研究目的
To present a distributed, massively parallel architecture for tractable transmission and distribution locational marginal price (T&DLMP) discovery and optimal scheduling of centralized generation, decentralized conventional and flexible loads, and distributed energy resources (DERs).
研究成果
The paper concludes that the proposed distributed CPS architecture framework is favorable to cyberattack mitigation, topology control at the operational planning level preceding interacting with day-ahead T&DLMP market clearing. It also discusses market implementation issues, possible anomalies, and remedies.
研究不足
The paper does not explicitly mention limitations, but the complexity of integrating DERs with complex dynamics and intertemporal preferences into the market clearing process could pose challenges.
