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Regulation of self-driving cars , autonomous vehicles and automated driving system is an increasingly relevant topic in the automotive industry strongly related to the success of the actual technology. Multiple countries have passed local legislation and agreed on standards for the introduction of autonomous cars.
Autonomous vehicle regulation may also apply to robotaxi and self-driving truck depending upon local legislation.
Market | Main regulation wording | Language |
---|---|---|
United States federal policies | Federal Automated Vehicles Policy (USDOT) Occupant Protection for Automated Driving System (NHTSA) | American English |
Nevada | 2022 Nevada Revised Statutes Chapter 482A - Autonomous Vehicles | American English |
Arizona | Executive Order 2015-09: Self-driving Vehicle Testing and Pilotin in the state of Arizona | American English |
North America | "Guidelines for Testing Automated Driving Systems in Canada" Transport Canada | English |
United Kingdom law | The Automated and Electric Vehicles Act 2018, By self-driving vehicles we mean those listed as automated vehicles, The Highway Code | British English |
European union law | type-approval of the automated driving system (ADS) of fully automated vehicles | British English / Euro-English |
France | driver delegation (translation) | French |
Germany | Act on Autonomous Driving (translation) | German |
Japan | Level 3 self driving function of Autonomous Driving System (ADS) (translation) | Japanese |
UNECE WP.29 GRVA | Working Party on Automated/Autonomous and Connected Vehicles | International English |
Self-driving car liability is a developing area of law and policy that will determine who is liable when an automated car causes physical damage to persons, or breaks road rules. [1] [2] When automated cars shift the control of driving from humans to automated car technology the driver will need to consent to share operational responsibility [3] which will require a legal framework. There may be a need for existing liability laws to evolve to fairly identify the parties responsible for damage and injury, and to address the potential for conflicts of interest between human occupants, system operators, insurers, and the public purse. [4]
Autonomous driving technologies arrived on the OECD market with an expected accelerated future deployment. Regulations aim compatibility of these automated vehicles with safety, legal responsibility and privacy public's expectations [5]
First national regulations address various topics:
Several questions were raised by automated vehicles including responsibility, safety standards, software reliability, environmental performance and cybersecurity. Some in Europe consider a balanced regulatory framework is a prerequisite to the mass introduction of these automated vehicles on the road. [7]
One of the aim of the regulation of automated driving is to ensure that diverse vehicles work in their operating constraints and that drivers understand the vehicle capabilities for its safe usage. [8]
In Australia, laws were designed for vehicles with human drivers, with more than 700 barriers to automated vehicles in state, territory and Commonwealth laws. Without new regulation Australia would not benefit from automated vehicles. [9] In Australia, the goal is to codify the framework into statute by 2026 via the Automated Vehicle Safety Law (AVSL) focused in three topics: first-supply, in-service, and state/territory road transport. [6]
China's main goals is linked to the Made in China 2035, an industrial policy framework.Level 4 AVs for consumer purchase by 2025. [6]
In France, the Badinter law (1085) defines the driver as driving and at fault in an accident, while with automated vehicle this is questioned. For this reason a new legal framework passengers of vehicle with automated features would not be held criminally liable for accidents, but may be responsible for monetary fines under civil law, unless the driver chooses to engage automated driving when it is not adequate. [6]
In Germany, the law for level 4 defines the requirements and specifications for approving specific automated vehicles for public road use, and the requirements for automated vehicles registration. The law also define obligations of the parties (manufacturer, owner, operator). [6]
Japan law for level 4 defines for penalties for businesses including the revocation of permits. It also allows delivery robots up to 6 km/h to travel on sidewalks. [6]
In the United Kingdom, the Automated and Electric Vehicles Act 2018 establish a framework related to liability between insurers, owners, and operators of automated vehicles. United Kingdom government promotes the testing of automated vehicles on public roads, without authorizing widespread introduction of automated vehicles. The Law Commissions considers that an ADS feature is self-driving only if a human is not required to perform any monitoring task until a transition demand. [6]
International agreements are agreement in which several states are parties. Two international agreements addressing automated vehicles are the Conventions on Road Traffic and the amendments to 1958 UNECE agreement, where a number of European states are member.
The Geneva Convention on Road Traffic is subscribed to by over 101 countries worldwide, and requires the driver to be 18 years old.
