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Wikipedia

Collision avoidance system

April 12, 2024

This article is about collision avoidance in cars. For other uses, see collision avoidance.

A collision avoidance system (CAS), also known as a pre-crash system, forward collision warning system (FCW), or collision mitigation system, is an advanced driver-assistance system designed to prevent or reduce the severity of a collision.[2] In its basic form, a forward collision warning system monitors a vehicle's speed, the speed of the vehicle in front of it, and the distance between the vehicles, so that it can provide a warning to the driver if the vehicles get too close, potentially helping to avoid a crash.[3] Various technologies and sensors that are used include radar (all-weather) and sometimes laser (LIDAR) and cameras (employing image recognition) to detect an imminent crash. GPS sensors can detect fixed dangers such as approaching stop signs through a location database.[2][4][5][6] Pedestrian detection can also be a feature of these types of systems.

Nissan Leaf approaching a movable target performing an Autonomous Emergency Braking (AEB) test. The vehicle has AEB Pedestrian, AEB Cyclist, AEB City, and AEB Interurban as standard in 2018.[1]
Schematic of a collision avoidance system

Collision avoidance systems range from widespread systems mandatory in some countries, such as autonomous emergency braking (AEB) in the EU, agreements between carmakers and safety officials to make crash avoidance systems eventually standard, such as in the United States,[7] to research projects including some manufacturer specific devices.[citation needed]

Advanced emergency braking system (AEBS) edit

Main article: Advanced emergency braking system

The World Forum for Harmonization of Vehicle Regulations defines AEBS (also automated emergency braking in some jurisdictions). UN ECE Regulation 131 requires a system that can automatically detect a potential forward collision and activate the vehicle braking system to decelerate a vehicle to avoid or mitigate a collision.[8] UN ECE regulation 152 says deceleration can be 5 meters per second squared.[9]

Once an impending collision is detected, these systems provide a warning to the driver. When the collision becomes imminent, they can take action autonomously without any driver input (by braking or steering or both). Collision avoidance by braking is appropriate at low vehicle speeds (e.g. below 50 km/h (31 mph)), while collision avoidance by steering may be more appropriate at higher vehicle speeds if lanes are clear.[10] Cars with collision avoidance may also be equipped with adaptive cruise control, using the same forward-looking sensors.

AEB differs from forward collision warning: FCW alerts the driver with a warning but does not by itself brake the vehicle.[11]

According to Euro NCAP, AEB has three characteristics:[12]

  • Autonomous: the system acts independently of the driver to avoid or mitigate the accident.
  • Emergency: the system will intervene only in a critical situation.
  • Braking: the system tries to avoid the accident by applying the brakes.

Time-to-collision could be a way to choose which avoidance method (braking or steering) is most appropriate.[13]

A collision avoidance system by steering is a new concept. It is considered by some research projects.[13] Collision avoidance system by steering has some limitations: over-dependence on lane markings, sensor limitations, and interaction between driver and system.[14]

Emergency steering function edit

The emergency steering function, known as ESF, is an automated steering function that detects a potential collision and automatically activates the steering system for a limited duration to avoid or mitigate a collision.[15]

The emergency steering function for UNECE countries is described by regulation 79.[15]

Automated lane keeping Systems edit

Main article: Automated Lane Keeping Systems

Automated Lane Keeping Systems (ALKS) deals with avoiding some cases of collisions.

ALKS defines some concepts:

Imminent collision risk describes a situation or an event which leads to a collision of the vehicle with another road user or an obstacle which cannot be avoided by a braking demand with lower than 5 m/s

— Uniform provisions concerning the approval of vehicles about automated lane-keeping systems

Emergency Manoeuvre (EM) is a maneuver performed by the system in case of an event in which the vehicle is at imminent collision risk and has the purpose of avoiding or mitigating a collision.

— Uniform provisions concerning the approval of vehicles about automated lane-keeping systems

The activated system shall not cause any collisions that are reasonably foreseeable and preventable. If a collision can be safely avoided without causing another one, it shall be avoided. When the vehicle is involved in a detectable collision, the vehicle shall be brought to a standstill.

— Uniform provisions concerning the approval of vehicles concerning automated lane-keeping systems

The activated system shall detect the distance to the next vehicle in front as defined in paragraph 7.1.1. and shall adapt the vehicle speed to avoid collision.

— Uniform provisions concerning the approval of vehicles about automated lane-keeping systems

The activated system shall be able to bring the vehicle to a complete stop behind a stationary vehicle, a stationary road user, or a blocked lane of travel to avoid a collision. This shall be ensured up to the maximum operational speed of the system.

— Uniform provisions concerning the approval of vehicles concerning automated lane-keeping systems

The activated system shall avoid a collision with a leading vehicle (...)

The activated system shall avoid a collision with a cutting in the vehicle (...)

The activated system shall avoid a collision with an unobstructed crossing pedestrian in front of the vehicle.

— Uniform provisions concerning the approval of vehicles concerning automated lane-keeping systems

This document clarifies the derivation process to define conditions under which automated lane-keeping systems (ALKS) shall avoid a collision

— Uniform provisions concerning the approval of vehicles about automated lane-keeping systems, Guidance on traffic disturbance critical scenarios for ALKS

Regulations edit

AEB and ALKS are each defined by one or several UN-ECE regulations.

Requirements related to AEB are regulations 131 and 152.[16]

Regulation 157 is related to ALKS.

Japan has required AEB since 2020 and ALKS since 2021. The European Union requires AEB since 2022 but did not define a date for ALKS.

Automobile manufacturers edit

Various vendors provide AEB components to automakers.[17] The global automotive AEB system market consists of a few established companies that are manufacturers or suppliers of specialized AEB components or systems.[18] For example, the main vendors for radar systems include Bosch, Delphi, Denso, TRW, and Continental.[19] Automobile manufactures may describe the systems installed on their vehicles using different names to differentiate their marketing efforts.[11] A particular automaker may have systems and sensors sourced from a variety of suppliers.[20] Therefore, even a single car brand may offer various levels of technology sophistication and the: frequency of false alerts can be different from model to model and trim level to trim level, depending on the types of camera and/or laser-based systems installed.[20]

In countries, such as the UK, one-quarter of new vehicles might have some kind of AEB system; but only 1% of previously sold cars might have AEB.[11]

Audi edit

"Pre sense" autonomous emergency braking system uses twin radar and monocular camera sensors[21] and was introduced in 2010 on the 2011 Audi A8.[22] "Pre sense plus" works in four phases. The system first provides warning of an impending accident, activating hazard warning lights, closing windows and sunroof, and pre-tensioning front seat belts. The warning is followed by light braking to get the driver's attention. The third phase initiates autonomous partial braking at a rate of 3 m/s2 (9.8 ft/s2). The fourth phase increases braking to 5 m/s2 (16.4 ft/s2) followed by automatic full braking power, roughly half a second before projected impact. "Pre sense rear", is designed to reduce the consequences of rear-end collisions. The sunroof and windows are closed and seat belts are prepared for impact. The seats are moved forward to protect the car's occupants. 2015 introduced the "avoidance assistant" system that intervenes in the steering to help the driver avoid an obstacle. If an accident occurs, the "turning assistant" monitors opposing traffic when turning left at low speeds. In critical situations, it stops the car. "Multi collision brake assist" uses controlled braking maneuvers during the accident to aid the driver. Both systems were introduced on the Second generation Q7.[23]

