Safety Challenges for Autonomous Vehicles in the Absence of Connectivity
This highlights a critical safety gap for autonomous vehicles, suggesting connectivity is essential for achieving safe AV technology, but it is incremental as it builds on known limitations.
The paper tackles the problem of autonomous vehicle safety in scenarios lacking vehicle-to-vehicle and infrastructure connectivity, showing that fully autonomous vehicles cannot guarantee safety without it and that such hazardous scenarios occur with high probability.
Autonomous vehicles (AVs) are promoted as a technology that will create a future with effortless driving and virtually no traffic accidents. AV companies claim that, when fully developed, the technology will eliminate 94% of all accidents that are caused by human error. These AVs will likely avoid the large number of crashes caused by impaired, distracted or reckless drivers. But there remains a significant proportion of crashes for which no driver is directly responsible. In particular, the absence of connectivity of an AV with its neighboring vehicles (V2V) and the infrastructure (I2V) leads to a lack of information that can induce such crashes. Since AV designs today do not require such connectivity, these crashes would persist in the future. Using prototypical examples motivated by the NHTSA pre-crash scenario typology, we show that fully autonomous vehicles cannot guarantee safety in the absence of connectivity. Combining theoretical models and empirical data, we also argue that such hazardous scenarios will occur with a significantly high probability. This suggests that incorporating connectivity is an essential step on the path towards safe AV technology.