Enabling Technologies for the Internet of Things: Wireless Circuits, Systems and Networks collects slides and notes from the lectures given in the 2017 Seasonal School Enabling Technologies for the Internet-of-Things, supported by IEEE CAS Society and by INTEL funding, and organized by Prof. Sergio Saponara, and Prof. Giuliano Manara. The book discusses new trends in Internet-of-Things (IoT) technologies, considering technological and training aspects, with special focus on electronic and electromagnetic circuits and systems. IoT involves research and design activities both in analog and in digital circuit/signal domains, including focus on sensors interfacing and conditioning, energy harvesting, low-power signal processing, wireless connectivity and networking, functional safety (FuSa). FuSa is one of the emerging key issues in IoT applications in safety critical domain like industry 4.0, autonomous and connected vehicles and e-health. Our world is becoming more and more interconnected. Currently it is estimated that two hundred billion smart objects will be part of the IoT by 2020. This new scenario will pave the way to innovative business models and will bring new experiences in everyday life. The challenge is offering products, services and comprehensive solutions for the IoT, from technology to intelligent and connected objects and devices to connectivity and data centers, enhancing smart home, smart factory, autonomous driving cars and much more, while at the same time ensuring the highest safety standards. In safety-critical contexts, where a fault could jeopardize the human life, safety becomes a key aspect.
Edited by:
Sergio Saponara (University of Pisa Italy) Imprint: River Publishers Country of Publication: Denmark Dimensions:
Height: 254mm,
Width: 178mm,
Weight: 489g ISBN:9788770043861 ISBN 10: 8770043868 Pages: 266 Publication Date:21 October 2024 Audience:
Professional and scholarly
,
Undergraduate
Format:Paperback Publisher's Status: Active
Introduction 1. Wireless Power Transfer for RFID Systems 2. Computational Electromagnetics and Electromagnetic Compatibility for the Internet of Things 3. Integrated Circuits & Systems for mm-wave/RF Wireless Transceivers in IoT Applications 4. ICs and VLSI Architectures for mm-wave/RF Wireless Transceivers in IoT Applications 5. Chipless RFID for Identification and Sensing 6. Near-Field Focused Antennas for Short-Range Identification and Communication Systems 7. Ultra-low-power Devices, and Application of New Materials to mm-wave Antennas and Circuits 8. A Functionally Safe SW Defined Autonomous and Connected IoT About the Editor About the Authors