The 1968 Vienna Convention on Road Traffic, subscribed to by 83 countries worldwide, establishes principles to govern traffic laws. One of the fundamental principles of the convention had been the concept that a driver is always fully in control and responsible for the behaviour of a vehicle in traffic. [10] In 2016, a reform of the convention opened the possibility of automated features in vehicles within the Vienna Convention's ratified countries. [11]
In January 2021, a proposal of amendment to Article 1 and a new Article 34 bis to the 1968 Vienna Convention on Road Traffic was transmitted for a one-year period for acceptance. [12] By 14 January 2022, the amendment to the convention was accepted, entering into force on 14 July 2022. [13]
In February 2018, UNECE's Inland Transport Committee (ITC) acknowledged the importance of the World Forum for Harmonization of Vehicle Regulations (WP.29) activities related to automated, autonomous and connected vehicles, and requested WP.29 to consider establishing a dedicated Working Party. At its June 2018 session WP.29 decided to convert the Working Party on Brakes and Running Gear (GRRF) into a new Working Party on Automated/Autonomous and Connected Vehicles (GRVA). [14] The group deals with safety provisions related to the dynamics of vehicles (braking, steering), Advanced Driver Assistance Systems, Automated Driving Systems and well as cyber security provisions. [14]
In June 2020, the WP.29 virtual meeting approved reports from GRVA about its fifth session on "automated/autonomous and connected vehicles" and sixth session on "cyber security and software updates". [15] The new Regulation on cyber security has been allocated as Regulation 155 and the new Regulation on software updates has been allocated as Regulation 156. In this way, UN regulation on SAE Level 3 was established. [16]
In March 2021, the following UNECE regulations were published:
In June 2022, the 187th session of WP.29 was held, [20] and several amendments on GRVA regulations were agreed to. [21] An amendment to UN Regulation Number 157 updated the regulations regarding Automated Lane Keeping Systems (ALKS), increasing the allowed speed limit of 60 km/h to 130 km/h, and added rules for automated lane change functions in passenger vehicles. [22] [23]
Japan is a non-signatory country to the Vienna Convention. In 2019, Japan amended two laws, "Road Traffic Act" and "Road Transport Vehicle Act", [24] and they came into effect in April 2020. In the former act, Level 3 self driving cars became allowed on public roads. [25] In the latter act, process to designate types for safety certification on Level 3 self driving function of Autonomous Driving System (ADS) and the certification process for the asserted type were legally defined. [26] Through the amendment process, the achievements from the national project "SIP-adus" led by Cabinet Office since 2014 were fully considered and accepted. [27]
In May 2020, "The Road Act" was also amended to include definition of automatic operation control equipment in infrastructure, and came into effect. [28] In July 2020, the next stage national level roadmap plan was officially issued which had considered social deployment and acceptability of Level 4. [29] [30] At the end of 2020, Ministry of Land, Infrastructure, Transport and Tourism (MLIT) amended its "Safety Regulation for Road Transport Vehicle" to reflect the finalized UNECE WP.29 GRVA's regulations consistently without delay. [31] [32] [33]
In April 2021, National Police Agency (NPA) published its expert committee's report of FY 2020 on summary of issues in research to realize Level 4 mobility services, including required legal amendment issues. [34] [35] [36] During the summer of 2021, Ministry of Economy, Trade and Industry (METI) prepared with MLIT to launch a project "RoAD to the L4" to cover R&D with social deployment to realize acceptable Level 4 mobility service, and updated its public information in September. As a part of this project, civil law liability problem reflecting changed roles will be clarified. [37] [38]
About misleading representation in marketing, Article 5 of "Act against Unjustifiable Premiums and Misleading Representations" is applied. [39] [40] [41]
At the end of 2021, NPA proposed an amendment bill on "Road Traffic Act" to include approving scheme for Level 4 services. [42] In March 2022, the Japanese government adopted the bill to amend the act. [43] In April 2022, the bill was deliberated at the ordinary National Diet session and passed. Under the amended act, a license system was to be introduced for operators of transport services using unmanned Level 4 vehicles, which requires no driver in the remotely monitored vehicle within a limited area. Such vehicles are expected to be used for residents in depopulated areas. [44] In October 2022, NPA unveiled their plan to make the amended "Road Traffic Act" into effect in April 2023, [45] and on 20 December 2022, Japan's cabinet decided to allow Level 4 self-driving cars to be used for transit and delivery services from 1 April 2023. [46] [47]
On 1 April 2023, the amended "Road Traffic Act" was enforced. The government has a target of realizing Level 4 transport services in at least 40 locations by fiscal 2025. [48]
In the United States, a non-signatory country to the Vienna Convention, state vehicle codes historically did not envisage—but did not necessarily prohibit—highly automated vehicles. [49] [50] To clarify the legal status of and regulate such vehicles, many states have enacted specific laws regarding autonomous vehicles. [51]
