Contents 1 Terminology 2 History 3 Main features 3.1 Dedicated lanes and alignment 3.2 Off-board fare collection 3.3 Intersection treatment 3.4 Platform-level boarding 4 Additional features 4.1 High capacity vehicles 4.2 Quality stations 4.3 Prominent brand or identity 4.4 In tunnels or subterranean structures 5 Performance 5.1 Comparison with light rail and metro systems 5.2 Comparison with conventional bus services 6 Cost 7 Criticism 7.1 Environmental issues 7.2 Failures and reversals 8 Examples 9 See also 10 References 11 Further reading 12 External links

Terminology[edit] This section does not cite any sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (October 2014) (Learn how and when to remove this template message) Bus rapid transit takes its name from rail rapid transit, which describes a high-capacity urban public-transit system with its own right of way, multiple-car vehicles at short headways, and longer stop spacing than traditional streetcars and buses. BRT uses buses on a wide variety of rights-of-way, including mixed traffic, dedicated lanes on surface streets, and busways separated from traffic. The expression "BRT" is mainly used in the Americas and China; in India, it is called "BRTS" (BRT System); in Europe and Indonesia, it is often called a "busway"; in Australia it is often called a "T-Way" (short for Transit Way); while in the British Isles, it may be called a "quality bus". Critics have charged that the term "bus rapid transit" has sometimes been misapplied to systems that lack most or all the essential features which differentiate it from conventional bus services. The term "bus rapid transit creep" has been used to describe severely degraded levels of bus service which fall far short of the BRT Standard promoted by the Institute for Transportation and Development Policy and other organizations.

History[edit] The world's first BRT system, the Rede Integrada de Transporte in Curitiba, Brazil, was opened in 1974. The first BRT system in the world was the Rede Integrada de Transporte (RIT, integrated transportation network), implemented in Curitiba, Brazil, in 1974.[4]:5[5] Most of the elements that have become associated with BRT were innovations first suggested by Curitiba Mayor Architect Jaime Lerner.[6][7] Initially just dedicated bus lanes in the center of major arterial roads, in 1980 the Curitiba system added a feeder bus network and inter-zone connections, and in 1992 introduced off-board fare collection, enclosed stations, and platform-level boarding. Other systems made further innovations, including platooning (three buses entering and leaving bus stops and traffic signals at once) in Porto Alegre, and passing lanes and express service in São Paulo.[8] In Canada, the transit system in Ottawa, OCTranspo, introduced the first element of its BRT system in 1973, dedicated bus lanes through the city centre, with platformed stops. However, political and construction delays meant that the introduction of the first exclusive busways (termed 'Transitway') did not occur until 1983. By 1996, all of the originally envisioned 31 km Transitway system was in operation; further expansions were opened in 2009, 2011, and 2014. As of 2017, the central part of the Transitway is being converted to a Light Rail Transit, due to the downtown section being operated beyond its designed capacity.[9] In the United States, BRT began in 1977, with Pittsburgh's South Busway,[10] operating on 4.3 miles (6.9 km) of exclusive lanes. Its success led to the Martin Luther King Jr. East Busway in 1983, a fuller BRT deployment including a dedicated busway of 9.1 miles (14.6 km), traffic signal preemption, and peak service headway as low as two minutes. After the opening of the West Busway, 5.1 miles (8.2 km) in length in 1990, Pittsburgh’s Busway system is today over 18.5 miles long. In 1995, Quito, Ecuador, opened trolleybus BRT.[citation needed] The TransMilenio in Bogotá, Colombia, opening in 2000, was the first BRT system to combine the best elements of Curitiba's BRT with other BRT advances, and achieved the highest capacity and highest speed BRT system in the world. The success of TransMilenio spurred other cities to develop high quality BRT systems.[citation needed] In January 2004 the first BRT in Asia, TransJakarta, opened in Jakarta, Indonesia. As of 2015[update], at 210 kilometres (130 mi), it is the longest BRT system in the world.[11] Africa's first BRT system was opened in Lagos, Nigeria, in March 2008 but is considered as a light BRT system by many people. Johannesburg’s BRT, Rea Vaya, was the first true BRT in Africa, in August 2009, carrying 42,000 daily passengers.[citation needed] Rea Vaya and MIO (BRT in Cali, Colombia, opened 2009) were the first two systems to combine full BRT with some services that also operated in mixed traffic, then joined the BRT trunk infrastructure.[citation needed]

Main features[edit] Main article: BRT Standard BRT systems normally include most of the following features: Dedicated lanes and alignment[edit] TransJakarta buses use separate lanes to avoid congested roads Elevated BRT system in Xiamen Dedicated "bus street" through Northern Arizona University in Flagstaff, Arizona, U.S., used by university and city buses only Bus-only lanes make for faster travel and ensure that buses are not delayed by mixed traffic congestion. A median alignment bus-only keeps buses away from busy curb-side side conflicts, where cars and trucks are parking, standing and turning. Separate rights of way may be used such as the completely elevated Xiamen BRT. Transit malls or 'bus streets' may also be created in city centers. Off-board fare collection[edit] Fare prepayment at the station, instead of on board the bus, eliminates the delay caused by passengers paying on board. Intersection treatment[edit] Prohibiting turns for traffic across the bus lane significantly reduces delays to the buses. Bus priority will often be provided at signalized intersections to reduce delays by extending the green phase or reducing the red phase in the required direction compared to the normal sequence. Prohibiting turns may be the most important measure for moving buses through intersections. Platform-level boarding[edit] Cultural Centre busway station in Brisbane, Australia Station platforms should be level with the bus floor for quick and easy boarding, making it fully accessible for wheelchairs, disabled passengers and baby strollers, with minimal delays. High-level platforms for high-floored buses makes it difficult to have stops outside dedicated platforms, or to have conventional buses stop at high-level platforms, so these BRT stops are distinct from street-level bus stops. Similar to rail vehicles, there is a risk of a dangerous gap between bus and platform, and is even greater due to the nature of bus operations. Kassel curbs or other methods may be used to ease quick and safe alignment of the BRT vehicle with a platform. A popular compromise is low-floor buses with a low step at the door, which can allow easy boarding at low-platform stops compatible with other