What is he best known for?
The fields of study he is best known for:
- Electrical engineering
- Telecommunications
- Amplifier
His primary areas of investigation include Electrical engineering, Electronic engineering, CMOS, Wireless sensor network and Wireless.
While the research belongs to areas of Electrical engineering, Brian Otis spends his time largely on the problem of Low-power electronics, intersecting his research to questions surrounding Lens.
The Electronic engineering study combines topics in areas such as Mixed-signal integrated circuit, Discrete circuit, Diode-or circuit, RF power amplifier and ISM band.
His CMOS research is multidisciplinary, incorporating perspectives in Low voltage, Boost converter, Buck–boost converter, Resonator and Thermoelectric generator.
His biological study spans a wide range of topics, including Node, Wireless Application Protocol, Embedded system, Sensitivity and Transceiver.
As part of the same scientific family, Brian Otis usually focuses on Wireless, concentrating on Energy harvesting and intersecting with Electric generator, Electronics, Host and Building automation.
His most cited work include:
- Improving power output for vibration-based energy scavengers (831 citations)
- A 20 mV Input Boost Converter With Efficient Digital Control for Thermoelectric Energy Harvesting (413 citations)
- Picoradics for wireless sensor networks: the next challenge in ultra-low-power design (345 citations)
What are the main themes of his work throughout his whole career to date?
Brian Otis focuses on Electrical engineering, Electronic engineering, Optoelectronics, Wireless and CMOS.
His research investigates the connection with Electrical engineering and areas like Low-power electronics which intersect with concerns in Power electronics.
His research on Electronic engineering also deals with topics like
- Energy harvesting, which have a strong connection to Power management,
- Amplifier, which have a strong connection to Bandwidth.
His Optoelectronics study integrates concerns from other disciplines, such as Contact lens, Optics, Antenna and Substrate.
In his study, Embedded system, Key distribution in wireless sensor networks and Integrated circuit design is strongly linked to Wireless sensor network, which falls under the umbrella field of Wireless.
The concepts of his CMOS study are interwoven with issues in Sensitivity and Capacitor.
He most often published in these fields:
- Electrical engineering (47.71%)
- Electronic engineering (36.70%)
- Optoelectronics (19.72%)
What were the highlights of his more recent work (between 2014-2021)?
- Electrical engineering (47.71%)
- Optoelectronics (19.72%)
- Substrate (7.80%)
In recent papers he was focusing on the following fields of study:
His primary scientific interests are in Electrical engineering, Optoelectronics, Substrate, Optics and Electronic engineering.
His research on Electrical engineering frequently links to adjacent areas such as Wireless.
The various areas that Brian Otis examines in his Optoelectronics study include Layer, Anode, Battery, Amplifier and Antenna.
Brian Otis interconnects Photodetector and Cathode in the investigation of issues within Substrate.
Brian Otis has included themes like Tracking and Signal in his Optics study.
He combines subjects such as Wireless sensor network, Radio frequency and Common-mode signal with his study of Electronic engineering.
Between 2014 and 2021, his most popular works were:
- Experimental resource pulses influence social-network dynamics and the potential for information flow in tool-using crows (37 citations)
- Calibrating animal-borne proximity loggers. (24 citations)
- Eye-mountable device to provide automatic accommodation and method of making same (20 citations)
In his most recent research, the most cited papers focused on:
- Electrical engineering
- Telecommunications
- Amplifier
Brian Otis spends much of his time researching Electrical engineering, Wireless, Substrate, Computer hardware and Optoelectronics.
Brian Otis performs multidisciplinary studies into Electrical engineering and Volume in his work.
His studies in Wireless integrate themes in fields like Electronics, Wearable computer, Voltage, Transmitter and Electronic engineering.
His Electronic engineering research is multidisciplinary, relying on both Amplifier and Variable-gain amplifier.
His Substrate research incorporates themes from Electrochemistry, Anode and Solid-state battery.
His research in Optoelectronics intersects with topics in Layer, Cathode, Battery and Electrolyte.
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