Automotive Cyber Security : Introduction, Challenges, and Standardization /: Introduction, Challenges, and Standardization. (2020)
- Record Type:
- Book
- Title:
- Automotive Cyber Security : Introduction, Challenges, and Standardization /: Introduction, Challenges, and Standardization. (2020)
- Main Title:
- Automotive Cyber Security : Introduction, Challenges, and Standardization
- Further Information:
- Note: By Shiho Kim, Rakesh Shrestha.
- Authors:
- Kim, Shiho
Shrestha, Rakesh - Contents:
- 1. Introduction to Automotive Cybersecurity1.1 Overview1.2 Introduction1.2.1. Security and Its Impact1.3. Cybersecurity in Automotive Technology1.3.1 The Rising Threat1.4. Vehicular Ransomware Attack1.4.1. Vehicle Ransomware Attack Scheme1.5. Overview of Topics1.5.1 Intelligent and Autonomous Vehicle1.5.2 Cybersecurity and Privacy in Intelligent Autonomous Vehicles1.5.3 In-Vehicle communication and Cyber Security1.5.4 AUTOSAR Embedded Security in Vehicles1.5.5 Inter-vehicle Communication and Cyber Security1.5.6 Internet of Vehicles, Vehicular Social Networks, and Security Issues 1.5.7 V2X Current Security Issues, Standards, Challenges, Use cases and Future Trends 2. Intelligent Autonomous Vehicles 2.1 Overview2.2 History of Intelligent and Autonomous Vehicle2.3 Classification of Autonomous vehicle driving levels2.3.1 SAE and NHTS classification:2.4 State-of-the-art Intelligent and Autonomous Vehicle Technologies2.4.1 Autonomous Vehicle2.4.1.1 In-vehicle Communication2.4.1.2. In-Vehicle Networking Types2.4.2 Connected Vehicle Technology2.4.2.1 Inter-vehicle communication2.5 Battle for Adoption2.6 Market demand of Automotive Cyber security2.7 Summary 3. Security and Privacy in Intelligent Autonomous Vehicles3.1 Overview3.2 Cryptography Introduction3.3 Cryptography Objective3.3.1 Confidentiality3.3.2 Data Integrity3.3.3 Authentication3.3.4 Non-Repudiation3.4 Cryptographic Primitives3.4.1 Symmetric Key or Secret Key encryption3.4.2 Asymmetric Key or Public Key encryption3.4.31. Introduction to Automotive Cybersecurity1.1 Overview1.2 Introduction1.2.1. Security and Its Impact1.3. Cybersecurity in Automotive Technology1.3.1 The Rising Threat1.4. Vehicular Ransomware Attack1.4.1. Vehicle Ransomware Attack Scheme1.5. Overview of Topics1.5.1 Intelligent and Autonomous Vehicle1.5.2 Cybersecurity and Privacy in Intelligent Autonomous Vehicles1.5.3 In-Vehicle communication and Cyber Security1.5.4 AUTOSAR Embedded Security in Vehicles1.5.5 Inter-vehicle Communication and Cyber Security1.5.6 Internet of Vehicles, Vehicular Social Networks, and Security Issues 1.5.7 V2X Current Security Issues, Standards, Challenges, Use cases and Future Trends 2. Intelligent Autonomous Vehicles 2.1 Overview2.2 History of Intelligent and Autonomous Vehicle2.3 Classification of Autonomous vehicle driving levels2.3.1 SAE and NHTS classification:2.4 State-of-the-art Intelligent and Autonomous Vehicle Technologies2.4.1 Autonomous Vehicle2.4.1.1 In-vehicle Communication2.4.1.2. In-Vehicle Networking Types2.4.2 Connected Vehicle Technology2.4.2.1 Inter-vehicle communication2.5 