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- Intelligent Energy, Power Transmission Distribution, Interconnects and Power Electronics and Energy Conversion5 KB (663 words) - 11:54, 3 September 2017
- ...e the internet. The University continues to lead applied research into the power of the information that the Web holds and the ways it continues to transfor979 bytes (154 words) - 11:28, 29 June 2018
- ...ng applications; Internet of Things (IoT) devices; Smart building systems; Low-latency arbiters; Feedback topologies; Atmospheric turbulence-agnostic syst ...ctivity; Ferromagnetism; Biocompatibility; Chemical and thermal stability; Power amplification at very high frequencies; High temperature electronics; LEDs5 KB (556 words) - 15:23, 14 January 2021
- ...Video authentication; Multi-modal images; Image mosaicking; Image fusion; Low-contrast images; Adaptive pixel transfer; Omnidirectional imaging; Superpix ...al processing to improve sensor precision and accuracy; Time-efficient and power-efficient algorithms for big data; Sensor data fusion and integration; Body10 KB (1,215 words) - 14:46, 19 April 2020
- ...ution techniques, soft-error and variation-tolerant circuits. Circuits for power management in digital applications: including voltage regulators, adaptive ...erials; array architectures and circuits to improve low-voltage operation, power reduction, reliability, and fault tolerance; memory-subsystem enhancements,6 KB (673 words) - 09:29, 6 May 2020
- ...eleration, processing-in-memory, FPGA/reconfigurable systems, system-level power management, nearthreshold/subthreshold systems, digital architectures and s ...ution techniques, soft-error and variation-tolerant circuits; Circuits for power management in digital applications, including, digital/synthesizable voltag5 KB (629 words) - 09:36, 6 May 2020
- * Low-power, high-performance, and cost/complexity-efficient architectures4 KB (457 words) - 10:25, 6 May 2020
- * Low-power, high-performance, and cost/complexity-efficient architectures.4 KB (431 words) - 10:40, 6 May 2020
- D9 Power Modeling, Low-Power Design, and Power-Aware Optimization, Click here for details A1 Power-efficient and Sustainable Computing, Click here for details12 KB (1,651 words) - 13:30, 27 November 2020
- * Design of Low Power Systems * Power Estimation and Optimization4 KB (508 words) - 17:54, 6 January 2021
- ...ale devices. Methods for analyzing and improving static and dynamic power, power and clock distribution, yield, manufacturability, security, reliability, an ...fication. Algorithms for modeling, analysis and optimization of timing and power.11 KB (1,541 words) - 15:35, 18 June 2020
- * 7. Lower Power Design and Approximate Computing: * 7.1. Power modeling, analysis and simulation6 KB (739 words) - 15:08, 13 May 2020
- ...WiFi devices; Visually and motor impaired supporting systems; Devices for low vision people; Body orientation sensing; Sensing with smartphones and weara ...ce sensor+processing+transmission vs. available+generated+received power); Power storage (battery, wireless transmission); Self-rechargeable wearable device8 KB (1,041 words) - 12:55, 14 June 2020
- * Low Power Transceivers * Transmitter Sub-Systems and Power Amplifiers1 KB (122 words) - 07:59, 24 June 2020
- * Transceiver with low power consumption * Transmitter subsystems and power amplifiers1 KB (146 words) - 08:26, 24 June 2020
- * Low Power Transceivers * Transmitters and Power Amplifiers2 KB (302 words) - 08:50, 24 June 2020
- ...asurements, characterizing protocols; Software defined radio networks: low power signal processing methods, applications of machine learning; Cognitive radi ...elfish traffic); Fairness models (proportional fairness, max-min fairness, low state global fairness); Optimization framework for congestion control, fair13 KB (1,550 words) - 02:20, 10 July 2020
- Touch sensing devices; Low-cost devices; Ultra-low power devices; Nanosensors; Super-sensors; IoT (internet of Things) devices; Clot9 KB (1,068 words) - 16:15, 25 August 2020
- Low-power sensor networks; Energy harvesters; Universal access; Smart metering; Medic ...gy-efficient design; Power sources in sensor networks; Battery technology; Power management; Algorithms and theories for management; Communication strategie15 KB (1,880 words) - 14:45, 27 August 2020
- ...ng applications; Internet of Things (IoT) devices; Smart building systems; Low-latency arbiters; Feedback topologies; Atmospheric turbulence-agnostic syst ...ctivity; Ferromagnetism; Biocompatibility; Chemical and thermal stability; Power amplification at very high frequencies; High temperature electronics; LEDs8 KB (908 words) - 15:13, 14 January 2021