BMW edit

In 2012 BMW introduced two systems on the 7 Series. "Active Protection" detects imminent accidents by pretensioning safety belts, closes windows and moonroof, brings the backrest of the front passenger seat to an upright position, and activates post-crash braking. A driver drowsiness detection includes advice to take a break from driving. An "Active Driving Assistant" combines lane departure warning, pedestrian protection, and city collision mitigation.[24]

In 2013, "Driving Assistant Plus" was introduced on most models combining the front-facing camera, lane-departure warning, and in some cases front radar sensors to detect vehicles ahead. Should the driver not react to the warning of a potential collision, the system would gradually prime brake pressure and apply – with maximum deceleration power – if necessary. In the case of a crash, the system can bring the vehicle to a standstill. Later iterations of the system on cars equipped with an Automatic Cruise Control system are improved by combining radar and camera detection during fog, rain, and other situations where normal camera operations may be compromised.[25]

Ford edit

 
Collision warning and brake support on the 2009 Lincoln MKS

Beginning on the 2012 Ford Focus, Active City Stop was offered on the range-topping Titanium model, under the optional Sports Executive Pack. The system used windscreen-mounted cameras, radars, and lidars to monitor the road ahead. The system doesn't provide a warning, rather, it can prevent a crash from occurring at speeds between 3.6 and 30 km/h (2.2 and 18.6 mph). This speed was later raised to 50 km/h (31 mph) and was available on all models, the Trend, Sport, Titanium, ST, and RS (Limited Edition only).

General Motors edit

General Motors' collision alert system was introduced in GMC Terrain SUVs in 2012. It uses a camera to provide a warning when there is a vehicle ahead or there is a lane departure.[26] The 2014 Chevrolet Impala received the radar- and camera-based crash imminent braking (radar technology detects a possible crash threat and alerts the driver. If the driver does not appear to react quickly enough or doesn't react at all, this feature intervenes to apply the brakes to avoid the crash. Forward collision alert, lane departure warning, side blind zone alert (using radar sensors on both sides of the vehicle, the system "looks" for other vehicles in the blind zone areas of the Impala and indicates their presence with LED-lit symbols in the outside mirrors. Rear cross-traffic alert features.[27]

Honda edit

2003: Honda introduced autonomous braking (Collision Mitigation Brake System CMBS, originally CMS) front collision avoidance system on the Inspire[28] and later in Acura, using a radar-based system to monitor the situation ahead and provide brake assistance if the driver reacts with insufficient force on the brake pedal after a warning in the instrument cluster and a tightening of the seat belts.[29][30] The Honda system was the first production system to provide automatic braking.[30] The 2003 Honda system also incorporated an "E-Pretensioner", which worked in conjunction with the CMBS system with electric motors on the seat belts. When activated, the CMBS has three warning stages. The first warning stage includes audible and visual warnings to brake. If ignored, the second stage would include the E-Pretensioner's tugging on the shoulder portion of the seat belt two to three times as an additional tactile warning to the driver to take action. The third stage, in which the CMBS predicts that a collision is unavoidable, includes full seat belt slack takeup by the E-Pretensioner for more effective seat belt protection and automatic application of the brakes to lessen the severity of the predicted crash. The E-Pretensioner would also work to reduce seat belt slack whenever the brakes are applied and the brake assist system is activated.[30]

Jaguar Land Rover edit

As part of the InControl suite of services, Jaguar Land Rover provides several driver assistance technologies, amongst which are autonomous emergency braking, intelligent emergency braking, lane departure warning, blind spot monitor and blind spot assist.[31] The systems variously use both microwave and optical detection methods.[32]

Mercedes-Benz edit

2002: Mercedes' "Pre-Safe" system was exhibited at the Paris Motor Show on the 2003 S-Class. Using electronic stability control sensors to measure steering angle, vehicle yaw, and lateral acceleration and brake assist (BAS) sensors to detect emergency braking, the system can tighten the seat belts, adjust seat positions, including rear seats (if installed), raise folded rear headrests (if installed), and close the sunroof if it detects a possible collision (including rollover).[33] A later version of the Pre-Safe system was supplemented by an additional function that can close any open windows if necessary.

2006: Mercedes-Benz's "Brake Assist BAS Plus" was their first forward warning collision system introduced on the W221 S-Class, it incorporates the autonomous cruise control system and adds a radar-based collision warning.

2006: the "Pre-Safe Brake" on the CL-Class C216[34] was their first to offer partial autonomous braking (40%, or up to 0.4g deceleration) if the driver does not react to the BAS Plus warnings and the system detects a severe danger of an accident.[35][36]

2009: Mercedes introduced the first Pre-Safe Brake with full (100%) autonomous braking with maximum braking force approximately 0.6 seconds before impact, on the Mercedes-Benz E-Class (W212).[37][38]

2013: Mercedes updated Pre-Safe on the W222 S-Class as plus with cross-traffic assist.[39] Pre-Safe with pedestrian detection and City Brake function is a combination of stereo camera and radar sensors to detect pedestrians in front of the vehicle. Visual and acoustic warnings are triggered when a hazard is spotted. If the driver then reacts by braking, the braking power will be boosted as the situation requires, up to a full brake application. Should the driver fail to react, the Pre-Safe Brake triggers autonomous vehicle braking. Pedestrian detection is active up to about 72 km/h (45 mph), and can reduce collisions with pedestrians autonomously from an initial speed of up to 50 km/h (31 mph).[39] A radar sensor in the rear bumper monitors the traffic behind the vehicle. If the risk of an impact from the rear is detected, the rear hazard warning lights are activated to alert the driver of the vehicle behind (not on vehicles with USA/Canada coding). Anticipatory occupant protection measures, such as the reversible belt tensioners, are deployed. If the vehicle is stopped and the driver indicates a wish to remain stationary – by depressing the brake pedal, activating the hold function, or moving the selector lever to "P" – the system increases the brake pressure to keep the vehicle firmly braked during a possible rear-end collision.[39] Pre-Safe Impulse works an early phase of the crash, before the resulting deceleration starts to increase, the front occupants are pulled away from the direction of impact and deeper into their seats by their seat belts. By the time the accident enters the phase when loads peak, the extra distance they are retracted by can be used while dissipating energy in a controlled fashion. Pre-acceleration and force limitation allow the occupants to be temporarily isolated from the effects of the crash, significantly reducing the risk and severity of injuries in a frontal collision.[39]

Nissan edit

Nissan's Infiniti brand offers both laser-based and radar-based systems. Brake assist with preview function anticipates the need to apply emergency braking and pre-pressurize the brake system to help improve brake response. Intelligent brake assist (IBA) with forwarding emergency braking (FEB) (on QX80) uses radar to monitor the approaching speed of the vehicle ahead, helping detect an imminent collision. It provides a two-stage warning to alert the driver, and if the driver takes no action, the system automatically engages the brakes to mitigate the collision speed and impact. A predictive forward collision warning system warns the driver of risks that may be obscured from the driver's view. It senses the relative velocity and distance of a vehicle directly ahead, as well as a vehicle traveling in front of the preceding one. The forward emergency braking system judges that deceleration is required, it alerts the driver using both a screen display and sound, then generates a force that pushes the accelerator pedal up and applies partial braking to assist the driver in slowing the vehicle down. When the system judges that there is the possibility of a collision, it will automatically apply harder braking to help avoid one.

