Multi-level decision framework collision avoidance algorithm in emergency scenarios

With the rapid development of autonomous driving, the attention of academia has increasingly focused on the development of anti-collision systems in emergency scenarios, which have a crucial impact on driving safety. While numerous anti-collision strategies have emerged in recent years, most of them only consider steering or braking. The dynamic and complex nature of the driving environment presents a challenge to developing robust collision avoidance algorithms in emergency scenarios. To address the complex, dynamic obstacle scene and improve lateral maneuverability, this paper establishes a multi-level decision-making obstacle avoidance framework that employs the safe distance model and integrates emergency steering and emergency braking to complete the obstacle avoidance process. This approach helps avoid the high-risk situation of vehicle instability that can result from the separation of steering and braking actions. In the emergency steering algorithm, we define the collision hazard moment and propose a multi-constraint dynamic collision avoidance planning method that considers the driving area. Simulation results demonstrate that the decision-making collision avoidance logic can be applied to dynamic collision avoidance scenarios in complex traffic situations, effectively completing the obstacle avoidance task in emergency scenarios and improving the safety of autonomous driving.

[1]  Xin Xia,et al.  An automated driving systems data acquisition and analytics platform , 2023, Transportation Research Part C: Emerging Technologies.

[2]  Zhengming Fu,et al.  High Dynamic Range Imaging with Context-aware Transformer , 2023, 2023 International Joint Conference on Neural Networks (IJCNN).

[3]  Zhengming Fu,et al.  MM-BSN: Self-Supervised Image Denoising for Real-World with Multi-Mask based on Blind-Spot Network , 2023, 2023 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW).

[4]  Chuan Hu,et al.  A Systematic Survey of Control Techniques and Applications in Connected and Automated Vehicles , 2023, IEEE Internet of Things Journal.

[5]  Guoying Chen,et al.  Dynamic Drifting Control for General Path Tracking of Autonomous Vehicles , 2023, IEEE Transactions on Intelligent Vehicles.

[6]  Jinhai Wang,et al.  Planning and Tracking Control of Full Drive-by-Wire Electric Vehicles in Unstructured Scenario , 2023, Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering.

[7]  Liyue Shen,et al.  PINER: Prior-informed Implicit Neural Representation Learning for Test-time Adaptation in Sparse-view CT Reconstruction , 2023, 2023 IEEE/CVF Winter Conference on Applications of Computer Vision (WACV).

[8]  A. Khajepour,et al.  Autonomous Vehicle Kinematics and Dynamics Synthesis for Sideslip Angle Estimation Based on Consensus Kalman Filter , 2023, IEEE Transactions on Control Systems Technology.

[9]  Jian Cao,et al.  Modeling and simulation of lane-changing and collision avoiding autonomous vehicles on superhighways , 2022, Physica A: Statistical Mechanics and its Applications.

[10]  Dejiu Chen,et al.  Integrated Control of Steering and Braking for Effective Collision Avoidance with Autonomous Emergency Braking in Automated Driving , 2022, 2022 30th Mediterranean Conference on Control and Automation (MED).

[11]  Manabu Tsukada,et al.  Model Predictive Path-Planning Controller With Potential Function for Emergency Collision Avoidance on Highway Driving , 2022, IEEE Robotics and Automation Letters.

[12]  A. Khajepour,et al.  Improved Vehicle Localization Using On-Board Sensors and Vehicle Lateral Velocity , 2022, IEEE Sensors Journal.

[13]  Feng Jian,et al.  Active Collision Avoidance Strategy Considering Motion Uncertainty of the pedestrian , 2022, IEEE Transactions on Intelligent Transportation Systems.

[14]  Yuming Wang,et al.  Research on autonomous emergency braking system strategy based on pedestrian crossing the road , 2022, Other Conferences.

[15]  X. Li,et al.  An improved automated braking system for rear-end collisions: A study based on a driving simulator experiment. , 2021, Journal of safety research.

[16]  Wei Liu,et al.  Automated Vehicle Sideslip Angle Estimation Considering Signal Measurement Characteristic , 2021, IEEE Sensors Journal.

[17]  Amir Khajepour,et al.  Autonomous Vehicles Sideslip Angle Estimation: Single Antenna GNSS/IMU Fusion With Observability Analysis , 2021, IEEE Internet of Things Journal.

[18]  Mattias Brännström,et al.  Precautionary Safety for Autonomous Driving Systems: Adapting Driving Policies to Satisfy Quantitative Risk Norms , 2021, 2021 IEEE International Intelligent Transportation Systems Conference (ITSC).