Battle for Adoption2.6 Market demand of Automotive Cyber security2.7 Summary 3. Security and Privacy in Intelligent Autonomous Vehicles3.1 Overview3.2 Cryptography Introduction3.3 Cryptography Objective3.3.1 Confidentiality3.3.2 Data Integrity3.3.3 Authentication3.3.4 Non-Repudiation3.4 Cryptographic Primitives3.4.1 Symmetric Key or Secret Key encryption3.4.2 Asymmetric Key or Public Key encryption3.4.3 Digital Signatures3.4.4 Homomorphic Encryption3.5 Cyber Security in Intelligent and Autonomous Vehicles3.5.1. Cyber Security Framework3.5.2. Cybersecurity Layers by Design3.5.3. Threat Modelling Method (TMM)3.5.4. HARA and TARA Safety and Security Methods3.5.5 Security & Privacy Threats in Vehicular Networks 3.5.6 Autonomous Vehicle Cyber Security 3.5.7 Connected Vehicle Security 3.5.7.1 Components of IAV 3.5.7.2 Vehicular Ad-hoc Networks Vulnerabilities 3.5.7.3 Privacy in VANET 3.5.8. Trust Management in VANET 3.5.6. Blockchain as a security in VANET3.6. Summary 4. In-vehicle Communication and Cyber Security4.1 Overview4.2. In-Vehicle System4.2.1 Vehicle Electrical and Electronic System4.2.1.1 Body electronics4.2.1.2 Chassis Electronics4.3. In-Vehicle Communication4.3.1 In-vehicle Sensing Technologies4.3.2 In-Vehicle Network (IVN) Systems4.2.1.3 Comfort Electronics4.2.1.4 Electronic Control Units (ECUs):4.2.1.5 Infotainment Electronics:4.2.1.6 Sensor Technology4.2.1.7 Advanced Driver Assistance System (ADAS)4.3. In-vehicle communication4.3.1 In-Vehicle Sensing Technologies4.3.1.1. Sensor Technologies4.3.1.2 Vision Technologies4.3.1.3 Positioning Technologies4.3.2 In-Vehicle Network (IVN) Systems4.3.2.1 Controller Area Network (CAN)4.3.2.2 FlexRay4.3.2.3 Local Interconnect Network (LIN)4.3.2.4 Automotive Ethernet (AE)4.3.2.5 Media Oriented Serial Transport (MOST)4.3.2.6 Single Edge Nibble Transmission SENT (SENT)4.3.2.7 Other BUS protocols4.4 In-Vehicle Network Architecture and Topology4.5 Functional Safety and Cybersecurity4.6 In-Vehicle Cybersecurity Issues and Challenges4.6.1 Challenges of IVN architecture4.6.1.1 Bandwidth4.6.1.2 Latency4.6.1.3 Reliability4.6.2 In-Vehicle Onboard Ports, Threats and Countermeasures4.6.2.1 OBD-II ports4.6.2.2 USB port:4.6.2.3 Electric Vehicle (EV) Charging port4.6.2.4 Countermeasures to port threats4.7 Cyber Security in In-Vehicle Network4.7.1 In-Vehicle Network (IVN) Security Threats4.7.1.1 CAN Security4.7.1.2 FlexRay Security Threats4.7.1.3 LIN Security Threats4.7.1.4 AE Security4.7.1.5 MOST Security Threats4.7.2 Cyber Security protection Layers4.7.3 Cyber security for ECU4.7.3.1 On communication4.7.3.2 On Exposed Functions4.7.3.3 Non-Invasive4.7.3.4 Semi-Invasive4.7.3.5 Invasive4.8 Summary 5 AUTOSAR Embedded Security in Vehicles5.1 Overview5.2 Introduction 5.2.1 Background5.2.1.1 TARA5.2.1.2 STRIDE5.2.1.3 AUTOSAR5.3 Threat models for the automotive domain5.3.1 Adaptation of TARA 5.3.2 Adaptation of STRIDE5.4 Applying the Adapted Threat Models to the Automotive Domain5.4.1 TARA5.4.2 STRIDE5.5 Results5.5.1 TARA5.5.2 STRIDE5.5.3 Related Work5.5.4 Discussion and Future Work5.6 Conclusion 