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Ultra (personal rapid transit)

Coordinates: 51°28′45″N 0°29′16″W / 51.479287°N 0.487687°W / 51.479287; -0.487687
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An Ultra Pod at Heathrow Airport

Ultra (a term formed from the first letters of the words in the phrase "urban light transit") is a personal rapid transit podcar system developed by the British engineering company Ultra Global PRT (formerly Advanced Transport Systems).[1][2]

The only publicly operating Ultra pod system opened at Heathrow Airport in London in May 2011 and is referred to as the Heathrow pod system. It consists of 21 vehicles operating on a 3.9-kilometre (2.4 mi) route connecting Terminal 5 to its business passenger car park, just north of the airport.[3]

To reduce construction costs, Ultra largely uses off-the-shelf technologies, such as rubber tyres running on an open guideway. The approach has resulted in a system that Ultra believes to be economical: the company reports that the total cost (vehicles, infrastructure, and control systems) is between £3 million and £5 million per kilometre (0.62 miles) of guideway.[4] By contrast, the Heathrow deployment cost £30 million for 3.8 kilometres (2.4 mi) of guideway.

Inception

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The system was originally designed by Martin Lowson and his design team; Lowson had put £10 million into the project. He formed Advanced Transport Systems (ATS) in Cardiff to develop the system, and the site was later the location of its test track. Ultra has twice been awarded funding from the UK National Endowment for Science, Technology and the Arts (NESTA).[5] Much of the original research on Ultra was done by the Aerospace Engineering department at the University of Bristol in the 1990s. Recently, the company renamed itself to "Ultra PRT Limited" because of its primary business, and it moved its corporate headquarters to Bristol.

Background

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Past PRT designs

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Personal rapid transit was originally developed in the 1950s as a response to the need to move commuters in areas with densities too low to pay for the construction of a conventional metro system. Using automated guidance allowed headways to be shortened, often to a few seconds or even fractions of a second. That increases the route capacity, allowing the vehicles to become much smaller but still carry the same passenger load in a given time. Smaller vehicles in turn would require simpler "tracks" and smaller stations, which lowered capital costs. Smaller towns and cities that could never hope to fund a conventional mass transit system could afford PRT, and the concept generated intense interest.

Numerous PRT systems were designed in the late 1960s and early 1970s, many as a result of the publication of the highly-influential HUD reports. In general, the systems intended to use small four-to-six-passenger vehicles, but most evolved to larger designs over time (see Alden staRRcar). As they did so, vehicles and tracks grew heavier, capital costs rose, and interest dropped. In the end, only one production PRT system was built, the Morgantown, W.Va PRT in 1975, a government-funded demonstration system to prove the concept. Originally derided as a white elephant, the Morgantown system has since proven itself both reliable and relatively low cost.[6]

Ultra

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In the time since the Morgantown system was installed in 1975, general technological improvements have led to a number of ways to lower the cost of a PRT system. One of the simplest but most profound way was the development of more efficient, reliable and quick-charging battery systems. Older PRT systems used electricity fed from track-side conductors like a conventional metro, but they can be eliminated in favour of batteries that quickly charge up at stations or small charging strips along the route. Another change is the moving of the guidance logic from centralised computers to on-board systems of dramatically improved performance, allowing the vehicles to steer and switch themselves between routes on their own. That eliminates the need for a track-mounted guiderail able to steer the vehicle (see, for instance, the Ford ACT). Together, the changes mean the vehicle no longer needs strong mechanical contact with the guideway, which can be dramatically reduced in complexity.