In 2017, the Republican-controlled House of Representatives unanimously passed "SELF DRIVE Act" which would speed the adoption of self-driving cars and bar states from setting performance standards. However, a complementary bill in the Senate, "AV START", failed to pass after Democrats raised objections that it didn't do enough to address safety and liability concerns. [52] A comprehensive regulatory structure has not yet emerged at either the federal or state level in the United States. [53] [54] [55]
In August 2022, members of the United States House of Representatives launched a bipartisan effort to help revive legislative efforts to boost self-driving vehicles. [56]
In 2023, automated vehicle have a 2,500-vehicle cap. [57]
In September 2016, the US National Economic Council and US Department of Transportation (USDOT) released the Federal Automated Vehicles Policy, [58] which are standards that describe how automated vehicles should react if their technology fails, how to protect passenger privacy, and how riders should be protected in the event of an accident. The new federal guidelines are meant to avoid a patchwork of state laws, while avoiding being so overbearing as to stifle innovation. [59] Since then, USDOT has released multiple updates:
The National Highway Traffic Safety Administration (NHTSA) released for public comment the Occupant Protection for Automated Driving System on 30 March 2020, [63] followed by the Framework for Automated Driving System Safety on 3 December 2020. [64] Occupant Protection is intended to modernize the Federal Motor Vehicle Safety Standards considering the removal of manual controls with automated driving systems, [65] while the Framework document is intended to provide an objective way to define and assess automated driving system competence to ensure motor vehicle safety while also remaining flexible to accommodate the development of features to improve safety. [66]
Historically, a vehicle without driving controls such as a steering wheel, accelerator pedal, and brake pedal would not be in compliance with the Federal Motor Vehicle Safety Standards (FMVSS), the minimum safety equipment needed to legally sell a vehicle to the public. On 10 March 2022, NHTSA updated and finalized the rule on safety requirements for the Occupant Protection to allow a vehicle without driving controls to comply with US regulations. [67] [68] The major update to NHTSA regulations allows companies to build and deploy autonomous vehicles without manual controls, as long as they meet other state and federal standards. [69]
As of August 2022 [update] , 38 states have laws or executive orders related to autonomous vehicles. [70] [51]
In June 2011, the Nevada Legislature passed a law to authorize the use of automated cars. Nevada thus became the first jurisdiction in the world where automated vehicles might be legally operated on public roads. According to the law, the Nevada Department of Motor Vehicles is responsible for setting safety and performance standards and the agency is responsible for designating areas where automated cars may be tested. [71] [72] [73] This legislation was supported by Google in an effort to legally conduct further testing of its Google driverless car. [74] The Nevada law defines an automated vehicle to be "a motor vehicle that uses artificial intelligence, sensors and global positioning system coordinates to drive itself without the active intervention of a human operator". The law also acknowledges that the operator will not need to pay attention while the car is operating itself. Google had further lobbied for an exemption from a ban on distracted driving to permit occupants to send text messages while sitting behind the wheel, but this did not become law. [74] [75] [76] Furthermore, Nevada's regulations require a person behind the wheel and one in the passenger's seat during tests. [77]
In April 2012, Florida became the second state to allow the testing of automated cars on public roads. [78]
California became the third state to allow automated car testing when Governor Jerry Brown signed SB 1298 into law in September 2012 at Google Headquarters in Mountain View. [79]
On 19 February 2016, California Assembly Bill 2866 was introduced in California. It would allow automated vehicles to operate on public roads, including those without a driver, steering wheel, accelerator pedal, or brake pedal. The bill states that the California Department of Motor Vehicles would need to comply with these regulations by 1 July 2018 for these rules to take effect. As of November 2016 [update] , this bill has yet to pass the house of origin. [80] California published discussions on the proposed federal automated vehicles policy in October 2016. [81]
In December 2016, the California Department of Motor Vehicles ordered Uber to remove its self-driving vehicles from the road in response to two red-light violations. Uber immediately blamed the violations on human error, and has suspended the drivers. [82]
California provides permits for testing and deploying autonomous vehicles on public roads. [83] The first manufacturer licensed to deploy autonomous cars without a safety driver by the California DMV was Nuro, on December 23, 2020. Two more manufacturers, Cruise and Waymo, were licensed on September 30, 2021. [84]
Under the governorship of Charlie Baker in 2016, Executive Order 572 was implemented to promote the testing of autonomous vehicles on public roads in Massachusetts. The order also give directive of implementation of a Working Group on the topic and a directive for the Commonwealth's transportation authority MassDOT to begin an action process to work alongside the overall industry.