Nissan has been under investigation for collision avoidance systems on late-model Rogue models that allegedly brake the vehicles for no reason, according to the US National Highway Traffic Safety Administration (NHTSA).[40] As of September 2019, Nissan considered the issue strictly as a "performance update" by issuing technical service bulletins—at least three since January 2019—that pertain to reprogramming the radar control unit, according to the agency.[40] At least 553,860 cars are potentially affected[40] from the 2017 and 2018 model years.[41]

Subaru edit

Subaru's system, branded "EyeSight", was announced in May 2008 using stereo camera technology to detect pedestrians and bicyclists. As initially announced, EyeSight enabled pre-collision braking control and adaptive cruise control at all speeds.[42] It was rolled out in Japan to selected models in 2010; in Australia in 2011; and in North America in 2012 for the 2013 model year Legacy and Outback models.[43] An alarm is used to warn the driver of a potential collision hazard in the pre-collision system.

The pre-collision braking control was upgraded in 2010 to allow the vehicle to stop automatically if the speed difference between the EyeSight-equipped vehicle and the object in front is less than 30 km/h (19 mph) and the driver takes no action to slow down or stop. Above 30 km/h (19 mph), the vehicle will reduce its speed automatically.[42] It also allows the vehicle to engage braking assist, if there is a risk of a frontal collision and the driver suddenly applies the brakes.[42] The speed difference to allow an automatic stop was raised to 50 km/h (31 mph) in 2013 with improved cameras.[44] The adaptive cruise control was also upgraded in 2010 to allow automatic emergency braking in traffic, fully stopping the EyeSight vehicle when the car in front has come to a complete stop.[42]

In 2013, color was added to the cameras, allowing the system to recognize brake lights and red stoplights ahead.[44] Subaru also added active lane-keeping (keeping the vehicle in the middle of the lane, and applying steering force to keep the vehicle in the lane when unintentionally crossing lane markers) and throttle management (to prevent sudden unintended acceleration in forward and reverse) systems in 2013 with the improved cameras.[44] EyeSight has been very popular, equipped on approximately 90% of all Legacy and Outbacks sold in Japan at the beginning of 2012,[43] and the engineers responsible for its development won a prize from the Japanese government that year.[45]

As of 2021, EyeSight is standard on the Ascent, Forester, Legacy, and Outback. It is also standard on all CVT-equipped Crosstrek, Impreza, and WRX. It became standard on the automatic-equipped BRZ as of 2022.

Toyota edit

 
2008 LS 600h forward PCS diagram, with radar (blue) and stereo camera (red) coverage

Toyota's system, branded "Toyota Safety Sense" or "Lexus Safety Sense", is a radar-based system that uses a forward-facing millimeter-wave radar. When the system determines that a frontal collision is unavoidable, it preemptively tightens the seat belts, removing any slack, and pre-charges the brakes using brake assist to give the driver maximum stopping power when the driver depresses the brake pedal.

2003 February: Toyota launched PCS in the redesigned Japanese domestic market Harrier.[46]

2003 August: added an automatic partial pre-crash braking system to the Celsior.[47]

2003 September: PCS made available in North America on the Lexus LS 430, becoming the first radar-guided forward-collision warning system offered in the US.

2004: In July 2004, the Crown Majesta radar PCS added a single digital camera to improve the accuracy of collision forecast and warning and control levels.[48][49][50]

2006: Pre-collision system with Driver Monitoring System introduced in March 2006 on the Lexus GS 450h[48] using a CCD camera on the steering column. This system monitors the driver's face to determine where the driver is looking. If the driver's head turns away from the road and a frontal obstacle is detected, the system will alert the driver using a buzzer, and if necessary, pre-charge the brakes and tighten the safety belts.

2006: the Lexus LS introduced an advanced pre-collision system (APCS), added a twin-lens stereo camera located on the windshield, and a more sensitive radar to detect smaller "soft" objects such as animals and pedestrians. A near-infrared projector located in the headlights allows the system to work at night. With adaptive variable suspension (AVS) and electric power steering, the system can change the shock absorber firmness, steering gear ratios, and torque to aid the driver's evasive steering measures. The lane departure warning system will make automatic steering adjustments to help ensure that the vehicle maintains its lane in case the driver fails to react. Driver Monitoring System was introduced on the Lexus LS. The rear-end pre-collision system includes a rearward-facing millimeter-wave radar mounted in the rear bumper.[51] The system adjusts the active head restraints by moving them upward and forward to reduce the risk of whiplash injuries if an imminent rear collision is detected.[52]

2008: Improved driver monitoring system added on the Crown for detecting whether the driver's eyes are properly open.[53] It monitors the driver's eyes to detect the driver's level of wakefulness. This system is designed to work even if the driver is wearing sunglasses at night.

2008: PCS with GPS-navigation linked brake assist function on the Crown. The system is designed to determine if the driver is late in decelerating at an approaching stop sign, will then sound an alert, and can also pre-charge the brakes to provide braking force if deemed necessary. This system works in certain Japanese cities and requires Japan-specific road markings that are detected by a camera.

2009: Crown[54] added a front-side millimeter-wave radar to detect potential side collisions primarily at intersections or when another vehicle crosses the center line. The latest version tilts the rear seat upward, placing the passenger in a more ideal crash position if it detects a front or rear impact.[55]

2012: Higher speed APCS on the Lexus LS enables deceleration from up to 37 mph (60 km/h), compared to the previous of 25 mph (40 km/h). The higher-speed APCS uses the same technologies as the current APCs. This system increases the braking force up to twice that applied by average drivers. It was not then available in U.S. markets.

2013: Pre-collision system with pedestrian-avoidance steer assist and steering bypass assist[56] can help prevent collisions in cases where automatic braking alone is not sufficient, such as when the vehicle is traveling too fast or a pedestrian suddenly steps into the vehicle's path. An onboard sensor detects pedestrians and issues a visual alert on the dashboard immediately in front of the driver if the system determines that there is a risk of collision. If the likelihood of a collision increases, the system issues an audio and visual alarm to encourage the driver to take evasive action, and the increased pre-collision braking force and automatic braking functions are activated.[57] If the system determines that a collision cannot be avoided by braking alone and there is sufficient room for avoidance, steer assist is activated to steer the vehicle away from the pedestrian.[58]

2016: Toyota announced it would make Toyota Safety Sense (TSS) and Lexus Safety System+ standard on nearly all Japan, Europe, and US models by the end of 2017.[59][60]

2017: Lexus introduced the updated Lexus Safety System+ 2.0 on the fifth-generation LS. In the US 2017 model year, Toyota sold more vehicles equipped with collision warnings than any other single brand with a total of 1.4 million sold or 56% of their fleet.[61]

2018: Toyota released its updated Toyota Safety Sense 2.0 (TSS 2.0) to include Lane Tracing Assist, Road Sign Assist, and Low Light Pedestrian Detection with Daytime Bicyclist Detection which improves the Pre-Collision System. The first Japanese car model to receive (TSS 2.0) is the executive Crown in its 15th generation.