In the case of Ultra, the guideway can consist of as little as two parallel rows of concrete barriers, similar to the bumpers found in a car park. The vehicle uses them for fine guidance only; it is able to steer itself around curves by following the barriers passively. No "switching" is required on the track, as the vehicles can make their own turns between routes based on an internal map. Since the vehicles are battery-powered, there is no need for electrification along the track: the vehicles recharge when they are parked at the stations. As a result, the trackway is similar in complexity to a conventional road surface, a light-duty one as the vehicles will not vary in weight to the extent of a tractor-trailer. Even the stations are greatly simplified; in the case of ground-level tracks, the lack of any substantial infrastructure means that the vehicles can stop at any kerb. Stations at Heathrow resemble a car park with diagonal slots, with a rain shield similar to the awnings at a petrol station.

As part of the development of the first commercial system at Heathrow Airport, in 2005 the owner of the airport, BAA Airports Ltd, purchased 25% of the company.[7] Following its successful launch, there are now plans to extend it to the rest of the airport and even to the nearest town of Staines-upon-Thames, which is home to many of the airport's staff.[8]

Description

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Vehicles

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The interior of a Heathrow Pod

At 3.7 m (12 ft 2 in) (L) x 1.5 m (4 ft 11 in) (w) x 1.8 m (5 ft 11 in) (h) and a gross weight of 1300kg, the electric-powered vehicles have four seats, can carry a 1,100 pounds (500 kg) payload and are designed to travel at 40 kilometres per hour (25 mph) at gradients of up to 20%, but the company has suggested limiting operating routes to 10% gradients to improve passenger comfort. The vehicles can accommodate wheelchairs, shopping trolleys and other luggage, in addition to the passengers.

Each pod is powered by four car batteries,[9] giving an average 2 kW and adding 8% to the gross weight of the vehicle. Other specifications include a 5 metres (16 ft) turning radius, an energy requirement of 0.55 MJ per passenger-kilometre, and running noise levels of 35 dBA at 21.6 kilometres per hour (13.4 mph), as measured at a distance of 10 metres (33 ft).

The company has also developed designs for a freight version. It has the same external appearance as the passenger version, but its entire internal space is adapted to host a cargo capsule. They can be valuable in airport environments, where the network can be used to haul small freight.

Control technology

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Heathrow pods at Terminal 5

According to Ultra, its control system has three separate levels of operation, with the following features:

Central synchronous control

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  • Immediately allocates the passenger a vehicle
  • Instructs the vehicle to follow a set path and timing to reach the destination
  • Ensures that there is no interaction between vehicles
  • Manages empty vehicles

Autonomous vehicle control

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  • Receives instruction from central synchronous control
  • Navigates the pod to its destination by continuously using lasers to verify vehicle position and heading

Automatic vehicle protection system

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  • Based on fixed block signalling systems like railways
  • Inductive loops set into the guideway interact with sensors on the vehicle
  • Each vehicle must be receiving a constant "proceed" signal to move
  • The signal is inhibited in an area directly behind each pod for automatically halting others that are approaching; that provides a failsafe system that is independent of other layers of control

Test track

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The Ultra PRT test track in Cardiff

The 1 kilometre (0.62 mi) test track in Cardiff was launched in January 2002. The $4 million funding for the test track came from various sources in the United Kingdom government. One electric vehicle was demonstrated running at speeds up to 25 miles per hour (40 km/h). Accurate stopping was demonstrated, and the vehicle ascended and descended a steep gradient. A single, rudimentary ground level station was shown.

Most of the test track guideway is at ground level. It is stated that in a commercial application, 90% or more of the guideway might have to be elevated. The elevated guideway is about 1.5 metres (4 ft 11 in) wide. According to a study of a hypothetical city-based installation, consisting of 19.8 kilometres (12.3 mi) of guideway (89% elevated), the total cost of track and associated civil engineering works is estimated to be £2.9 million per kilometre ($8.7 million/mi). Per-station costs were estimated to be £0.48 million ($0.89 million). Vehicle costs were not considered in the study.[10]

Deployments

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Heathrow Terminal 5

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Heathrow Pod
Operation
Number of vehicles22
Technical
System length3.8 km (2.4 mi)
Heathrow Pod map

Disabled access All stations have step-free access.

