Application-Based Systems / 5PM / AES / Station Data Analysis/Control Database EMS Wireless / Embedded Systems / /
Country
United States / /
Currency
USD / /
Facility
CSE building / UCSD campus / Engineering building / building EMS / UC San Diego campus / building HVAC / Engineering University of California / building Energy Management System / from starting the HVAC / /
IndustryTerm
facilities / facilities management / occupancy algorithms / Wireless Occupancy-Node Network / back-end server infrastructure / wireless radio / electricity load / server software / sensor network applications / likely added additional energy consumption / wireless board / energy pattern / back-end server / industrial devices / marginal energy / Wireless Sensor Network / wireless sensor module / electrical energy savings / energy use / average daily energy consumption / high-accuracy wireless occupancy sensor node / multi-hop mesh network / relay/router / baseline energy usage / energy savings / energy usage / energy / wireless module / wasted energy / energy efficient buildings / energy consumption / direct energy use / control network / energy drain / wireless nodes / energy management / less energy / back-end infrastructure / wireless occupancy node / energy harvesting / electrical and thermal energy usage / client applications / detection algorithms / Thermal heating energy consumption / energy control scheme / air-conditioning systems / wireless base stations / control algorithms / thermal energy savings / wireless occupancy node builds / electricity consumers / potential energy savings / wireless network / aggressive energy management / overall energy consumption / thermal energy / occupancy sensor network / energy trace / real-time occupancy information / aggregate energy sourcing architecture / electricity / campus natural gas / energy loads / campus energy managers / real time energy usage data / multi-hop networks / energy consumer / greater energy load / wireless sensor data / online duty cycling / primitive static control algorithms / wireless network infrastructure / wireless occupancy nodes / learning algorithm / /
OperatingSystem
Windows server / Linux / /
Organization
Thomas Weng Department of Computer Science / US Department of Energy / University of California / San Diego / /
Person
Thomas Weng / Rajesh K. Gupta / /
Position
Prime Minister / Sensor Actual Post Doc Researcher / General / professor / PID controller / representative / staff worker / researcher / controller / /
Product
CC2530based custom wireless module / CC2530 / Zigbee / Data Acquisition card / Data Acquisition / CC2530based / /
ProgrammingLanguage
Python / /
ProvinceOrState
California / Ontario / Illinois / /
RadioStation
AM 12 / /
Technology
Linux / HVAC control algorithms / detection algorithms / encryption / flash / control network / 1.2Ghz ARM class processor / process control / occupancy algorithms / Ethernet / learning algorithm / primitive static control algorithms / /
Duty-Cycling Buildings Aggressively: The Next Frontier in HVAC Control Yuvraj Agarwal, Bharathan Balaji, Seemanta Dutta, Rajesh K. Gupta, Thomas Weng Department of Computer Science and Engineering University of Californi