wireless thermostats / indoor wireless monitoring system / control algorithms / energy review / backend server / wireless temperature / wireless sensor network / dense network / multimodal sensor network / energy reduction / energy usage / light systems / greenhouse gas emissions / wireless sensors / large sensor network / spectral clustering algorithm / dense sensor network / portal server / energy consumption / back end server / residential energy consumption survey / sensor networks / electricity consumption / clustering algorithm / distance algorithm / control systems / wireless temperature sensors / web camera / heterogeneous networks / energy efficiency / Wireless Sensor Data / computing / dense wireless sensor network / large water distribution networks / sensors network / energy reductions / pre-processing / thermal clustering algorithm / computer vision software / sensor network / be measured automatically using computer vision software / /
Organization
Department of CSE / Washington University in St. Louis / Washington University / St. Louis / National Science Foundation / Department of ESE / Department of EECE / International Center for Advanced Renewable Energy and Sustainability / Cyber-physical Systems Lab / E. I. Administration / /
Person
J. Taneja / V / /
Position
model quality changes / Transient Model for Data Center Thermal Prediction / C. Model Quality 1 We / representative of a region / representative / /
ProgrammingLanguage
MATLAB / C / /
PublishedMedium
Journal of Water Resources Planning and Management / The Journal of Machine Learning Research / /
Technology
SMS / 4 Emerson Climate Technologies / fluid dynamics / heat transfer / HVAC control algorithms / thermal clustering algorithm / Machine Learning / two algorithms / Euclidean based clustering algorithm / environmental engineering / spectral clustering algorithm / condensation / simulation / Bluetooth / Euclidean distance algorithm / /