Litcius/Paper detail

Gaussian Process-Based Personalized Adaptive Cruise Control

Yanbing Wang, Ziran Wang, Kyungtae Han, Prashant Kumar Tiwari, Daniel B. Work

2022IEEE Transactions on Intelligent Transportation Systems41 citationsDOI

Abstract

Advanced driver-assistance systems (ADAS) have matured over the past few decades with the dedication to enhance user experience and gain a wider market penetration. However, personalization features, as an approach to make the current technologies more acceptable and trustworthy for users, have been gaining momentum only very recently. In this work, we aim to learn personalized longitudinal driving behaviors via a Gaussian Process (GP) model. The proposed method learns from individual driver’s naturalistic car-following behavior, and outputs a desired acceleration profile that suits the driver’s preference. The learned model, together with a predictive safety filter that prevents rear-end collision, is used as a personalized adaptive cruise control (PACC) system. Numerical experiments show that GP-based PACC (GP-PACC) can almost exactly reproduce the driving styles of an intelligent driver model. Additionally, GP-PACC is further validated by human-in-the-loop experiments on the Unity game engine-based driving simulator. Trips driven by GP-PACC and two other baseline ACC algorithms with driver override rates are recorded and compared. Results show that on average, GP-PACC reduces the human override duration by 60% and 85% as compared to two widely-used ACC models, respectively, which shows the great potential of GP-PACC in improving driving comfort and overall user experience.

Topics & Concepts

Cruise controlGaussian processComputer scienceProcess (computing)Adaptive controlCooperative Adaptive Cruise ControlGaussianControl (management)Artificial intelligencePhysicsOperating systemQuantum mechanicsAutonomous Vehicle Technology and SafetyTraffic control and managementHuman-Automation Interaction and Safety