%0 Report %A Francis M Rubinstein %A Girish Ghatikar %A Jessica Granderson %A David S Watson %A Paul Haugen %A Carlos Romero %C Berkeley %D 2009 %G eng %I Lawrence Berkeley National Laboratory %T Barrier Immune Radio Communications for Demand Response %2 LBNL-2294E %#
demand response
%$Commercial Building Systems
%]y
%8 02/2009 %XVarious wireless technologies were field-tested in a six-story laboratory building to identify wireless technologies that can scale for future DR applications through very low node density power consumption, and unit cost. Data analysis included analysis of the signal-to-noise ratio (SNR), packet loss, and link quality at varying power levels and node densities. The narrowband technologies performed well, penetrating the floors of the building with little loss and exhibiting better range than the wideband technology. 900 MHz provided full coverage at 1 watt and substantially complete coverage at 500 mW at the test site. 900 MHz was able to provide full coverage at 100 mW with only one additional relay transmitter, and was the highest-performing technology in the study. 2.4 GHz could not provide full coverage with only a single transmitter at the highest power level tested (63 mW). However, substantially complete coverage was provided at 2.4 GHz at 63 mW with the addition of one repeater node.