buses. This intermediate design may be used with some low- or medium-capacity BRT systems. The MIO system in Cali pioneered in 2009 the use of dual buses, with doors on the left side of the bus that are located at the height of high-level platforms, and doors on the right side that are located at curb height. This buses can use the main line with its exclusive lanes and high level platforms, located on the center of the street and thus, boarding and leaving passengers on the left side. These buses can exit the main line and use normal lanes that share with other vehicles and stop at regular stations located on sidewalks, located to the right side of the street. For the system to work, users have the right to receive "credit" on the electronic cards: in this manner, passengers that have no money left on the cards can take the bus on sidewalk stops where there is no possibility to recharge these cards. This means that the balance in the card can be negative, up to two ticket fares, so passengers can take the bus in the street and recharge the card once they reach a main line station. As the card itself costs more than the maximum negative balance, the passenger has no incentive to default on his negative credit.[12] Transmilenio in Bogotá followed suit in 2014 also creating routes that can use main line stations and regular sidewalk stations,[13] but instead of giving credit to passengers to allow boarding the bus on sidewalks, published a map readable in smart phones giving the location of a very dense[14] network of 4,000 recharging points, located in internet cafes and other business, that use a swipe-card terminal for recharging. This system has the additional benefit of diminishing queues on main line stations.[15]

Additional features[edit] High capacity vehicles[edit] TransMilenio vehicles carry up to 270 people. High-capacity vehicles such as articulated or even bi-articulated buses may be used, typically with multiple doors for fast entry and exit. Double-decker buses[citation needed] or guided buses may also be used. Advanced powertrain control may be used for a smoother ride. Quality stations[edit] Ticket barriers at the entrance to a TransMilenio station in Bogotá BRT systems typically feature significant investment in enclosed stations which may incorporate attractive sliding glass doors, staffed ticket booths, information booths, and other more standard features listed above. They will often include level boarding, using either low-floor buses or higher boarding platforms level, and multiple doors to speed passenger boardings and enhance accessibility to disabled passengers. Fare validation upon entry to the station in a similar manner to that used on entry to a subway system is also common, particularly at busy stations.[citation needed] An example of high-quality stations include those used on TransMilenio in Bogotá since December 2000,[16] the MIO in Cali since November, 2008,[17] Metrolinea in Bucaramanga since December, 2009,[18] Megabús in Pereira since May, 2009.[19] This design is also used in Johannesburg's Rea Vaya.[20] The term "station" is more flexibly applied in North America and ranges from enclosed waiting areas (Ottawa and Cleveland) to large open-sided shelters (Los Angeles and San Bernardino). Prominent brand or identity[edit] A unique and distinctive identity can contribute to BRT's attractiveness as an alternative to driving cars,[21] (such as Viva, Max, TransMilenio, Metropolitano, Select) marking stops and stations as well as the buses.[22] Large cities usually have big bus networks. A map showing all bus lines might be incomprehensible, and cause people to wait for low-frequency buses that may not even be running at the time they are needed. By identifying the main bus lines having high-frequency service, with a special brand and separate maps, it is easier to understand the entire network.[citation needed] Public transit apps are more convenient than a static map, featuring services like trip planning, live arrival and departure times, up-to-date line schedules, local station maps, service alerts, and advisories that may affect one's current trip. Transit and Moovit are examples of apps that are available in many cities around the world. Some operators of bus rapid transit systems have developed their own apps, like Transmilenio.[23] These apps even include all the schedules and live arrival times and stations for buses that feed the BRT, like the SITP (Sistema Integrado de Transporte Público or Public Transit Integrated System) in Bogotá. In tunnels or subterranean structures[edit] This section needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (October 2014) (Learn how and when to remove this template message) Metro Bus Tunnel in Seattle, Washington A special issue arises in the use of buses in metro transit structures. Since the areas where the demand for an exclusive bus right-of-way are apt to be in dense downtown areas where an above-ground structure may be unacceptable on historic, logistic, or environmental grounds, use of BRT in tunnels may not be avoidable. Since buses are usually powered by internal combustion engines, bus metros raise ventilation issues similar to those of motor vehicle tunnels. Powerful fans typically exchange air through ventilation shafts to the surface; these are usually as remote as possible from occupied areas, to minimize the effects of noise and concentrated pollution. A straightforward way to reduce air quality problems is to use internal combustion engines with lower emissions. The 2008 Euro V European emission standards set a limit on carbon monoxide from heavy-duty diesel engines of 1.5 g/kWh, one third of the 1992 Euro I standard. As a result, less forced ventilation will be required in tunnels to achieve the same air quality. A different alternative is to use electric propulsion, Seattle's Metro Bus Tunnel, and Boston's Silver Line Phase II are using this method in their BRTs. In Seattle, dual-mode (electric/diesel electric) buses manufactured by Breda were used until 2004, with the center axle driven by electric motors obtaining power from trolley wires through trolley poles in the subway, and with the rear axle driven by a conventional diesel powertrain on freeways and streets. Boston is using a similar approach, after initially using trolleybuses pending delivery of the dual-mode vehicles in 2005. In 2004, Seattle replaced its "Transit Tunnel" fleet with diesel-electric hybrid buses, which operate similarly to hybrid cars outside the tunnel and in a low-noise, low-emissions "hush mode" (in which the diesel engine operates but does not exceed idle speed) when underground.[24][25] The need to provide electric power in underground environments brings the capital and maintenance costs of such routes closer to those of light rail, and raises the question of building or eventually converting to light rail. In Seattle, the downtown transit tunnel was retrofitted for conversion to a shared hybrid-bus and light-rail facility in preparation for Seattle's Central Link Light Rail line, which opened in July 2009.