[19]  Ting-qiong Cui,et al.  Motion Planning Based on Steering Obstacle Avoidance Under Emergency Conditions , 2021, International Conference on Advanced Robotics and Mechatronics.

[20]  Xia Xin,et al.  Vehicle sideslip angle estimation by fusing inertial measurement unit and global navigation satellite system with heading alignment , 2021 .

[21]  Kok Kiong Tan,et al.  Path planning of collision avoidance for unmanned ground vehicles: A nonlinear model predictive control approach , 2020, J. Syst. Control. Eng..

[22]  Xia Xin,et al.  Vision‐aided intelligent vehicle sideslip angle estimation based on a dynamic model , 2020, IET Intelligent Transport Systems.

[23]  Lu Xiong,et al.  IMU-Based Automated Vehicle Body Sideslip Angle and Attitude Estimation Aided by GNSS Using Parallel Adaptive Kalman Filters , 2020, IEEE Transactions on Vehicular Technology.

[24]  Lei He,et al.  Research on synchronous control strategy of steer-by-wire system with dual steering actuator motors , 2020, International Journal of Vehicle Autonomous Systems.

[25]  Qian Lei,et al.  Research on Longitudinal Active Collision Avoidance of Autonomous Emergency Braking Pedestrian System (AEB-P) , 2019, Sensors.

[26]  Guoying Chen,et al.  An identification algorithm of driver steering characteristics based on backpropagation neural network , 2019, Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering.

[27]  Guoying Chen,et al.  Dynamics integrated control for four-wheel independent control electric vehicle , 2019, International Journal of Heavy Vehicle Systems.

[28]  Rini Sherony,et al.  Estimated benefit of automated emergency braking systems for vehicle–pedestrian crashes in the United States , 2019, Traffic injury prevention.

[29]  Yanjun Huang,et al.  A hierarchical energy efficiency optimization control strategy for distributed drive electric vehicles , 2019 .

[30]  Yanjun Huang,et al.  Comprehensive chassis control strategy of FWIC‐EV based on sliding mode control , 2019, IET Intelligent Transport Systems.

[31]  Yoshiko Kojima,et al.  Human-like behavior generation for intelligent vehicles in urban environment based on a hybrid potential map , 2017, 2017 IEEE Intelligent Vehicles Symposium (IV).

[32]  Wei Liu,et al.  A Nonlinear Dynamic Control Design with Conditional Integrators Applied to Unmanned Skid-steering Vehicle , 2017 .

[33]  Andrew G. Alleyne,et al.  Autonomous Vehicle Control: A Nonconvex Approach for Obstacle Avoidance , 2017, IEEE Transactions on Control Systems Technology.

[34]  Jessica B. Cicchino,et al.  Effectiveness of forward collision warning and autonomous emergency braking systems in reducing front-to-rear crash rates. , 2017, Accident; analysis and prevention.

[35]  Kyongsu Yi,et al.  Design of Integrated Risk Management-Based Dynamic Driving Control of Automated Vehicles , 2017, IEEE Intelligent Transportation Systems Magazine.

[36]  J. Christian Gerdes,et al.  Simple Clothoid Lane Change Trajectories for Automated Vehicles Incorporating Friction Constraints , 2016 .

[37]  Jin Bae Park,et al.  Gaussian mixture approach to decision making for automotive collision warning systems , 2015 .

[38]  Jonas Fredriksson,et al.  Longitudinal and lateral control for automated lane change maneuvers , 2015, 2015 American Control Conference (ACC).

[39]  Hermann Winner,et al.  Three Decades of Driver Assistance Systems: Review and Future Perspectives , 2014, IEEE Intelligent Transportation Systems Magazine.

[40]  S.-J. Huang,et al.  A new lateral impact warning system with grey prediction , 2010 .

[41]  Rachael A. Bis,et al.  Velocity Occupancy Space: Robot Navigation and Moving Obstacle Avoidance With Sensor Uncertainty , 2009 .

[42]  Francesco Borrelli,et al.  MPC-based yaw and lateral stabilisation via active front steering and braking , 2008 .

[43]  T. Hesse,et al.  An Approach to Integrate Vehicle Dynamics in Motion Planning for Advanced Driver Assistance Systems , 2007, 2007 IEEE Intelligent Vehicles Symposium.

[44]  Francesco Borrelli,et al.  INTEGRATED BRAKING AND STEERING MODEL PREDICTIVE CONTROL APPROACH IN AUTONOMOUS VEHICLES , 2007 .

[45]  Yanjun Huang,et al.  Estimation on IMU yaw misalignment by fusing information of automotive onboard sensors , 2022 .