Autonomous and distributed demand-side energy management system is desired as an electric load management technique that aims to shift the pattern of device energy use. In order to improve environmental condition and achieve energy saving purpose, a distributed controlling mathematic model of the HVAC system is proposed. In this paper, a p-cycle supported multi-mode concentrator with WIA, TD-LTE, McWiLL communication capabilities is designed, and detail networked controlling system coding procedure is illustrated. The multimode concentrator p-cycle (MMCP) can provide strong restorability against multiple span failures that takes advantage of duplicated copies on disjoint path. The efficient networked HVAC controlling system is proposed to solve the problem of two-way interaction between the user side and grid side by using preconfigured cycle protection technology. We also evaluated the performance of the networked controlling system with various classical p-cycles enumeration algorithms, and the experimental results show the eff.
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