundang Line]] mostly function as commuter rail. Lastly, even for the "numbered lines" (1–9) of the Seoul Metropolitan Subway which mostly travel in the dense parts of Seoul, some track sections extend far outside of the city, and operate large sections at ground level, such as on the [[Seoul Subway Line 1|Line 1]], [[Seoul Subway Line 3|Line 3]] and [[Seoul Subway Line 4|Line 4]]. In Busan, the [[Donghae Line]], while part of the [[Busan Metro]] system, mostly functions as a commuter rail line.
In South Korea, the [[Seoul Metropolitan Subway]] has 22 lines, some of which serve suburban areas. This is especially the case for lines operated by [[Korail]], such as the [[Gyeongui-Jungang Line]], the [[Gyeongchun Line]], the [[Suin-Bundang Line]], or the [[Gyeonggang Line]]. Even some lines not operated by Korail, such as the [[AREX]] Line, the [[Seohae Line]], or the [[Shinbundang Line]], mostly function as commuter rail. Lastly, even for the "numbered lines" (1–9) of the Seoul Metropolitan Subway which mostly travel in the dense parts of Seoul, some track sections extend far outside of the city, and operate large sections at ground level, such as on the [[Seoul Subway Line 1|Line 1]], [[Seoul Subway Line 3|Line 3]] and [[Seoul Subway Line 4|Line 4]]. In Busan, the [[Donghae Line]], while part of the [[Busan Metro]] system, mostly functions as a commuter rail line.


====Southeast Asia====
====Southeast Asia====
[[File:KRL6000Kebayoran.jpg|thumb|right|The [[KRL Commuterline]] set [[Tokyo Metro 6000 series|6000 series]] serves the [[Rangkasbitung Line]] in Indonesia]]
[[File:JR 205 Keiyo 12sf @ Cikini (20230713) (53328327842) (cropped).jpg|thumb|right|The [[KRL Commuterline]] set [[205 series|Seri 205 (Marchen face)]] serves the [[Bogor Line]] in Indonesia]]


In [[Indonesia]], the [[KRL Commuterline]] is the largest commuter rail system in the country, serving the [[Jakarta metropolitan area|Greater Jakarta]]. It connects the [[Jakarta]] city center with surrounding cities and sub-urbans in [[Banten]] and [[West Java]] provinces, including [[Depok]], [[Bogor]], [[Tangerang]],  [[Serpong]], [[Rangkasbitung]], [[Bekasi]] and [[Cikarang]]. In July 2015, KRL Commuterline served more than 850,000 passengers per day, which is almost triple of the 2011 figures, but still less than 3.5% of all Jabodetabek commutes.<ref>{{cite web |url=http://megapolitan.kompas.com/read/2015/07/06/14142481/PT.KCJ.Keterlambatan.KRL.Sudah.di.Bawah.10.Menit |title=PT KCJ: Keterlambatan KRL Sudah di Bawah 10 Menit |work=KOMPAS.com |date=July 6, 2015 |last1=Media |first1=Kompas Cyber }}</ref> Other commuter rail systems in Indonesia include the [[Metro Surabaya Commuter Line]], [[KAI Commuter Line Bandung|Commuter Line Bandung]], [[KAI Commuter Yogyakarta Line|KAI Commuter Yogyakarta–Solo Line]], [[Kedungsepur (train)|Kedung Sepur]], and the [[Sri Lelawangsa]].
In [[Indonesia]], the [[KRL Commuterline]] is the largest commuter rail system in the country, serving the [[Jakarta metropolitan area|Greater Jakarta]]. It connects the [[Jakarta]] city center with surrounding cities and sub-urbans in [[Banten]] and [[West Java]] provinces, including [[Depok]], [[Bogor]], [[Tangerang]],  [[Serpong]], [[Rangkasbitung]], [[Bekasi]] and [[Cikarang]]. In July 2015, KRL Commuterline served more than 850,000 passengers per day, which is almost triple of the 2011 figures, but still less than 3.5% of all Jabodetabek commutes.<ref>{{cite web |url=http://megapolitan.kompas.com/read/2015/07/06/14142481/PT.KCJ.Keterlambatan.KRL.Sudah.di.Bawah.10.Menit |title=PT KCJ: Keterlambatan KRL Sudah di Bawah 10 Menit |work=KOMPAS.com |date=July 6, 2015 |last1=Fenalosa |first1=Aldo |publisher=Kompas Cyber Media }}</ref> Other commuter rail systems in Indonesia include the [[Metro Surabaya Commuter Line]], [[Commuter Line Baraya]], [[Yogyakarta–Solo Line]], [[Kedung Sepur]], and the [[Sri Lelawangsa]].


In the Philippines, the [[Philippine National Railways]] has two commuter rail systems currently operational; the [[PNR Metro Commuter Line]] in the [[Greater Manila Area]] and the [[PNR Bicol Commuter]] in the [[Bicol Region]]. A new commuter rail line in Metro Manila, the [[North–South Commuter Railway]], is currently under construction, with completion targeted for 2031. <ref>{{cite news |last1=News |first1=GMA Integrated |title=NSCR promises 40 minute travel time from Alabang to Clark |url=https://www.gmanetwork.com/news/topstories/nation/913888/nscr-promises-40-minute-travel-time-from-alabang-to-clark/story/ |access-date=24 June 2025 |work=GMA News Online |date=19 July 2024 |language=en}}</ref>
In the Philippines, the [[Philippine National Railways]] currently operates two commuter rail systems: the [[PNR Metro Commuter Line]] in the [[Greater Manila Area]] and the [[PNR Bicol Commuter]] in the [[Bicol Region]]. A new commuter rail line in Metro Manila, the [[North–South Commuter Railway]], is currently under construction, with completion targeted for 2031.<ref>{{cite news |last1=n.a. |title=NSCR promises 40 minute travel time from Alabang to Clark |url=https://www.gmanetwork.com/news/topstories/nation/913888/nscr-promises-40-minute-travel-time-from-alabang-to-clark/story/ |access-date=24 June 2025 |work=GMA News Online |date=19 July 2024 |language=en}}</ref>


In Malaysia, there are two commuter services operated by [[Keretapi Tanah Melayu]]. They are the [[KTM Komuter]] that serves [[Kuala Lumpur]] and the surrounding [[Klang Valley|Klang Valley area]], and the [[KTM Komuter Northern Sector]] that serves the [[George Town Conurbation]], [[Perak]], [[Kedah]] and [[Perlis]] in the northern region of Peninsular Malaysia.
In Malaysia, there are two commuter services operated by [[Keretapi Tanah Melayu]]. They are the [[KTM Komuter]] that serves [[Kuala Lumpur]] and the surrounding [[Klang Valley|Klang Valley area]], and the [[KTM Komuter Northern Sector]] that serves the [[George Town Conurbation]], [[Perak]], [[Kedah]] and [[Perlis]] in the northern region of Peninsular Malaysia.
Line 159: Line 162:
====South Asia====
====South Asia====
{{See also|Urban rail transit in India#Suburban rail|Karachi Circular Railway}}
{{See also|Urban rail transit in India#Suburban rail|Karachi Circular Railway}}
[[File:ChennaiEMUNew.JPG|thumb|220x220px|Chennai suburban railway]]
[[File:ChennaiEMUNew.JPG|thumb|Chennai suburban railway]]
[[File:KolkataLocalTrains.JPG|thumb|220x220px|[[Kolkata Suburban Railway]] is the largest suburban railway network in India. ]]
[[File:KolkataLocalTrains.JPG|thumb|[[Kolkata Suburban Railway]] is the largest suburban railway network in India. ]]
In India, commuter rail systems are present in major cities and form an important part of people's daily lives. [[Mumbai Suburban Railway]], the oldest suburban rail system in Asia, carries more than 7.24 million commuters on a daily basis which constitutes more than half of the total daily passenger capacity of the Indian Railways itself. [[Kolkata Suburban Railway]], one of the largest suburban railway networks in the world, consists of more than 450 stations and carries more than 3.5 million commuters per day. The [[Chennai Suburban Railway]] along with the [[Chennai MRTS]], also covers over 300 stations and carries more than 2.5 million people daily to different areas in [[Chennai]] and its surroundings. Other commuter railways in India include the [[Hyderabad MMTS]], [[Delhi Suburban Railway]], [[Pune Suburban Railway]] and [[Lucknow-Kanpur Suburban Railway]].
In India, commuter rail systems operate in major cities and play an important role in people's daily lives. [[Mumbai Suburban Railway]], the oldest suburban rail system in Asia, carries more than 7.24 million commuters daily, accounting for more than half of Indian Railways' total daily passenger capacity. [[Kolkata Suburban Railway]], one of the largest suburban railway networks in the world, consists of more than 450 stations and carries more than 3.5 million commuters per day. The [[Chennai Suburban Railway]], along with the [[Chennai MRTS]], also covers over 300 stations and carries more than 2.5 million people daily to different areas in [[Chennai]] and its surroundings. Other commuter railways in India include the [[Hyderabad MMTS]], [[Delhi Suburban Railway]], [[Pune Suburban Railway]], and [[Lucknow-Kanpur Suburban Railway]].


In 2020, Government of India approved [[Bengaluru Commuter Rail|Bengaluru Suburban Railway]] to connect [[Bengaluru]] and its suburbs. It will be unique and first of its kind in India as it will have metro like facilities and rolling stock.
In 2020, the Government of India approved [[Bengaluru Commuter Rail|Bengaluru Suburban Railway]] to connect [[Bengaluru]] and its suburbs. It will be unique and the first of its kind in India, featuring metro-like facilities and rolling stock.


In Bangladesh, there is one suburban rail called the [[Chittagong Circular Railway]]. Another suburban railway called the [[Dhaka Circular Railway]] is currently proposed.
In Bangladesh, there is one suburban rail called the [[Chittagong Circular Railway]]. Another suburban railway, the [[Dhaka Circular Railway]], is currently under proposal.


[[Karachi]] in [[Pakistan]] has a [[Karachi Circular Railway|circular railway]] since 1969.
[[Karachi]] in [[Pakistan]] has a [[Karachi Circular Railway|circular railway]] since 1969.


==== West Asia ====
==== West Asia ====
[[File:TM1 (SIK 04-E1424-272).jpg|thumb|Tehran Suburban Railway]]
[[File:TM1 (SIK 04-E1424-272).jpg|thumb|[[Tehran Metro]] with [[Tehran Metro Line 5|Line 5]] only running the commuter rail]]
 
In Israel, the [[Israel Railways]] is the largest commuter rail system in the country, serving the North, Tel Aviv, Central, Jerusalem, and South. It connects the Jerusalem and Tel Aviv centers with surrounding cities and suburbs in their regions.<ref>{{cite web |title=About Israel Railways |url=https://www.rail.co.il/en/about/pages/default.aspx |website=www.rail.co.il |access-date=19 November 2025}}</ref>
 
Tehran Metro currently operates the [[Tehran Metro Line 5|Line 5]] commuter line between [[Tehran]] and [[Karaj]].{{citation needed|date=August 2024}}
Tehran Metro currently operates the [[Tehran Metro Line 5|Line 5]] commuter line between [[Tehran]] and [[Karaj]].{{citation needed|date=August 2024}}


Line 178: Line 184:
{{See also|Commuter rail in the United Kingdom|List of suburban and commuter rail systems}}
{{See also|Commuter rail in the United Kingdom|List of suburban and commuter rail systems}}
[[File:Ny pendeltag stockholm.jpg|thumb|right|Type [[SL X60|X60]] at Stockholm Central in Sweden]]
[[File:Ny pendeltag stockholm.jpg|thumb|right|Type [[SL X60|X60]] at Stockholm Central in Sweden]]
Major metropolitan areas in most European countries are usually served by extensive commuter/suburban rail systems. Well-known examples include [[BG Voz]] in [[Belgrade]] (Serbia), [[S-Bahn]] in Germany, Austria and German-speaking areas of Switzerland, [[Proastiakos]] in Greece, [[Réseau Express Régional|RER]] in France and Belgium, Servizio ferroviario suburbano in Italy, [[Cercanías]] and [[Rodalies de Catalunya|Rodalies]] ([[Catalonia]]) in Spain, [[CP Urban Services]] in Portugal, [[Esko Prague|Esko]] in [[Prague]] and [[Ostrava]] (Czech Republic), [[HÉV]] in [[Budapest]] (Hungary) and [[Dublin Area Rapid Transit|DART]] in [[Dublin]] (Ireland).
Extensive commuter/suburban rail systems usually serve major metropolitan areas in most European countries. Well-known examples include [[BG Voz]] in [[Belgrade]] (Serbia), [[S-Bahn]] in Germany, Austria and German-speaking areas of Switzerland, [[Proastiakos]] in Greece, [[Réseau Express Régional|RER]] in France and Belgium, Servizio ferroviario suburbano in Italy, [[Cercanías]] and [[Rodalies de Catalunya|Rodalies]] ([[Catalonia]]) in Spain, [[CP Urban Services]] in Portugal, [[Esko Prague|Esko]] in [[Prague]] and [[Ostrava]] (Czech Republic), [[HÉV]] in [[Budapest]] (Hungary) and [[Dublin Area Rapid Transit|DART]] in [[Dublin]] (Ireland).