2021: Lexus introduced the updated Lexus Safety System+ 3.0 in the Lexus NX. The suite contains a Risk Avoidance Emergency Steer Assist, a Right/Left Turn Oncoming Vehicle Detection/Braking, an Oncoming Vehicle Detection, a Dynamic Radar Cruise Control with Curve Speed Management, a Road Sign Assist, a Pre-Collision System, a Lane Assistance and an Intelligent High Beam.[62][63]

Volkswagen edit

 
Laser sensor of a Volkswagen Up

2010: "Front Assist" on 2011 Volkswagen Touareg can brake the car to a stop in case of an emergency and tension the seat belts as a precautionary measure.[64]

2012: Volkswagen Golf Mk7 introduced a "Proactive Occupant Protection" that will close the windows and retract the safety belts to remove excess slack if the potential for a forward crash is detected. Multi-collision brake system (automatic post-collision braking system) to automatically brake the car after an accident to avoid a second collision. City emergency braking automatically activates brakes at low speeds in urban situations.

2014: Volkswagen Passat (B8) introduced pedestrian recognition as a part of the system. It uses a sensor fusion between a camera and the radar sensor. There is an "emergency assist" in case of a non-reacting driver, the car takes control of the brakes and the steering until a complete stop. This is also found in the Volkswagen Golf Mk8.

Volvo edit

 
Volvo City Safety multiple cameras

2006: Volvo's "Collision Warning with Auto Brake" was introduced in 2007 S80. This system is powered by a radar/camera sensor fusion and provides a warning through a head up display that visually resembles brake lamps. If the driver does not react, the system pre-charges the brakes and increases the brake assist sensitivity to maximize driver braking performance. Later versions would automatically apply the brakes to minimize pedestrian impacts. In some models of Volvos, the automatic braking system can be manually turned off. The V40 also included the first pedestrian airbag, when it was introduced in 2012.[citation needed]

2013: Volvo introduced the first cyclist detection system. All Volvo automobiles now come standard with a lidar laser sensor that monitors the front of the roadway, and if a potential collision is detected, the safety belts will retract to reduce excess slack. Volvo now includes this safety device as an option in FH series trucks.[65][better source needed]

2015: "IntelliSafe" with auto brake at the intersection. The Volvo XC90 features automatic braking if the driver turns in front of an oncoming car. This is a common scenario at busy city crossings as well as on highways, where the speed limits are higher.[citation needed]

March 2020: Volvo recalled 121,000 cars over auto emergency braking failure.[66] The system may not detect an object and so may not work as intended, increasing the risk of a crash.[66]

List of cars with available collision avoidance features edit

New car assessment program edit

Euro NCAP and C-NCAP and ANCAP are involved in taking into account the Autonomous Emergency Braking (AEB) in their respective New Car Assessment Program.[68]

Since 2016, Euro NCAP has taken into account pedestrians in the AEB rating.[68]

In 2018, Euro NCAP provided assessments for AEB city (since 2014), AEB interurban (since 2014), AEB pedestrian (since 2018), and AEB cyclist (since 2018). Since 2018, ANCAP has also provided assessments for AEB city, AEB interurban, AEB pedestrian, and cyclist.

Cost edit

Many vehicles have AEB fitted as standard. The AEB is not available for every car. When AEB is available as an option, its cost can be in the £180 (AEB city only) – £1300 (regular AEB) range.[11]

The cost of optional AEB will depend, in part, on whether certain other safety systems are installed. The electronic and sensor systems that underpin adaptive cruise control and forward-collision warning systems, for example, are well-suited, if not prerequisites, to an AEB system.[69]

See also edit

References edit

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External links edit

 
Wikimedia Commons has media related to Collision avoidance systems.
  • . AutoWeek. Archived from the original on 4 August 2011. Retrieved 17 March 2006.
  • Ratings of existing crash avoidance systems 14 May 2019 at the Wayback Machine, Insurance Institute for Highway Safety, January 2017.
  • , 2004.
  • ERSEC Project (FP7 247955): Enhanced Road Safety by integrating Egnos-Galileo data with on-board Control system for car collision avoidance applications, 2011.
  • , 2007.
  • "Nissan Safety Features & Technologies". Nissan. US. 16 December 2019. Retrieved 10 April 2020.
  • Collision Avoidance System of TORSA