Performance[edit] See also: BRT Standard A BRT system can be measured by a number of factors. The BRT Standard was developed by the Institute for Transportation and Development Policy (ITDP) to score BRT corridors, producing a list of rated BRT corridors meeting the minimum definition of BRT. The highest rated systems received a "gold" ranking. The latest edition of the standard was published in 2014.[26] The following table lists the eight systems that were rated Gold based on the 2013 standard.[27] City BRT System (Corridor Name) Guangzhou, China GBRT (Zhongshan Avenue) Yichang, China Yichang BRT Bogotá, Colombia Transmilenio (Americas, Calle 80, Calle 26, Norte-Quito-Sur, Suba, and El Dorado) Curitiba, Brazil Curitiba BRT (Linha Verde) Rio de Janeiro, Brazil BRT (TransCarioca, TransOlimpica) Belo Horizonte, Brazil MOVE (Cristiano Machado) Lima, Peru El Metropolitano (Line 1) Guadalajara, Mexico Macrobús (Line 1) Mexico City, Mexico Metrobús Monterrey, Mexico Ecovia Medellin, Colombia Metroplús Guatemala City, Guatemala Transmetro (Eje Sur) Dar es Salaam, Tanzania Dar es Salaam bus rapid transit DART (Kimara-Kivukoni, Kimara-Morocco, Kimara-Kariakoo) Other metrics used to evaluate BRT performance include: The vehicle headway is the average time interval between vehicles on the same line. Buses can operate at headways of 10 seconds or less, but average headways on TransMilenio at busy intersections are 13 seconds,[28] 14 seconds for the busiest section of the Metrobus (Istanbul). Vehicle capacity, which can range from 50 for a conventional bus up to some 200 for an articulated vehicle arranged for standing passengers. Merobus Istanbul operates both Mercedes-Benz Citaro with a capacity of 150 and Mercedes CapaCity with a capacity of 193. The effectiveness of the stations to handle passenger demand. High volumes of passengers on vehicles required large bus stations at busy interchange points. The effectiveness of the feeder system — can these deliver people to stations at the required speed. Local passenger demand. Without a local demand for travel, the capacity will not be used. Based on this data, the minimum headway and maximum current vehicle capacities, the theoretical maximum throughput measured in passengers per hour per direction (PPHPD) for a single traffic lane is some 90,000 passengers per hour (250 passengers per vehicle, one vehicles every 10 seconds). In real world conditions TransMilenio holds the record, with 35,000 – 40,000 PPHPD with most other busy systems operating in the 15,000 to 25,000 range.[citation needed] Location System Peak passengers per hour per direction Passengers per day Length (km) Bogotá TransMilenio 35,000 – 40,000[29] 2,154,961[30] 106[31] Guangzhou Guangzhou Bus Rapid Transit 26,900[32] 1,000,000 22 Curitiba, Brazil Rede Integrada de Transporte 13,900 – 24,100 508,000[33] (2,260,000 inc. feeder lines[34]) 81 Mexico City, Mexico Mexico City Metrobus 18,500[citation needed] 850,000[citation needed] 115 Belo Horizonte, São Paulo 15,800 – 20,300[35] 24 Istanbul Metrobus (Istanbul) 7,300 – 19,500[35] 800,000 52 New Jersey Lincoln Tunnel XBL 15,500[36] 62,000 (4 hour morning peak only) Brisbane South East Busway 15,000[37] 23 Comparison with light rail and metro systems[edit] This section needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (October 2014) (Learn how and when to remove this template message) After the first BRT system opened in 1974, cities were slow to adopt BRT because they believed that the capacity of BRT was limited to about 12,000 passengers per hour traveling in a given direction during peak demand. While this is a capacity rarely needed in the US (12,000 is more typical as a total daily ridership), in the developing world this capacity constraint was a significant argument in favor of heavy rail metro investments in some venues. When TransMilenio opened in 2000, it changed the paradigm by giving buses a passing lane at each station stop and introducing express services within the BRT infrastructure. These innovations increased the maximum achieved capacity of a BRT system to 35,000 passengers per hour.[38] Light rail, by comparison, has reported passenger capacities between 3,500pph (mainly street running) to 19,000pph (fully Grade-separated). "From these findings … there is little evidence to support the view that [light rail] can carry more than busways.".[39] There are conditions that favor light over BRT, but they are fairly narrow. To meet these conditions you would need a corridor with only one available lane in each direction, more than 16,000 passengers per direction per hour but less than 20,000, and a long block length, because the train cannot block intersections. These conditions are rare, but in that specific instance, light rail would have a significant operational advantage. However, "... any perceived advantages of [light rail] over BRT are primarily aesthetic and political rather than technical … due to the perceived capacity constraint of BRT there are currently no cases in the US where [light rail] should be favored over BRT."[40] Comparison with conventional bus services[edit] Conventional bus services being delayed by traffic congestion on Chang'an Avenue in Beijing Conventional scheduled bus services use general traffic lanes, which can be slow due to traffic congestion, and the speed of bus services is further reduced by long dwell times.[citation needed] In 2013, the New York City authorities noted that buses on 34th Street, which carried 33,000 bus riders a day on local and express routes, traveled at 4.5 miles per hour (7.2 km/h), only slightly faster than walking pace. Even despite the implementation of Select Bus Service (New York City's version of a bus rapid transit system), dedicated bus lanes, and traffic cameras on the 34th Street corridor, buses on the corridor were still found to travel at an average of 4.5 mph.[41] In the 1960s, Reuben Smeed predicted that the average speed of traffic in central London would be 9 miles per hour (14 km/h) without other disincentives such as road pricing, based on the theory that this was the minimum speed that people will tolerate. When the London congestion charge was introduced in 2003, the average traffic speed was indeed 14 kilometres per hour (8.7 mph) which was the highest speed since the 1970s.[42] By way of contrast, typical speeds of BRT systems range from 17 to 30 miles per hour (27 to 48 km/h).[43]

Cost[edit] This section needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (October 2014) (Learn how and when to remove this template message) Kesennuma Line in Japan damaged in 2011 tsunami, JR proposed the line's conversion into a dedicated bus rapid transit (BRT) route, before railway's full restoration. The capital costs of implementing BRT are lower than for light rail. A study by the United States Government Accountability Office from 2000 found that the average capital cost per mile for busways was $13.5 million while light rail average costs were $34.8 million.[44] However, the total investment varies considerably due to factors such as cost of the roadway, amount of grade separation, station structures, traffic signal systems and vehicles. Operational costs of running a BRT system are generally lower than light rail, though the exact comparison varies, and labor costs depend heavily on the wages which vary between countries. For the same level of ridership and demand, higher labor costs in the developed world relative to developing countries will tend to encourage developed world transit operators to prefer operate services with larger but less frequent vehicles. This will allow the service to achieve the same capacity while minimizing the number of drivers. This may come as a hidden cost to passengers in lower demand routes who experience a significantly lower frequencies and longer waiting times. In the developing world the operating cost advantages of BRT over light rail or streetcar are much greater due to lower wages.