====Western Europe====
====Western Europe====
[[File:Testfahrt SBB S-bahnzug RABe-511-001 Re-450-s.jpg|thumb|right|[[Stadler KISS]] and [[SBB-CFF-FFS Re 450|Re 450]] hauled double-decker cars of [[Zurich S-Bahn]]]]
[[File:Testfahrt SBB S-bahnzug RABe-511-001 Re-450-s.jpg|thumb|right|[[Stadler KISS]] and [[SBB-CFF-FFS Re 450|Re 450]] hauled double-decker cars of [[Zürich S-Bahn]]]]


[[London]] has multiple commuter rail routes:
[[London]] has multiple commuter rail routes:
* The [[Elizabeth line]] runs on a {{convert|22|km|abbr=off|adj=on}} east–west twin tunnel under central London ([[Crossrail]] project) as its central core section.
* The [[Elizabeth line]] runs on a {{convert|22|km|abbr=off|adj=on}} east–west twin tunnel under central London ([[Crossrail]] project) as its central core section.
* [[Thameslink]] brings together several branches from northern and southern suburbs and satellite towns in to a high frequency central tunnel underneath London.
* [[Thameslink]] brings together several branches from northern and southern suburbs and satellite towns into a high-frequency central tunnel underneath London.
* The [[London Overground]], by contrast, skirts through the inner suburbs with lines mostly independent of each other, although there are several branches. The [[Watford DC line]], partly shared with underground trains, uses third rail, but parallels a main line using overhead wires. The [[East London line]] and [[North London line]] run at metro-like frequencies in inner London, which make them nearly indistinguishable from metro systems apart from the fact that the tracks are shared with freight trains.
* The [[London Overground]], by contrast, skirts through the inner suburbs with lines mostly independent of each other, although there are several branches. The [[Watford DC line]], partly shared with underground trains, uses a third rail, but parallels a main line using overhead wires. The [[East London line]] and [[North London line]] run at metro-like frequencies in inner London, making them nearly indistinguishable from metro systems, except that the tracks are shared with freight trains.
* The [[Metropolitan line]], despite being part of the [[London Underground]], is a commuter rail route as it links the [[City of London]] to commuter towns outside [[Greater London]] such as [[Rickmansworth]], [[Amersham]] and [[Chesham]], where it runs to a timetable, being the only [[London Underground]] line with a public timetable published. It also shares tracks with [[Chiltern Railways]] main line services between London and [[Aylesbury]].
* The [[Metropolitan line]], despite being part of the [[London Underground]], is a commuter rail route as it links the [[City of London]] to commuter towns outside [[Greater London]] such as [[Rickmansworth]], [[Amersham]] and [[Chesham]], where it runs to a timetable, being the only [[London Underground]] line with a public timetable published. It also shares tracks with [[Chiltern Railways]] main line services between London and [[Aylesbury]].


The [[Merseyrail]] network in [[Liverpool]] consists of two commuter rail routes powered by third rail, both of which branch out at one end. At the other, the [[Northern line (Merseyrail)|Northern line]] continues out of the city centre to a mainline rail interchange, while the [[Wirral line]] has a city-centre loop.
The [[Merseyrail]] network in [[Liverpool]] consists of two commuter rail routes powered by third rail, both of which branch out at one end. At the other, the [[Northern line (Merseyrail)|Northern line]] continues out of the city centre to a mainline rail interchange, while the [[Wirral line]] has a city-centre loop.


[[Birmingham]] has four suburban routes which operate out of [[Birmingham New Street]] & [[Birmingham Moor Street]] stations, one of which is operated using diesel trains.
[[Birmingham]] has four suburban routes that operate from [[Birmingham New Street]] & [[Birmingham Moor Street]] stations, one of which uses diesel trains.


The [[Tyneside Electrics]] system in [[Newcastle upon Tyne]] existed from 1904 to 1967 using DC third rail. [[British Rail]] did not have the budget to maintain the ageing electrification system. The [[Riverside Branch]] was closed, while the remaining lines were de-electrified. 13 years later, they were re-electrified using DC overhead wires, and now form the [[Tyne & Wear Metro]] Yellow Line.
The [[Tyneside Electrics]] system in [[Newcastle upon Tyne]] operated from 1904 to 1967, using a DC third rail. [[British Rail]] did not have the budget to maintain the aging electrification system. The [[Riverside Branch]] was closed, while the remaining lines were de-electrified. 13 years later, they were re-electrified using DC overhead wires, and now form the [[Tyne & Wear Metro]] Yellow Line.


Many of the rail services around [[Glasgow]] are branded as [[Strathclyde Partnership for Transport]]. The network includes most electrified Scottish rail routes.
Many of the rail services around [[Glasgow]] are branded as [[Strathclyde Partnership for Transport]]. The network includes most electrified Scottish rail routes.


The [[West Yorkshire Passenger Transport Executive]] run eleven services which feed into Leeds, connecting the city with commuter areas and neighbouring urban centres in the [[West Yorkshire Built-up Area]].
The [[West Yorkshire Passenger Transport Executive]] operates 11 services that feed into Leeds, connecting the city with commuter areas and neighboring urban centers within the [[West Yorkshire Built-up Area]].


[[MetroWest (Bristol)|MetroWest]] is a proposed network in [[Bristol]], northern [[Somerset]] & southern [[Gloucestershire]]. The four-tracking of the line between [[Bristol Temple Meads railway station|Bristol Temple Meads]] and [[Bristol Parkway railway station|Bristol Parkway]] stations will enable local rail services to be separated from long-distance trains.
[[MetroWest (Bristol)|MetroWest]] is a proposed network in [[Bristol]], northern [[Somerset]] & southern [[Gloucestershire]]. The four-tracking of the line between [[Bristol Temple Meads railway station|Bristol Temple Meads]] and [[Bristol Parkway railway station|Bristol Parkway]] stations will enable local rail services to be separated from long-distance trains.


The [[Réseau Express Régional|Réseau express régional d'Île-de-France]] (RER) is a commuter rail network in the agglomeration of Paris. In the centre the RER has high frequency underground corridors where several suburban branches feed similar to a [[rapid transit]] system.
The [[Réseau Express Régional|Réseau express régional d'Île-de-France]] (RER) is a commuter rail network in the Paris agglomeration. In the center, the RER has high-frequency underground corridors where several suburban branches feed, similar to a [[rapid transit]] system.


Commuter rail systems in [[German language|German-speaking regions]] are called [[S-Bahn]]. While in some major cities S-Bahn services run on separate lines exclusively other systems use the existing regional rail tracks.
Commuter rail systems in [[German language|German-speaking regions]] are called [[S-Bahn]]. While in some major cities S-Bahn services run exclusively on separate lines, other systems use existing regional rail tracks.


[[Randstadspoor]] is a network of [[Nederlandse Spoorwegen#Types of train service|Sprinter]] train services in and around the city of [[Utrecht]] in the Netherlands. For the realisation of this network, new stations were opened. Separate tracks have been built for these trains, so they can call frequently without disturbing high-frequent Intercity services parallel to these routes.<ref>{{cite web|url=https://www.provincie-utrecht.nl/onderwerpen/mobiliteit/spoorprojecten#randstadspoor|title=Spoorprojecten|publisher=Provincie Utrecht|access-date=2021-02-09}}</ref> Similar systems are planned for [[The Hague]] and [[Rotterdam]].
[[Randstadspoor]] is a network of [[Nederlandse Spoorwegen#Types of train service|Sprinter]] train services in and around the city of [[Utrecht]] in the Netherlands. To realize this network, new stations were opened. Separate tracks have been built for these trains, so they can call frequently without disturbing high-frequency Intercity services parallel to these routes.<ref>{{cite web|url=https://www.provincie-utrecht.nl/onderwerpen/mobiliteit/spoorprojecten#randstadspoor|title=Spoorprojecten|publisher=Provincie Utrecht|access-date=2021-02-09}}</ref> Similar systems are planned for [[The Hague]] and [[Rotterdam]].


====Northern Europe====
====Northern Europe====
In Sweden, electrified commuter rail systems known as ''Pendeltåg'' are present in the cities of [[Stockholm]] and [[Gothenburg]]. The [[Stockholm commuter rail]] system, which began in 1968, shares railway tracks with inter-city trains and freight trains, but for the most part runs on its own dedicated tracks. It is primarily used to transport passengers from nearby towns and other suburban areas into the city centre, not for transportation inside the city centre. The [[Gothenburg commuter rail]] system, which began in 1960, is similar to the Stockholm system, but does fully share tracks with long-distance trains.
In Sweden, electrified commuter rail systems known as ''Pendeltåg'' are present in the cities of [[Stockholm]] and [[Gothenburg]]. The [[Stockholm commuter rail]] system, which began in 1968, shares railway tracks with intercity and freight trains but, for the most part, runs on its own dedicated tracks. It is primarily used to transport passengers from nearby towns and other suburban areas into the city center, not for transportation inside the city center. The [[Gothenburg commuter rail]] system, which began in 1960, is similar to the Stockholm system, but does fully share tracks with long-distance trains.


In Norway, the [[Oslo Commuter Rail|Oslo commuter rail]] system is from 2022 more limited but the remaining commuter lines go on tracks mostly not much used by other trains. From 2022 several lines with hourly frequency and travel times to endpoints of over one hour are redefined as regional trains. Before 2022 Oslo had the largest commuter rail system in the Nordic countries in terms of line lengths and number of stations. Also [[Bergen Commuter Rail|Bergen]], [[Jæren Commuter Rail|Stavanger]] and [[Trønderbanen|Trondheim]] have commuter rail systems. These have only one or two lines each and they share tracks with other trains.
In Norway, the [[Oslo Commuter Rail|Oslo commuter rail]] system has been more limited since 2022, but the remaining commuter lines run on tracks mostly unused by other trains. From 2022, several lines with an hourly frequency and travel times to endpoints of over 1 hour are reclassified as regional trains. Before 2022, Oslo had the largest commuter rail system in the Nordic countries by line length and number of stations. Also, [[Bergen Commuter Rail|Bergen]], [[Jæren Commuter Rail|Stavanger]], and [[Trønderbanen|Trondheim]] have commuter rail systems. These have only one or two lines each, and they share tracks with other trains.


In [[Finland]], the [[Helsinki commuter rail]] network runs on dedicated tracks from [[Helsinki Central railway station]] to [[Leppävaara railway station|Leppävaara]] and [[Kerava]]. The [[Ring Rail Line]] serves [[Helsinki Airport]] and northern suburbs of [[Vantaa]] and is exclusively used by the commuter rail network. On 15 December 2019, the [[Tampere]] region got its own commuter rail service, with trains running from Tampere to [[Nokia, Finland|Nokia]], [[Lempäälä]] and [[Orivesi]].
In [[Finland]], the [[Helsinki commuter rail]] network runs on dedicated tracks from [[Helsinki Central railway station]] to [[Leppävaara railway station|Leppävaara]] and [[Kerava]]. The [[Ring Rail Line]] serves [[Helsinki Airport]] and the northern suburbs of [[Vantaa]] and is exclusively used by the commuter rail network. On 15 December 2019, the [[Tampere]] region got its own commuter rail service, with trains running from Tampere to [[Nokia, Finland|Nokia]], [[Lempäälä]], and [[Orivesi]].


