TY - BOOK ID - 133677695 TI - Integrated Circuits and Systems for Smart Sensory Applications AU - Serra-Graells, Francesc AU - Dei, Michele AU - Cho, Kyoungrok PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - wake-up receiver KW - digital controller KW - reliability KW - electronic toll collection (ETC) system KW - dedicated short range communication (DSRC) KW - temperature compensation KW - piezoresistive KW - pressure sensor KW - negative temperature coefficient KW - ACE-Q100 KW - CMOS KW - epilepsy KW - seizure KW - multichannel neural recording KW - feature extraction KW - closed-loop neurostimulator KW - low-power KW - low-noise amplifier KW - implantable medical device KW - switched capacitor KW - voltage converter KW - wide load range KW - multiphase operation KW - variable frequency KW - integrated circuits KW - EEPROM reprogrammable fuses KW - memory cells KW - trimming techniques with fuses KW - digital temperature sensor KW - temperature sensor with digital serial interface KW - asynchronous control logic KW - successive approximation register (SAR) KW - wireless access in vehicular environments (WAVE) KW - low power consumption KW - capacitive digital to analog converter (CDAC) KW - CMOS neural amplifier KW - AC coupling KW - pseudoresistor KW - nonlinear distortion KW - area-efficient design KW - sensor node KW - power mode KW - wireless sensor networks KW - power management KW - spiking neural network KW - leaky integrate and fire KW - neuromorphic KW - artificial neural networks KW - artificial intelligence KW - image classification KW - capacitance-to-digital converter KW - iterative-delay-chain discharge KW - CMOS capacitive sensor interface UR - https://www.unicat.be/uniCat?func=search&query=sysid:133677695 AB - Connected intelligent sensing reshapes our society by empowering people with increasing new ways of mutual interactions. As integration technologies keep their scaling roadmap, the horizon of sensory applications is rapidly widening, thanks to myriad light-weight low-power or, in same cases even self-powered, smart devices with high-connectivity capabilities. CMOS integrated circuits technology is the best candidate to supply the required smartness and to pioneer these emerging sensory systems. As a result, new challenges are arising around the design of these integrated circuits and systems for sensory applications in terms of low-power edge computing, power management strategies, low-range wireless communications, integration with sensing devices. In this Special Issue recent advances in application-specific integrated circuits (ASIC) and systems for smart sensory applications in the following five emerging topics: (I) dedicated short-range communications transceivers; (II) digital smart sensors, (III) implantable neural interfaces, (IV) Power Management Strategies in wireless sensor nodes and (V) neuromorphic hardware. ER -