The Intelligent Safety of Automobile (Key Technologies on New Energy Vehicles)
معرفی کتاب «The Intelligent Safety of Automobile (Key Technologies on New Energy Vehicles)» نوشتهٔ Jianqiang Wang, Bingbing Nie, Hong Wang، منتشرشده توسط نشر Springer Nature Singapore Pte Ltd Fka Springer Science + Business Media Singapore Pte Ltd در سال 2023. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
The book expounds the current research and development trend of intelligent safety technology of automobile, and analyzes and excavates the new safety technology to the automobile. It introduces the basic theory, core method, key technology, main system, test evaluation and innovation practice of intelligent safety of automobile for readers, providing a certain theoretical and practical basis for the safety development of the automobile.This book is elaborated from the perspective of the driver-vehicle-road system. The traffic accidents are divided into three stages for discussion: before, during and after the collision. This book constructs a new systematic structure for Safety theory and technical system of several key links, including system safety, operation safety, intelligent protection and safety evaluation. It will be a useful reference for researchers and practitioners in the field of automobile engineering and auto pilot. Contents 1 Introduction 1.1 Preface 1.1.1 Concept and Connotation of Intelligent Safety of Vehicle 1.1.2 Significance of ISV 1.1.3 Research Object and Overall Framework of ISV 1.2 Status of Vehicle Safety Research 1.2.1 Research on Driver Safety 1.2.2 Research on Vehicle Safety 1.2.3 Research on Road Safety 1.2.4 Research on DVE Cooperative Safety 1.2.5 Summary of Vehicle Safety Research Status 1.3 Intelligent Safety Technology System 1.4 Summary References 2 System Safety 2.1 System Safety Development Theory 2.1.1 Systems Engineering Theory 2.1.2 System Hazard Mechanism 2.1.3 System Safety Assurance Theory 2.1.4 Safety Acceptability Theory 2.2 Systems Safety Design Approach 2.2.1 Overall Process of Systems Safety Design 2.2.2 System Concept Setting and Analysis 2.3 Systems Safety Design and Development 2.3.1 Systems Certification and Release 2.4 Systems Safety Assurance Technology 2.4.1 System Safety Classification and Standard 2.4.2 FuSa Assurance Technology 2.5 Fault Tolerant Control 2.5.1 SOTIF Assurance Technology 2.5.2 Cybersecurity Assurance Technology 2.6 Typical Systems in Terms of System Safety 2.6.1 Safety Assurance System Based on Functional Redundancy 2.6.2 Self-monitoring-Based Safety Assurance System 2.6.3 Cybersecurity System Based on In-Depth Defense 2.7 Summary References 3 Driving Safety 3.1 Theory of DSV 3.1.1 DVE Interaction Mechanism 3.1.2 Generation Mechanism of Driving Risk 3.1.3 Mechanism of Driving Accident 3.2 Risk Identification and Quantitative Evaluation Approaches 3.2.1 Design of Operational Safety Domain 3.2.2 Dynamic Cognition of Driving Environment 3.2.3 Quantitative Evaluation of Driving Risk 3.2.4 Analysis of Driving Risk Evolution 3.3 Intelligent Safety Decision and Control Technology 3.3.1 Intelligent Safety Decision Technology 3.3.2 Intelligent Safety Control Technology 3.4 Intelligent Driving Safety System 3.4.1 Active Safety Control System 3.4.2 Assistance Driving Safety System 3.4.3 Autonomous Driving Safety System 3.4.4 Intelligent Driving Cooperative Safety System 3.5 Summary References 4 Intelligent Protection 4.1 IP Theory 4.1.1 Distribution Properties and Causation Mechanism of Road Traffic Accidents 4.1.2 Injury Mechanism of Traffic Participants 4.1.3 Mechanical Behavior and Safety of Vehicle Body and Power System 4.2 Damage Quantification Approach 4.2.1 Population Distribution Feature and Modeling of Injury Behavior 4.2.2 Human-Vehicle Damage Tolerance and Quantitative Evaluation 4.2.3 Behavior and Injury of Traffic Participants and Its Quantitative Evaluation 4.3 Cooperative Protection Technology 4.3.1 Damage Risk Prediction of Human-Vehicle System 4.3.2 Vehicle Protection Technology in Terms of Structural Energy Absorption Property and Sensing 4.3.3 IP Technology for Traffic Participants 4.4 IP System 4.4.1 Collision Risk Warning and Automatic Protection System 4.4.2 Monitoring System for IP-Based Vehicle Body and Power System 4.4.3 Safety Protection System for Traffic Participants 4.5 Summary References 5 Testing and Evaluation for Vehicle Safety 5.1 Theory of TEVS 5.1.1 General Safety Evaluation Principles 5.1.2 Theory of Safety Performance Test 5.1.3 Theory of Safety Performance Evaluation 5.2 Vehicle Safety Performance Testing 5.2.1 Testing Specifications and Standards 5.2.2 Testing Scenario 5.2.3 Intelligent Testing Ecosystem 5.2.4 Safety Performance Testing Methods 5.2.5 Safety Performance Testing Technologies 5.3 Vehicle Safety Performance Evaluation 5.3.1 Construction of Safety Evaluation Index System 5.3.2 Safety Performance Evaluation Methods 5.3.3 Safety Performance Evaluation Technologies 5.4 TEVS System 5.4.1 Software Simulation Testing and Evaluation System 5.4.2 Hardware In-Loop Testing and Evaluation System 5.4.3 Closed Site Testing and Evaluation System 5.4.4 Open Road Testing and Evaluation System 5.5 Summary References 6 Prospects for ISV Technology 6.1 Vision and Development Requirement of ISV 6.1.1 Safety Vision 6.1.2 Development Requirement 6.2 Future IV and Its Safety 6.3 Cutting Edge Technology of System Safety 6.4 Cutting Edge Technology of Driving Safety 6.5 Cutting Edge Technology of Intelligent Protection 6.6 Cutting Edge Technology of Cooperative Safety 6.7 Summary References
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