====Southern Europe====
====Southern Europe====
In [[Spain]], ''[[Cercanías]]'' networks exist in [[Cercanías Madrid|Madrid]], [[Cercanías Sevilla|Sevilla]], [[Cercanías Murcia/Alicante|Murcia/Alicante]], [[Cercanías San Sebastián|San Sebastián]], [[Cercanías Cádiz|Cádiz]], [[Cercanías Valencia|Valencia]], [[Cercanías Asturias|Asturias]], Santander, [[Cercanías Zaragoza|Zaragoza]], [[Cercanías Bilbao|Bilbao]] and [[Cercanías Málaga|Málaga]]. All these systems include underground sections in the city centre. There is also a network of [[Metre-gauge railway|narrow-gauge]] [[Renfe Feve|commuter systems]] in North Spain and Murcia.
In [[Spain]], ''[[Cercanías]]'' networks exist in [[Cercanías Madrid|Madrid]], [[Cercanías Sevilla|Sevilla]], [[Cercanías Murcia/Alicante|Murcia/Alicante]], [[Cercanías San Sebastián|San Sebastián]], [[Cercanías Cádiz|Cádiz]], [[Cercanías León|León]], [[Cercanías Ferrol|Ferrol]], [[Cercanías Valencia|Valencia]], [[Cercanías Asturias|Asturias]], Santander, [[Cercanías Zaragoza|Zaragoza]], [[Cercanías Bilbao|Bilbao]] and [[Cercanías Málaga|Málaga]]. All these systems include underground sections in the city center.
[[File:Cercanías Madrid Atocha 2008.jpg|thumb|Atocha is the main station in Spain mainly due to the Cercanías.]]
[[File:Cercanías Madrid Atocha 2008.jpg|thumb|Atocha is the main station in Spain mainly due to the Cercanías.]]
[[Cercanías Madrid]] is one of the most important train services in the country, more than 900,000 passengers move in the system. It has underground stations in Madrid like [[Recoletos Station|Recoletos]], [[Sol (Madrid Metro)|Sol]] or [[Nuevos Ministerios (Madrid Metro)|Nuevos Ministerios]] and in the [[Madrid metropolitan area|metropolitan area]] in cities like [[Parla]] or [[Getafe]].
[[Cercanías Madrid]] is one of the most important train services in the country; more than 900,000 passengers move in the system. It has underground stations in Madrid like [[Recoletos Station|Recoletos]], [[Sol (Madrid Metro)|Sol]], or [[Nuevos Ministerios (Madrid Metro)|Nuevos Ministerios]] and in the [[Madrid metropolitan area|metropolitan area]] in cities like [[Parla]] or [[Getafe]].


[[File:Trens de Rodalies Renfe a l'Estació de França.jpg|thumb|[[Rodalies de Catalunya|Rodalies]] [[Renfe]] trains in [[Barcelona França railway station|Estació de França]], [[Barcelona]]|221x221px]]
[[File:Trens de Rodalies Renfe a l'Estació de França.jpg|thumb|[[Rodalies de Catalunya|Rodalies]] [[Renfe]] trains in [[Barcelona França railway station|Estació de França]], [[Barcelona]]]]
[[File:FGC 211.03 i 213.34.jpg|thumb|Trains in circulation on the [[Ferrocarrils de la Generalitat de Catalunya|FGC]] [[Llobregat–Anoia Line|Llobregat-Anoia line]] in 2009]]
[[File:FGC 211.03 i 213.34.jpg|thumb|Trains in circulation on the [[Ferrocarrils de la Generalitat de Catalunya|FGC]] [[Llobregat–Anoia Line|Llobregat-Anoia line]] in 2009]]


In the [[Autonomous communities of Spain|autonomous community]] of [[Catalonia]], and unlike the rest of Spain, the commuter service is not managed by [[Renfe Operadora]].<ref>{{Cite web |date=2016-02-09 |title=¿De quién depende qué en Rodalies Renfe? |url=https://www.lavanguardia.com/politica/20160209/302025314403/competencias-rodalies-renfe.html |access-date=2023-02-06 |website=La Vanguardia |language=es}}</ref> Since 2010, the [[Generalitat de Catalunya|Government of Catalonia]] has managed all the regular commuter services with the "transfer of ''Rodalies''".<ref>{{Cite web |date=2009-12-29 |title=Generalitat i Govern central signen el traspàs del servei de Rodalies |url=https://beteve.cat/mobilitat/generalitat-i-govern-central-signen-avui-el-traspas-del-servei-de-rodalies/ |access-date=2023-02-06 |website=beteve.cat |language=ca}}</ref> There are two companies that manage the Catalan commuter network:
In the [[Autonomous communities of Spain|autonomous community]] of [[Catalonia]], and unlike the rest of Spain, the commuter service is not managed by [[Renfe Operadora]].<ref>{{Cite web |date=2016-02-09 |title=¿De quién depende qué en Rodalies Renfe? |url=https://www.lavanguardia.com/politica/20160209/302025314403/competencias-rodalies-renfe.html |access-date=2023-02-06 |website=La Vanguardia |language=es}}</ref> Since 2010, the [[Generalitat de Catalunya|Government of Catalonia]] has managed all the regular commuter services with the "transfer of ''Rodalies''".<ref>{{Cite web |date=2009-12-29 |title=Generalitat i Govern central signen el traspàs del servei de Rodalies |url=https://beteve.cat/mobilitat/generalitat-i-govern-central-signen-avui-el-traspas-del-servei-de-rodalies/ |access-date=2023-02-06 |website=beteve.cat |language=ca}}</ref> There are two companies that manage the Catalan commuter network:


* [[Rodalies de Catalunya]], which after the transfer at the beginning of 2010 when, due to the "[[Catalan rail chaos]]" of 2007,<ref>{{Cite web |title=La protesta contra el caos ferroviari aplega mil manifestants |url=https://www.vilaweb.cat/noticia/2608414/20071029/protesta-caos-ferroviari-aplega-mil-manifestants/secure.html |access-date=2023-02-06 |website=VilaWeb |language=ca}}</ref><ref>{{Cite web |last=324cat |date=2007-11-05 |title=El cost del 'caos ferroviari' per les obres del TGV supera els 175 milions d'euros |url=https://www.ccma.cat/324/el-cost-del-caos-ferroviari-per-les-obres-del-tgv-supera-els-175-milions-deuros/noticia/226930/ |access-date=2023-02-06 |website=CCMA |language=ca}}</ref> the [[Government of Spain|Spanish government]] promised to transfer the Renfe commuter service to the [[Generalitat de Catalunya|Generalitat]],<ref>{{Cite web |last=324cat |date=2007-07-03 |title=Zapatero traspassarà Rodalies a Catalunya i ajudarà les famílies amb 2.500 euros per fill |url=https://www.ccma.cat/324/zapatero-traspassara-rodalies-a-catalunya-i-ajudara-les-families-amb-2-500-euros-per-fill/noticia/203369/ |access-date=2023-02-06 |website=CCMA |language=ca}}</ref> although it does not deal with the entire service; After the transfer, responsibilities for the commuter trains were divided into three parts: the [[Generalitat de Catalunya|Generalitat]] (management, regulation, planning, coordination and inspection of services and activities and power to charge), [[Renfe Operadora|Renfe]] (train operator and its maintenance), and [[Administrador de Infraestructuras Ferroviarias|Adif]] (owner of the railway infrastructure).<ref>{{Cite web |title=Què són Rodalies de Catalunya |url=http://rodalies.gencat.cat/ca/sobre-rodalies/que-son-rodalies-de-catalunya/ |access-date=2023-02-06 |website=Rodalies de Catalunya |language=ca-ES}}</ref> Lines R1, R2, R2 Nord, R2 Sud, R3 (to [[Sant Quirze de Besora]], from there to [[Puigcerdà]] or [[Latour-de-Carol-Enveitg station|La Tor de Querol]] it is considered a regional route), R4, R7 and R8 run through Rodalies de Catalunya, all on [[Iberian-gauge railways|Iberian gauge]] (1668&nbsp;mm).
* [[Rodalies de Catalunya]], which after the transfer at the beginning of 2010 when, due to the "[[Catalan rail chaos]]" of 2007,<ref>{{Cite web |title=La protesta contra el caos ferroviari aplega mil manifestants |url=https://www.vilaweb.cat/noticia/2608414/20071029/protesta-caos-ferroviari-aplega-mil-manifestants/secure.html |access-date=2023-02-06 |website=VilaWeb |language=ca}}</ref><ref>{{Cite web |last=n.a. |date=2007-11-05 |title=El cost del 'caos ferroviari' per les obres del TGV supera els 175 milions d'euros |url=https://www.ccma.cat/324/el-cost-del-caos-ferroviari-per-les-obres-del-tgv-supera-els-175-milions-deuros/noticia/226930/ |access-date=2023-02-06 |website=CCMA |language=ca}}</ref> the [[Government of Spain|Spanish government]] promised to transfer the Renfe commuter service to the [[Generalitat de Catalunya|Generalitat]],<ref>{{Cite web |last=n.a. |date=2007-07-03 |title=Zapatero traspassarà Rodalies a Catalunya i ajudarà les famílies amb 2.500 euros per fill |url=https://www.ccma.cat/324/zapatero-traspassara-rodalies-a-catalunya-i-ajudara-les-families-amb-2-500-euros-per-fill/noticia/203369/ |access-date=2023-02-06 |website=CCMA |language=ca}}</ref> although it does not deal with the entire service; After the transfer, responsibilities for the commuter trains were divided into three parts: the [[Generalitat de Catalunya|Generalitat]] (management, regulation, planning, coordination and inspection of services and activities and power to charge), [[Renfe Operadora|Renfe]] (train operator and its maintenance), and [[Administrador de Infraestructuras Ferroviarias|Adif]] (owner of the railway infrastructure).<ref>{{Cite web |title=Què són Rodalies de Catalunya |url=http://rodalies.gencat.cat/ca/sobre-rodalies/que-son-rodalies-de-catalunya/ |access-date=2023-02-06 |website=Rodalies de Catalunya |language=ca-ES}}</ref> Lines R1, R2, R2 Nord, R2 Sud, R3 (to [[Sant Quirze de Besora]], from there to [[Puigcerdà]] or [[Latour-de-Carol-Enveitg station|La Tor de Querol]] it is considered a regional route), R4, R7 and R8 run through Rodalies de Catalunya, all on [[Iberian-gauge railways|Iberian gauge]] (1668&nbsp;mm).
* [[Ferrocarrils de la Generalitat de Catalunya]] (FGC) is the railway company responsible for the [[Barcelona–Vallès Line|Vallès]], [[Llobregat–Anoia Line|Llobregat-Anoia]] and [[Lleida–La Pobla Line|Lleida-La Pobla de Segur]] lines.<ref>{{Cite web |last=APP |first=Descarga nuestra |title=Lines |url=https://www.fgc.cat/en/lines-and-schedule/ |access-date=2023-02-06 |website=Ferrocarrils de la Generalitat de Catalunya |language=en-US}}</ref> This company is mainly in charge of metro and suburban lines, although it also has five commuter lines spread over two lines, four on the Llobregat-Anoia line (R5, R50, R6, R60) on [[Metre-gauge railway|metre-gauge]] (1000&nbsp;mm)<ref>{{Cite web |last=APP |first=Descarga nuestra |title=Línia Llobregat-Anoia |url=https://www.fgc.cat/en/fgc-network/l-llobregat-anoia/ |access-date=2023-02-06 |website=Ferrocarrils de la Generalitat de Catalunya |language=en-US}}</ref> and a single line on the Lleida-La Pobla de Segur line (RL1) on [[Iberian-gauge railways|Iberian gauge]] (1668&nbsp;mm).<ref>{{Cite web |last=APP |first=Descarga nuestra |title=Line Lleida-La Pobla |url=https://www.fgc.cat/en/fgc-network/linea-lleida-la-pobla/ |access-date=2023-02-06 |website=Ferrocarrils de la Generalitat de Catalunya |language=en-US}}</ref> FGC is in charge of the entire service, unlike Rodalies de Catalunya, which is not in charge of either the trains or the infrastructure.  
* [[Ferrocarrils de la Generalitat de Catalunya]] (FGC) is the railway company responsible for the [[Barcelona–Vallès Line|Vallès]], [[Llobregat–Anoia Line|Llobregat-Anoia]] and [[Lleida–La Pobla Line|Lleida-La Pobla de Segur]] lines.<ref>{{Cite web |last=n.a. |title=Lines |url=https://www.fgc.cat/en/lines-and-schedule/ |access-date=2023-02-06 |website=Ferrocarrils de la Generalitat de Catalunya |language=en-US}}</ref> This company is mainly in charge of metro and suburban lines, although it also has five commuter lines spread over two lines, four on the Llobregat-Anoia line (R5, R50, R6, R60) on [[Metre-gauge railway|metre-gauge]] (1000&nbsp;mm)<ref>{{Cite web |last=n.a. |title=Línia Llobregat-Anoia |url=https://www.fgc.cat/en/fgc-network/l-llobregat-anoia/ |access-date=2023-02-06 |website=Ferrocarrils de la Generalitat de Catalunya |language=en-US}}</ref> and a single line on the Lleida-La Pobla de Segur line (RL1) on [[Iberian-gauge railways|Iberian gauge]] (1668&nbsp;mm).<ref>{{Cite web |last=n.a. |title=Line Lleida-La Pobla |url=https://www.fgc.cat/en/fgc-network/linea-lleida-la-pobla/ |access-date=2023-02-06 |website=Ferrocarrils de la Generalitat de Catalunya |language=en-US}}</ref> FGC is in charge of the entire service, unlike Rodalies de Catalunya, which is not in charge of either the trains or the infrastructure.  
Since 2024, the [[Generalitat de Catalunya|Government of Catalonia]] has full control of the current [[R12 (Rodalies de Catalunya)|R12]] regional line and it is now owned by the [[Ferrocarrils de la Generalitat de Catalunya|FGC]].<ref>{{Cite web |last=324cat |date=2021-10-19 |title=Renfe perd Rodalies de Lleida, que gestionarà FGC a partir del 2024 |url=https://www.ccma.cat/324/renfe-perd-rodalies-de-lleida-que-gestionara-fgc-a-partir-del-2024/noticia/3124745/ |access-date=2023-02-06 |website=CCMA |language=ca}}</ref> It will eliminate the current line and replace it with the new commuter lines RL3 and RL4, towards [[Cervera]] and [[Manresa]] from [[Lleida]] respectively.
Since 2024, the [[Generalitat de Catalunya|Government of Catalonia]] has full control of the current [[R12 (Rodalies de Catalunya)|R12]] regional line; it is now owned by the [[Ferrocarrils de la Generalitat de Catalunya|FGC]].<ref>{{Cite web |last=n.a. |date=2021-10-19 |title=Renfe perd Rodalies de Lleida, que gestionarà FGC a partir del 2024 |url=https://www.ccma.cat/324/renfe-perd-rodalies-de-lleida-que-gestionara-fgc-a-partir-del-2024/noticia/3124745/ |access-date=2023-02-06 |website=CCMA |language=ca}}</ref> It will eliminate the current line and replace it with the new commuter lines RL3 and RL4, towards [[Cervera]] and [[Manresa]] from [[Lleida]] respectively.


