2018
DOI: 10.1109/tsg.2016.2607422
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A Resilient and Privacy-Preserving Energy Management Strategy for Networked Microgrids

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Cited by 211 publications
(127 citation statements)
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“…It was further renamed as supervisory control and data acquisition‐EMS (SCADA‐EMS) when SCADA system based on advanced computer came into existence during the early 1990s and finally evolved into real time known as EMS, which includes various control techniques like load control (LC), DSM, and distribution management system (DMS) . The function of EMS is to optimally allocate different energy sources to the customers along with integrating sustainable power sources without compromising the reliability, security, and safety of the system . An EMS can monitor, supervise, optimize, and control the consumers, distribution, transmission, and generation facility .…”
Section: Energy Management Systemmentioning
confidence: 99%
See 1 more Smart Citation
“…It was further renamed as supervisory control and data acquisition‐EMS (SCADA‐EMS) when SCADA system based on advanced computer came into existence during the early 1990s and finally evolved into real time known as EMS, which includes various control techniques like load control (LC), DSM, and distribution management system (DMS) . The function of EMS is to optimally allocate different energy sources to the customers along with integrating sustainable power sources without compromising the reliability, security, and safety of the system . An EMS can monitor, supervise, optimize, and control the consumers, distribution, transmission, and generation facility .…”
Section: Energy Management Systemmentioning
confidence: 99%
“…30 The function of EMS is to optimally allocate different energy sources to the customers along with integrating sustainable power sources without compromising the reliability, security, and safety of the system. 31 An EMS can monitor, supervise, optimize, and control the consumers, distribution, transmission, and generation facility. 32 Thus, the prime duty of EMS is to create a balance between supply and demand in an efficient manner, which should be cost-effective within operating constraints and uncertainties (uncertainties in the EMS architecture include variation in generation from renewable energy resources, electricity price, and customers' behavior).…”
Section: Energy Management Systemmentioning
confidence: 99%
“…At the end of each time interval t, the contract finalizes the trade values for interval t + T clear based on the candidate solution. 11 This simple functionality achieves a high level of security and reliability. Firstly, it is clear that an adversary cannot force the contract to finalize trades based on an unsafe (i.e., infeasible) solution since such a solution would be rejected.…”
Section: B Market Solvermentioning
confidence: 99%
“…We use CPLEX[31] as the MILP solver engine in TRANSAX 10. Source code is available upon request 11. If no solution has been submitted to the contract so far, which might be the case right after the trading system has been launched, p = 0 may be used as a candidate solution.…”
mentioning
confidence: 99%
“…In order to optimally schedule power resources and optimize the amount of power to be exchanged with the power grid, different energy management systems (EMSs) are introduced by [12,13] to maintain the balance of power supply and power demand in the MG system. Two fundamentally different frameworks have been investigated for the design of such an EMS, i.e., distributed management based on local controllers and centralized management based on a centralized controller [14,15].…”
Section: Introductionmentioning
confidence: 99%