[45] In the study done by the GAO, BRT systems usually had lower costs based on "operating cost per vehicle hour", "operating cost per revenue mile", and "operating cost per passenger trip", mainly because of lower vehicle cost and lower infrastructure cost. The initial capital costs of diesel BRT are also much less lower than a trolleybus system.[44] Proponents of light rail argue that the operating costs of BRT are not necessarily lower than light rail. The typically larger light rail vehicles enjoy reduced labor costs per passenger, and the unit capital cost per passenger can be lower than BRT.[45] Furthermore, light rail vehicles have proven useful lifespans of forty years or more, as opposed to buses that often have to be replaced after less than twenty years. An ambitious light rail system runs partly underground, which gives free right-of-way and much faster traffic compared to passing the traffic signals needed in a surface level system. Underground BRT is rare and expensive. As most buses run on diesel, air quality can become a significant concern in tunnels, but the Downtown Seattle Transit Tunnel is an example of using hybrid buses, which switch to overhead electric propulsion while they are underground, eliminating diesel emissions and reducing fuel usage. An alternative is an elevated busway, which is also costly. A desire for grade separation indicates that a rail alternative may be better. Prominent articulated "tram-like" Van Hool vehicles are used in Metz, France.[46]

Criticism[edit] BRT systems have been widely promoted by non-governmental organizations such as the Shell-funded EMBARQ program, Rockefeller Foundation[47] and Institute for Transportation and Development Policy (ITDP), whose consultant pool includes the former mayor of Bogota (Colombia), Enrique Penalosa (former president of ITPD). Supported by contributions of bus-producing companies such as Volvo,[48] the ITPD not only established a proposed "standard" for BRT system implementation, but developed intensive lobby activities around the world to convince local governments to select BRT systems over rail-based transportation models (subways, light trains, etc.).[49] Environmental issues[edit] Unlike electric-powered trains commonly used in rapid transit and light rail systems, bus rapid transit often uses diesel- or gasoline-fueled engines. The typical bus diesel engine causes noticeable levels of air pollution, noise and vibration.[50] It is noted however that BRT can still provide significant environmental benefits over private cars. In addition, BRT systems can replace an inefficient conventional bus network for more efficient, faster and less polluting BRT buses. For example, Bogotá previously used 2,700 conventional buses providing transportation to 1.6 million passengers daily,[51] while in 2013 TransMilenio transported 1.9 million passengers using only 630 BRT buses,[52] A fleet less than a quarter in size of the old fleet, that circulates at twice the speed, with a huge reduction in air pollution. To reduce direct emissions some systems use alternative forms of traction such as electric or hybrid engines. BRT systems can use trolleybuses to lower air pollution and noise emissions such as those in Beijing and Quito.[53] The price penalty of installing overhead lines could be offset by the environmental benefits and potential for savings from centrally generated electricity, especially in cities where electricity is less expensive than other fuel sources. Trolleybus electrical systems can be potentially reused for future light rail conversion. TransJakarta buses, uses cleaner compressed natural gas-fueled engines. While Bogotá started to use hybrid buses in 2012: they use regenerative braking to charge batteries when the bus stops and then use electric motors to propel the bus up to 40 km/h, speed at which the regular diesel engine starts automatically, with considerable savings in fuel consumption and pollutant dispersion.[54] Furthermore, the lifetime of individual buses is generally shorter than their rail-based counterparts, potentially making the BRT system more expensive to operate in the long term. Failures and reversals[edit] However, a principal criticism of BRT systems is that they may not accomplish their promise of an efficient, rapid flow of passengers along their dedicated bus lanes. The remarkable fiasco of Delhi's BRT[55] and the increasing riots and spontaneous user demonstrations in Bogota[56] raise doubts about the ability of BRTs to tackle issues such as the traffic jams induced by dedicated lanes. Overcrowded stations and BRT vehicles may fail to keep pace with increased ridership, and may eventually need to be replaced with high-capacity rail systems. The lack of permanence of BRT has also been criticized, with some arguing that BRT systems can be used as an excuse to build roads that others later try to convert for use by non-BRT vehicles. Examples of this can be found in Delhi, where a BRT system was scrapped,[57] and in Aspen, Colorado, where drivers are lobbying the government to allow mixed-use traffic in former BRT lanes as of 2017.[58] Similarly, the Belfast Chamber of Trade and Commerce has called for bus lanes to be scrapped in certain areas of the city "as an experiment."[59] Bangkok was also making plans to scrap a set of bus-only lanes, as of early 2017.[60] New Orleans ran buses on Canal Street in a dedicated right of way beginning in the 1960s. This style of service was maintained until 2004 when streetcar service was restored on this 4-mile (6.4 km) route segment.[61] This perceived lack of permanence has made BRT lines significantly less attractive to real estate developers than rail lines.

Examples[edit] This section may require cleanup to meet Wikipedia's quality standards. The specific problem is: not clear which examples should be here. Include only BRT Standard systems. Please help improve this section if you can. (April 2016) (Learn how and when to remove this template message) See also: List of bus rapid transit systems and List of bus rapid transit systems in North America A BRT station on the Guangzhou Bus Rapid Transit system, which opened in 2010 and carries over 1,000,000 people per day Rawalpindi-Islamabad Metrobus in Islamabad, Pakistan. BRTS road in Vijayawada, India TransMilenio was described as a "model BRT system" in the National Bus Rapid Transit Institute's May 2006 report. It serves Bogotá with high-capacity articulated buses, which passengers can board through three doors. Bi-articulated buses are used on the busiest routes. A smart card system is used for off-board fare collection. Despite its record breaking capacity, Transmilenio faces huge problems with overcrowding.[28] Ahmedabad BRTS in Ahmedabad in Gujarat, India, also known as Janmarg BRTS (People's way), has earned several awards and is regarded as the most efficient and the best in India. It complements the existing bus service of AMTS. It has considerably improved urban public transport. There are almost 100 BRTS stations with over 10 lines adding up to around 70 km. All BRTS stations except two are wheelchair accessible. The Rawalpindi-Islamabad Metrobus operates in the Rawalpindi-Islamabad metropolitan area in Pakistan and has length of 24 km and 24 stations. The buses run on segregated lanes in Islamabad, the capital and on an elevated track in Rawalpindi, the fourth most populous city of Pakistan. The daily ridership exceeds 150,000 people. Lahore's Metrobus was the first BRT to be built in Pakistan. Metrobus currently operates a fleet of 86 buses,[62] which run on a single 28.7 km long corridor that includes Ferozepur Road, Model Town, Badshahi Mosque, Mozang Chungi, Gaddafi Stadium and other commercial parts of Lahore. Buses on the current route have an average speed of 26 km/h.[63] According to the Lahore Transport Company, the daily ridership of the Metrobus exceeds 180,000 with the peak hourly ridership being 10,000 ppdph.