[[File:Milano staz Porta Venezia TSR linea S6.JPG|thumb|A [[Treno Servizio Regionale|TSR train at Milano Porta Venezia railway station]] on the [[Milan Passerby Railway|Milan Passerby railway, Italy]]]]
[[File:Milano staz Porta Venezia TSR linea S6.JPG|thumb|A [[Treno Servizio Regionale|TSR train at Milano Porta Venezia railway station]] on the [[Milan Passerby Railway|Milan Passerby railway, Italy]]]]
[[File:I08 119 Bf Napoli Garibaldi, ETR 211.jpg|thumb|A Metrostar train at [[Napoli Garibaldi railway station]] on the [[Circumvesuviana]] railway network]]
[[File:I08 119 Bf Napoli Garibaldi, ETR 211.jpg|thumb|A Metrostar train at [[Napoli Garibaldi railway station]] on the [[Circumvesuviana]] railway network]]
In Italy fifteen cities have commuter rail systems:
In Italy, fifteen cities have commuter rail systems:
* [[Bari]] ([[Bari metropolitan railway service]], 3 lines)
* [[Bari]] ([[Bari metropolitan railway service]], 3 lines)
* [[Bologna]] ([[Bologna metropolitan railway service]], 8 lines)
* [[Bologna]] ([[Bologna metropolitan railway service]], 8 lines)
Line 252: Line 258:
In Poland, commuter rail systems exist in [[Szybka Kolej Miejska (Tricity)|Tricity]], [[Szybka Kolej Miejska (Warsaw)|Warsaw]], [[Kraków]] ([[Szybka Kolej Aglomeracyjna|SKA]]) and [[Katowice]] ([[Szybka Kolej Regionalna|SKR]]). There is also a similar system planned in [[Wrocław]] and [[Szczecin]].<ref>{{cite web|title=Szczecińska Kolej Metropolitalna -|url=http://skm.szczecin.pl/index.php}}</ref> The terms used are "Szybka Kolej Miejska" (fast urban rail) and "kolej aglomeracyjna" (agglomeration rail). These systems are:
In Poland, commuter rail systems exist in [[Szybka Kolej Miejska (Tricity)|Tricity]], [[Szybka Kolej Miejska (Warsaw)|Warsaw]], [[Kraków]] ([[Szybka Kolej Aglomeracyjna|SKA]]) and [[Katowice]] ([[Szybka Kolej Regionalna|SKR]]). There is also a similar system planned in [[Wrocław]] and [[Szczecin]].<ref>{{cite web|title=Szczecińska Kolej Metropolitalna -|url=http://skm.szczecin.pl/index.php}}</ref> The terms used are "Szybka Kolej Miejska" (fast urban rail) and "kolej aglomeracyjna" (agglomeration rail). These systems are:
* [[Szybka Kolej Miejska (Warsaw)|Szybka Kolej Miejska w Warszawie]] in the [[Warsaw]] urban area, with 4 lines and 46 stations.<ref>[[:pl:Szybka Kolej Miejska w Warszawie]]</ref>{{Circular reference|date=May 2020}}
* [[Szybka Kolej Miejska (Warsaw)|Szybka Kolej Miejska w Warszawie]] in the [[Warsaw]] urban area, with 4 lines and 46 stations.<ref>[[:pl:Szybka Kolej Miejska w Warszawie]]</ref>{{Circular reference|date=May 2020}}
* [[Łódzka Kolej Aglomeracyjna]] is located in the center of Poland connecting satellite towns in and around [[Łódź]]. It also operates some trains between Łódź and Warsaw.
* [[Łódzka Kolej Aglomeracyjna]] is located in the center of Poland, connecting satellite towns in and around [[Łódź]]. It also operates some trains between Łódź and Warsaw.
*[[Szybka Kolej Miejska (Tricity)|Szybka Kolej Miejska w Trójmieście]] is located in the [[Tricity, Poland|Tricity]]/Trójmiasto urban area, the three cities of [[Gdańsk]], [[Gdynia]] and [[Sopot]].
*[[Szybka Kolej Miejska (Tricity)|Szybka Kolej Miejska w Trójmieście]] is located in the [[Tricity, Poland|Tricity]]/Trójmiasto urban area, the three cities of [[Gdańsk]], [[Gdynia]], and [[Sopot]].


The [[Proastiakos]] ({{langx|el|Προαστιακός}}; "suburban") is [[Greece]]'s [[suburban]] railway (commuter rail) services, which are run by [[TrainOSE]], on infrastructure owned by the [[Hellenic Railways Organisation]] (OSE). There are three Proastiakos networks, servicing the country's three largest cities: [[Athens]], [[Thessaloniki]] and [[Patras]]. In particular, the [[Athens Suburban Railway|Athenian network]] is undergoing modifications to completely separate it from mainline traffic, by re-routing the tracks via a tunnel underneath the city center. A similar project is planned for the [[Patras]] network, whereas a new line is due to be constructed for the [[Thessaloniki Regional Railway|Thessalonian network]].
The [[Proastiakos]] ({{langx|el|Προαστιακός}}; "suburban") is [[Greece]]'s [[suburban]] railway (commuter rail) services, which are run by [[TrainOSE]], on infrastructure owned by the [[Hellenic Railways Organisation]] (OSE). There are three Proastiakos networks, servicing the country's three largest cities: [[Athens]], [[Thessaloniki]], and [[Patras]]. In particular, the [[Athens Suburban Railway|Athenian network]] is undergoing modifications to completely separate it from mainline traffic by rerouting the tracks through a tunnel beneath the city center. A similar project is planned for the Patras network, whereas a new line is due to be constructed for the [[Thessaloniki Regional Railway|Thessalonian network]].


In Romania, the first commuter trains were introduced in December 2019. They operate between [[Bucharest]] and Funduea or [[Buftea]].
In Romania, the first commuter trains were introduced in December 2019. They operate between [[Bucharest]] and Funduea or [[Buftea]].


[[BG Voz]] is an urban rail system that serves Belgrade. It currently has only two routes, with plans for further expansion. Between the early 1990s and mid-2010s, there was another system, known as [[Beovoz]], that was used to provide [[mass-transit]] service within the Belgrade [[metropolitan area]], as well as to nearby towns, similarly to [[Réseau Express Régional|RER]] in Paris. Beovoz had more lines and far more stops than the current system. However, it was abandoned in favor of more accurate BG Voz, mostly due to inefficiency. While current services rely mostly on the existing infrastructure, any further development means furthering capacities (railways expansion and new trains). Plans for further extension of system include another two lines, one of which should reach [[Belgrade Nikola Tesla Airport]].
[[BG Voz]] is an urban rail system that serves Belgrade. It currently has only two routes, with plans for further expansion. Between the early 1990s and mid-2010s, there was another system, known as [[Beovoz]], that was used to provide [[mass-transit]] service within the Belgrade [[metropolitan area]], as well as to nearby towns, similarly to [[Réseau Express Régional|RER]] in Paris. Beovoz had more lines and far more stops than the current system. However, it was abandoned in favor of more accurate BG Voz, mostly due to inefficiency. While current services rely mostly on existing infrastructure, any further development requires expanding capacity (railway expansion and new trains). Plans for further extension of the system include another two lines, one of which should reach [[Belgrade Nikola Tesla Airport]].


In Russia, Ukraine and some other countries of the former [[Soviet Union]], electrical multiple unit passenger suburban trains called [[Elektrichka]] are widespread. The first such system in Russia is the Oranienbaum Electric Line in [[Saint Petersburg|St. Petersburg]]. In Moscow the Beskudnikovskaya railway branch existed between the 1940s and 1980s. The trains that shuttled along it did not go to the main lines, so it was a city transport. Today there are the [[Moscow Central Circle]] and the [[Moscow Central Diameters]].
In Russia, Ukraine, and some other countries of the former [[Soviet Union]], electric multiple-unit suburban passenger trains called [[Elektrichka]] are widespread. The first such system in Russia is the Oranienbaum Electric Line in [[Saint Petersburg]]. In Moscow, the Beskudnikovskaya railway branch existed between the 1940s and 1980s. The trains running along it did not serve the main lines, so it was used for city transport. Today, there are the [[Moscow Central Circle]] and the [[Moscow Central Diameters]].
{{See also|Urban electric transport in Russia}}
{{See also|Urban electric transport in Russia}}


In Turkey, [[Marmaray]] line stations from [[Sirkeci]] to [[Halkalı]] are located at the European side.
In Turkey, [[Marmaray]] line stations from [[Sirkeci]] to [[Halkalı]] are located on the European side.


===Americas===
===Americas===
[[File:SEPTA Silverliner V 725 at Glenside station.jpeg|thumb|[[SEPTA Regional Rail]] serves Philadelphia and its suburbs.]]


====North America====
====North America====
{{Main|Commuter rail in North America}}
{{Main|Commuter rail in North America}}
In the United States, Canada, Costa Rica, El Salvador and Mexico regional passenger rail services are provided by governmental or quasi-governmental agencies, with the busiest and most expansive rail networks located in the Northeastern US, California, and Eastern Canada. Most North American commuter railways utilize [[diesel locomotive]] propulsion, with the exception of services in New York City, Philadelphia, Chicago, Denver, San Francisco, and Mexico City; New York's commuter rail lines use a combination of third rail and overhead wire power generation, while Chicago only has two out of twelve services that are electrified. Many newer and proposed systems in Canada and the United States are often are geared to serving peak-hour commutes as opposed to the all-day systems of Europe, East Asia, and Australia.
 