In Washington, DC's district code:
"Autonomous vehicle" means a vehicle capable of navigating District roadways and interpreting traffic-control devices without a driver actively operating any of the vehicle's control systems. The term "autonomous vehicle" excludes a motor vehicle enabled with active safety systems or driver- assistance systems, including systems to provide electronic blind-spot assistance, crash avoidance, emergency braking, parking assistance, adaptive cruise control, lane-keep assistance, lane-departure warning, or traffic-jam and queuing assistance, unless the system alone or in combination with other systems enables the vehicle on which the technology is installed to drive without active control or monitoring by a human operator.
In the same district code, it is considered that:
An autonomous vehicle may operate on a public roadway; provided, that the vehicle:
- (1) Has a manual override feature that allows a driver to assume control of the autonomous vehicle at any time;
- (2) Has a driver seated in the control seat of the vehicle while in operation who is prepared to take control of the autonomous vehicle at any moment; and
- (3) Is capable of operating in compliance with the District's applicable traffic laws and motor vehicle laws and traffic control devices.
In December 2013, Michigan became the fourth state to allow testing of driverless cars on public roads. [85] In July 2014, the city of Coeur d'Alene, Idaho adopted a robotics ordinance that includes provisions to allow for self-driving cars. [86]
In 2013, the government of the United Kingdom permitted the testing of automated cars on public roads. [87] Before this, all testing of robotic vehicles in the UK had been conducted on private property. [87]
In July 2018, "The Automated and Electric Vehicles Act 2018" received royal assent. [88]
In March 2019, the UK became a signatory country to the Vienna Convention. [89]
In 2021, the UK worked on a bill to allow self-driving automated lane keeping systems (ALKS) up to 37 mph (or 60 km/h [90] ) after a mixed reaction of experts during the consultation launched in summer 2020. [91] This system would be allowed to give back control to the driver when "unplanned events" such as road construction or inclement weather occurs. [92] The Centre for Connected and Autonomous Vehicles (CCAV) has asked the Law Commission of England and Wales and the Scottish Law Commission to undertake a far-reaching review of the legal framework for "automated" vehicles, and their use as part of public transport networks and on-demand passenger services. The teams developed policy and the full analysis report was published in January 2022. [93] [94]
About misleading representation in marketing, the Society of Motor Manufacturers and Traders (SMMT) published guiding principles as followings:
In April 2022, UK government confirmed planned changes to "The Highway Code", responding to a public consultation. The changes will clarify drivers' responsibilities in self-driving vehicles, including when a driver must be ready to take back control. [96] And in August 2022, UK government unveiled a plan to roll out self-driving vehicles on UK roads. [97]
In 2022, the British Highway Code states that:
By self-driving vehicles, we mean those listed as automated vehicles by the Secretary of State for Transport under the Automated and Electric Vehicles Act 2018.
— The Highway Code - 27/07/2022, page 4
In May 2024 the "Automated Vehicles Act 2024" received royal assent. [98] The act was upon the joint recommendations in the 2022 joint report from the Law Commission and Scottish Law Commission. [99]
In November 2019, Regulation (EU) 2019/2144 of the European Parliament and of the Council on motor vehicle type approval requirements defined specific requirements relating to automated vehicles and fully automated vehicles. This law is applicable from 2022 and is based on uniform procedures and technical specifications for the systems and other items. [100]
In April 2022, EU released a draft version of its legislation for vehicles with automated driving systems (ADS). [101] [102]
In July 2022, the new "Vehicle General Safety Regulation" come into effect which establishes the legal framework for the approval of automated and fully driverless vehicles (Level 3 and above) in the EU. [103] [104] And the EU introduced regulations which require all new cars from 6 July 2022 to be fitted with intelligent speed assistance (ISA) (Level 2). [105]
EU Commission delegated regulation [106] contains specific requirements for specific vehicles with regulatory differences between:
Automated vehicles deployment is addressed by several European regulations: [107]
France is a signatory country to the Vienna Convention on road traffic and also member of the 1958 UNECE agreement and of the European union.
