TY - GEN
T1 - Social-Aware Planning and Control for Automated Vehicles Based on Driving Risk Field and Model Predictive Contouring Control
T2 - 2023 IEEE International Conference on Systems, Man, and Cybernetics (SMC 2023)
AU - Zhang, Li
AU - Dong, Yongqi
AU - Farah, Haneen
AU - van Arem, Bart
PY - 2023/10
Y1 - 2023/10
N2 - The gradual deployment of automated vehicles (AVs) results in mixed traffic where AVs will interact with human-driven vehicles (HDVs). Thus, social-aware motion planning and control while considering interactions with HDVs on the road is critical for AVs' deployment and safe driving under various maneuvers. Previous research mostly focuses on the trajectory planning of AVs using Model Predictive Control or other relevant methods, while seldom considering the integrated planning and control of AVs altogether to simplify the whole pipeline architecture. Furthermore, there are very limited studies on social-aware driving that makes AVs understandable and expected by human drivers, and none when it comes to the challenging maneuver of driving through roundabouts. To fill these research gaps, this paper develops an integrated social-aware planning and control algorithm for AVs' driving through roundabouts based on Driving Risk Field (DRF), Social Value Orientation (SVO), and Model Predictive Contouring Control (MPCC), i.e., DRF-SVO-MPCC. The proposed method is tested and verified with simulation on the open-sourced highway-env platform. Compared with the baseline method using purely Nonlinear Model Predictive Control, the DRF-SVO-MPCC can achieve better performance under various maneuvers of driving through roundabouts with and without surrounding HDVs. © 2023 IEEE.
AB - The gradual deployment of automated vehicles (AVs) results in mixed traffic where AVs will interact with human-driven vehicles (HDVs). Thus, social-aware motion planning and control while considering interactions with HDVs on the road is critical for AVs' deployment and safe driving under various maneuvers. Previous research mostly focuses on the trajectory planning of AVs using Model Predictive Control or other relevant methods, while seldom considering the integrated planning and control of AVs altogether to simplify the whole pipeline architecture. Furthermore, there are very limited studies on social-aware driving that makes AVs understandable and expected by human drivers, and none when it comes to the challenging maneuver of driving through roundabouts. To fill these research gaps, this paper develops an integrated social-aware planning and control algorithm for AVs' driving through roundabouts based on Driving Risk Field (DRF), Social Value Orientation (SVO), and Model Predictive Contouring Control (MPCC), i.e., DRF-SVO-MPCC. The proposed method is tested and verified with simulation on the open-sourced highway-env platform. Compared with the baseline method using purely Nonlinear Model Predictive Control, the DRF-SVO-MPCC can achieve better performance under various maneuvers of driving through roundabouts with and without surrounding HDVs. © 2023 IEEE.
KW - Automated vehicles
KW - Driving Risk Field
KW - Model Predictive Contouring Control
KW - Planning and control
KW - Roundabouts
KW - Social-aware driving
UR - http://www.scopus.com/inward/record.url?scp=85187306501&partnerID=8YFLogxK
UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85187306501&origin=recordpage
U2 - 10.1109/SMC53992.2023.10394462
DO - 10.1109/SMC53992.2023.10394462
M3 - RGC 32 - Refereed conference paper (with host publication)
SN - 9798350337037
T3 - Conference Proceedings - IEEE International Conference on Systems, Man and Cybernetics
SP - 3297
EP - 3304
BT - 2023 IEEE International Conference on Systems, Man, and Cybernetics (SMC) - Proceedings
PB - IEEE
Y2 - 1 October 2023 through 4 October 2023
ER -