In the United States, Canada, Costa Rica, El Salvador, and Mexico, regional passenger rail services are provided by government or quasi-governmental agencies, with the busiest and most extensive rail networks in the Northeastern US, California, and Eastern Canada. Most North American commuter railways utilize [[diesel locomotive]] propulsion, except for services in New York City, Philadelphia, Chicago, Denver, San Francisco, and Mexico City; New York's commuter rail lines use a combination of third rail and overhead wire power generation, while Chicago only has two out of twelve services that are electrified. Many newer and proposed systems in Canada and the United States are often geared toward serving peak-hour commutes rather than the all-day systems of Europe, East Asia, and Australia.
 
===== United States =====
[[File:MTA LIRR train leaving Woodside.jpg|thumb|[[Long Island Rail Road]] is the busiest commuter railroad in North America.]]
[[File:MTA LIRR train leaving Woodside.jpg|thumb|[[Long Island Rail Road]] is the busiest commuter railroad in North America.]]
[[File:ALP-46 Convent Station.jpg|thumb|[[NJ Transit]] serves New Jersey as well as parts of New York and Pennsylvania.]]
[[File:SEPTA Silverliner V 725 at Glenside station.jpeg|thumb|[[SEPTA Regional Rail]] serves Philadelphia and its suburbs.]]
[[File:Front Runner (1141456610).jpg|thumb|right|The [[FrontRunner]] commuter rail system serves Utah's [[Wasatch Front]].]]  
[[File:Front Runner (1141456610).jpg|thumb|right|The [[FrontRunner]] commuter rail system serves Utah's [[Wasatch Front]].]]  
[[File:WES Commuter Rail train.jpg|thumb|[[WES Commuter Rail]] is a DMU operated commuter rail line in Oregon.]]
[[File:WES Commuter Rail train.jpg|thumb|[[WES Commuter Rail]] is a DMU-operated commuter rail line in Oregon.]]
 
===== United States =====
{{Main|List of United States commuter rail systems}}
{{Main|List of United States commuter rail systems}}


Line 305: Line 313:
*[[SunRail]], serving central [[Florida]] ([[Orlando, Florida|Orlando]]/[[Poinciana, Florida|Poinciana]])
*[[SunRail]], serving central [[Florida]] ([[Orlando, Florida|Orlando]]/[[Poinciana, Florida|Poinciana]])
*[[New Mexico Rail Runner Express]], serving [[New Mexico]] ([[Albuquerque]])
*[[New Mexico Rail Runner Express]], serving [[New Mexico]] ([[Albuquerque]])
*[[Northstar Line]], serving central [[Minnesota]] ([[Big Lake, Minnesota|Big Lake]] and downtown [[Minneapolis]])
*[[CapMetro Rail]], serving [[Texas]] ([[Austin, Texas|Austin]])
*[[Capital MetroRail]], serving [[Texas]] ([[Austin, Texas|Austin]])
*[[A-train (Texas)|A-train]], serving [[Texas]] ([[Denton County]])
*[[A-train (Denton County)|A-train]], serving [[Texas]] ([[Denton County]])
*[[Sonoma–Marin Area Rail Transit|SMART]], serving northern [[California]] ([[Sonoma County|Sonoma]] and [[Marin County|Marin]] counties)
*[[Sonoma–Marin Area Rail Transit|SMART]], serving northern [[California]] ([[Sonoma County|Sonoma]] and [[Marin County|Marin]] counties)
*[[WeGo Star]], serving [[Nashville]] and [[Lebanon, Tennessee]].
*[[WeGo Star]], serving [[Nashville]] and [[Lebanon, Tennessee]].
* [[Denver]]'s [[RTD Bus & Rail|RTD]] four electrified commuter rail lines – the [[A Line (RTD)|A]], [[B Line (RTD)|B]], [[G Line (RTD)|G]] and [[N Line (RTD)|N Lines]], run on segregated tracks. In its entirety the system combines elements of [[tram-train]] and commuter rail.
* [[Denver]]'s [[RTD Bus & Rail|RTD]] four electrified commuter rail lines – the [[A Line (RTD)|A]], [[B Line (RTD)|B]], [[G Line (RTD)|G]] and [[N Line (RTD)|N Lines]], run on segregated tracks. In its entirety, the system combines elements of [[tram-train]] and commuter rail.


===== Canada =====
===== Canada =====
Line 316: Line 323:


* [[Exo commuter rail]] in [[Montreal]]
* [[Exo commuter rail]] in [[Montreal]]
* [[GO Transit]] in [[Toronto]]
* [[GO Transit rail services]] in [[Toronto]]
* [[West Coast Express]] in [[Vancouver]]
* [[West Coast Express]] in [[Vancouver]]
* [[UP Express]] in Toronto
* [[UP Express]] in Toronto
Line 331: Line 338:
Examples include an {{convert|899|km|mi|adj=on|abbr=on}} commuter system in the [[Rail transport in Argentina#Commuter networks|Buenos Aires metropolitan area]], the {{convert|225|km|mi|adj=on|abbr=on}} long [[Supervia]] in [[Rio de Janeiro]], the [[Metrotrén]] in [[Santiago]], [[Chile]], and the [[Valparaíso Metro]] in [[Valparaíso]], Chile.
Examples include an {{convert|899|km|mi|adj=on|abbr=on}} commuter system in the [[Rail transport in Argentina#Commuter networks|Buenos Aires metropolitan area]], the {{convert|225|km|mi|adj=on|abbr=on}} long [[Supervia]] in [[Rio de Janeiro]], the [[Metrotrén]] in [[Santiago]], [[Chile]], and the [[Valparaíso Metro]] in [[Valparaíso]], Chile.


Another example is [[Companhia Paulista de Trens Metropolitanos]] (CPTM) in [[Greater São Paulo]], [[Brazil]]. CPTM has 94 stations with seven lines, numbered starting on 7 (the lines 1 to 6 and the line 15 belong to the [[São Paulo Metro]]), with a total length of {{convert|273|km}}. Trains operates at high frequencies on tracks used exclusively for commuter traffic. In [[Rio de Janeiro]] [[SuperVia]] provides electrified commuter rail services.
Another example is [[Companhia Paulista de Trens Metropolitanos]] (CPTM) in [[Greater São Paulo]], [[Brazil]]. CPTM has 94 stations across 7 lines, numbered starting at 7 (lines 1 to 6 and line 15 belong to the [[São Paulo Metro]]), with a total length of {{convert|273|km}}. Trains operate at high frequencies on tracks used exclusively for commuter traffic. In [[Rio de Janeiro]] [[SuperVia]] provides electrified commuter rail services.


===Oceania===
===Oceania===
{{See also|Rail transport in Australia}}
{{See also|Rail transport in Australia}}
[[File:Siemens train in Metro Trains Melbourne Livery.jpg|thumb|A [[Siemens Nexas]] used on the [[Metro Trains Melbourne]] network]]
[[File:Siemens train in Metro Trains Melbourne Livery.jpg|thumb|A [[Siemens Nexas]] used on the [[Metro Trains Melbourne]] network]]
The five major cities in Australia have suburban railway systems in their metropolitan areas. These networks have frequent services, with frequencies varying from every 10 to every 30 minutes on most suburban lines, and up to 3–5 minutes in peak on bundled underground lines in the city centres of Sydney, Brisbane, Perth and Melbourne. The networks in each state developed from mainline railways and have never been completely operationally separate from long distance and freight traffic, unlike [[Rapid transit|metro]] systems. The suburban networks are almost completely electrified.
The five major cities in Australia have suburban railway systems in their metropolitan areas. These networks have frequent services, with frequencies varying from every 10 to every 30 minutes on most suburban lines, and up to 3–5 minutes in peak on bundled underground lines in the city centers of Sydney, Brisbane, Perth, and Melbourne. The networks in each state developed from mainline railways and have never been completely operationally separate from long-distance and freight traffic, unlike [[Rapid transit|metro]] systems. The suburban networks are almost completely electrified.


The main suburban rail networks in Australia are:
The main suburban rail networks in Australia are:
* The [[Sydney Trains]] suburban rail network consists of nine lines converging in the underground [[City Circle]] with frequencies as high as three minutes in this section, 5–10 minutes at most major stations all day and 15 minutes at most minor stations all day.
* The [[Sydney Trains]] suburban rail network consists of nine lines converging in the underground [[City Circle]] with frequencies as high as three minutes in this section, 5–10 minutes at most major stations all day, and 15 minutes at most minor stations all day.
*The [[Railways in Sydney|Sydney rail network]] operated by [[Sydney Trains]] in [[Sydney]] (with connected suburban services in [[Newcastle, New South Wales|Newcastle]] and [[Wollongong]] run by its counterpart intercity operator, [[NSW TrainLink]]).
*The [[Railways in Sydney|Sydney rail network]] operated by [[Sydney Trains]] in [[Sydney]] (with connected suburban services in [[Newcastle, New South Wales|Newcastle]] and [[Wollongong]] run by its counterpart intercity operator, [[NSW TrainLink]]).
* [[Railways in Melbourne|Melbourne's rail network]] features sixteen electrified commuter rail lines traversing the city centre in the underground [[City Loop]] providing a metro-like service in the central core. A second underground core is under construction, as the [[Metro Tunnel]] project. [[V/Line]] operates some commuter services between Melbourne and surrounding towns, as well as between Melbourne and some locations within the Melbourne metropolitan area.
* [[Railways in Melbourne|Melbourne's rail network]] features sixteen electrified commuter rail lines traversing the city center in the underground [[City Loop]], providing a metro-like service in the central core. A second underground core, the [[Metro Tunnel]], opened in 2025. [[V/Line]] operates some commuter services between Melbourne and surrounding towns, as well as between Melbourne and some locations within the Melbourne metropolitan area.
* Commuter rail services in [[Brisbane]] are provided under the [[Queensland Rail City network]] brand, featuring twelve electrified lines converging in the city centre. [[Cross River Rail]] is an under construction underground cross-city tunnel to relieve pressure on this network.
* Commuter rail services in [[Brisbane]] are provided under the [[Queensland Rail City network]] brand, featuring twelve electrified lines converging in the city center. [[Cross River Rail]] is an under-construction underground cross-city tunnel to relieve pressure on this network.
* [[Railways in Perth]] fall under the [[Transperth]] network, which are operated by the [[Public Transport Authority (Western Australia)|Public Transport Authority]]
* [[Railways in Perth]] fall under the [[Transperth]] network, which are operated by the [[Public Transport Authority (Western Australia)|Public Transport Authority]]
*The [[Railways in Adelaide|Adelaide rail network]] operated by [[Adelaide Metro]] in [[Adelaide]].
*The [[Railways in Adelaide|Adelaide rail network]] operated by [[Adelaide Metro]] in [[Adelaide]].


New Zealand has two frequent suburban rail services comparable to those in Australia: the [[Public transport in Auckland|Auckland rail network]] is operated by [[Auckland One Rail]] and the [[Public transport in the Wellington Region|Wellington rail network]] is operated by [[Transdev Wellington]].
New Zealand has two frequent suburban rail services comparable to those in Australia: the [[Public transport in Auckland|Auckland rail network]] is operated by [[Auckland One Rail]], and the [[Public transport in the Wellington Region|Wellington rail network]] is operated by [[Transdev Wellington]].


==Hybrid systems==
==Hybrid systems==
{{Original research|section|date=June 2023|reason=Where are the sources that confirm this is an actual type of transit system? Where are the references that confirm each example is actually what is stated here?}}
{{Original research|section|date=June 2023|reason=Where are the sources that confirm this is an actual type of transit system? Where are the references that confirm each example is actually what is stated here?}}
Hybrid [[urban rail|urban]]-[[suburban rail]] systems exhibiting characteristics of both rapid transit and commuter rail serving a [[metropolitan region]] are common in German-speaking countries, where they are known as [[S-Bahn]]. Other examples include: [[Lazio regional railways]] in [[Rome]], the [[Réseau Express Régional|RER]] in France and the [[Elizabeth line]], [[London Underground]] [[Metropolitan line]], [[London Overground]] and [[Merseyrail]] in the UK. Comparable systems can be found in Australia such as [[Sydney Trains]] and [[Metro Trains Melbourne]], and in Japan with many urban and suburban lines operated by JR East/West and third-party companies running at metro-style frequencies. In contrast, comparable systems of this type are generally rare in the United States and Canada, where peak hour frequencies are more common.
Hybrid [[urban rail|urban]]-[[suburban rail]] systems that exhibit characteristics of both rapid transit and commuter rail, serving a [[metropolitan region]], are common in German-speaking countries, where they are known as [[S-Bahn]]. Other examples include: [[Lazio regional railways]] in [[Rome]], the [[Réseau Express Régional|RER]] in France and the [[Elizabeth line]], [[London Underground]] [[Metropolitan line]], [[London Overground]] and [[Merseyrail]] in the UK. Comparable systems can be found in Australia, such as [[Sydney Trains]] and [[Metro Trains Melbourne]], and in Japan, where many urban and suburban lines are operated by JR East/West and third-party companies and run at metro-style frequencies. In contrast, comparable systems of this type are generally rare in the United States and Canada, where peak-hour frequencies are more common.


