Distributed Data-Sharing Consensus in Cooperative Perception of Autonomous Vehicles

To enable self-driving without a human driver, an autonomous vehicle needs to perceive its surrounding obstacles using onboard sensors, of which the perception accuracy might be limited by their own sensing range. An effective way to improve vehicles' perception accuracy is to let nearby vehicles exchange their sensor data so that vehicles can detect obstacles beyond their own sensing ranges, called cooperative perception. The shared sensor data, however, might disclose the sensitive information of vehicles' passengers, raising privacy and safety concerns (e.g. stalking or sensitive location leakage). In this paper, we propose a new data-sharing policy for the cooperative perception of autonomous vehicles, of which the objective is to minimize vehicles' information disclosure without compromising their perception accuracy. Considering vehides usually have different desires for data-sharing under different traffic environments, our policy provides vehicles autonomy to determine what types of sensor data to share based on their own needs. Moreover, given the dynamics of vehicles' data-sharing decisions, the policy can be adjusted to incentivize vehicles' decisions to converge to the desired decision field, such that a healthy cooperation environment can be maintained in a long term. To achieve such objectives, we analyze the dynamics of vehicles' data-sharing decisions by resorting to the game theory model, and optimize the data-sharing ratio in the policy based on the analytic results. Finally, we carry out an extensive trace-driven simulation to test the performance of the proposed datasharing policy. The experimental results demonstrate that our policy can help incentivize vehicles' data-sharing decisions to the desired decision fields efficiently and effectively.