In 2014, the government of France announced that testing of automated cars on public roads would be allowed in 2015. 2000 km of road would be opened through the national territory, especially in Bordeaux, in Isère, Île-de-France and Strasbourg. At the 2015 ITS World Congress, a conference dedicated to intelligent transport systems, the very first demonstration of automated vehicles on open road in France was carried out in Bordeaux in early October 2015. [108]
In May 2018, the government published the first version of the French strategy for the development of automated road mobility to set up the legislative framework, and it brought a result as "The Mobility Orientation Law" in December 2019. [109] [110]
In December 2020, the government updated the strategy to make France the preferred location in Europe for the deployment of automated road mobility services. [109]
The legislative and regulatory framework for the deployment of automated vehicles and transport systems was established through an ordinance in April 2021 and a following decree in June 2021. [111] The legislative and regulatory framework for the operation of automated vehicles resulting from article 31 of "the Mobility Orientation Law" is scheduled to be finalized in Q1 of 2022. [112]
Germany is a signatory country to the Vienna Convention. In July 2021, the "Federal Act Amending the Road Traffic Act and the Compulsory Insurance Act" came into effect. The Act allows motor vehicles with autonomous driving capabilities, meaning vehicles that can perform driving tasks independently without a person driving, in specified operating areas on public roads. Provisions about autonomous driving in appropriate operating areas correspond to Level 4. [113] Moreover, the new German legislation has major implications for dilemmatic situations. This includes for example the non-discrimination principle that applies to unavoidable crash situations. Moreover, the act elaborates on the technical requirements of autonomous vehicles, including a software system that can operate without permanent supervision of the technical oversight or driver, contains an accident mitigation and reduction system and can initiate a “minimal-risk state.” [114]
In February 2022, the Federal Ministry for Digital and Transport (BMDV) submitted the "Ordinance on the Approval and Operation of Motor Vehicles with Autonomous Driving Functions in Specified Operating Areas - Autonomous Vehicles Approval and Operation Ordinance (AFGBV)" to the German Bundesrat for approval. [115]
Canada
Canada is a non-signatory country to the Vienna Convention. At the federal level, "The Motor Vehicle Safety Act" regulates about motor vehicles which was last amended in February 2020. [116]
In August 2021, Transport Canada released the "Guidelines for Testing Automated Driving Systems in Canada" Version 2.0. [117]
China
For historical reason, China is not a signatory country to 1949 Geneva Convention, [118] although it is a signatory country to 1968 Vienna Convention. [119]
In 2018, China introduced testing regulations to regulate autonomous cars, for conditional automation, high-level automation and full automation (roughly corresponding to Level 3, Level 4 and Level 5). [120] The rules lay out requirements that vehicles must first be tested in non-public zones, that road tests can only be on designated streets and that a qualified person must always sit in the driver's position, ready to take over control. [121]
In February 2020, eleven constituent departments, represented by National Development and Reform Commission (NDRC), jointly issued the "Strategy for Innovation and Development of Intelligent Vehicles" which describes about roadmap plan until 2025. This plan states about the need to revise the "Road Traffic Safety Law", and surveying and mapping law for intelligent vehicles. [122]
In March 2020, Ministry of Industry and Information Technology (MIIT) published draft GB/T on 6-levels classification framework for driving automation which is basically corresponding to SEA levels. And in April 2020, MIIT released about the goal of the year which is set to complete the formulation of framework for driving-assist functions and low-level autonomous driving (Level 3). [123] In January 2021, MIIT planned to add highways to the list of roads where provincial and city-level authorities can authorize automated cars. [124]
In March 2021, Ministry of Public Security (MPS) published draft proposed amendments on the "Road Traffic Safety Law". [125] In August 2021, The Cyberspace Administration of China (CAC) and MIIT issued "the Provisions on Management of Automotive Data Security (Trial)". [126]
In February 2022, MIIT issued the second draft of the "Administrative Measures for Data Security in the Industry and Information Technology Fields". And in March 2022, MIIT issued "the Guidelines for the Construction of the Internet of Vehicles Cybersecurity and Data Security Standard System". [127]