In Asia, the construction of higher speed urban-suburban rail links has gained traction in various countries, such as in India, with the [[Delhi–Meerut Regional Rapid Transit System|Delhi RRTS]], in China, with the [[Pearl River Delta Metropolitan Region intercity railway]], and in South Korea, with the [[Great Train eXpress]] system. These systems usually run on dedicated elevated or underground tracks for most of their route and have features comparable to [[Higher-speed rail]].
In Asia, the construction of higher-speed urban-suburban rail links has gained traction in various countries, such as in India, with the [[Delhi–Meerut Regional Rapid Transit System|Delhi RRTS]], in China, with the [[Pearl River Delta Metropolitan Region intercity railway]], and in South Korea, with the [[Great Train eXpress]] system. These systems usually run on dedicated elevated or underground tracks for most of their route and have features comparable to [[Higher-speed rail]].


==See also==
==See also==
Line 366: Line 373:
*[[Commuter rail in Australia]]
*[[Commuter rail in Australia]]
*[[Regional rail]]
*[[Regional rail]]
*[[S-Bahn]], the combined city center and suburban railway system metro in Austria, Germany, Switzerland and Denmark
*[[S-Bahn]], the combined city center and suburban railway system metro in Austria, Germany, Switzerland, and Denmark
{{div col end}}
{{div col end}}



Latest revision as of 20:26, 20 May 2026

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Commuter rail or suburban rail is a passenger rail service that primarily operates within a metropolitan area, connecting the central city to its suburbs and commuter towns.[1][2][3] Commuter rail systems can use locomotive-hauled trains or multiple units, using electric or diesel propulsion.[2] Distance charges or zone pricing may be used.

The term can refer to systems with a wide variety of different features and service frequencies, but typically refers to mainline rail services connecting suburban communities with central business districts over medium distances; it is distinguished from rapid transit systems, which operate inside the urban core.

Some services blur the line between suburban rail and rapid transit; examples include German S-Bahn in some cities, the Réseau Express Régional (RER) in Paris, the S Lines in Milan, many Japanese commuter systems, the East Rail line in Hong Kong, and some Australasian suburban networks, such as Sydney Trains and Metro Trains Melbourne. Many commuter rail systems share tracks with other passenger services and freight.

In North America, commuter rail sometimes refers only to systems that primarily operate during rush hour and offer little to no service for the rest of the day, with regional rail being used to refer to systems that offer all-day service.[4][5][6]

Characteristics

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File:Mumbai Train.JPG
Mumbai Suburban Railway carries more than 7.24 million commuters daily
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Very short commuter train in push mode.
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GO Transit serves the Greater Golden Horseshoe region surrounding Toronto. Its train services are transitioning from a peak direction commuter railway to a Regional Express Network.

Most commuter (or suburban) trains are built to main line rail standards,[7] differing from light rail or rapid transit (metro rail) systems by:

  • being larger
  • providing more seating and less standing room, owing to the longer distances involved
  • having (in most cases) a lower frequency of service
  • having scheduled services (i.e., trains run at specific times rather than at specific intervals)
  • serving lower-density suburban areas, typically connecting suburbs to the city center
  • sharing track or right-of-way with intercity and/or freight trains
  • not fully grade separated (containing at-grade crossings with crossing gates)
  • being able to skip certain stations as an express service due to normally being driver-controlled

Train schedule

Compared to rapid transit (or metro rail), commuter/suburban rail often has lower frequency, following a schedule rather than running to a headway, and wider station spacing. Such services primarily serve lower-density suburban areas (outside the inner city), generally only having one or two stops in a city's central business district, and often share right-of-way with inter-city and freight trains.[8] Often, service is concentrated in the peak, with fewer trains per hour running during the day; service late into the evening and on weekends may be reduced or not run at all. Average speeds are usually higher than rapid transit, often 50 km/h (31 mph) or higher. These higher speeds better serve the longer distances involved. Some suburban networks include skip-stop or express trains which serve only high-demand central, interchange and other major stations.[9]

The general range of commuter trains' travel distance varies between 15 and 200 km (9.3 and 124.3 mi). Still, longer distances can be covered when trains run between two or more cities (e.g., the S-Bahn in the Ruhr area of Germany). Distances between stations may vary, but are usually much longer than those of urban rail systems. In the city center, the train may terminate, or run through the city center to serve suburbs on the other side before returning.

Track

Suburban trains' ability to coexist with freight or intercity services in the same right-of-way can drastically reduce system construction costs. However, as lines converge near the city center and the number of trains per hour increases, dedicated tracks may be built or existing tracks set aside for suburban trains only; commonly, two tracks of a quadruple-track line running through a city center are used for suburban services only.

Most such trains run on the local standard gauge track. Some systems may run on a narrower or broader gauge. Examples of narrow-gauge systems are found in some systems in Sweden, Austria, Switzerland, and on the Genoa-Casella line in Italy. Some countries and regions, such as San Francisco (BART) in the US and the Keikyu system in Japan, use wider track gauges than their national standards.

Distinction between other modes of rail

Metro

Metro rail and rapid transit usually cover smaller inner-urban areas within 12 to 20 km (7 to 12 mi) of city centers, with shorter stop spacing, use rolling stocks with larger standing spaces, lower top speed and higher acceleration, designed for short-distance travel. They also run more frequently, with headways rather than a published timetable, and use dedicated tracks (underground or elevated). In contrast, commuter rail often shares tracks, technology, and the legal framework within mainline railway systems, and uses rolling stocks with more seating and higher speed for comfort on longer city-suburban journeys.

However, classifying a line as metro or rapid rail can be difficult; many highly developed suburban networks run over dedicated rights-of-way in the city center and may primarily serve densely built-up inner suburbs. The fact that the terminology is not standardized across countries (even across English-speaking countries) further complicates matters. This distinction is most easily made when there are two (or more) systems such as New York's subway and the LIRR and Metro-North Railroad, Paris' Métro and RER along with Transilien, Washington D.C.'s Metro along with its MARC and VRE, London's tube lines of the Underground and the Overground, Elizabeth line, Thameslink along with other commuter rail operators, Madrid's Metro and Cercanías, Barcelona's Metro and Rodalies, and Tokyo's subway and the JR lines along with various privately owned and operated commuter rail systems.

Regional rail

Regional rail usually provides rail services between towns and cities, rather than solely linking major population hubs as inter-city rail does. Regional rail operates outside major cities. Unlike inter-city, it stops at most, if not all, stations between cities. It provides service to smaller communities along the line, which are often byproducts of ribbon development. Also, it connects to long-distance services at interchange stations located at junctions, terminals, or larger towns along the line. Alternative names are "local train" or "stopping train". Examples include the former BR's Regional Railways, France's TER (Transport express régional),[10] Germany's Regionalexpress and Regionalbahn, and South Korea's Tonggeun and Mugunghwa-ho services.[11]

Inter-city rail

File:D44 DSC 0125 Cropped.jpg
A New South Wales D set with an upper and lower deck

In some European countries, the distinction between commuter trains and long-distance/intercity trains is subtle, due to the relatively short distances involved. For example, Nederlandse Spoorwegen runs more than 80 direct trains a day over some 50 km between Amsterdam and The Hague, used daily by numerous commuters, despite notionally being an intercity route (albeit one within the Randstad conurbation). Likewise, many suburban services in the Greater Tokyo Area in Japan connect downtown Tokyo with cities which are substantial in their own right, such as Yokohama (population 3.7 million), Saitama (1.3 million), and Chiba (983,000) but are less than 50 km from the centre of Tokyo.

The United Kingdom has a largely privatized rail system (though it is in the process of renationalization), with different routes and services covered by different private operators. The distinction between commuter and intercity rail is not as clear as it was before privatization (when InterCity existed as a brand in its own right). However, usually it is still possible to tell them apart. Some operators, for example Thameslink, focus solely on commuter services. Others, such as Avanti West Coast and LNER, run solely intercity services. Others still, such as GWR and EMR, run a mixture of commuter, regional, and intercity services. Some of these operators use different branding for different types of service (for example, EMR brands its trains as either "InterCity", "Connect" for London commuter services, and "Regional"), but even for those operators that do not, the type of train, amenities offered, and stopping pattern usually tell the services apart.

Russian commuter trains, on the other hand, frequently cover areas larger than Belgium itself, although these are still short distances by Russian standards. They have a different ticketing system from long-distance trains, and in major cities, they often operate from a separate section of the train station.

Some consider "inter-city" service to be an express service operating between two main city stations, bypassing intermediate stations. However, this term is used in Australia (Sydney, for example) to describe the regional trains operating beyond the boundaries of the suburban services, even though some of these "inter-city" services stop at all stations, similar to German regional services. In this regard, the German service delineations and naming conventions are clearer and better used for academic purposes.

High-speed rail

File:Shinkansen E4 series entering Omiya.jpg
A Tokyo-bound E4 Series Shinkansen train. As of October 2021, these have since been retired.

Sometimes high-speed rail can serve commuters' daily needs. The Japanese Shinkansen high speed rail system is heavily used by commuters in the Greater Tokyo Area, who commute between 100 and 200 km (62 and 124 mi) by Shinkansen.[12] To meet the demand of commuters, JR sells commuter discount passes. Before 2021, they operated 16-car bilevel E4 Series Shinkansen trains at rush hour, providing a capacity of 1,600 seats.[13] Several lines in China, such as the Beijing–Tianjin Intercity Railway and the Shanghai–Nanjing High-Speed Railway, serve a similar role with many more under construction or planned.[14]

In South Korea, some sections of the high-speed rail network are also heavily used by commuters, such as the section between Gwangmyeong Station and Seoul Station on the KTX network (Gyeongbu HSR Line), or the section between Dongtan Station and Suseo Station on the SRT Line.

The high-speed services linking Zürich, Bern, and Basel in Switzerland (200 km/h (120 mph)) have brought the Central Business Districts (CBDs) of these three cities within 1 hour of each other. This has resulted in unexpectedly high demand for new commuter trips between the three cities and a corresponding increase in suburban rail passengers accessing the high-speed services at the main city-center stations (Hauptbahnhof). The Regional-Express commuter service between Munich and Nuremberg in Germany runs at 200 km/h (120 mph) on the 300 km/h (186 mph) Nuremberg–Ingolstadt high-speed railway.

The regional trains StockholmUppsala, Stockholm–Västerås, Stockholm–Eskilstuna and GothenburgTrollhättan in Sweden reach 200 km/h (120 mph) and have many daily commuters.

In Great Britain, the HS1 domestic services between London and Ashford run at a top speed of 225 km/h, and in peak hours the trains can be full with commuters standing.

The Athens Suburban Railway in Greece consists of five lines, 4 of which are electrified. The KiatoPiraeus line and the AigioAirport lines reach speeds of up to 180 km/h (112 mph). The AthensChalcis line is also expected to attain speeds of up to 200 km/h (124 mph) upon upgrading of the SKA–Oinoi railway sector. These lines also serve many daily commuters, with the number expected to rise further upon the full completion of the Acharnes Railway Center.

The Eskişehir-Ankara and Konya-Ankara high-speed train routes serve as commuter lines in Turkey.

Train types

Commuter/suburban trains are usually optimized for maximum passenger volume, in most cases without sacrificing too much comfort and luggage space. However, they seldom have all the amenities of long-distance trains. Cars may be single- or double-level, and aim to provide seating for all. Compared to intercity trains, they have less space, fewer amenities, and limited baggage areas.