Parking B
depot
Parking A
Pod wash
to/from Terminal 5
Turn-around at Parking B

The first system began passenger trials at Heathrow Terminal 5, in October 2010,[4] and it opened for full passenger service 22 hours a day, 7 days a week, in May 2011. Operational statistics in May 2012 demonstrate more than 99% reliability and an average passenger wait time over the year of 10 seconds. Ultra has achieved a number of awards from the London Transport Awards[11][12] and the British Parking Awards.[13]

It connects Heathrow Terminal 5 to its business passenger car park, just north of the airport, by a 3.9-kilometre (2.4 mi) line built on behalf of Heathrow Airport Holdings, the airport's owner and operator.[14][15] The system cost £30 million to develop.[16]

Construction of the guideway was completed in October 2008. The line is largely elevated, but it includes a ground-level section, where the route passes under the approach to the airport's northern runway. The three stations, with two pod stations and one station within the car park at Terminal 5, were designed by Gebler Tooth Architects, along with the touchscreen interface for passengers to select their destination on their journey. Following various trials, including some that used airport staff as test passengers, the line opened to the public in May 2011 as a passenger trial.[17][18][19] Subsequently, it was made fully operational, and the bus service between the business car park and Terminal 5 was discontinued.[20] The pods use 50% less energy than a bus and run 22 h a day. Unlike nearly all UK road and rail traffic, which drives on the left, the PRT system drives on the right. As of May 2013, the system passed the 600,000th-passenger milestone.[21]

The developers expected that users will wait an average of around 12 seconds, with 95% of passengers waiting for less than 1 minute for their private pod, which will travel at up to 40 kilometres per hour (25 mph).[22]

As of May 2018 the 21 pods carry upwards of 1,000 travellers per day.[23]

Chengdu Tianfu International Airport, China (awaiting commissioning)

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In 2018, it was announced that a PRT system would be installed at the new Chengdu Tianfu International Airport in Chengdu. The system will include 6 miles (9.7 km) of guideway, 4 stations, 22 pods and will connect a remote parking area to the two terminal buildings. It is supplied by Ultra-MTS. The airport opened on 27 June 2021. As of August 2021 there are no reports the PRT has commenced operation.[24]

Proposals

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Jewar International Airport, India (proposed)

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In March 2021, it was announced that a PRT system will be installed from the proposed film city in Noida to the upcoming Jewar International Airport in Jewar.[citation needed]

Ajman City, United Arab Emirates (proposed, signed contract)

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In July 2017 Ultra-Fairwood (a joint venture)[25] announced that it had signed a contract with the Government of Ajman for the construction of a system in Ajman City. The proposed network will include 120 kilometres (75 mi) of track overall, including a total route length of 76 kilometres (47 mi), covering 115 stations. These will be served by a fleet of 1,745 vehicles, offering an expected system capacity of 1.64 million passenger trips per day. The system will comprise two overlapping networks. The first of which is a PRT system with six seat vehicles running on elevated guideways with elevated stations. The second is a Group Rapid Transit (GRT) with thirty seat vehicles running mainly at grade with ground level stations. The vehicles will be produced at a factory in India. The total value of the project is US$881 million with the system cost, supplied by Ultra-Fairwood worth US$723 million.[26]

Gurugram, India (proposal)

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In March 2010, the government of Haryana said that it was looking into a proposal to deploy Ultra for rapid commuter transport in the city of Gurugram. The city is looking at over 10 to 12 individual routes to cover a total distance of approximately 100 kilometres (62 mi).[27]

In July 2012, it was reported that the Chief Minister of Haryana had ordered officials to "complete all the necessary formalities in the next three months and begin work on the project".[28] In October 2016, Indian Transport Minister Nitin Gadkari said four competing technical proposals had been received, and the system was still subject to approval and financial bidding.[29]

