PUBLISHER: ResearchInChina | PRODUCT CODE: 1220874
PUBLISHER: ResearchInChina | PRODUCT CODE: 1220874
Autonomous shuttles are roughly categorized into minibuses and robobuses. Minibuses, namely micro-circulation shuttle buses, mostly work in airports, parks, scenic spots, campuses, communities and other scenarios at speeds of 25-45km/h. Typical minibuses are offered by FAW Hongqi, Baidu Apollo and UISEE.
Robobuses are autonomous minibuses running at 40-60 km/h under the control of software. They are often seen in open scenarios such as transportation hubs and urban trunk roads, and provide urban public transport services. Representative robobuses include Qcraft ONE and MOGO BUS M2.
In the arena of shuttle buses, main players embrace OEMs, auto parts companies and autonomous driving solution providers, among which L4 autonomous driving technology providers perform stunningly. For example, the robobus co-built by Shanghai Space and PIX Moving was delivered offline in March 2022, and officially began to provide short-distance shuttle services between Wangjiazhuang Subway Station and Xiantao Big Data Valley, Yubei District, Chongqing in June 2022. In July 2022, the driverless buses from Idriverplus landed in Beijing Dongsheng Science and Technology Park to start the normal operation and serve commuters in the park. In September 2022, MOGO officially released the autonomous OEM production buses - MOGO BUS M1 (autonomous minibus) and MOGO BUS M2 (autonomous bus), both equipped with the "vehicle-road-cloud integration" system.
As well robotaxises that adopt L4 technology, autonomous shuttles boast sensors such as LiDAR, radar and cameras, and combine cloud software and sensors to enable vehicle positioning, environmental perception, path planning & decision, and vehicle control & actuation. At present, many L4 technical solution providers like QCraft, UISEE, MOGO, WeRide and Baidu Apollo have laid out technology routes for both robotaxis and robobuses.
At present, autonomous shuttles are running from closed and semi-closed designated areas (parks, scenic spots, factories, communities, campuses, airports, etc.) to urban public roads as subway shuttle buses, urban microcirculation buses, and autonomous buses for ride-hailing services.
Japan, the United States and South Korea among other foreign countries have introduced policies to encourage the commercial operation of autonomous vehicles like autonomous shuttles.
In China, Beijing, Shenzhen and other cities have standardized autonomous shuttles in terms of product standards and administration, setting an example for the development of the industry.
The construction of smart roads is the premise for operating autonomous shuttles. In particular, the planning of smart bus lines in various urban demonstration areas has favored the application of robobuses. So far, Beijing, Xiong'an New Area, Guangzhou, Ezhou, Zibo, Changsha, Wuxi, Zhengzhou, Chongqing, Hainan and the like have taken the lead in introducing autonomous shuttles on the basis of smart roads.
As of September 2022, Wuhan Economic & Technological Development Zone had opened 321km test roads in total for intelligent connected vehicles, of which 106km is fully covered by 5G and CVIS. It had deployed more than 1,800 intelligent roadside units such as cameras, LiDARs, radars and edge computing servers at 96 smart intersections to support real-time information exchange between vehicles, between vehicles and roads, between vehicles and the Internet. Among the autonomous shuttles landing in Wuhan Economic & Technological Development Zone, more than 30 Sharing-VANs from Dongfeng Yuexiang have come into normal operation, travelling a total of over 209,000 kilometers.
Guangzhou has opened a total of 353 test sections for intelligent connected vehicles, with a cumulative one-way mileage of 654.451 kilometers and a two-way mileage of 1,308.902 kilometers. From August 2022 to December 2023, Guangzhou starts an autonomous driving pilot project for urban mobility, and introduces 50 autonomous buses from different companies on the loop lines around Canton Tower and Guangzhou International Bio Island, providing at least 1 million rides for passengers.
Accompanied by the construction and upgrading of smart roads as well as the promotion of seamless mobility services, autonomous shuttles and robotaxi will be integrated into intelligent city transportation systems together to offer diversified smart mobility services.
Autonomous shuttles are a solution to "first-mile and last-mile" mobility. As autonomous shuttles penetrate into urban communities, subway stations, etc., how to activate the "peripheral nerves" of urban traffic on large scale is one of the issues that need urgent consideration in urban governance.
For seamless mobility services, some companies are exploring new business models.
For example, Dongfeng Yuexiang's S-PRT (Sharing-Personal Rapid Transit) is a shared novel autonomous public transportation system composed of fully autonomous small vehicles and dedicated road networks. As a rapid nonstop public transportation tool with low construction cost (one-fifteenth of subways), it can transport an average of 10,000 to 30,000 people per hour at the average speed of 40-60km/h, and allows users to reserve without needing to wait. Dongfeng Yuexiang aims for test and demonstration of an operating mileage of more than 10 million kilometers in the Xiong'an New Area within three years, and promotes the "Xiong'an Solution" with partners in no less than 30 cities.
At the beginning of 2023, PIX Moving signed a strategic agreement with Common Rail (Hangzhou) Intelligent Industry Development Co., Ltd. on joint construction of a common rail project in Xiaoshan, Hangzhou. They will provide autonomous shuttles based on PIX's chassis technology to solve the problems of large-scale commercialization of autonomous driving technology and urban traffic congestion.