Multiple unit type

File:Treviglio - stazione ferroviaria - elettrotreno TSR.jpg
An electric multiple unit at Treviglio, on Milan suburban line S5

Commuter rail trains are usually composed of multiple units, which are self-propelled, bidirectional, articulated passenger rail cars with driving motors on each (or every other) bogie. Depending on local circumstances and tradition, they may be powered either by diesel engines located below the passenger compartment (diesel multiple units) or by electricity picked up from third rails or overhead lines (electric multiple units). Multiple units are almost invariably equipped with control cabs at both ends, which is why they are so frequently used to provide commuter services, owing to the associated short turnaround time.

Locomotive hauled services

File:ACE EMD F40PH Fremont - San Jose.jpg
An Altamont Corridor Express train operating along the San Francisco Bay; a MPI F40PH-2C locomotive hauls a consist of Bombardier BiLevel Coaches.

Locomotive-hauled services are used in some countries or locations. This is often a case of asset-sweating, using a single large combined fleet for intercity and regional services. Loco-hauled services are usually run in push-pull formation, that is, the train can run with the locomotive at the "front" or "rear" (pushing or pulling). Trains are often equipped with a control cab at the end opposite the locomotive, allowing the train operator to operate the train from either end. The motive power for locomotive-hauled commuter trains may be either electric or diesel–electric, although some countries, such as Germany and some of the former Soviet-bloc countries, also use diesel–hydraulic locomotives.

Seat plans

In the US and some other countries, a three-and-two seat plan is used. Middle seats on these trains are often less popular because passengers feel crowded and uncomfortable.[15][16]

In Japan, South Korea, and Indonesia, longitudinal (sideways window-lining) seating is widely used on many commuter trains to increase capacity during rush hours. Carriages are usually not organized to increase seating capacity (although in some trains at least one carriage would feature more doors to facilitate easier boarding and alighting and bench seats so that they can be folded up during rush hour to provide more standing room) even in the case of commuting longer than 50 km and commuters in the Greater Tokyo Area, Seoul metropolitan area, and Jabodetabek area have to stand in the train for more than an hour.

Commuter rail systems around the world

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Africa

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A Metrorail train pulling out to Fish Hoek station in Cape Town

Currently, there are not many examples of commuter rail in Africa. Metrorail operates in the major cities of South Africa, and there are some commuter rail services in Algeria, Botswana, Kenya, Morocco, Egypt and Tunisia. In Algeria, the Algiers suburban rail network serves the capital Algiers and its southern and eastern suburbs. It also connects Algiers' main universities. The Dar es Salaam commuter rail offers intracity services in Dar es Salaam, Tanzania. In Botswana, the (Botswana Railways) "BR Express" has a commuter train between Lobatse and Gaborone.

Asia

East Asia

File:CRH6A-0439@LXI (20180630070543).jpg
An CRH6 train operating a through service on the Beijing Suburban Railway Sub-Center line in China.

In Japan, commuter rail systems have extensive networks, frequent service, and high ridership. In many cases, Japanese commuter rail is operationally more like a typical metro system (frequent trains, an emphasis on standing passengers, short station spacings) than it is like commuter rail in other countries. Japanese commuter rail commonly interlines with city-center subway lines, with commuter trains continuing into the subway network and then out onto other commuter rail systems on the city's other side. Many Japanese commuter systems operate various stopping patterns to reduce travel time to distant destinations, often using station passing loops instead of dedicated express tracks. Notably, the larger Japanese commuter rail systems are owned and operated by for-profit private railway companies, without public subsidy.

East Japan Railway Company operates a large suburban train network in Tokyo with various lines connecting the suburban areas to the city center. While the Yamanote Line, Keihin Tohoku Line, Chūō–Sōbu Line services arguably are more akin to rapid transit with frequent stops, simple stopping patterns (relative to other JR East lines) no branching services and largely serving the inner suburbs; other services along the Chūō Rapid Line, Sōbu Rapid Line/Yokosuka Line, Ueno–Tokyo Line, Shōnan–Shinjuku Line etc. are mid-distance services from suburban lines in the outer reaches of Greater Tokyo through operating into these lines to form a high frequency corridor though central Tokyo.

Other commuter rail routes in Japan include:

Commuter rail systems have been inaugurated in several cities in China such as Beijing, Shanghai, Zhengzhou, Wuhan, Changsha and the Pearl River Delta. With plans for large systems in the northeastern Zhejiang, Jingjinji, and Yangtze River Delta areas. The level of service varies considerably from line to line, ranging from high to near high speeds. More developed and established lines, such as the Guangshen Railway, offer more frequent metro-like service.

The two MTR lines which are owned and formerly operated by the Kowloon-Canton Railway Corporation (East Rail line and Tuen Ma line which is integrated from the former West Rail line and Ma On Shan line in 2021), then the "KCR"), and MTR's own Tung Chung line connect the new towns in New Territories and the city centre Kowloon with frequent intervals, and some New Territories-bound trains terminate at intermediate stations, providing more frequent services in Kowloon and the towns closer to Kowloon. They use rolling stock with a higher maximum speed and have longer stop spacing than other lines, which only run in the inner urban area. Still, to maximize capacity and throughput, these rolling stocks have longitudinal seating, 5 pairs of doors in each carriage with large standing spaces like the urban lines, and run as frequently as well. Most of the four lines are overground, and some sections of the East Rail Line share tracks with intercity trains to mainland China. The three KCR lines have been integrated into the MTR network since 2008. Most passengers do not need to exit and re-enter the system through separate fare gates and purchase separate tickets to transfer between such lines and the rest of the network (the exceptions are between the Tuen Ma line's East Tsim Sha Tsui station and the Tsuen Wan line's Tsim Sha Tsui station.

In Taiwan, the Western line in the Taipei-Taoyuan Metropolitan Area, Taichung Metropolitan Area and Tainan-Kaohsiung Metropolitan Area as well as the Neiwan-Liujia line in the Hsinchu Area are considered commuter rail.

In South Korea, the Seoul Metropolitan Subway has 22 lines, some of which serve suburban areas. This is especially the case for lines operated by Korail, such as the Gyeongui-Jungang Line, the Gyeongchun Line, the Suin-Bundang Line, or the Gyeonggang Line. Even some lines not operated by Korail, such as the AREX Line, the Seohae Line, or the Shinbundang Line, mostly function as commuter rail. Lastly, even for the "numbered lines" (1–9) of the Seoul Metropolitan Subway which mostly travel in the dense parts of Seoul, some track sections extend far outside of the city, and operate large sections at ground level, such as on the Line 1, Line 3 and Line 4. In Busan, the Donghae Line, while part of the Busan Metro system, mostly functions as a commuter rail line.

Southeast Asia

File:JR 205 Keiyo 12sf @ Cikini (20230713) (53328327842) (cropped).jpg
The KRL Commuterline set Seri 205 (Marchen face) serves the Bogor Line in Indonesia

In Indonesia, the KRL Commuterline is the largest commuter rail system in the country, serving the Greater Jakarta. It connects the Jakarta city center with surrounding cities and sub-urbans in Banten and West Java provinces, including Depok, Bogor, Tangerang, Serpong, Rangkasbitung, Bekasi and Cikarang. In July 2015, KRL Commuterline served more than 850,000 passengers per day, which is almost triple of the 2011 figures, but still less than 3.5% of all Jabodetabek commutes.[17] Other commuter rail systems in Indonesia include the Metro Surabaya Commuter Line, Commuter Line Baraya, Yogyakarta–Solo Line, Kedung Sepur, and the Sri Lelawangsa.

In the Philippines, the Philippine National Railways currently operates two commuter rail systems: the PNR Metro Commuter Line in the Greater Manila Area and the PNR Bicol Commuter in the Bicol Region. A new commuter rail line in Metro Manila, the North–South Commuter Railway, is currently under construction, with completion targeted for 2031.[18]

In Malaysia, there are two commuter services operated by Keretapi Tanah Melayu. They are the KTM Komuter that serves Kuala Lumpur and the surrounding Klang Valley area, and the KTM Komuter Northern Sector that serves the George Town Conurbation, Perak, Kedah and Perlis in the northern region of Peninsular Malaysia.

In Thailand, the Greater Bangkok Commuter rail and the Airport Rail Link serve the Bangkok Metropolitan Region. The SRT Red Lines, a new commuter line in Bangkok, started construction in 2009. It opened in 2021.

Another commuter rail system in Southeast Asia is the Yangon Circular Railway in Myanmar.

South Asia

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Chennai suburban railway
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Kolkata Suburban Railway is the largest suburban railway network in India.

In India, commuter rail systems operate in major cities and play an important role in people's daily lives. Mumbai Suburban Railway, the oldest suburban rail system in Asia, carries more than 7.24 million commuters daily, accounting for more than half of Indian Railways' total daily passenger capacity. Kolkata Suburban Railway, one of the largest suburban railway networks in the world, consists of more than 450 stations and carries more than 3.5 million commuters per day. The Chennai Suburban Railway, along with the Chennai MRTS, also covers over 300 stations and carries more than 2.5 million people daily to different areas in Chennai and its surroundings. Other commuter railways in India include the Hyderabad MMTS, Delhi Suburban Railway, Pune Suburban Railway, and Lucknow-Kanpur Suburban Railway.

In 2020, the Government of India approved Bengaluru Suburban Railway to connect Bengaluru and its suburbs. It will be unique and the first of its kind in India, featuring metro-like facilities and rolling stock.

In Bangladesh, there is one suburban rail called the Chittagong Circular Railway. Another suburban railway, the Dhaka Circular Railway, is currently under proposal.

Karachi in Pakistan has a circular railway since 1969.

West Asia

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Tehran Metro with Line 5 only running the commuter rail

In Israel, the Israel Railways is the largest commuter rail system in the country, serving the North, Tel Aviv, Central, Jerusalem, and South. It connects the Jerusalem and Tel Aviv centers with surrounding cities and suburbs in their regions.[19]

Tehran Metro currently operates the Line 5 commuter line between Tehran and Karaj.[citation needed]

Turkey has commuter rail in the cities of Ankara, Izmir, Istanbul and Gaziantep.[citation needed]

Europe

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Type X60 at Stockholm Central in Sweden

Extensive commuter/suburban rail systems usually serve major metropolitan areas in most European countries. Well-known examples include BG Voz in Belgrade (Serbia), S-Bahn in Germany, Austria and German-speaking areas of Switzerland, Proastiakos in Greece, RER in France and Belgium, Servizio ferroviario suburbano in Italy, Cercanías and Rodalies (Catalonia) in Spain, CP Urban Services in Portugal, Esko in Prague and Ostrava (Czech Republic), HÉV in Budapest (Hungary) and DART in Dublin (Ireland).

Western Europe

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Stadler KISS and Re 450 hauled double-decker cars of Zürich S-Bahn

London has multiple commuter rail routes:

  • The Elizabeth line runs on a 22-kilometre (14-mile) east–west twin tunnel under central London (Crossrail project) as its central core section.
  • Thameslink brings together several branches from northern and southern suburbs and satellite towns into a high-frequency central tunnel underneath London.
  • The London Overground, by contrast, skirts through the inner suburbs with lines mostly independent of each other, although there are several branches. The Watford DC line, partly shared with underground trains, uses a third rail, but parallels a main line using overhead wires. The East London line and North London line run at metro-like frequencies in inner London, making them nearly indistinguishable from metro systems, except that the tracks are shared with freight trains.
  • The Metropolitan line, despite being part of the London Underground, is a commuter rail route as it links the City of London to commuter towns outside Greater London such as Rickmansworth, Amersham and Chesham, where it runs to a timetable, being the only London Underground line with a public timetable published. It also shares tracks with Chiltern Railways main line services between London and Aylesbury.

The Merseyrail network in Liverpool consists of two commuter rail routes powered by third rail, both of which branch out at one end. At the other, the Northern line continues out of the city centre to a mainline rail interchange, while the Wirral line has a city-centre loop.

Birmingham has four suburban routes that operate from Birmingham New Street & Birmingham Moor Street stations, one of which uses diesel trains.

The Tyneside Electrics system in Newcastle upon Tyne operated from 1904 to 1967, using a DC third rail. British Rail did not have the budget to maintain the aging electrification system. The Riverside Branch was closed, while the remaining lines were de-electrified. 13 years later, they were re-electrified using DC overhead wires, and now form the Tyne & Wear Metro Yellow Line.

