Residential Consumer-Centric Demand-Side Management Based on Energy Disaggregation-Piloting Constrained Swarm Intelligence: Towards Edge Computing

• Published in: Sensors (Basel, Switzerland) Vol. 18; no. 5; p. 1365
• Main Authors: Lin, Yu-Hsiu, Hu, Yu-Chen
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 27.04.2018; MDPI
• Subjects: Analytics; Cloud computing; Customers; Data centers; demand response; Demand side management; Direct reduction; edge computing; Energy conservation; Energy consumption; energy disaggregation; Energy management; Experimentation; Household appliances; Internet of Things; Load; Physical properties; Real time; Residential energy; Scheduling; Smart buildings; swarm intelligence; Time of use electricity pricing; User satisfaction; energy disaggregation; edge computing; demand-side management; swarm intelligence; demand response
• ISSN: 1424-8220; 1424-8220
• DOI: 10.3390/s18051365

The emergence of smart Internet of Things (IoT) devices has highly favored the realization of smart homes in a down-stream sector of a smart grid. The underlying objective of Demand Response (DR) schemes is to actively engage customers to modify their energy consumption on domestic appliances in response to pricing signals. Domestic appliance scheduling is widely accepted as an effective mechanism to manage domestic energy consumption intelligently. Besides, to residential customers for DR implementation, maintaining a balance between energy consumption cost and users' comfort satisfaction is a challenge. Hence, in this paper, a constrained Particle Swarm Optimization (PSO)-based residential consumer-centric load-scheduling method is proposed. The method can be further featured with edge computing. In contrast with cloud computing, edge computing-a method of optimizing cloud computing technologies by driving computing capabilities at the IoT edge of the Internet as one of the emerging trends in engineering technology-addresses bandwidth-intensive contents and latency-sensitive applications required among sensors and central data centers through data analytics at or near the source of data. A non-intrusive load-monitoring technique proposed previously is utilized to automatic determination of physical characteristics of power-intensive home appliances from users' life patterns. The swarm intelligence, constrained PSO, is used to minimize the energy consumption cost while considering users' comfort satisfaction for DR implementation. The residential consumer-centric load-scheduling method proposed in this paper is evaluated under real-time pricing with inclining block rates and is demonstrated in a case study. The experimentation reported in this paper shows the proposed residential consumer-centric load-scheduling method can re-shape loads by home appliances in response to DR signals. Moreover, a phenomenal reduction in peak power consumption is achieved by 13.97%.