See also[edit] Sustainable development portal Buses portal Bus rapid transit creep Express bus service Guided busway List of bus rapid transit systems Quality Bus Corridor Queue jump Straddling bus Sustainable transportation Traffic engineering (transportation) Transit bus Trolley bus

References[edit] ^ a b "Koridor". Transjakarta.  ^ "What is BRT?". Institute for Transportation and Development Policy.  ^ a b c EMBARQ - The WRI Center for Sustainable Transport (November 2016). "Global BRT Data — Worldwide and Key indicators per region". Retrieved 2016-11-27.  ^ "Recapturing Global Leadership in Bus Rapid Transit — A Survey of Select U.S. Cities". Institute for Transportation and Development Policy. May 2011. Retrieved 2015-06-03.  ^ Cervero, Robert (1998), The Transit Metropolis, Island Press, Washington, D.C., pp. 265–296, ISBN 1-55963-591-6 Chapter 10/Creating a Linear City with a Surface Metro: Curitiba Brazil  ^ "Bus Rapid Transit". EMBARQ. Retrieved 2014-02-24.  ^ "Architect of possible dreams". 2013-05-08. Retrieved 2014-02-24.  ^ Latin American Experience With Bus Rapid Transit Gerhard Menckhoff, World Bank. August 2005. Retrieved 08-15-13. ^  Missing or empty |title= (help) ^ Lotshaw, Stephanie (20 Jun 2011). "Profiles of American BRT: Pittsburgh's South Busway and East Busway". Streetsblog USA. Archived from the original on 3 February 2015. Retrieved 1 Sep 2015. Pittsburgh’s leadership on the urban sustainability front is not a recent phenomenon – in fact, it was the first city in the United States to implement elements of bus rapid transit, and it paved the way for more robust U.S. BRT systems. In 1977, only three years after Curitiba, Brazil implemented the world’s first BRT system, Pittsburgh opened the South Busway, 4.3 miles of exclusive bus lanes, running though previously underserved areas of the city, from the western suburbs to the downtown. The city was concerned about worsening traffic congestion, and, lacking the funds to rehabilitate the city's streetcar lines, took inspiration from Curitiba and created the South Busway. Funding for the system came from the Pennsylvania Department of Transportation, the state of Pennsylvania and Allegheny County. The Port Authority of Allegheny County, a county-owned, state-funded agency, operates the system. The success of the South Busway helped the city leverage funding for the expansion of the network, and in 1983, the Martin Luther King, Jr. East Busway opened. The East Busway began as a 6.8-mile network, with an additional 2.3 miles added in 2003, connecting the eastern suburbs with downtown. Fifteen bus routes run along its corridor. Its current weekday ridership is 25,600, with annual ridership close to 7 million. The East Busway built on the success of its predecessor and offered fundamental BRT features including a dedicated busway, service as frequent as every two minutes during peak period, signal prioritization, and direct service operations (more on that soon). However, there is no off-board fare collection. Instead, passengers pay upon entrance for in-bound trips and upon exit for outbound trips, which helps reduce delays in service because of fare collection.  ^ Bambang Nurbianto (12 September 2015). "Train service has moved forward, can Transjakarta follow?". The Jakarta Post.  ^ "Terminos y condiciones tarjeta MIO". Retrieved 2015-08-20.  ^ "Inicia Operación la Carrera 7 con Buses Duales | Transmilenio". Archived from the original on 18 October 2015. Retrieved 20 August 2015.  ^ "Tullave plus". Archived from the original on 10 August 2015. Retrieved 20 August 2015.  ^ "Tarjetas de TransMilenio ya se pueden recargar en todos los puntos SITP". Retrieved 2015-08-20.  ^ "Historia". Transmilenio. Archived from the original on 19 September 2015. Retrieved 20 August 2015.  ^ "Cali inauguró el MÍO". El País. Retrieved 20 August 2015.  ^ "Arrancó inauguración de Metrolínea". Vanguardia Liberal. Retrieved 20 August 2015.  ^ "Pereira se monta al Megabús". El Espectador. Retrieved 20 August 2015.  ^ "Home".  ^ Characteristics of BRT for decision making. page ES-8. Federal Transit Administration (August 2004). ^ What is Select Bus Service? NYC Metropolitan Transit Authority. Retrieved 12 March 2010 ^ "Conozca la 'app' que le brinda información sobre Sitp y TransMilenio (in Spanish)". El Tiempo. Retrieved 6 June 2017.  ^ Metro Online (14 December 2007). "Downtown Seattle Transit Tunnel and Changing Bus Technology". King County Metro. Retrieved 13 July 2010.  ^ Duncan Allen (2005). "MBTA Silver Line". Retrieved 13 July 2010.  ^ Institute for Transportation and Development Policy (ITDP) (2014). "About the Standard: What's New in 2014?". ITDP. Retrieved 2014-06-22.  ^ "2013 Corridor Rankings". Institute for Transportation and Development Policy. Retrieved 2014-06-22.  ^ a b "Applicability of Bogotá's TransMilenio BRT System to the United States" NBRTI (May 2006). Retrieved 15 March 2010. ^ "Foro TransMilenio Fase III" (PDF). Archived from the original (PDF) on 27 February 2009.  ^ "Transmilenio 2013 statistics" (PDF). Archived from the original (PDF) on 9 March 2014. Retrieved 8 March 2014.  ^ "Global BRTData".  ^ "International Public Transport Conference 2010 – Case Study of the Guangzhou BRT". Archived from the original on 13 July 2011. Retrieved 5 August 2010.  ^ "BRT Data Latin America / Brazil / Curitiba". Retrieved 2014-08-24.  ^ "Intermodal Connectivity to BRT: A Comparative Analysis of Bogotá and Curitiba" (PDF). Journal of Public Transportation. Retrieved 2014-03-24.  ^ a b "Characteristics of BRT for decision making" (PDF). Federal Transit Administration. 1 August 2004. Exhibit 3-22: "Maximum observed peak hour bus flows, capacities, and passenger flows at peak load points on transitways"  ^ American Public Transit Association (APTA). "Public Transportation: Moving America Forward" (PDF). APTA. Retrieved 2012-04-26.  