Many of the rail services around Glasgow are branded as Strathclyde Partnership for Transport. The network includes most electrified Scottish rail routes.

The West Yorkshire Passenger Transport Executive operates 11 services that feed into Leeds, connecting the city with commuter areas and neighboring urban centers within the West Yorkshire Built-up Area.

MetroWest is a proposed network in Bristol, northern Somerset & southern Gloucestershire. The four-tracking of the line between Bristol Temple Meads and Bristol Parkway stations will enable local rail services to be separated from long-distance trains.

The Réseau express régional d'Île-de-France (RER) is a commuter rail network in the Paris agglomeration. In the center, the RER has high-frequency underground corridors where several suburban branches feed, similar to a rapid transit system.

Commuter rail systems in German-speaking regions are called S-Bahn. While in some major cities S-Bahn services run exclusively on separate lines, other systems use existing regional rail tracks.

Randstadspoor is a network of Sprinter train services in and around the city of Utrecht in the Netherlands. To realize this network, new stations were opened. Separate tracks have been built for these trains, so they can call frequently without disturbing high-frequency Intercity services parallel to these routes.[20] Similar systems are planned for The Hague and Rotterdam.

Northern Europe

In Sweden, electrified commuter rail systems known as Pendeltåg are present in the cities of Stockholm and Gothenburg. The Stockholm commuter rail system, which began in 1968, shares railway tracks with intercity and freight trains but, for the most part, runs on its own dedicated tracks. It is primarily used to transport passengers from nearby towns and other suburban areas into the city center, not for transportation inside the city center. The Gothenburg commuter rail system, which began in 1960, is similar to the Stockholm system, but does fully share tracks with long-distance trains.

In Norway, the Oslo commuter rail system has been more limited since 2022, but the remaining commuter lines run on tracks mostly unused by other trains. From 2022, several lines with an hourly frequency and travel times to endpoints of over 1 hour are reclassified as regional trains. Before 2022, Oslo had the largest commuter rail system in the Nordic countries by line length and number of stations. Also, Bergen, Stavanger, and Trondheim have commuter rail systems. These have only one or two lines each, and they share tracks with other trains.

In Finland, the Helsinki commuter rail network runs on dedicated tracks from Helsinki Central railway station to Leppävaara and Kerava. The Ring Rail Line serves Helsinki Airport and the northern suburbs of Vantaa and is exclusively used by the commuter rail network. On 15 December 2019, the Tampere region got its own commuter rail service, with trains running from Tampere to Nokia, Lempäälä, and Orivesi.

Southern Europe

In Spain, Cercanías networks exist in Madrid, Sevilla, Murcia/Alicante, San Sebastián, Cádiz, León, Ferrol, Valencia, Asturias, Santander, Zaragoza, Bilbao and Málaga. All these systems include underground sections in the city center.

File:Cercanías Madrid Atocha 2008.jpg
Atocha is the main station in Spain mainly due to the Cercanías.

Cercanías Madrid is one of the most important train services in the country; more than 900,000 passengers move in the system. It has underground stations in Madrid like Recoletos, Sol, or Nuevos Ministerios and in the metropolitan area in cities like Parla or Getafe.

File:Trens de Rodalies Renfe a l'Estació de França.jpg
Rodalies Renfe trains in Estació de França, Barcelona
File:FGC 211.03 i 213.34.jpg
Trains in circulation on the FGC Llobregat-Anoia line in 2009

In the autonomous community of Catalonia, and unlike the rest of Spain, the commuter service is not managed by Renfe Operadora.[21] Since 2010, the Government of Catalonia has managed all the regular commuter services with the "transfer of Rodalies".[22] There are two companies that manage the Catalan commuter network:

Since 2024, the Government of Catalonia has full control of the current R12 regional line; it is now owned by the FGC.[30] It will eliminate the current line and replace it with the new commuter lines RL3 and RL4, towards Cervera and Manresa from Lleida respectively.

File:Milano staz Porta Venezia TSR linea S6.JPG
A TSR train at Milano Porta Venezia railway station on the Milan Passerby railway, Italy
File:I08 119 Bf Napoli Garibaldi, ETR 211.jpg
A Metrostar train at Napoli Garibaldi railway station on the Circumvesuviana railway network

In Italy, fifteen cities have commuter rail systems:

Eastern Europe

File:SKM S9 Pludy.JPG
SKM train in Warsaw, Poland

In Poland, commuter rail systems exist in Tricity, Warsaw, Kraków (SKA) and Katowice (SKR). There is also a similar system planned in Wrocław and Szczecin.[31] The terms used are "Szybka Kolej Miejska" (fast urban rail) and "kolej aglomeracyjna" (agglomeration rail). These systems are:

The Proastiakos (Script error: The function "langx" does not exist.; "suburban") is Greece's suburban railway (commuter rail) services, which are run by TrainOSE, on infrastructure owned by the Hellenic Railways Organisation (OSE). There are three Proastiakos networks, servicing the country's three largest cities: Athens, Thessaloniki, and Patras. In particular, the Athenian network is undergoing modifications to completely separate it from mainline traffic by rerouting the tracks through a tunnel beneath the city center. A similar project is planned for the Patras network, whereas a new line is due to be constructed for the Thessalonian network.

In Romania, the first commuter trains were introduced in December 2019. They operate between Bucharest and Funduea or Buftea.

BG Voz is an urban rail system that serves Belgrade. It currently has only two routes, with plans for further expansion. Between the early 1990s and mid-2010s, there was another system, known as Beovoz, that was used to provide mass-transit service within the Belgrade metropolitan area, as well as to nearby towns, similarly to RER in Paris. Beovoz had more lines and far more stops than the current system. However, it was abandoned in favor of more accurate BG Voz, mostly due to inefficiency. While current services rely mostly on existing infrastructure, any further development requires expanding capacity (railway expansion and new trains). Plans for further extension of the system include another two lines, one of which should reach Belgrade Nikola Tesla Airport.

In Russia, Ukraine, and some other countries of the former Soviet Union, electric multiple-unit suburban passenger trains called Elektrichka are widespread. The first such system in Russia is the Oranienbaum Electric Line in Saint Petersburg. In Moscow, the Beskudnikovskaya railway branch existed between the 1940s and 1980s. The trains running along it did not serve the main lines, so it was used for city transport. Today, there are the Moscow Central Circle and the Moscow Central Diameters.

In Turkey, Marmaray line stations from Sirkeci to Halkalı are located on the European side.

Americas

North America

In the United States, Canada, Costa Rica, El Salvador, and Mexico, regional passenger rail services are provided by government or quasi-governmental agencies, with the busiest and most extensive rail networks in the Northeastern US, California, and Eastern Canada. Most North American commuter railways utilize diesel locomotive propulsion, except for services in New York City, Philadelphia, Chicago, Denver, San Francisco, and Mexico City; New York's commuter rail lines use a combination of third rail and overhead wire power generation, while Chicago only has two out of twelve services that are electrified. Many newer and proposed systems in Canada and the United States are often geared toward serving peak-hour commutes rather than the all-day systems of Europe, East Asia, and Australia.

United States
File:MTA LIRR train leaving Woodside.jpg
Long Island Rail Road is the busiest commuter railroad in North America.
File:ALP-46 Convent Station.jpg
NJ Transit serves New Jersey as well as parts of New York and Pennsylvania.
File:SEPTA Silverliner V 725 at Glenside station.jpeg
SEPTA Regional Rail serves Philadelphia and its suburbs.
File:Front Runner (1141456610).jpg
The FrontRunner commuter rail system serves Utah's Wasatch Front.
File:WES Commuter Rail train.jpg
WES Commuter Rail is a DMU-operated commuter rail line in Oregon.

Eight commuter rail systems in the United States carried over ten million trips each in 2018, those being in descending order:

Other commuter rail systems in the United States (not in ridership order) are:

Canada
File:UP Express 1005 inbound 2015-09-17.JPG
UP Express and GO Transit both serve the Toronto area.
Mexico
Central America

South America

File:EMU CSR M20 en Barrancas.jpg
The Mitre Line is part of the extensive Buenos Aires metropolitan rail system.

Examples include an 899 km (559 mi) commuter system in the Buenos Aires metropolitan area, the 225 km (140 mi) long Supervia in Rio de Janeiro, the Metrotrén in Santiago, Chile, and the Valparaíso Metro in Valparaíso, Chile.

Another example is Companhia Paulista de Trens Metropolitanos (CPTM) in Greater São Paulo, Brazil. CPTM has 94 stations across 7 lines, numbered starting at 7 (lines 1 to 6 and line 15 belong to the São Paulo Metro), with a total length of 273 kilometres (170 mi). Trains operate at high frequencies on tracks used exclusively for commuter traffic. In Rio de Janeiro SuperVia provides electrified commuter rail services.

Oceania

File:Siemens train in Metro Trains Melbourne Livery.jpg
A Siemens Nexas used on the Metro Trains Melbourne network

The five major cities in Australia have suburban railway systems in their metropolitan areas. These networks have frequent services, with frequencies varying from every 10 to every 30 minutes on most suburban lines, and up to 3–5 minutes in peak on bundled underground lines in the city centers of Sydney, Brisbane, Perth, and Melbourne. The networks in each state developed from mainline railways and have never been completely operationally separate from long-distance and freight traffic, unlike metro systems. The suburban networks are almost completely electrified.

The main suburban rail networks in Australia are:

New Zealand has two frequent suburban rail services comparable to those in Australia: the Auckland rail network is operated by Auckland One Rail, and the Wellington rail network is operated by Transdev Wellington.

Hybrid systems

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Hybrid urban-suburban rail systems that exhibit characteristics of both rapid transit and commuter rail, serving a metropolitan region, are common in German-speaking countries, where they are known as S-Bahn. Other examples include: Lazio regional railways in Rome, the RER in France and the Elizabeth line, London Underground Metropolitan line, London Overground and Merseyrail in the UK. Comparable systems can be found in Australia, such as Sydney Trains and Metro Trains Melbourne, and in Japan, where many urban and suburban lines are operated by JR East/West and third-party companies and run at metro-style frequencies. In contrast, comparable systems of this type are generally rare in the United States and Canada, where peak-hour frequencies are more common.

In Asia, the construction of higher-speed urban-suburban rail links has gained traction in various countries, such as in India, with the Delhi RRTS, in China, with the Pearl River Delta Metropolitan Region intercity railway, and in South Korea, with the Great Train eXpress system. These systems usually run on dedicated elevated or underground tracks for most of their route and have features comparable to Higher-speed rail.

See also

References

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  2. 2.0 2.1 American Public Transit Association (1994). "Glossary of Transit Terminology" (PDF). Archived (PDF) from the original on 2019-10-12.
  3. "National Transit Database Glossary". 2013-11-13. Archived from the original on 2013-11-13. Retrieved 2019-10-12.
  4. "What American Commuter Rail Can Learn From Paris". Streetsblog USA. 2017-02-13. Archived from the original on 2019-10-12. Retrieved 2019-10-12.
  5. Blumgart, Jake (23 April 2021). "Taking the 'Commuter' Out of America's Rail Systems". Governing. e.Republic LLC. Retrieved 11 April 2023.
  6. Spieler, Christof (24 Aug 2021). Trains, Buses, People, Second Edition: An Opinionated Atlas of US and Canadian Transit. Island Press. p. 54. ISBN 9781642832136.
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  25. n.a. (2007-07-03). "Zapatero traspassarà Rodalies a Catalunya i ajudarà les famílies amb 2.500 euros per fill". CCMA (in Catalan). Retrieved 2023-02-06.
  26. "Què són Rodalies de Catalunya". Rodalies de Catalunya (in Catalan). Retrieved 2023-02-06.
  27. n.a. "Lines". Ferrocarrils de la Generalitat de Catalunya. Retrieved 2023-02-06.
  28. n.a. "Línia Llobregat-Anoia". Ferrocarrils de la Generalitat de Catalunya. Retrieved 2023-02-06.
  29. n.a. "Line Lleida-La Pobla". Ferrocarrils de la Generalitat de Catalunya. Retrieved 2023-02-06.
  30. n.a. (2021-10-19). "Renfe perd Rodalies de Lleida, que gestionarà FGC a partir del 2024". CCMA (in Catalan). Retrieved 2023-02-06.
  31. "Szczecińska Kolej Metropolitalna -".
  32. pl:Szybka Kolej Miejska w Warszawie
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