Основные понятия
Car-following models encompass various disciplines and provide insights into traffic flow dynamics, aiding in the development of connected and automated transportation systems.
Аннотация
The content delves into the multidisciplinary nature of car-following models, exploring theory-based, psycho-physical, adaptive cruise control, and data-driven approaches. It highlights key models like Gipps', Newell's, Cellular Automata, Intelligent Driver Model (IDM), and Adaptive Cruise Control (ACC). The discussion extends to supervised learning models, machine learning algorithms, deep learning techniques, and model predictive control strategies in the context of car-following behavior.
Статистика
Car-following algorithms integrated into production vehicles with ADAS.
Insights from car-following models help understand macro phenomena.
Review covers kinematic models, psycho-physical models, ACC models.
Data-driven approaches achieve human-level performance.
Linear controllers assume acceleration proportional to target spacing.
Fuzzy logic integrates multiple inputs for driver behavior modeling.
MPC offers flexibility with multiple objective functions and constraints.
Цитаты
"Car-following models are crucial components of traffic simulations." - Zhang et al.
"Insights from car-following behavior help understand interactions between vehicles." - Zhang et al.