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چکیده
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Power supply security is the vital driver in advent and development of the smart distribution networks (SDNs).
Traditionally, SDN expansion planning (SDNEP) is used to identify the size, site, and time of the installation of
new equipment or replacement of the pre-existent facilities to optimally satisfy electricity load demand that is
increasing every year appropriately and cost-effectively while dealing with all the technical and operational
constraints and needs. In SDNs, communication has a crucial role, but, cyber-physical security of the communication system is exceedingly vulnerable to cyber-attacks (CAs), especially in the consumer’s sector. So, this
paper aims to propose an approach for designing cyber-secure SDN (CSDN) by considering the problem as a
dynamic model of tri-level cyber-secure SDNEP (CSDNEP) program. The procedure includes the design of SDN as
a meshed topology equipped by multi-type switching devices, utilization of multi-type distributed generations,
and demand response. The chaotic status of renewable resources, load and its market price, and ZIP modeling
well incorporate into the problem. Also, for evaluation of different CSDNEP strategies, a risk-based method
pivoting on information gap decision theory (IGDT) is applied. To size up the efficiency of CSDNEP, computer
simulation is carried out on a large scale SDN and the results are touched upon.
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