I. Introduction

The application of potential field theory in traffic flow modeling has existed for a long time. At the beginning of the 21st century, some scholars put forward the concept of the potential field and applied it to robot path planning. Inspired by this idea, many scholars extended the potential field theory to the field of traffic flow research and obtained some research results. Wolf and Burdick established the corresponding potential field model for different objects, creatively constructed the vehicle potential field into a wedge form, and established the mapping relationship between the potential field and traffic behavior [1]. Ni et al. demonstrated the objectivity and universality of the potential field in traffic from both macro and micro perspectives, and calibrated the potential field car-following model using NGSIM (Next Generation Simulation) data [2]–[4]. Li et al. proposed a simple car-following model based on the concept of the potential field from the perspective of stimulus-response, but the factors considered in the model are relatively simple and the potential field model established is relatively simple [5]. Wang et al. established a unified model to characterize the “driving risk field” based on the previous research, put forward the concept of “driving risk field”, and validated the model with real vehicles [6], [7]. The results show that the model can provide an effective method for evaluating the driving risk in a complex traffic environment. Based on game theory and traffic field theory Li et al. established a safety control model to evaluate the driver’s driving risk [8]. It is worth mentioning that by improving the potential field model proposed by Wang et al, they optimized the vehicle’s driving field into an elliptic structure, which is more realistic in model interpretation. In summary, the potential field theory can describe the interrelationship between various factors in a complex traffic environment and can explain various phenomena in the real traffic environment with a unified framework.