April 12, 2024
collision, avoidance, system, this, article, about, collision, avoidance, cars, other, uses, collision, avoidance, collision, avoidance, system, also, known, crash, system, forward, collision, warning, system, collision, mitigation, system, advanced, driver, a. This article is about collision avoidance in cars For other uses see collision avoidance A collision avoidance system CAS also known as a pre crash system forward collision warning system FCW or collision mitigation system is an advanced driver assistance system designed to prevent or reduce the severity of a collision 2 In its basic form a forward collision warning system monitors a vehicle s speed the speed of the vehicle in front of it and the distance between the vehicles so that it can provide a warning to the driver if the vehicles get too close potentially helping to avoid a crash 3 Various technologies and sensors that are used include radar all weather and sometimes laser LIDAR and cameras employing image recognition to detect an imminent crash GPS sensors can detect fixed dangers such as approaching stop signs through a location database 2 4 5 6 Pedestrian detection can also be a feature of these types of systems Nissan Leaf approaching a movable target performing an Autonomous Emergency Braking AEB test The vehicle has AEB Pedestrian AEB Cyclist AEB City and AEB Interurban as standard in 2018 1 Schematic of a collision avoidance systemCollision avoidance systems range from widespread systems mandatory in some countries such as autonomous emergency braking AEB in the EU agreements between carmakers and safety officials to make crash avoidance systems eventually standard such as in the United States 7 to research projects including some manufacturer specific devices citation needed Contents 1 Advanced emergency braking system AEBS 2 Emergency steering function 3 Automated lane keeping Systems 4 Regulations 5 Automobile manufacturers 5 1 Audi 5 2 BMW 5 3 Ford 5 4 General Motors 5 5 Honda 5 6 Jaguar Land Rover 5 7 Mercedes Benz 5 8 Nissan 5 9 Subaru 5 10 Toyota 5 11 Volkswagen 5 12 Volvo 6 List of cars with available collision avoidance features 7 New car assessment program 8 Cost 9 See also 10 References 11 External linksAdvanced emergency braking system AEBS editMain article Advanced emergency braking system The World Forum for Harmonization of Vehicle Regulations defines AEBS also automated emergency braking in some jurisdictions UN ECE Regulation 131 requires a system that can automatically detect a potential forward collision and activate the vehicle braking system to decelerate a vehicle to avoid or mitigate a collision 8 UN ECE regulation 152 says deceleration can be 5 meters per second squared 9 Once an impending collision is detected these systems provide a warning to the driver When the collision becomes imminent they can take action autonomously without any driver input by braking or steering or both Collision avoidance by braking is appropriate at low vehicle speeds e g below 50 km h 31 mph while collision avoidance by steering may be more appropriate at higher vehicle speeds if lanes are clear 10 Cars with collision avoidance may also be equipped with adaptive cruise control using the same forward looking sensors AEB differs from forward collision warning FCW alerts the driver with a warning but does not by itself brake the vehicle 11 According to Euro NCAP AEB has three characteristics 12 Autonomous the system acts independently of the driver to avoid or mitigate the accident Emergency the system will intervene only in a critical situation Braking the system tries to avoid the accident by applying the brakes Time to collision could be a way to choose which avoidance method braking or steering is most appropriate 13 A collision avoidance system by steering is a new concept It is considered by some research projects 13 Collision avoidance system by steering has some limitations over dependence on lane markings sensor limitations and interaction between driver and system 14 Emergency steering function editThe emergency steering function known as ESF is an automated steering function that detects a potential collision and automatically activates the steering system for a limited duration to avoid or mitigate a collision 15 The emergency steering function for UNECE countries is described by regulation 79 15 Automated lane keeping Systems editMain article Automated Lane Keeping Systems 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 August 2020 Learn how and when to remove this template message Automated Lane Keeping Systems ALKS deals with avoiding some cases of collisions ALKS defines some concepts Imminent collision risk describes a situation or an event which leads to a collision of the vehicle with another road user or an obstacle which cannot be avoided by a braking demand with lower than 5 m s Uniform provisions concerning the approval of vehicles about automated lane keeping systems Emergency Manoeuvre EM is a maneuver performed by the system in case of an event in which the vehicle is at imminent collision risk and has the purpose of avoiding or mitigating a collision Uniform provisions concerning the approval of vehicles about automated lane keeping systems The activated system shall not cause any collisions that are reasonably foreseeable and preventable If a collision can be safely avoided without causing another one it shall be avoided When the vehicle is involved in a detectable collision the vehicle shall be brought to a standstill Uniform provisions concerning the approval of vehicles concerning automated lane keeping systems The activated system shall detect the distance to the next vehicle in front as defined in paragraph 7 1 1 and shall adapt the vehicle speed to avoid collision Uniform provisions concerning the approval of vehicles about automated lane keeping systems The activated system shall be able to bring the vehicle to a complete stop behind a stationary vehicle a stationary road user or a blocked lane of travel to avoid a collision This shall be ensured up to the maximum operational speed of the system Uniform provisions concerning the approval of vehicles concerning automated lane keeping systems The activated system shall avoid a collision with a leading vehicle The activated system shall avoid a collision with a cutting in the vehicle The activated system shall avoid a collision with an unobstructed crossing pedestrian in front of the vehicle Uniform provisions concerning the approval of vehicles concerning automated lane keeping systems This document clarifies the derivation process to define conditions under which automated lane keeping systems ALKS shall avoid a collision Uniform provisions concerning the approval of vehicles about automated lane keeping systems Guidance on traffic disturbance critical scenarios for ALKSRegulations editAEB and ALKS are each defined by one or several UN ECE regulations Requirements related to AEB are regulations 131 and 152 16 Regulation 157 is related to ALKS Japan has required AEB since 2020 and ALKS since 2021 The European Union requires AEB since 2022 but did not define a date for ALKS Automobile manufacturers editVarious vendors provide AEB components to automakers 17 The global automotive AEB system market consists of a few established companies that are manufacturers or suppliers of specialized AEB components or systems 18 For example the main vendors for radar systems include Bosch Delphi Denso TRW and Continental 19 Automobile manufactures may describe the systems installed on their vehicles using different names to differentiate their marketing efforts 11 A particular automaker may have systems and sensors sourced from a variety of suppliers 20 Therefore even a single car brand may offer various levels of technology sophistication and the frequency of false alerts can be different from model to model and trim level to trim level depending on the types of camera and or laser based systems installed 20 In countries such as the UK one quarter of new vehicles might have some kind of AEB system but only 1 of previously sold cars might have AEB 11 Audi edit Pre sense autonomous emergency braking system uses twin radar and monocular camera sensors 21 and was introduced in 2010 on the 2011 Audi A8 22 Pre sense plus works in four phases The system first provides warning of an impending accident activating hazard warning lights closing windows and sunroof and pre tensioning front seat belts The warning is followed by light braking to get the driver s attention The third phase initiates autonomous partial braking at a rate of 3 m s2 9 8 ft s2 The fourth phase increases braking to 5 m s2 16 4 ft s2 followed by automatic full braking power roughly half a second before projected impact Pre sense rear is designed to reduce the consequences of rear end