Australia
Australia is a non-signatory country to the Vienna Convention. National Transport Commission (NTC) is in charge of reforming current laws with still achieving national level consistency. [128] In February 2022, NTC published a policy paper to present proposals on the end-to-end regulatory framework for the commercial deployment of automated vehicles. [129]
Department of Infrastructure, Transport, Regional Development and Communications (DITRDC) is in charge of developing their policies and bills on first supply and in-service automated vehicle law. [130]
New Zealand
New Zealand is a non-signatory country to the Vienna Convention. New Zealand legislation does not specifically require a driver to be present for a vehicle to be legally operated on a public road. However, most regulations and relevant international frameworks strongly imply the presence of a driver in the vehicle given that ‘automation’ was not a consideration at the time of drafting the legislation. [131]
As of April 2022 [update] , Ministry of Transport is working on "Autonomous Vehicles Work Programme" with "Long-term Insights Briefing (LTIB)" which will include legislation issues. [132]
Israel
Israelis a signatory country to the Vienna Convention. As of April 2022 [update] , Israel Innovation Authority (OCS) is working on forming regulatory framework for trials and use of autonomous vehicles with Ministry of Transport and Road Safety (MOT) and Ministry of Justice. [133]
In March 2022, the Knesset passed legislation that will allow companies to pilot autonomous shared transportation with passengers in the vehicle but without a safety driver on Israeli roads. The legislation allows companies and vehicle operators to obtain special licenses from MOT and to conduct trials with autonomous cars including for the purpose of transporting paying passengers and where an independent driving system replaces the driver. [134]
A self-driving car, also known as a autonomous car (AC), driverless car, robotaxi, robotic car or robo-car, is a car that is capable of operating with reduced or no human input. Self-driving cars are responsible for all driving activities, such as perceiving the environment, monitoring important systems, and controlling the vehicle, which includes navigating from origin to destination.
Advanced driver-assistance systems (ADAS) are technologies that assist drivers with the safe operation of a vehicle. Through a human-machine interface, ADAS increase car and road safety. ADAS use automated technology, such as sensors and cameras, to detect nearby obstacles or driver errors, and respond accordingly. ADAS can enable various levels of autonomous driving.
The Convention on Road Traffic, commonly known as the Vienna Convention on Road Traffic, is an international treaty designed to facilitate international road traffic and to increase road safety by establishing standard traffic rules among the contracting parties. The convention was agreed upon at the United Nations Economic and Social Council's Conference on Road Traffic and concluded in Vienna on 8 November 1968. This conference also produced the Convention on Road Signs and Signals. The convention had amendments on 3 September 1993 and 28 March 2006. There is a European Agreement supplementing the Convention on Road Traffic (1968), which was concluded in Geneva on 1 May 1971.
Vehicular automation is the use of technology to assist or replace the operator of a vehicle such as a car, truck, aircraft, rocket, military vehicle, or boat. Assisted vehicles are semi-autonomous, whereas vehicles that can travel without a human operator are autonomous. The degree of autonomy may be subject to various constraints such as conditions. Autonomy is enabled by advanced driver-assistance systems (ADAS) of varying capacity.
Automatic parking is an autonomous car-maneuvering system that moves a vehicle from a traffic lane into a parking spot to perform parallel, perpendicular, or angle parking. The automatic parking system aims to enhance the comfort and safety of driving in constrained environments where much attention and experience is required to steer the car. The parking maneuver is achieved by means of coordinated control of the steering angle and speed which takes into account the actual situation in the environment to ensure collision-free motion within the available space.
Waymo LLC, formerly known as the Google Self-Driving Car Project, is an American autonomous driving technology company headquartered in Mountain View, California. It is a subsidiary of Alphabet Inc.
Mobileye Global Inc. is an Israeli autonomous driving company. It is developing self-driving technologies and advanced driver-assistance systems (ADAS) including cameras, computer chips, and software. Mobileye was acquired by Intel in 2017 and went public again in 2022.