See p. 6, based on 62,000 people in the 4 hour morning rushhour ^ "Lord Mayor's Mass Transit Taskforce Report 2007". Brisbane City Council. [dead link] ^ W. Hook, S. Lotshaw and A. Weinstock (2013). "More Development For Your Transit Dollar. An Analysis of 21 North American Transit Corridors" (PDF). Institute for Transportation and Development Policy. p. 20.  ^ G. Gardner, J. C. Rutter and F. Kuhn (1994). The performance and potential of light rail transit in developing cities. Project Report No. PR69. Transport Research Laboratory, Crowthorne, UK. ^ W. Hook, S. Lotshaw and A. Weinstock (2013). "More Development For Your Transit Dollar. An Analysis of 21 North American Transit Corridors" (PDF). Institute for Transportation and Development Policy. p. 21.  ^ "34th Street Select Bus Service". Bus service along 34th Street is among the slowest in the city. Buses travel at an average of 4.5 miles per hour (7.2 km/h), only slightly faster than walking. Despite these slow speeds, 34th Street is a major east-west bus corridor, carrying over 33,000 bus riders a day on local and express routes.  ^ "Impacts monitoring — fifty annual report" (PDF). Transport for London.  ^ "Characteristics of BRT for decision making" (PDF). Federal Transit Administration. 1 August 2004. p. ES-5.  ^ a b GAO (September 2001). "Bus Rapid Transit Shows Promise" (PDF). GAO. Retrieved 16 March 2011.  ^ a b Bus Rapid Transit or Quality Bus Reality Check Light Rail Now! (22 January 2004). Retrieved 29 March 2010 ^ "Van Hool presents the ExquiCity Design Mettis". Archived from the original on 5 June 2013. Retrieved 5 June 2012.  ^ Ross, Benjamin. "Big Philanthropy Takes the Bus". Dissent. Dissent. Retrieved 30 November 2016.  ^ "Peñalosa y su trancón de intereses". Al Garete (in Spanish). 24 January 2016. Archived from the original on 1 May 2016.  ^ "Si Peñalosa no va a la ciudad, la ciudad va a Peñalosa". Al Garete (in Spanish). 7 March 2016. Archived from the original on 6 May 2016.  ^ ^ "Historia". Alcaldía de Bogotá – Transmilenio. Archived from the original on 19 September 2015. Retrieved 20 August 2015.  ^ "Informe de gestión de Transmilenio 2013 – page 18" (PDF). Transmilenio, Alcaldía de Bogotá. Archived from the original (PDF) on 18 October 2015. Retrieved 20 August 2015.  ^ "Edmonton Trolley Coalition".  ^ "Inicio de operación de buses híbridos". Alcaldía de Bogotá – Transmilenio. Archived from the original on 18 October 2015.  ^ "Delhi's BRT Corridor to be demolished!". News Mobile. 18 January 2016.  ^ "Bloqueo TransMilenio". El Tiempo (in Spanish).  ^ Lalchandani, Neha. "BRT will be scrapped, decides Arvind Kejriwal". The Times of India. Retrieved 23 May 2017.  ^ Carroll, Rick. "Aspen candidates mull citizen's proposal to open bus lanes to all vehicles". The Aspen Times. Retrieved 23 May 2017.  ^ "Trade body in 'scrap bus lanes' call". BBC News. Retrieved 23 May 2017.  ^ PBS, Thai. "BRT bus service to stop end of April". Pattaya Mail. Retrieved 23 May 2017.  ^ "New Orleans Public Service Inc. (NOPSI) Flxible New Look Buses 168-195 & 314-409 @".  ^ Khan, Rameez. "Public transport: Govt to order studies on new Metro Bus projects". The Express Tribune. Retrieved 6 August 2013.  ^ "Lahore BRT System Study" (PDF). Lahore Transport Company. Retrieved 7 August 2013. 

Further reading[edit] Ghadirifaraz, B., Vaziri, M., Safa, A., & Barikrou, N. (2017). A Statistical Appraisal of Bus Rapid Transit Based on Passengers Satisfaction and Priority Case Study: Isfahan City, Iran (No. 17-05108). Ghadirifaraz, B., Vaziri, M., Safa, A., & Barikrou, N. (2017). A Statistical Appraisal of Bus Rapid Transit Based on Passengers Satisfaction and Priority Case Study: Isfahan City, Iran (No. 17-05108).

External links[edit] Wikimedia Commons has media related to Bus rapid transit. General information The BRT Standard 2014 Edition Institute for Transportation and Development Policy Bus Rapid Transit Planning Guide (2007) A very comprehensive 800 guide to creating a successful BRT system by the Institute for Transportation and Development Policy (available in English, Spanish and Portuguese) Bus Rapid Transit, Volume 1: Case Studies in Bus Rapid Transit Transportation Research Board Bus Rapid Transit, Volume 2: Implementation Guidelines Transportation Research Board "Characteristics of Bus Rapid Transit". National Bus Rapid Transit Association. 2009.  Levinson, Herbert S. (2002). "Bus Rapid Transit: An Overview" (PDF). Journal of Public Transportation. 5 (2).  Across Latitudes and Cultures Bus Rapid Transit An international Centre of Excellence for BRT development Transit Capacity and Quality of Service Manual Transportation Research Board BRT Technologies: Assisting Drivers Operating Buses on Road Shoulders. University of Minnesota Center for Transportation Studies, Department of Mechanical Engineering Country specific information Recapturing Global Leadership in Bus Rapid Transit – A Survey of Select U.S. Cities (available for download in pdf) Institute for Transportation & Development Policy (May 2011) Wang Fengwu and James Wang (April 2004). "BRT in China" (PDF). Public Transport International. Retrieved 10 March 2010.  Vincent, William; Lisa Callaghan Jerram (April 2008). "Bus Rapid Transit and Transit Oriented Development: Case Studies on Transit Oriented Development Around Bus Rapid Transit Systems in North America and Australia" (PDF). Washington, DC: Breakthrough Technologies Institute.  