Cyber-physical systems play a crucial role in connecting aspects of online life to physical life. By studying emerging trends in these systems, programming techniques can be optimized and strengthened to create a higher level of effectiveness.
Solutions for Cyber-Physical Systems Ubiquity is a critical reference source that discusses the issues and challenges facing the implementation, usage, and challenges of cyber-physical systems. Highlighting relevant topics such as the Internet of Things, smart-card security, multi-core environments, and wireless sensor nodes, this scholarly publication is ideal for engineers, academicians, computer science students, and researchers that would like to stay abreast of current methodologies and trends involving cyber-physical system progression.
Table of Contents
Section 1: CPS Applications and Trends
Chapter 1: Localization and Context Determination for Cyber-Physical Systems Based on 3D Imaging
Chapter 2: Ubiquitous IoT in the Automotive Domain
Chapter 3: Influence of Network Constraints on Modeling and Analysis of Cyber-Physical Systems
Chapter 4: An Efficient Channel-Aware Aloha-Like OFDMA-Based Wireless Communication Protocol for IoT Communications in Wireless Sensor Networks
Chapter 5: Effective Approaches to Training CPS Knowledge and Skills
Section 2: Safety Concerns in CPS
Chapter 6: Runtime Safety Assurance for Adaptive Cyber-Physical Systems
Chapter 7: A Mixed-Criticality Integration in Cyber-Physical Systems
Chapter 8: Generation and Verification of a Safety-Aware Virtual Prototype in the Automotive Domain
Chapter 9: A Self-Adaptive Software System for Increasing the Reliability and Security of Cyber-Physical Systems
Section 3: Security Concerns in CPS
Chapter 10: Cyber-Physical System and Internet of Things Security
Chapter 11: Where Do All My Keys Come From?
Chapter 12: Secure and Trusted Open CPS Platforms
Chapter 13: Side-Channel Attacks in the Internet of Things
Chapter 14: Integrating Integrity Reporting Into Industrial Control Systems
Chapter 15: Integration of Security in the Development Lifecycle of Dependable Automotive CPS