In January 2017, ULTra was one of three companies – along with SkyTran and Metrino – approved to build a test track evaluate PRT technology for potential deployment in Gurugram and Bengaluru.[30] The companies will need to fund the construction themselves. As of August 2017, Metrino has withdrawn from the competition and construction has not commenced, but the trial is still set to proceed.[31]

Heathrow New PRT (deferred proposal)

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In May 2013, Heathrow Airport Limited announced, as part of its draft five-year (2014–2019) master plan that it intended to use the PRT system to connect Terminal 2 and Terminal 3 to their respective business car parks.[21] The proposal was not included in the final plan because of spending priority being given to other capital projects, and has been deferred.[32]

There were also plans to extend the PRT throughout the airport, and to nearby hotels by using 400 pods.[15]

Amritsar, India (failed proposal)

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In December 2011, Ultra-Fairwood (a joint venture) announced a plan to build an 8-kilometre (5.0 mi) elevated guideway in a Y-shaped network in Amritsar, India, serving seven stations, with over 200 pods. The network would connect the railway station, the bus station and the Golden Temple. Initial projections were for up to 100,000 passengers per day from 4:00 a.m. to midnight that would carry 35% of the visitors to the Golden Temple. The system was projected to be completed by 2014 with private financing on a 'Build, Own, Operate, Transfer' (BOOT) basis.[33]

The unsolicited bid was announced by the local government as set to proceed, and a foundation stone was laid. The proposed route received objections from some businesses, particularly in the Hall Bazaar[34] and the route was then changed, with the Katra Jaimal Singh area dropped from the line, between the railway station and the temple.[35][36]

In March 2013, the government of Punjab announced that it would open the project to competitive tendering with the Swiss challenge method. Ultra-Fairwood was one of three suppliers that was expected to be bidding.[37] Reports indicate the government is due to finalise the bid by the end of June 2013.[38]

In June 2014, it was scrapped to be replaced by a cheaper rapid bus transit system.[39]

