Automated Vehicles for Safety
The continuing evolution of automotive technology aims to deliver even greater safety benefits and Automated Driving Systems (ADS) that—one day—can handle the whole task of driving when we don’t want to or can’t do it ourselves. Fully automated cars and trucks that drive us, instead of us driving them, will become a reality. These self-driving vehicles ultimately will integrate onto U.S. roadways by progressing through six levels of driver assistance technology advancements in the coming years.
The Evolution of Automated Safety Technologies
A number of today’s new motor vehicles have technology that helps drivers avoid drifting into adjacent lanes or making unsafe lane changes, or that warns drivers of other vehicles behind them when they are backing up, or that brakes automatically if a vehicle ahead of them stops or slows suddenly, among other things. These and other safety technologies use a combination of hardware (sensors, cameras, and radar) and software to help vehicles identify certain safety risks so they can warn the driver to act to avoid a crash.
The continuing evolution of automotive technology aims to deliver even greater safety benefits and – one day – deliver Automated Driving Systems (ADS) that can handle the whole task of driving when we don’t want to or can’t do it ourselves.
A Vision for Safety: Learn More
Download NHTSA’s voluntary guidance, technical documentation, and additional resources related to automated vehicles. Find out what’s included and what’s changed, and get answers to common questions.
The Road to Full Automation
Fully autonomous cars and trucks that drive us instead of us driving them will become a reality. These self-driving vehicles ultimately will integrate onto U.S. roadways by progressing through six levels of driver assistance technology advancements in the coming years. This includes everything from no automation (where a fully engaged driver is required at all times), to full autonomy (where an automated vehicle operates independently, without a human driver)..
What does this mean for you as a driver?
|Levels of Automation||Who does what, when|
|Level 0||The human driver does all the driving.|
|Level 1||An advanced driver assistance system (ADAS) on the vehicle can sometimes assist the human driver with either steering or braking/accelerating, but not both simultaneously.|
|Level 2||An advanced driver assistance system (ADAS) on the vehicle can itself actually control both steering and braking/accelerating simultaneously under some circumstances. The human driver must continue to pay full attention (“monitor the driving environment”) at all times and perform the rest of the driving task.|
|Level 3||An Automated Driving System (ADS) on the vehicle can itself perform all aspects of the driving task under some circumstances. In those circumstances, the human driver must be ready to take back control at any time when the ADS requests the human driver to do so. In all other circumstances, the human driver performs the driving task.|
|Level 4||An Automated Driving System (ADS) on the vehicle can itself perform all driving tasks and monitor the driving environment – essentially, do all the driving – in certain circumstances. The human need not pay attention in those circumstances.|
|Level 5||An Automated Driving System (ADS) on the vehicle can do all the driving in all circumstances. The human occupants are just passengers and need never be involved in driving.|
Benefits of Automation
The safety benefits of automated vehicles are paramount. Automated vehicles’ potential to save lives and reduce injuries is rooted in one critical and tragic fact: 94 percent of serious crashes are due to human error. Automated vehicles have the potential to remove human error from the crash equation, which will help protect drivers and passengers, as well as bicyclists and pedestrians. When you consider more than 35,092 people died in motor vehicle-related crashes in the U.S. in 2015, you begin to grasp the lifesaving benefits of driver assistance technologies.
Economic and Societal Benefits
Automated vehicles could deliver additional economic and additional societal benefits. A NHTSA study showed motor vehicle crashes in 2010 cost $242 billion in economic activity, including $57.6 billion in lost workplace productivity, and $594 billion due to loss of life and decreased quality of life due to injuries. Eliminating the vast majority of motor vehicle crashes could erase these costs.
Efficiency and Convenience
Roads filled with automated vehicles could also cooperate to smooth traffic flow and reduce traffic congestion. Americans spent an estimated 6.9 billion hours in traffic delays in 2014, cutting into time at work or with family, increasing fuel costs and vehicle emission. With automated vehicles, the time and money spent commuting could be put to better use. A recent study stated that automated vehicles could free up as much as 50 minutes each day that had previously been dedicated to driving.