Experiments have been conducted on self-driving cars since 1939; promising trials took place in the 1950s and work has proceeded since then. The first self-sufficient and truly autonomous cars appeared in the 1980s, with Carnegie Mellon University's Navlab and ALV projects in 1984 and Mercedes-Benz and Bundeswehr University Munich's Eureka Prometheus Project in 1987. In 1988, William L Kelley patented the first modern collision Predicting and Avoidance devices for Moving Vehicles. Then, numerous major companies and research organizations have developed working autonomous vehicles including Mercedes-Benz, General Motors, Continental Automotive Systems, Autoliv Inc., Bosch, Nissan, Toyota, Audi, Volvo, Vislab from University of Parma, Oxford University and Google. In July 2013, Vislab demonstrated BRAiVE, a vehicle that moved autonomously on a mixed traffic route open to public traffic.
Emergency Assist is a driver assistance system that monitors driver behavior by observing delays between the use of the accelerator and the brake; once a preset threshold of time has been exceeded the system will take control of the vehicle in order to bring it to a safe stop.
A robotaxi, also known as robot taxi, robo-taxi, self-driving taxi or driverless taxi, is an autonomous car operated for a ridesharing company.
Tesla Autopilot is an advanced driver-assistance system (ADAS) developed by Tesla that amounts to partial vehicle automation. Tesla provides "Base Autopilot" on all vehicles, which includes lane centering and traffic-aware cruise control. Owners may purchase or subscribe to Full Self-Driving (FSD) which adds semi-autonomous navigation that responds to traffic lights and stop signs, lane change assistance, self-parking, and the ability to summon the car from a garage or parking spot.
Increases in the use of autonomous car technologies are causing incremental shifts in the responsibility of driving, with the primary motivation of reducing the frequency of traffic collisions. Liability for incidents involving self-driving cars is a developing area of law and policy that will determine who is liable when a car causes physical damage to persons or property. As autonomous cars shift the responsibility of driving from humans to autonomous car technology, there is a need for existing liability laws to evolve to reasonably identify the appropriate remedies for damage and injury. As higher levels of autonomy are commercially introduced, the insurance industry stands to see higher proportions of commercial and product liability lines of business, while the personal automobile insurance line of business shrinks.
Cruise LLC was an American self-driving car company that became a subsidiary of General Motors, headquartered in San Francisco, California. Founded in 2013 by Kyle Vogt and Dan Kan, Cruise tested and developed autonomous car technology. The company was acquired by General Motors in 2016, and operated as a largely autonomous subsidiary, focussing on producing a fleet of driverless taxis. Following a series of incidents, it suspended operations in October 2023, and Kyle Vogt resigned as CEO in November 2023. The company began returning its vehicles to public roads in May 2024.
In road-transport terminology, lane centering, also known as lane centering assist, lane assist, auto steer or autosteer, is an advanced driver-assistance system that keeps a road vehicle centered in the lane, relieving the driver of the task of steering. Lane centering is similar to lane departure warning and lane keeping assist, but rather than warn the driver, or bouncing the car away from the lane edge, it keeps the car centered in the lane. Together with adaptive cruise control (ACC), this feature may allow unassisted driving for some length of time. It is also part of automated lane keeping systems.
A self-driving truck, also known as an autonomous truck or robo-truck, is an application of self-driving technology aiming to create trucks that can operate without human input. Alongside light, medium, and heavy-duty trucks, many companies are developing self-driving technology in semi trucks to automate highway driving in the delivery process.
Pony AI Inc. is a global autonomous vehicle technology company co-located in Silicon Valley, Beijing, and Guangzhou.
The impact of self-driving cars is anticipated to be wide-ranging in many areas of daily life. Self-driving cars have been the subject of significant research on their environmental, practical, and lifestyle consequences and their impacts remain debated.
Automated lane keeping systems (ALKS), also described as traffic jam chauffeurs, is an autonomous driving system that doesn't require driver supervision on motorways. ALKS is an international standard set out in UN-ECE regulation 157 and amounts to Level 3 vehicle automation. It is essentially a more robust combination of adaptive cruise control (ACC) and lane centering assist (LCA). When activated, it allows the driver to do non-driving tasks until alerted otherwise.
Operational design domain (ODD) is a term for a particular operating context for an automated system, often used in the field of autonomous vehicles. The context is defined by a set of conditions, including environmental, geographical, time of day, and other conditions. For vehicles, traffic and roadway characteristics are included. Manufacturers use ODD to indicate where/how their product operates safely. A given system may operate differently according to the immediate ODD.