References

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  1. ^ "Company Information". Ultra corporate website. Archived from the original on 6 March 2012. Retrieved 18 May 2013.
  2. ^ "ULTra ™ (Urban Light Transit)" (PDF). Corporate brochure. 1 June 2009. Archived from the original (PDF) on 11 July 2012. Retrieved 18 May 2013.
  3. ^ "Heathrow T5". Ultra Global website. 5 September 2011. Retrieved 18 May 2013.
  4. ^ a b "ULTra FAQ" Archived 11 October 2007 at the Wayback Machine, ULTra PRT site
  5. ^ "Martin Lowson, Advanced Transport Systems Ltd awardee profile" Archived 26 September 2006 at the Wayback Machine NESTA milestones
  6. ^ Hamill, Sean D. (11 June 2007). "City's White Elephant Now Looks Like a Transit Workhorse". The New York Times.
  7. ^ "Heathrow Tests Personal Rapid Transit System" (PDF). Archived from the original (PDF) on 4 March 2016.
  8. ^ "News". Airport-world.com. Archived from the original on 5 August 2012. Retrieved 12 July 2013.
  9. ^ "ULTra PRT | Fully Charged". 1 August 2012. Retrieved 12 July 2013 – via YouTube.
  10. ^ A.D. Kerr, P.A. James (Ove Arup and Partners), C.V. Cook, A.P. Craig (ATS Ltd.) (May 2005), Infrastructure Cost Comparisons for PRT and APM, ASCE 10th International Conference on Automated People Movers{{citation}}: CS1 maint: multiple names: authors list (link)
  11. ^ "Heathrow pod recognised at London Transport Awards". Ultra. 22 March 2012. Retrieved 19 December 2015.
  12. ^ "Inspiring Transport Projects Rewarded at London Transport Awards Ceremony". Transport Times. Retrieved 19 December 2015.
  13. ^ "British Parking Awards 2012". British Parking Awards. Retrieved 19 December 2015.
  14. ^ Rodgers, Lucy (18 December 2007). "Are driverless pods the future?". BBC News. Retrieved 18 December 2007.
  15. ^ a b Dodson, Sean (11 October 2007). "Welcome to the transport of tomorrow". The Guardian. Retrieved 13 June 2011.
  16. ^ Hicks, Melanie (12 September 2011). "Heathrow: Driverless ULTra Pods Replace Buses at Terminal 5". Huffington Post.
  17. ^ "Heathrow rapid transit guideway construction completed". Transport Briefing. 23 October 2008. Retrieved 24 October 2008.
  18. ^ "Videos". ULTra PRT. Archived from the original on 22 June 2011. Retrieved 13 June 2011.
  19. ^ "Heathrow Pod Passenger Trials Begin". ULTra PRT. Archived from the original on 13 July 2011. Retrieved 13 June 2011.
  20. ^ "Taking a ride on Heathrow's ULTra Personal Rapid Transit System".
  21. ^ a b "Heathrow announces plans for an additional Personal Rapid Transit (PRT) system". 13 February 2013.
  22. ^ "Heathrow Airport Parking Options". Cheap Airport Parking. Retrieved 1 September 2022.
  23. ^ Phenix, Matthew (10 May 2018). "Curious About Driverless Cars? Make This Easy Heathrow Detour | AFAR". afar.com. Retrieved 17 July 2019.
  24. ^ "Chengdu Tianfu International Airport PRT System". ATRA Pulse. ATRA. Retrieved 10 June 2021.
  25. ^ "Fairwood joins hands with UK's Ultra for urban mobility". The Economic Times. Retrieved 19 July 2017.
  26. ^ "Ultra Fairwood to build the world's largest autonomous vehicle transportation system in the UAE". Traffic Technology Today.com. 4 July 2017. Retrieved 20 January 2019.
  27. ^ Hitender Rao, "After Heathrow, Pod Cars may well hit the Millennium City" Archived 22 January 2011 at the Wayback Machine, Hindustan Times, 18 February 2010
  28. ^ "CM puts pod taxi project on fast track". Archived from the original on 23 October 2012.
  29. ^ "Metrino Driverless Pod Taxis To Come Up in Delhi-Haryana: Government". NDTV. Retrieved 5 July 2017.
  30. ^ "Global companies get go-ahead for pod taxi experiments in India". Live Mint. 31 January 2017. Retrieved 1 September 2017.
  31. ^ "BBMP FINDS A POD-HOLE, NEEDS RS 10 LAKH TO FIX IT". Bangalore Mirror. 24 August 2017. Retrieved 1 September 2017.
  32. ^ "My Pods". Futureairports. 2014 (1): 61. Retrieved 8 September 2014.
  33. ^ "Amritsar, India". Ultra Global website. 22 December 2011. Retrieved 18 May 2013.
  34. ^ "20-feet magnetic track to throw our business off track, fear traders".
  35. ^ "Amritsar PRTS route changed again, Municipal Commissioner says Katra Jaimal Singh area dropped from plan on residents' demand".
  36. ^ "Holy city's PRTS project inching towards reality".
  37. ^ "Amritsar all set to get rapid 'pod' cars". Archived from the original on 29 June 2013. Retrieved 19 June 2013.
  38. ^ "Sukhbir reviews Amritsar development projects". Archived from the original on 21 June 2013.
  39. ^ "Amritsar BRTS to get operational by December | Chandigarh News". The Times of India. 22 March 2015.

Sources

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  • Isaiah Litvak and Christopher Maule, "The Light-Rapid Comfortable (LRC) Train and the Intermediate Capacity Transit System (ICTS): Two Case Studies of Innovation in the Urban Transportation Equipment Manufacturing Industry", University of Toronto/York University Joint Program in Transportation, 1982
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51°28′45″N 0°29′16″W / 51.479287°N 0.487687°W / 51.479287; -0.487687