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The IoT Physical Layer: Design and Implementation

Editat de Ibrahim (Abe) M. Elfadel, Mohammed Ismail
en Limba Engleză Paperback – 19 ian 2019
This book documents some of the most recent advances on the physical layer of the Internet of Things (IoT), including sensors, circuits, and systems. The application area selected for illustrating these advances is that of autonomous, wearable systems for real-time medical diagnosis. The book is unique in that it adopts a holistic view of such systems and includes not only the sensor and processing subsystems, but also the power, communication, and security subsystems. Particular attention is paid to the integration of these IoT subsystems as well as the prototyping platforms needed for achieving such integration. Other unique features include the discussion of energy-harvesting subsystems to achieve full energy autonomy and the consideration of hardware security as a requirement for the integrity of the IoT physical layer. One unifying thread of the various designs considered in this book is that they have all been fabricated and tested in an advanced, low-power CMOS process, namely GLOBALFOUNDRIES 65nm CMOS LPe.

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Specificații

ISBN-13: 9783030065881
ISBN-10: 303006588X
Pagini: 382
Ilustrații: XXXIII, 382 p. 259 illus., 229 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.58 kg
Ediția:Softcover reprint of the original 1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland

Cuprins

Part 1. Advanced Materials and Sensors.- Reduced Graphene Oxide for the Design of Electrocardiogram Sensors: Current Status and Perspectives.- A Preliminary Evaluation of Continuous, Shoe-IntegratedWeight Measurements for Heart Failure Patients.- ALD Al-doped ZnO Thin Film as Semiconductor and Piezoelectric Material: Process Synthesis.- ALD Al-doped ZnO Thin Film as Semiconductor and Piezoelectric Material: Characterization.- ALD Al doped ZnO Thin Film as Semiconductor and Piezoelectric Material: Transistors and Sensors.- Lab-on-Chip Silicon Photonics Sensor.- Part 2. Architectures and Circuits.- Design Challenges in Wireless Sensors for Dental Applications.- Energy-Efficient Body Area Network Transceiver Using Body Coupled Communication.- Ultra-low power ECG Processor for IoT SOCs.- Time-delay Array Beamforming for Millimeter Wave IoT Systems.- Part 3. Algorithms and Protocols.- Nature-Inspired Optimization in the Era of IoT: Particle Swarm Optimization (PSO) Applied to Indoor Distributed Antenna Systems (I-DAS).- Low-power, Dynamic-data-rate Protocol for IoT Communication.- Efficient Algorithm for VT/VF Prediction for IoT SoCs.- MSER-in-chip: An Efficient Vision Tool for IoT Devices.- Part 4. Power Management.- A Low Power, High Resolution ZCS Control for Inductor-based Converters.- Power Management Unit for IoT.- Macromodeling of Microbatteries for IoT Micro-power Source Integration.- Part 5. Systems and Security.- Self-Powered SoC Platform forWearable Health Care.- Toward An Integrated, Low-power Platform for Continuous Congestive Heart-failure Monitoring.- Hardware Security and Trust: Logic Locking as a Design-for-Trust Solution.

Notă biografică

Dr. Ibrahim (Abe) M. Elfadel is a Professor of ECE at Khalifa University of Science and Technology, UAE.  Prior to his current position, he was with IBM Research and the IBM Systems and Technology Group, Yorktown Heights, NY, where his research on computer-aided design (CAD) for high-end microprocessors was recognized with several IBM awards.  His current research interests include IoT platform prototyping; energy-efficient edge and cloud computing; IoT communication; and CAD for VLSI, MEMS, and Silicon Photonics. Dr. Elfadel is the inventor or co-inventor of 50 issued US patents and the co-recipient of the D. O. Pederson Best Paper Award from the IEEE Transactions on CAD. He is currently serving as Associate Editor of the IEEE Transactions on VLSI and is the General Co-chair of VLSI-SoC 2017. He received his PhD from MIT in 1993.

Mohammed Ismail, a prolific author and entrepreneur , is currently a Professor and Chair of Electrical and Computer Engineering at Wayne State University in Detroit, MI. He spent over 25 years in academia and industry in the US, Europe and the Mid-East and was the Founding Director of Ohio State University’s Analog VLSI Lab , one of the foremost research entities in the field of analog and RF integrated circuits and of Khalifa University 's Semiconductor Research Center, Abu Dhabi . He also had a Research Chair at the Swedish Royal Institute of Technology (KTH) and Founded the RaMSiS (Radio and Mixed Signal Integrated Systems) Research Group there. He advised to completion over 50 doctoral and 100 master students. He is the Founding Editor of the Springer Journal of Analog Integrated Circuits and Signal Processing and serves as the Journal Editor in Chief, and has served the IEEE in many editorial and Administrative capacities. He is the Founder of the IEEE International Conference on Electronics, Circuits and Systems (ICECS), the flagship Region 8 Conference of the IEEE Circuits and Systems Society and a Co-Founder of the IEEE ISQED. He is a consulting Editor of the Springer Advanced Analog Book Series. Dr. Ismail is a Co-Founder of Micrys Inc., Columbus, Ohio, Spirea AB, Stockholm, Firstpass Technologies Inc., Dublin, Ohio and ANACAD-Egypt (now part of Mentor Graphics, a Siemens company). He is a Fellow of IEEE.

Textul de pe ultima copertă

This book documents some of the most recent advances on the physical layer of the Internet of Things (IoT), including sensors, circuits, and systems. The application area selected for illustrating these advances is that of autonomous, wearable systems for real-time medical diagnosis. The book is unique in that it adopts a holistic view of such systems and includes not only the sensor and processing subsystems, but also the power, communication, and security subsystems. Particular attention is paid to the integration of these IoT subsystems as well as the prototyping platforms needed for achieving such integration. Other unique features include the discussion of energy-harvesting subsystems to achieve full energy autonomy and the consideration of hardware security as a requirement for the integrity of the IoT physical layer. One unifying thread of the various designs considered in this book is that they have all been fabricated and tested in an advanced, low-power CMOS process,namely GLOBALFOUNDRIES 65nm CMOS LPe. In summary, this volume


  • Provides up-to-date information on the architecture, design, implementation and testing of IoT sensors, circuits, and systems;
  • Discusses communication transceivers and protocols for IoT systems dedicated to medical diagnosis;
  • Discusses energy autonomy, power management, and hardware security the IoT physical layer;
  • Enables the design and silicon implementation of systems-on-chip to medical and surveillance applications;
  • Includes coverage of FPGA prototyping platforms for IoT nodes.

Caracteristici

Provides up-to-date information on the architecture, design, implementation and testing of IoT sensors, circuits, and systems Discusses communication transceivers and protocols for IoT systems dedicated to medical diagnosis, as well as energy autonomy, low-power storage, and hardware security for the IoT physical layer Discusses energy autonomy, power management, and hardware security the IoT physical layer Enables the design and silicon implementation of systems-on-chip dedicated to medical and surveillance applications Includes coverage of FPGA prototyping platforms for IoT networks