While its full societal benefits are difficult to project, the transformative potential of automated vehicles and their driver assistance features can also be understood by reviewing U.S. demographics and the communities these technologies could help to support.
For example, automated vehicles may also provide new mobility options to millions more Americans. Today there are 49 million Americans over age 65 and 53 million people have some form of disability.
In many places across the country employment or independent living rests on the ability to drive. Automated vehicles could extend that kind of freedom to millions more. One study suggests that automated vehicles could create new employment opportunities for approximately 2 million people with disabilities.
Frequently Asked Questions
Automated or “self-driving” vehicles are a future technology rather than one that you’ll find in a dealership tomorrow or in the next few years. A variety of technological hurdles have to be cleared, and other important issues must be addressed before these types of vehicles can be available for sale in the United States. The Department of Transportation is committed to supporting the innovators who are developing these types of vehicles to ensure their safe testing and deployment before they are available to consumers.
Automated vehicles and driver assisting technologies (including those already in use on the roads) have the potential to reduce crashes, prevent injuries, and save lives. Of all serious motor vehicle crashes, 94 percent are due to human error or choices. Fully automated vehicles that can see more and act faster than human drivers could greatly reduce errors, the resulting crashes, and their toll.
There is no vehicle currently available for sale that is “self-driving.” Every vehicle currently for sale in the United States requires the full attention of the driver at all times for safe operation. While an increasing number of vehicles now offer some automated safety features designed to assist the driver under specific conditions, there is no vehicle currently for sale that is fully automated or “self-driving.”
Many vehicles today include safety features that assist drivers in specific circumstances, such as keeping us from drifting out of our lane or helping us stop in time to avoid a crash or reduce its severity. You can read more about on this topic at nhtsa.gov/safety-technologies. If you’re currently shopping for a new vehicle, review NHTSA’s 5-Star Safety Ratings to make informed decisions about the safety features included in your new vehicle. They can be found at nhtsa.gov/ratings.
Vehicles are tested by the companies that build them. Companies must comply with Federal Motor Vehicle Safety Standards and certify that their vehicle is free of safety risks. Many companies today are testing advanced automated vehicles to ensure that they operate as intended, but a great deal of work remains to be done to ensure their safe operation before they are made publicly available.
Cybersecurity is a critical issue that DOT and automotive companies are working to address for the future safe deployment of these technologies. Advanced vehicle safety technologies depend on an array of electronics, sensors, and computing power. In advancing these features and exploring the potential of fully autonomous vehicles, DOT and NHTSA is focused on cybersecurity to ensure that these systems work as intended. You can read more about our approach to this issue by visiting nhtsa.gov/technology-innovation/vehicle-cybersecurity.
These are among many important questions beyond the technical considerations that policymakers are working to address before automated vehicles are made available. We are still many years from fully automated vehicles becoming available to the public.
NHTSA is dedicated to advancing the lifesaving potential of vehicle technologies
Through its proactive and inclusive approach to the safe testing and deployment of new auto technologies that have enormous potential for improving safety and mobility for Americans on the road, NHTSA demonstrates its dedication to saving lives on our roads and highways.
In September 2016, NHTSA and the U.S. Department of Transportation issued a Federal Automated Vehicle Policy that set a proactive approach to providing safety assurance and facilitating innovation. Building on that policy and incorporating feedback received through public comments and Congressional hearings, in September 2017 we issued A Vision for Safety 2.0. The updated guidance, 2.0, paves the way for the safe deployment of advanced driver assistance technologies by providing voluntary guidance that encourages best practices and prioritizes safety. The document also provides technical assistance to States and best practices for policymakers.
As automated technologies advance, so will the Department’s guidance. The guidance is intended to be flexible and to evolve as technology does. In fact, DOT and NHTSA are already planning for version 3.0 in 2018.
Search for more resources
Driver Assistance Technologies - Vehicle Shoppers Guide
Tecnologías de Asistencia al Conductor: Guía para Compradores de Vehículos
2018 SAE Government-Industry Meeting - Blanco
2018 SAE Government-Industry Meeting - Gepner, Lin, Wu, Forman, Panzer
2018 SAE Government-Industry Meeting - Herrera