[1] [1] D Kumar, Zare F, Ghosh A. DC microgrid technology: System architectures, AC grid interfaces, grounding schemes, power quality, communication networks, applications, and standardizations aspects［J］. IEEE Access, 2017, 5: 12230-12256.

[3] [3] Dong J, Xue G, Li R. Demand response in China: Regulations, pilot projects and recommendations -A review［J］. Renewable & Sustainable Energy Reviews, 2016, 59: 13-27.

[4] [4] Valles M, Reneses J, Cossent R, et al. Regulatory and market barriers to the realization of demand response in electricity distribution networks: A European perspective［J］. Electric Power Systems Research, 2016, 140(11): 689-698.

[5] [5] Araujo L G, ABS Pi a, Aidar L, et al. Recommendations and guidelines for implementing PPP projects: Case of the electricity sector in Brazil［J］. Built Environment Project and Asset Management, 2019, 9(2): 262-276.

[6] [6] Lu Q, Yu H, Zhao K, et al. Residential demand response considering distributed PV consumption: A model based on China's PV policy［J］. Energy, 2019, 172: 443-456.

[7] [7] Walter B, Anatoly Z, Li J S. A phase model approach for thermostatically controlled load demand response［J］. Applied Energy, 2018, 228: 667-680.

[8] [8] Jung J U, Kim S H, Jin K H. The development of the automatic demand response systems based on SEP 2.0 for the appliances's energy reduction on smart grid environments［J］. The Journal of the Korean Institute of Information and Communication Engineering, 2016, 20(9): 1799-1807.

[10] [10] Tobias, Luebkert, Marcus, et al. Understanding price functions to control domestic electric water heaters for demand response: A bilevel approach to adapt power consumption to availabilty［J］. Computer Science: Research and Development, 2018, 33(1-2): 81-92.

[11] [11] Samad T, Koch E, Stluka P. Automated demand response for smart buildings and microgrids: the state of the practice and research challenges［J］. Proceedings of the IEEE, 2016, 104(4): 726-744.

[12] [12] C Roldán-Blay, G Escrivá-Escrivá, C Roldán-Porta. Improving the benefits of demand response participation in facilities with distributed energy resources-ScienceDirect［J］. Energy, 2019, 169: 710-718.

[17] [17] Wei K, Park S Y. Distributed demand-side management for microgrids in modern power system［J］. Uncertainties in Modern Power Systems, 2021, 11: 163-194.

[18] [18] Yoshizawa G, Tatano H, Hatayama M. Water demand management for disaster preparedness through risk communications［J］. Journal of Japan Society of Civil Engineers Ser D3, 2018, 74(1): 35-49.

[19] [19] Kabelitz S, Kolomiichuk S. Production process modeling for demand side management［J］. Applied Mechanics & Materials, 2017, 871: 77-86.

[20] [20] Kotz Ee I, Reyers B. Piloting a social-ecological index for measuring flood resilience: A composite index approach［J］. Ecological Indicators, 2016, 60: 45-53.