collisions The sunroof and windows are closed and seat belts are prepared for impact The seats are moved forward to protect the car s occupants 2015 introduced the avoidance assistant system that intervenes in the steering to help the driver avoid an obstacle If an accident occurs the turning assistant monitors opposing traffic when turning left at low speeds In critical situations it stops the car Multi collision brake assist uses controlled braking maneuvers during the accident to aid the driver Both systems were introduced on the Second generation Q7 23 BMW edit In 2012 BMW introduced two systems on the 7 Series Active Protection detects imminent accidents by pretensioning safety belts closes windows and moonroof brings the backrest of the front passenger seat to an upright position and activates post crash braking A driver drowsiness detection includes advice to take a break from driving An Active Driving Assistant combines lane departure warning pedestrian protection and city collision mitigation 24 In 2013 Driving Assistant Plus was introduced on most models combining the front facing camera lane departure warning and in some cases front radar sensors to detect vehicles ahead Should the driver not react to the warning of a potential collision the system would gradually prime brake pressure and apply with maximum deceleration power if necessary In the case of a crash the system can bring the vehicle to a standstill Later iterations of the system on cars equipped with an Automatic Cruise Control system are improved by combining radar and camera detection during fog rain and other situations where normal camera operations may be compromised 25 Ford edit nbsp Collision warning and brake support on the 2009 Lincoln MKSBeginning on the 2012 Ford Focus Active City Stop was offered on the range topping Titanium model under the optional Sports Executive Pack The system used windscreen mounted cameras radars and lidars to monitor the road ahead The system doesn t provide a warning rather it can prevent a crash from occurring at speeds between 3 6 and 30 km h 2 2 and 18 6 mph This speed was later raised to 50 km h 31 mph and was available on all models the Trend Sport Titanium ST and RS Limited Edition only General Motors edit General Motors collision alert system was introduced in GMC Terrain SUVs in 2012 It uses a camera to provide a warning when there is a vehicle ahead or there is a lane departure 26 The 2014 Chevrolet Impala received the radar and camera based crash imminent braking radar technology detects a possible crash threat and alerts the driver If the driver does not appear to react quickly enough or doesn t react at all this feature intervenes to apply the brakes to avoid the crash Forward collision alert lane departure warning side blind zone alert using radar sensors on both sides of the vehicle the system looks for other vehicles in the blind zone areas of the Impala and indicates their presence with LED lit symbols in the outside mirrors Rear cross traffic alert features 27 Honda edit 2003 Honda introduced autonomous braking Collision Mitigation Brake System CMBS originally CMS front collision avoidance system on the Inspire 28 and later in Acura using a radar based system to monitor the situation ahead and provide brake assistance if the driver reacts with insufficient force on the brake pedal after a warning in the instrument cluster and a tightening of the seat belts 29 30 The Honda system was the first production system to provide automatic braking 30 The 2003 Honda system also incorporated an E Pretensioner which worked in conjunction with the CMBS system with electric motors on the seat belts When activated the CMBS has three warning stages The first warning stage includes audible and visual warnings to brake If ignored the second stage would include the E Pretensioner s tugging on the shoulder portion of the seat belt two to three times as an additional tactile warning to the driver to take action The third stage in which the CMBS predicts that a collision is unavoidable includes full seat belt slack takeup by the E Pretensioner for more effective seat belt protection and automatic application of the brakes to lessen the severity of the predicted crash The E Pretensioner would also work to reduce seat belt slack whenever the brakes are applied and the brake assist system is activated 30 Jaguar Land Rover edit As part of the InControl suite of services Jaguar Land Rover provides several driver assistance technologies amongst which are autonomous emergency braking intelligent emergency braking lane departure warning blind spot monitor and blind spot assist 31 The systems variously use both microwave and optical detection methods 32 Mercedes Benz edit 2002 Mercedes Pre Safe system was exhibited at the Paris Motor Show on the 2003 S Class Using electronic stability control sensors to measure steering angle vehicle yaw and lateral acceleration and brake assist BAS sensors to detect emergency braking the system can tighten the seat belts adjust seat positions including rear seats if installed raise folded rear headrests if installed and close the sunroof if it detects a possible collision including rollover 33 A later version of the Pre Safe system was supplemented by an additional function that can close any open windows if necessary 2006 Mercedes Benz s Brake Assist BAS Plus was their first forward warning collision system introduced on the W221 S Class it incorporates the autonomous cruise control system and adds a radar based collision warning 2006 the Pre Safe Brake on the CL Class C216 34 was their first to offer partial autonomous braking 40 or up to 0 4g deceleration if the driver does not react to the BAS Plus warnings and the system detects a severe danger of an accident 35 36 2009 Mercedes introduced the first Pre Safe Brake with full 100 autonomous braking with maximum braking force approximately 0 6 seconds before impact on the Mercedes Benz E Class W212 37 38 2013 Mercedes updated Pre Safe on the W222 S Class as plus with cross traffic assist 39 Pre Safe with pedestrian detection and City Brake function is a combination of stereo camera and radar sensors to detect pedestrians in front of the vehicle Visual and acoustic warnings are triggered when a hazard is spotted If the driver then reacts by braking the braking power will be boosted as the situation requires up to a full brake application Should the driver fail to react the Pre Safe Brake triggers autonomous vehicle braking Pedestrian detection is active up to about 72 km h 45 mph and can reduce collisions with pedestrians autonomously from an initial speed of up to 50 km h 31 mph 39 A radar sensor in the rear bumper monitors the traffic behind the vehicle If the risk of an impact from the rear is detected the rear hazard warning lights are activated to alert the driver of the vehicle behind not on vehicles with USA Canada coding Anticipatory occupant protection measures such as the reversible belt tensioners are deployed If the vehicle is stopped and the driver indicates a wish to remain stationary by depressing the brake pedal activating the hold function or moving the selector lever to P the system increases the brake pressure to keep the vehicle firmly braked during a possible rear end collision 39 Pre Safe Impulse works an early phase of the crash before the resulting deceleration starts to increase the front occupants are pulled away from the direction of impact and deeper into their seats by their seat belts By the time the accident enters the phase when loads peak the extra distance they are retracted by can be used while dissipating energy in a controlled fashion Pre acceleration and force limitation allow the occupants to be temporarily isolated from the effects of the crash significantly reducing the risk and severity of injuries in a frontal collision 39 Nissan edit Nissan s Infiniti brand offers both laser based and radar based systems Brake assist with preview function anticipates the need to apply emergency braking and pre pressurize the brake system to help improve brake response Intelligent brake assist IBA with forwarding emergency braking FEB on QX80 uses radar to monitor the approaching speed of the vehicle ahead helping detect an imminent collision It provides a two stage warning to alert the driver and if the driver takes no action the system automatically engages the brakes to mitigate the collision speed and impact A predictive forward collision warning system warns the driver of risks that may be obscured from the driver s view It senses the relative velocity and distance of a vehicle directly ahead as well as a vehicle traveling in front of the preceding one The forward emergency braking system judges that deceleration is required it alerts the driver using both a screen display and sound then generates a