IoT and Low-Power Wireless Circuits, Architectures, and Techniques Devices, Circuits, and Systems Series
Coordonnateur : Siu Christopher
The book offers unique insight into the modern world of wireless communication that included 5G generation, implementation in Internet of Things (IoT), and emerging biomedical applications. To meet different design requirements, gaining perspective on systems is important. Written by international experts in industry and academia, the intended audience is practicing engineers with some electronics background. It presents the latest research and practices in wireless communication, as industry prepares for the next evolution towards a trillion interconnected devices. The text further explains how modern RF wireless systems may handle such a large number of wireless devices.
- Covers modern wireless technologies (5G, IoT), and emerging biomedical applications
- Discusses novel RF systems, CMOS low power circuit implementation, antennae arrays, circuits for medical imaging, and many other emerging technologies in wireless co-space.
- Written by a mixture of top industrial experts and key academic professors.
The Internet of Things – Physical and Link Layers Overview. Low Power Wearable and Wireless Sensors for Advanced Healthcare Monitoring. Biomedical Algorithms for Wearable Monitoring. Approaches and Techniques for Maintenance and Operation of Multisink Wireless Sensor Networks. Energy Efficient Communication Solutions Based on Wake-Up Receivers. All Digital Noise-Shaping Time-to-Digital Converters for Mixed-Mode Signal Processing. Power Efficient CMOS Power Amplifiers for Wireless Applications. Injection Locking Techniques in Low Power Wireless Systems. Low-Power RF Digital PLLs with Direct Carrier Modulation. Frequency Synthesis Technique for 60GHz Multi-Gbps Wireless. 60GHz Multiuser Gigabits/s Wireless System Based on IEEE 802.11ad / WiGig. Adaptive and Efficient Power Management Structures for Inductive Power Delivery.
Christopher Siu is a faculty of Electrical and Computer Engineering at the British Columbia Institute of Technology (BCIT). Prior to joining BCIT, he worked in industry for 15 years in the United States, Canada, and Asia. He specialized in the design of high speed analog integrated circuits, and worked for companies such as PMC-Sierra and Philips Semiconductors. His research interests include analog/radio frequency microelectronics and wireless communication. He holds 3 U.S. patents, and received a Master’s degree in Electrical Engineering from Stanford University in 1994.
Krzysztof (Kris) Iniewski (kris.iniewski@gmail.com) is managing R&D development activities at Redlen Technologies Inc., a detector company based in British Columbia, Canada. During his 12 years at Redlen, he managed development of highly integrated CZT detector products in medical imaging and security applications. Prior to Redlen, Kris held various management and academic positions at PMC-Sierra, University of Alberta, SFU, UBC and University of Toronto. He has published over 150 research papers in international journals and conferences.
Dr. Iniewski holds 18 international patents granted in USA, Canada, France, Germany, and Japan. He wrote and edited several books for Wiley, Cambridge University Press, Mc-Graw Hill, CRC Press and Springer. He is a frequently invited speaker and has consulted for multiple organizations internationally. He received his Ph.D. degree in electronics (honors) from the Warsaw University of Technology (Warsaw, Poland) in 1988.
Date de parution : 09-2020
15.6x23.4 cm
Date de parution : 06-2018
15.6x23.4 cm
Thèmes d’IoT and Low-Power Wireless :
Mots-clés :
ΔΣ Modulator; Power Consumption; wireless; Locking Range; internet of things; Sensor Nodes; Kris Iniewski; Sink Node; Ifana Mahbub; Phase Noise; Salvatore A; Pullano; CMOS Transceiver; Samira Shamsir; Super-regenerative Receivers; Syed Islam Kamrul; Ring Oscillators; Su-Shin Ang; LC Tank; Miguel Hernandez-Silveira; Integrated Phase Noise; Miriam Carlos-Mancilla; Direct Conversion Architecture; Ernesto Lpez-Mellado; In-band Phase Noise; Mario Siller; Ism Band; Heikki Karvonen; RF Module; Juha Petäjäjärvi; Time Adders; Fei Yuan; Energy Efficiency; Haoyu Qian; Inductive Link; Suraj Prakash; High PCE; Jose Silva-Martinez; Future 5G Networks; Yushi Zhou; Cross-coupled Pair; Salvatore Levantino; PA Output; Carlo Samori; Active Rectifier; Teerachot Siriburanon; Mm-wave Frequency; Hanli Liu; Brain Computer Interface; Kenichi Okada; Akira Matsuzawa; Wei Deng; Satoshi Kondo; Makihiko Katsuragi; Kento Kimura; Koji Takinami; Naganori Shirakata; Masashi Kobayashi; Tomoya Urushihara; Hiroshi Takahashi; Hiroyuki Motozuka; Masataka Irie; Kazuaki Takahashi; Hesam Sadeghi Gougheri; Mehdi Kiani