Track Ⅵ
Optimization of Driving Trust Transfer and Fault Takeover in Human-Machine Co-Driving Scenarios
(人机共驾场景下的驾驶信任传递与故障接管优化)
Chair: | |
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Huimin Ge | |
Jiangsu University, China |
Keywords: | Topics: |
· Human-Machine Co-Driving (人机共驾) · Trust Transfer (信任传递) · Fault Takeover (故障接管) · Response Time Optimization (响应时间优化) · Risk Control (风险控制) | · Mechanism of Trust Collapse and Early Warning Threshold Research in Fault Takeover Scenarios (故障接管场景下的信任崩塌机理与预警阈值研究) · Comparison of Trust Transfer Efficiency of Multimodal Interaction Signals (Voice Prompt/Light Warning/Tactile Vibration) (多模态交互信号的信任传递效率对比(语音提示/灯光警示/触觉振动)) · Takeover Response Time Prediction Model Based on Cognitive Load (基于认知负荷的接管响应时间预测模型) · Human-Machine Trust Game Model and Decision Optimization under Extreme Conditions (极端工况下的人机信任博弈模型与决策优化) · Quantitative Assessment Indicators and Experimental Validation Methods for the Effectiveness of Trust Transmission (信任传递效果的量化评估指标与实验验证方法) · Research on Takeover Trust Differences in Commercial Vehicle/Passenger Vehicle Scenarios (商用车/乘用车场景下的接管信任差异研究) |
Summary:
· This topic focuses on the human- machine trust transfer mechanism in the event of an automated driving system fault, discusses the expression of takeover intention, trust reconstruction strategy, and response time optimization method under multimodal interaction (visual/auditory/tactile), and constructs a trust dynamic model of the fault takeover process by combining with the theory of cognitive load, so as to enhance the safety and reliability of the human- machine co-driving system.
· 本专题聚焦自动驾驶系统故障时的人机信任传递机制,探讨多模态交互(视觉/听觉/触觉)下的接管意图表达、信任重建策略及响应时间优化方法,结合认知负荷理论构建故障接管过程的信任动态模型,提升人机共驾系统的安全性与可靠性。
Submission Deadline: 2025.10.31