Bus Rapid Transit Shows Promise U.S. General Accounting Office The National BRT Institute (USA) Databases Global BRT Data Database of Bus Rapid Transit systems around the world v t e Bus rapid transit Vehicles Articulated bus Bi-articulated bus Guided Bus Guided Light Transit Trolleybus Systems Automatic vehicle location Bus priority Bus lane Passenger information system See also Light rail People mover Rubber-tyred metro Tram Translohr v t e Public transport Bus service Bus list Bus rapid transit Charabanc Express bus Guided bus Intercity bus driver Open top bus Public light bus Rail replacement bus Shuttle bus Transit bus Trolleybus Rail Cable car Commuter rail Funicular Heavy rail Heritage railway Heritage streetcar High-speed rail Horsecar Inter-city rail Interurban Light rail Medium-capacity rail system Monorail Rapid transit Regional rail Rubber-tyred metro Street running Tram Tram-train Vehicles for hire Auto rickshaw Boda-boda Cycle rickshaw Gondola Hackney carriage Limousine Motorcycle taxi Paratransit Personal rapid transit Pulled rickshaw Share taxi Taxicab Carpooling Car jockey Flexible carpooling Real-time ridesharing Slugging Vanpool Ship Cable ferry Ferry Hovercraft Hydrofoil Ocean liner Water taxi Other transport Aerial tramway Airline Airliner Bicycle-sharing Carsharing Elevator Escalator Gondola lift Horse-drawn vehicle Maglev Moving walkway People mover Trackless train Locations Airport Bus bulb Bus garage (bus depot) Bus lane Bus stand Bus station Bus stop Bus terminus Bus turnout (bus bay) Dry dock Hangar Harbor Interchange station Kassel kerb Layover Metro station Park and ride Port Queue jump Taxicab stand Train station Tram stop Transit mall Transport hub Ticketing and fares Automated fare collection Bus advertising Contract of carriage Dead mileage Exit fare Fare avoidance Fare evasion Farebox recovery ratio Free public transport Free travel pass Integrated ticketing Manual fare collection Money train Paid area Proof-of-payment Reduced fare program Smart cards Ticket machine Transfer Transit pass Routing Circle route Cross-city route Network length Non-revenue track Radial route Transport network Facilities Checked baggage First class Sleeper Standing passenger Travel class Scheduling Bus bunching Clock-face scheduling Headway On-time performance Public transport timetable Short turn Politics Airport security Rail subsidies Security Transit district Transit police Transit-oriented development (TOD) Transportation authority Other topics Boarding Crush load Destination sign Hail and ride Prohibited activities Request stop Passenger load factor Transit map v t e Buses List of buses Configuration Articulated bus Bi-articulated bus Bruck Coach Combination bus Double-decker bus High-floor Lowbridge double-deck bus Low-floor bus Midibus Minibus Multi-axle bus Open-top bus Rigid bus Single-decker bus Trailer bus Special uses Advert bus Airport bus Armoured bus Campaign bus Express bus Highway bus Mobile lounge Party bus Police bus School bus Shuttle bus Sleeper bus Transit bus Train replacement Training bus Tour bus Trolley-replica bus Technologies Bombardier Guided Light Transit Cutaway van chassis Dual-mode bus Electric bus Fuel cell bus Guided bus Gyrobus Hybrid electric bus Motor bus Online Electric Vehicle Transit Elevated Bus Trolleybus Solar bus Manufacturing Bus manufacturing Bus manufacturers List of trolleybus manufacturers Category: Buses   Portal: Buses Retrieved from "" Categories: Bus rapid transitBus transportPublic transport by modeSustainable transportTransportation planningSustainable urban planningTypes of bus serviceHidden categories: Pages with citations lacking titlesPages with citations having bare URLsAll articles with dead external linksArticles with dead external links from June 2016CS1 Spanish-language sources (es)Use dmy dates from December 2013Articles containing potentially dated statements from November 2016All articles containing potentially dated statementsArticles needing additional references from October 2014All articles needing additional referencesAll articles with unsourced statementsArticles with unsourced statements from November 2013Articles containing potentially dated statements from 2015Articles with unsourced statements from March 2013Articles with unsourced statements from October 2014Articles with unsourced statements from April 2015Articles with unsourced statements from June 2014Articles needing cleanup from April 2016All pages needing cleanupCleanup tagged articles with a reason field from April 2016Wikipedia pages needing cleanup from April 2016Pages using div col without cols and colwidth parameters

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Bus_Rapid_Transit - Photos and All Basic Informations

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Transitway (Ottawa)List Of Bus Rapid Transit SystemsEnlargeTransJakartaJakartaEnlargeEstação TuboCuritibaRede Integrada De TransportePublic Transport Bus ServicePublic TransportRoute CapacityOn-time PerformanceBus LaneBus PriorityIntersection (road)TrafficTerminal Dwell TimeFareRapid TransitRede Integrada De TransporteCuritibaTransMilenioBogotáColombiaLatin AmericaTransJakartaJakartaWikipedia:Citing SourcesWikipedia:VerifiabilityHelp:Introduction To Referencing With Wiki Markup/1Wikipedia:VerifiabilityHelp:Maintenance Template RemovalRapid TransitRight-of-way (transportation)HeadwayThe AmericasChinaIndiaEuropeIndonesiaAustraliaBritish IslesBus Rapid Transit CreepBRT StandardInstitute For Transportation And Development PolicyEnlargeRede Integrada De TransporteCuritibaRede Integrada De TransporteCuritibaBrazilJaime LernerPorto AlegreSão PauloCanadaOttawaOCTranspoLight Rail TransitUnited StatesPittsburghSouth BuswayMartin Luther King Jr. East BuswayTraffic Signal PreemptionHeadwayWest BuswayQuitoEcuadorQuito Trolleybus SystemWikipedia:Citation NeededTransMilenioBogotá, ColombiaWikipedia:Citation NeededTransJakartaJakartaIndonesiaRea VayaWikipedia:Citation NeededMasivo Integrado De OccidenteWikipedia:Citation NeededBRT StandardEnlargeTransJakartaTraffic CongestionEnlargeXiamenEnlargeNorthern Arizona UniversityFlagstaff, ArizonaUnited StatesTraffic CongestionRight-of-way (transportation)Xiamen BRTTransit MallBus PriorityEnlargeCultural Centre Busway StationBrisbaneAustraliaPlatform GapKassel CurbLow-floor BusEnlargeArticulated BusBi-articulated BusDouble-decker BusWikipedia:Citation NeededGuided BusPowertrain Control ModuleEnlargeTransMilenioBogotáLow-floor BusWikipedia:Citation NeededTransMilenioMasivo Integrado De OccidenteCaliMetrolineaBucaramangaMegabúsPereira, ColombiaJohannesburgRea VayaOttawaClevelandLos AngelesSan BernardinoWikipedia:Citation NeededTransit (app)MoovitWikipedia:VerifiabilityHelp:Introduction To Referencing With Wiki Markup/1Help:Maintenance 