force that pushes the accelerator pedal up and applies partial braking to assist the driver in slowing the vehicle down When the system judges that there is the possibility of a collision it will automatically apply harder braking to help avoid one Nissan has been under investigation for collision avoidance systems on late model Rogue models that allegedly brake the vehicles for no reason according to the US National Highway Traffic Safety Administration NHTSA 40 As of September 2019 update Nissan considered the issue strictly as a performance update by issuing technical service bulletins at least three since January 2019 that pertain to reprogramming the radar control unit according to the agency 40 At least 553 860 cars are potentially affected 40 from the 2017 and 2018 model years 41 Subaru edit Subaru s system branded EyeSight was announced in May 2008 using stereo camera technology to detect pedestrians and bicyclists As initially announced EyeSight enabled pre collision braking control and adaptive cruise control at all speeds 42 It was rolled out in Japan to selected models in 2010 in Australia in 2011 and in North America in 2012 for the 2013 model year Legacy and Outback models 43 An alarm is used to warn the driver of a potential collision hazard in the pre collision system The pre collision braking control was upgraded in 2010 to allow the vehicle to stop automatically if the speed difference between the EyeSight equipped vehicle and the object in front is less than 30 km h 19 mph and the driver takes no action to slow down or stop Above 30 km h 19 mph the vehicle will reduce its speed automatically 42 It also allows the vehicle to engage braking assist if there is a risk of a frontal collision and the driver suddenly applies the brakes 42 The speed difference to allow an automatic stop was raised to 50 km h 31 mph in 2013 with improved cameras 44 The adaptive cruise control was also upgraded in 2010 to allow automatic emergency braking in traffic fully stopping the EyeSight vehicle when the car in front has come to a complete stop 42 In 2013 color was added to the cameras allowing the system to recognize brake lights and red stoplights ahead 44 Subaru also added active lane keeping keeping the vehicle in the middle of the lane and applying steering force to keep the vehicle in the lane when unintentionally crossing lane markers and throttle management to prevent sudden unintended acceleration in forward and reverse systems in 2013 with the improved cameras 44 EyeSight has been very popular equipped on approximately 90 of all Legacy and Outbacks sold in Japan at the beginning of 2012 43 and the engineers responsible for its development won a prize from the Japanese government that year 45 As of 2021 update EyeSight is standard on the Ascent Forester Legacy and Outback It is also standard on all CVT equipped Crosstrek Impreza and WRX It became standard on the automatic equipped BRZ as of 2022 Toyota edit nbsp 2008 LS 600h forward PCS diagram with radar blue and stereo camera red coverageToyota s system branded Toyota Safety Sense or Lexus Safety Sense is a radar based system that uses a forward facing millimeter wave radar When the system determines that a frontal collision is unavoidable it preemptively tightens the seat belts removing any slack and pre charges the brakes using brake assist to give the driver maximum stopping power when the driver depresses the brake pedal 2003 February Toyota launched PCS in the redesigned Japanese domestic market Harrier 46 2003 August added an automatic partial pre crash braking system to the Celsior 47 2003 September PCS made available in North America on the Lexus LS 430 becoming the first radar guided forward collision warning system offered in the US 2004 In July 2004 the Crown Majesta radar PCS added a single digital camera to improve the accuracy of collision forecast and warning and control levels 48 49 50 2006 Pre collision system with Driver Monitoring System introduced in March 2006 on the Lexus GS 450h 48 using a CCD camera on the steering column This system monitors the driver s face to determine where the driver is looking If the driver s head turns away from the road and a frontal obstacle is detected the system will alert the driver using a buzzer and if necessary pre charge the brakes and tighten the safety belts 2006 the Lexus LS introduced an advanced pre collision system APCS added a twin lens stereo camera located on the windshield and a more sensitive radar to detect smaller soft objects such as animals and pedestrians A near infrared projector located in the headlights allows the system to work at night With adaptive variable suspension AVS and electric power steering the system can change the shock absorber firmness steering gear ratios and torque to aid the driver s evasive steering measures The lane departure warning system will make automatic steering adjustments to help ensure that the vehicle maintains its lane in case the driver fails to react Driver Monitoring System was introduced on the Lexus LS The rear end pre collision system includes a rearward facing millimeter wave radar mounted in the rear bumper 51 The system adjusts the active head restraints by moving them upward and forward to reduce the risk of whiplash injuries if an imminent rear collision is detected 52 2008 Improved driver monitoring system added on the Crown for detecting whether the driver s eyes are properly open 53 It monitors the driver s eyes to detect the driver s level of wakefulness This system is designed to work even if the driver is wearing sunglasses at night 2008 PCS with GPS navigation linked brake assist function on the Crown The system is designed to determine if the driver is late in decelerating at an approaching stop sign will then sound an alert and can also pre charge the brakes to provide braking force if deemed necessary This system works in certain Japanese cities and requires Japan specific road markings that are detected by a camera 2009 Crown 54 added a front side millimeter wave radar to detect potential side collisions primarily at intersections or when another vehicle crosses the center line The latest version tilts the rear seat upward placing the passenger in a more ideal crash position if it detects a front or rear impact 55 2012 Higher speed APCS on the Lexus LS enables deceleration from up to 37 mph 60 km h compared to the previous of 25 mph 40 km h The higher speed APCS uses the same technologies as the current APCs This system increases the braking force up to twice that applied by average drivers It was not then available in U S markets 2013 Pre collision system with pedestrian avoidance steer assist and steering bypass assist 56 can help prevent collisions in cases where automatic braking alone is not sufficient such as when the vehicle is traveling too fast or a pedestrian suddenly steps into the vehicle s path An onboard sensor detects pedestrians and issues a visual alert on the dashboard immediately in front of the driver if the system determines that there is a risk of collision If the likelihood of a collision increases the system issues an audio and visual alarm to encourage the driver to take evasive action and the increased pre collision braking force and automatic braking functions are activated 57 If the system determines that a collision cannot be avoided by braking alone and there is sufficient room for avoidance steer assist is activated to steer the vehicle away from the pedestrian 58 2016 Toyota announced it would make Toyota Safety Sense TSS and Lexus Safety System standard on nearly all Japan Europe and US models by the end of 2017 59 60 2017 Lexus introduced the updated Lexus Safety System 2 0 on the fifth generation LS In the US 2017 model year Toyota sold more vehicles equipped with collision warnings than any other single brand with a total of 1 4 million sold or 56 of their fleet 61 2018 Toyota released its updated Toyota Safety Sense 2 0 TSS 2 0 to include Lane Tracing Assist Road Sign Assist and Low Light Pedestrian Detection with Daytime Bicyclist Detection which improves the Pre Collision System The first Japanese car model to receive TSS 2 0 is the executive Crown in its 15th generation 2021 Lexus introduced the updated Lexus Safety System 3 0 in the Lexus NX The suite contains a Risk Avoidance Emergency Steer Assist a Right Left Turn Oncoming Vehicle Detection Braking an Oncoming Vehicle Detection a Dynamic Radar Cruise Control with Curve Speed Management a Road Sign Assist a Pre Collision System a Lane Assistance and an Intelligent High Beam 62 63 Volkswagen edit nbsp Laser sensor of a Volkswagen Up2010 Front Assist on 2011 Volkswagen Touareg can brake the car to a stop in case of an emergency and tension the seat belts as a precautionary measure 64 2012 Volkswagen Golf Mk7 introduced a Proactive