This book serves as a single-source reference to the state-of-the-art in Internet of Things (Io T) platforms, services, tools, programming languages, and applications. In particular, the authors focus on Io T-related requirements such as low-power, time-to-market, connectivity, reliability, interoperability, security, and privacy. Authors discuss the question of whether we need new Io T standardization bodies or initiatives, toward a fully connected, cyber-physical world. Coverage includes the research outcomes of several, current European projects related to Io T platforms, services, APIs, tools, and applications.
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Part I Platforms and Design Methodologies for Io T Hardware.- 1 -Shaping Configurable Micro-Processors for Io T Devices.- 2 Shaping Configurable Micro-Processors for Io T Devices.- 3 AXIOM a Flexible Platform for the Smart Home.- PArt II Simulation, Modeling and Programming Frameworks for Io T.- 4 Internet of Things Simulation using OMNe T++ and Hardware in the Loop.- 5 Towards Self-Adaptive Io T Applications: Requirements and Adaptivity Patterns for a Fall-Detection Ambient Assisting Living Application.- 6 Small Footprint Java Script Engine.- 7 Vir ISA Recruiting Virtualization and Reconfigurable Processor ISA for Malicious Code Injection Protection.- Part III Opportunities, Challenges and Limits in WSN Deployment for Io T.- 8 Deployment Strategies of Wireless Sensor Networks for Io T: Challenges, Trends and Solutions Based on Novel Tools and HW/SW Platforms.- 9 Wireless Sensor Networks for the Internet of Things barriers and synergies.- 10 Event Identification in Wireless Sensor Networks.-Part IV Efficient Data Management and Decision Making for Io T.- 11 Integrating Io T and Fog Computing for Healthcare Service Delivery.- 12 Supporting Decision Making for Large-Scale Io Ts: Trading Accuracy with Computational Complexity.- 13 Fuzzy Inference Systems Design Approaches for WSNs.- Part V Use Cases for Io T.- 14 Io T in Ambient Assistant Living Environments: A View from Europe.- 15 Software Design and Optimization of ECG Signal Analysis and Diagnosis for Embedded Io T Devices.- 16 Design for a System of Multimodal Interconnected ADL Recognition Services.- 17 Io T Components for Secure Smart Building Environments.- 18 Building Automation Systems in the World of Internet of Things.
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Prof. Dr. Ing. habil. Michael Hübner is the Chair for Embedded Systems for Information Technology (ESIT) at the Ruhr University of Bochum (RUB) since April 2012. He received his diploma degree in electrical engineering and information technology in 2003 and his Ph D degree in 2007 from the University of Karlsruhe (TH). Prof. Hübner did his habilitation in 2011 at the Karlsruhe Institute of Technology (KIT) in the domain of reconfigurable computing systems. His research interests are in reconfigurable computing and particularly new technologies for adaptive FPGA run-time reconfiguration and on-chip network structures with application in automotive systems, incl. the integration into high-level design and programming environments.