6. Connected Vehicle Technology and Cyber Security6.1 Overview6.2 Connected Vehicles6.2.1 VANET Technology Overview6.2.2 Types of communications Technology in Connected Vehicle6.3 State-of-the-art Technologies in VANET6.3.1 DSRC based V2X6.3.2 Cellular based V2X6.3.2.1 Advancement in Cellular V2X6.3.3 Hybrid V2X Technology 6.3.4 C-V2X applications and requirements6.4 Role of Edge computing and SDN in V2X communication6.5 Connected Vehicle Cyber Security6.5.1. WAVE Communication Cybersecurity6.5.2. Security and Privacy in V2X communication6.6. Trust management in V2X communication6.7. Homomorphic Encryption in V2X communication6.8. Blockchain in V2X communication6.9. Safety Standards for IAV 6.10. Summary 7. Internet of Vehicles, Vehicular Social Networks, and Cybersecurity7.1 Overview7.2 IoT in VANET (IoV)7.2.1 IoV Network Model7.2.1.1 Cloud network7.2.1.2 Communication Network 7.2.1.3 Vehicles7.2.2 IoV Layered Architecture7.2.3 Security in IoV7.2.4 IoV security requirements and attacks7.2.5 Challenges in IoV7.2.6 IoV Applications7.3 Machine Learning in Vehicular Networks 7.3.1 Types of Machine Learning Techniques7.3.2 Machine Learning as a Cybersecurity Solutions in Vehicular Networks7.3.3 Application of Machine Learning in Vehicular Networks7.4 Security based on ML in Vehicular Networks7.4.3 ML to detect Misbehaviour Detection7.4.4 ML to detect DoS and DDoS Attacks7.4.5 ML to detect Intrusion attack7.4.6 ML to detect Smart Jamming Attack7.5 Vehicular Social Network7.5.1 Applications of VSN7.5.2 Security Issues7.5.3 Privacy Issues7.6 Summary 8. V2X Standards, Regulations, Security Issues, Use Cases and Future Trends8.1 Overview8.2. Standards, regulations and legal issues8.2.1 International Cybersecurity Standardization in Automotive industry8.2.2 Standardization for V2X Communication and Frequency Allocation8.2.2.1 International V2X Standardization 8.2.3 ITS Spectrum Recommendation and Regulation Consideration 8.2.4 Cyber Security Standardization in V2X8.3 Competition over V2X technology Adoption8.3.1 Challenges for DSRC V2X and Cellular V2X8.4 V2X Use Cases8.4.1 Smart mobility8.4.1.1 Smart Mobility and Security Issues8.4.2 V2X Testbed8.5 Current Trends and Future of Intelligent and Autonomous Vehicles8.5.1 Trends in Intelligent and Autonomous Vehicles8.5.2 Autonomous Electric Vehicle and Challenges8.5.3 Cyber-attacks in Future Autonomous Vehicles8.5.2.1 Protection of Future Autonomous Vehicle from Cyber attacks8.5.2.2. Cybersecurity of Future Vehicles and Machine Learning Techniques8.5.4 Challenges in Future Autonomous Vehicles8.5.5 Intelligent Autonomous Vehicle Improves Environment8.6 Summary. … (more)
- Publisher Details:
- Singapore : Springer Singapore
- Publication Date:
- 2020
- Extent:
- 1 online resource
- Subjects:
- 629.220289
Automated vehicles -- Computer networks -- Security measures
Electronic books
Electronic books - Languages:
- English
- ISBNs:
- 9789811580536
9811580537 - Related ISBNs:
- 9811580529
9789811580529 - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.560146
- Ingest File:
- 03_186.xml