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Features
Describes in a systematic fashion the architecture of CPS that is appropriate for most applications and services
Facilitates an understanding of the basic principles and key supporting standards of CPS
Details the design and implementation of the core building blocks of the architecture for CPS
Serves as a one-stop reference on nearly all aspects of CPS, including concepts, architectures, techniques, protocols, standards, algorithms, recent progresses, and system implementations
Identifies and describes the potentials and emerging applications and services for CPS
Provides detailed descriptions on the design and implementation of CPS architecture serving the application's needs
Summary
Cyber Physical Systems: Architectures, Protocols and Applications helps you understand the basic principles and key supporting standards of CPS. It analyzes different CPS applications from the bottom up, extracting the common characters that form a vertical structure. It presents mobile sensing platforms and their applications toward interrelated paradigms, highlighting and briefly discussing different types of mobile sensing platforms and the functionalities they offer. It then looks at the naming, addressing, and profile services of CPS and proposes a middleware component to meet the requirements of dynamic applications and sensors/actuators deployment/configurations across different platforms.
The middle chapters of the book present a context-aware sensor search, selection, and ranking model which addresses the challenge of efficiently selecting a subset of relevant sensors out of a large set of sensors with similar functionality and capabilities. The authors consider various topics in the energy management of CPS and propose a novel energy-efficient framework. They also present the fundamental networking technologies of CPS and focus on machine-to-machine communications for CPS, specifically the open technologies such as IPv6-based solutions that can be integrated into IoT and enable wireless sensor communications.
In the book´s final chapters, the authors bring you up to date on mobile cloud computing (MCC) research activities that enhance the capabilities of resource-constrained smart devices in CPS sensory environments. They also present a few representative CPS applications, including connected healthcare, gaming in public transport crowds, and a series of MCC-enabled emerging CPS applications. You will find that these application fields fully demonstrate the great potential of applying CPS in public life.
Table of Contents
Background
CPS ARCHITECTURE
Overall Architecture for CPS
Mobile Sensing Devices and Platforms for CPS
Introduction
Mobile Sensing in Internet of Things Paradigm
Strategies, Patterns, and Practice of Mobile Sensing
MOSDEN: Mobile Sensor Data Engine
Implementation
Performance Evaluation and Lessons Learned
Open Challenges and Opportunities
Summary
Naming, Addressing, and Profile Services for CPS
Introduction
Related Work
System Flows
System Designs and Implementations
A Case Study
Performance Evaluation
Discussion
Summary
Device Search and Selection for CPS
Introduction
Internet of Things Architecture and Search Functionality
Problem Definition
Context-Aware Approach for Device Search and Selection
Improving Efficiency
Implementation and Experimentation
Performance Evaluation
Open Challenges and Future Research Directions
Summary
Energy Management for CPS
Introduction
Related Work
System Model
QoI-Aware Sensor-to-Task Relevancy and Critical Covering Sets
QoI-Aware Energy Management
Performance Evaluation
Modeling the Signal Transmission and Processing Latency
Implementation Guidelines
Summary
ENABLING TECHNOLOGIES FOR CPS
Networking Technologies for CPS
Sensing Networks
Data Connectivity
Machine-to-Machine Communications for CPS
Introduction
Related Works
A RESTful Protocol Stack for WSN
Prototyping Implementation
Performance Evaluation
Summary
Mobile Cloud Computing for CPS
Introduction
MCC Definition
Challenges
Future Directions
Summary
CPS APPLICATIONS
Connected Healthcare for CPS
Introduction
Related Work
System Model
Sensor Proxy Design
HTTP Interface
Case Studies
Summary
Multi-Player Gaming for Public Transport Crowd
Introduction
A CrowdMoG Use Case Scenario
CrowdMoG Design
Prototype-Phage
Summary
Mobile Cloud Computing Enabled Emerging CPS Applications
Education
Office Automation
Healthcare
Mission-Critical Applications
Summary
Conclusion
References
Index