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(Istanbul)Standing PassengerMercedes-Benz CitaroMercedes-Benz CitaroPassengers Per Hour Per DirectionWikipedia:Citation NeededPassengers Per Hour Per DirectionBogotáTransMilenioGuangzhouGuangzhou Bus Rapid TransitCuritibaBrazilRede Integrada De TransporteMexico CityMexicoMexico City MetrobusWikipedia:Citation NeededWikipedia:Citation NeededBelo HorizonteSão PauloIstanbulMetrobus (Istanbul)New JerseyLincoln Tunnel XBLBrisbaneSouth East BuswayWikipedia:VerifiabilityHelp:Introduction To Referencing With Wiki Markup/1Help:Maintenance Template RemovalGrade-separatedEnlargeTraffic CongestionChang'an AvenueBeijingTraffic CongestionDwell Time (transportation)Wikipedia:Citation NeededNew York City34th Street (Manhattan)Select Bus ServiceReuben SmeedRoad PricingLondon Congestion ChargeWikipedia:VerifiabilityHelp:Introduction To Referencing With Wiki Markup/1Help:Maintenance Template RemovalEnlargeKesennuma LineGovernment Accountability OfficeTrolleybusDowntown Seattle Transit TunnelEnlargeVan HoolMetzNon-governmental OrganizationsRockefeller FoundationInstitute For Transportation And Development PolicyColombiaEnrique PenalosaVolvoElectric Multiple UnitRapid TransitLight RailDiesel FuelGasolineAir PollutionNoiseHybrid VehiclesBeijing BusTrolleybuses In QuitoOverhead LinesCompressed Natural GasRegenerative BrakingDelhiAspen, ColoradoBelfastWikipedia:CleanupWikipedia:Manual Of StyleBRT StandardHelp:Maintenance Template RemovalList Of Bus Rapid Transit SystemsList Of Bus Rapid Transit Systems In North AmericaEnlargeGuangzhou Bus Rapid TransitEnlargeRawalpindi-Islamabad MetrobusIslamabadPakistanEnlargeVijayawadaTransMilenioArticulatedBi-articulated BusSmart CardAhmedabad BRTSAhmedabadGujaratIndiaAhmedabad Municipal Transport ServiceRawalpindi-Islamabad MetrobusIslamabadRawalpindiPakistanLahoreMetrobus (Lahore)PakistanFerozepur RoadModel Town, LahoreBadshahi MosqueMozang ChungiGaddafi StadiumLahore Transport CompanyPortal:Sustainable DevelopmentPortal:BusesBus Rapid Transit CreepExpress Bus ServiceGuided BuswayList Of Bus Rapid Transit SystemsQuality Bus CorridorQueue JumpStraddling BusSustainable TransportationTraffic Engineering (transportation)Transit BusTrolleybusEMBARQ - The WRI Center For Sustainable TransportInstitute For Transportation And Development PolicyInternational Standard Book NumberSpecial:BookSources/1-55963-591-6Help:CS1 ErrorsPennsylvania Department Of TransportationInstitute For Transportation And Development PolicyInstitute For Transportation And Development PolicyAmerican Public Transit AssociationWikipedia:Link RotInstitute For Transportation And Development PolicyInstitute For Transportation And Development PolicyTemplate:Bus Rapid TransitTemplate Talk:Bus Rapid TransitArticulated BusBi-articulated BusGuided BusBombardier Guided Light TransitTrolleybusAutomatic Vehicle LocationBus PriorityBus LanePassenger Information SystemLight RailPeople MoverRubber-tyred MetroTramTranslohrTemplate:Public TransportTemplate Talk:Public TransportPublic TransportPublic Transport Bus ServiceBusList Of BusesCharabancExpress Bus ServiceGuided BusIntercity Bus ServiceIntercity Bus DriverOpen Top BusPublic Light BusRail Replacement Bus ServiceShuttle Bus ServiceTransit BusTrolleybusRail TransportCable Car (railway)Commuter RailFunicularHeavy RailHeritage RailwayHeritage StreetcarHigh-speed RailHorsecarInter-city RailInterurbanLight RailMedium-capacity Rail SystemMonorailRapid TransitRegional RailRubber-tyred MetroStreet RunningTramTram-trainVehicle For HireAuto RickshawBoda-bodaCycle RickshawGondolaHackney CarriageLimousineMotorcycle TaxiParatransitPersonal Rapid TransitPulled RickshawShare TaxiTaxicabCarpoolCar JockeyFlexible CarpoolingReal-time RidesharingSluggingVanpoolShip TransportCable FerryFerryHovercraftHydrofoilOcean LinerWater TaxiAerial TramwayAirlineAirlinerBicycle-sharing SystemCarsharingElevatorEscalatorGondola LiftHorse-drawn VehicleMaglevMoving WalkwayPeople MoverTrackless TrainAirportBus BulbBus GarageBus LaneBus StandBus StationBus StopBus TerminusBus TurnoutDry DockHangarHarborInterchange StationKassel KerbLayoverMetro StationPark And RidePortQueue JumpTaxicab StandTrain StationTram StopTransit MallTransport HubTicket (admission)FareAutomated Fare CollectionBus AdvertisingContract Of CarriageDead MileageExit FareFare AvoidanceFare EvasionFarebox Recovery RatioFree Public TransportFree Travel PassIntegrated TicketingManual Fare CollectionMoney TrainPaid AreaProof-of-paymentReduced Fare ProgramList Of Smart CardsTicket MachineTransfer (public Transit)Transit PassCircle RouteCross-city RouteNetwork Length (transport)Non-revenue TrackRadial RouteTransport NetworkChecked BaggageList Of First Class Commuter Transport ServicesSleeping CarStanding PassengerTravel ClassBus BunchingClock-face SchedulingHeadwayOn-time PerformancePublic Transport TimetableShort TurnAirport SecurityRail SubsidiesPublic Transport SecurityTransit DistrictTransit PoliceTransit-oriented DevelopmentTransportation AuthorityBoarding (transport)Crush LoadDestination SignHail And RideProhibited Activities On Public TransportRequest StopPassenger Load FactorTransit MapTemplate:BusesTemplate Talk:BusesBusList Of BusesArticulated BusBi-articulated BusBruck (vehicle)Coach (bus)Combination BusDouble-decker BusHigh-floorLowbridge Double-deck BusLow-floor BusMidibusMinibusMulti-axle BusOpen Top BusRigid BusSingle-deck BusTrailer BusBus AdvertisingAirport BusArmoured BusCampaign BusExpress Bus ServiceCoach (bus)Mobile LoungeParty BusPolice BusSchool BusShuttle Bus ServiceSleeper BusTransit BusTrain-replacement Bus ServiceTraining BusTour Bus ServiceTourist TrolleyBombardier Guided Light TransitCutaway Van ChassisDual-mode BusElectric BusFuel Cell BusGuided BusGyrobusHybrid Electric BusMotor BusOnline Electric VehicleTransit Elevated BusTrolleybusSolar BusBus ManufacturingCategory:Bus ManufacturersList Of Trolleybus ManufacturersCategory:BusesPortal:BusesHelp:CategoryCategory:Bus Rapid TransitCategory:Bus 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