Occupant Protection that will close the windows and retract the safety belts to remove excess slack if the potential for a forward crash is detected Multi collision brake system automatic post collision braking system to automatically brake the car after an accident to avoid a second collision City emergency braking automatically activates brakes at low speeds in urban situations 2014 Volkswagen Passat B8 introduced pedestrian recognition as a part of the system It uses a sensor fusion between a camera and the radar sensor There is an emergency assist in case of a non reacting driver the car takes control of the brakes and the steering until a complete stop This is also found in the Volkswagen Golf Mk8 Volvo edit nbsp Volvo City Safety multiple cameras2006 Volvo s Collision Warning with Auto Brake was introduced in 2007 S80 This system is powered by a radar camera sensor fusion and provides a warning through a head up display that visually resembles brake lamps If the driver does not react the system pre charges the brakes and increases the brake assist sensitivity to maximize driver braking performance Later versions would automatically apply the brakes to minimize pedestrian impacts In some models of Volvos the automatic braking system can be manually turned off The V40 also included the first pedestrian airbag when it was introduced in 2012 citation needed 2013 Volvo introduced the first cyclist detection system All Volvo automobiles now come standard with a lidar laser sensor that monitors the front of the roadway and if a potential collision is detected the safety belts will retract to reduce excess slack Volvo now includes this safety device as an option in FH series trucks 65 better source needed 2015 IntelliSafe with auto brake at the intersection The Volvo XC90 features automatic braking if the driver turns in front of an oncoming car This is a common scenario at busy city crossings as well as on highways where the speed limits are higher citation needed March 2020 Volvo recalled 121 000 cars over auto emergency braking failure 66 The system may not detect an object and so may not work as intended increasing the risk of a crash 66 List of cars with available collision avoidance features editThis transport related list is incomplete you can help by adding missing items October 2021 Acura ILX MDX RDX RL RLX TLX Audi A3 from 2013 A6 from 2011 A7 from 2010 A8 Q7 from 2015 BMW Group 2 Series 3 Series 4 Series 5 Series 7 Series Mini Cooper Buick Enclave Cadillac 2013 ATS 2013 XTS Chevrolet Tenth generation Impala Traverse Equinox Silverado Volt Dodge All models Ford Edge Escape Everest F Series Fiesta Flex Focus Fusion Kuga Mustang Ranger Taurus Transit Connect GMC Acadia Terrain Honda Accord Civic Clarity CR V Fit HR V Insight Odyssey Passport Pilot Ridgeline Hyundai Elantra from 2016 Infiniti FX EX Q50 QX56 QX60 Jeep All Models when Lexus LS from 2003 GS 2005 IS 2005 RX 2008 NX 2014 Lincoln Aviator Continental Corsair MKS MKZ Nautilus Navigator Mazda Mazda2 Mazda3 Mazda6 CX 3 CX 5 CX 9 Mercedes Benz Mercedes Benz B Class CLA Class E Class S Class M Class Mitsubishi Outlander Pajero Sport Nissan Nissan X Trail Tekna 2015 67 Nissan Rogue 2019 Nissan LEAF 2019 Nissan Altima 2019 Nissan Pathfinder 2020 Perodua Myvi 1 5 Advance 2017 Peugeot 308 2014 SsangYong Rexton Tivoli Subaru Ascent BRZ 2022 Crosstrek Forester Impreza Legacy Outback WRX Suzuki Kizashi PRECRS JDM only Tesla Model S starting with 2015 model year Model X Model 3 Model Y Toyota All Models except Toyota 4Runner 2020 and up to get it and Yaris 2019 and up to get it Volkswagen Group Audi A4 Audi A5 Audi A6 Audi A7 Audi A8 Porsche Cayenne 3rd Generation Porsche Macan VW Up SEAT Mii Skoda Citigo Volkswagen Golf R Volvo all modelsNew car assessment program editEuro NCAP and C NCAP and ANCAP are involved in taking into account the Autonomous Emergency Braking AEB in their respective New Car Assessment Program 68 Since 2016 Euro NCAP has taken into account pedestrians in the AEB rating 68 In 2018 Euro NCAP provided assessments for AEB city since 2014 AEB interurban since 2014 AEB pedestrian since 2018 and AEB cyclist since 2018 Since 2018 ANCAP has also provided assessments for AEB city AEB interurban AEB pedestrian and cyclist Cost editMany vehicles have AEB fitted as standard The AEB is not available for every car When AEB is available as an option its cost can be in the 180 AEB city only 1300 regular AEB range 11 The cost of optional AEB will depend in part on whether certain other safety systems are installed The electronic and sensor systems that underpin adaptive cruise control and forward collision warning systems for example are well suited if not prerequisites to an AEB system 69 See also editAdaptive cruise control Advanced Automatic Collision Notification Autonomous car Automotive night vision Brake Assist Electronic stability control Lane departure warning system LIDAR Object detection for transportation systems Blind spot monitor Intelligent Car GPS trackingReferences edit Nissan Leaf 2018 Euro NCAP rating a b Lim Hazel Si Min Taeihagh Araz 2019 Algorithmic Decision Making in AVs Understanding Ethical and Technical Concerns for Smart Cities Sustainability 11 20 5791 arXiv 1910 13122 doi 10 3390 su11205791 What is a forward collision warning system safercar gov Retrieved 21 February 2020 Wong S Y 13 February 2008 Toyota Develops Automatic Brake System Assisted by GPS Technology for Safety Driving mydigitallife info Archived from the original on 6 March 2011 Retrieved 10 April 2020 Volvo Collision Warning with Auto Brake The Volvo Owners Club 29 August 2007 Retrieved 11 April 2020 Fuller John 22 April 2009 How Pre Collision Systems Work HowStuffWorks Retrieved 21 February 2020 Automakers Safety Officials Make Crash Avoidance Systems Standard by 2022 cars com 17 March 2016 Retrieved 21 February 2020 Uniform provisions concerning the approval of motor vehicles with regard to the Advanced Emergency Braking Systems AEBS Addendum 130 Regulation 131 PDF United Nations 27 February 2014 Retrieved 3 November 2019 Uniform provisions concerning the approval of motor vehicles with regard to the Advanced Emergency Braking System AEBS for M1 and N1 vehicles PDF United Nations Economic Commission for Europe 4 February 2020 p 8 Retrieved 31 July 2020 Kanarachos Stratis 2009 A new method for computing optimum obstacle avoidance steering manoeuvres of vehicles International Journal of Vehicle Autonomous Systems 7 1 73 95 doi 10 1504 IJVAS 2009 027968 Retrieved 29 July 2015 a b c d Autonomous Emergency Braking AEB Frequently Asked Questions PDF Thatcham Research UK Archived from the original PDF on 1 May 2018 Autonomous Emergency Braking Euro NCAP Retrieved 8 June 2019 a b Hayashi Ryuzo Chatporntanadul Puwadech Nagai Masao 4 September 2013 Improvement of Trajectory Tracking Performance in Autonomous Collision Avoidance by Steering 7th IFAC Symposium on Advances in Automotive Control IFAC Proceedings Volumes Vol 46 no 21 Tokyo pp 410 415 doi 10 3182 20130904 4 JP 2042 00104 Improved Impact of Collision Avoidance by Steering Technology on Real Life Safety vinnova se Stockholm Sweden Retrieved 3 November 2019 a b Addendum 78 UN Regulation No 79 Uniform provisions concerning the approval of vehicles with regard to steering equipment PDF United Nations 14 September 2017 Retrieved 31 January 2024 Strengthened UN regulation on emergency braking for trucks and coaches will further increase safety on the road unece org Francis Sam 19 April 2019 ADAS Top 40 advanced driver assistance systems companies Robotics and Automation News Retrieved 10 February 2020 Top 6 Vendors in the Global Automotive Advanced Emergency Braking System Market from 2016 to 2020 Technavio Business Wire Press release 21 September 2016 Retrieved 10 February 2020 Sedgwick David 13 October 2014 Demand skyrockets for collision avoidance sensors Automotive News Retrieved 10 February 2020 a b Naranjo Michelle 25 February 2016 Forward Collision Warning Systems Are Not All Created Equal Consumer Reports Retrieved 21 February 2020 Extensive safety in the new Audi A8 Bosch Media Services Press release 27 April 2010 Archived from the original on 21 September 2010 Retrieved 29 July 2015 The new Audi A8 PDF Press release Archived from the original PDF on 3 August 2017 Retrieved 17 February 2010 The new Audi Q7 Sportiness efficiency premium comfort Audi Media Center Press release 12 December 2014 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Through Vehicle collision avoidance systems Nissan Safety Features amp Technologies Nissan US 16 December 2019 Retrieved 10 April 2020 Collision Avoidance System of TORSA Retrieved from https en wikipedia org w index php title Collision avoidance system amp oldid 1216442617, wikipedia, wiki, book, books, library,

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