Fengji Luo mainly focuses on Mathematical optimization, Smart grid, Electric power system, Wind power and Operational planning. His study in Mathematical optimization is interdisciplinary in nature, drawing from both Optimal dispatch, Scheduling, Stand-alone power system and Traffic flow. His primary area of study in Smart grid is in the field of Smart meter.
His Electric power system research incorporates themes from Computer security and Blockchain. His biological study spans a wide range of topics, including Electronic engineering, Electric power transmission, Demand response and Battery energy storage system. His Operational planning study combines topics from a wide range of disciplines, such as Renewable energy, Simulation, Model predictive control and Economic dispatch.
His scientific interests lie mostly in Smart grid, Renewable energy, Mathematical optimization, Electric power system and Demand response. His Smart grid study integrates concerns from other disciplines, such as Distributed generation, Distributed computing, Electricity, Energy consumption and Computer security. His work deals with themes such as Control engineering, Wind power, Reliability engineering and Energy storage, which intersect with Renewable energy.
His work carried out in the field of Mathematical optimization brings together such families of science as Electric vehicle and Probabilistic logic. Fengji Luo interconnects Differential evolution, Robustness and Electricity market in the investigation of issues within Electric power system. His Demand response research focuses on subjects like Scheduling, which are linked to Energy management system and Model predictive control.
His primary areas of study are Smart grid, Renewable energy, Energy management, Demand response and Distributed generation. His work focuses on many connections between Smart grid and other disciplines, such as End user, that overlap with his field of interest in Recommender system and Collaborative filtering. In his study, Distribution networks, Mathematical optimization, Reliability and Optimization problem is strongly linked to Electric vehicle, which falls under the umbrella field of Renewable energy.
The study incorporates disciplines such as Reliability engineering, Photovoltaic system and Scheduling in addition to Demand response. The concepts of his Distributed generation study are interwoven with issues in Prosumer, Distributed computing and Industrial engineering. The Blockchain study which covers Robustness that intersects with Electric power system.
Fengji Luo spends much of his time researching Distributed generation, Smart grid, Electric vehicle, Distributed computing and Energy management. His studies deal with areas such as Computer security, Blockchain, Solar power and Public-key cryptography as well as Smart grid. His work carried out in the field of Electric vehicle brings together such families of science as Distribution networks, Mathematical optimization, Reliability and Service.
His work in the fields of Mathematical optimization, such as Optimization problem, intersects with other areas such as Vehicle infrastructure integration. His work in the fields of Distributed database overlaps with other areas such as Electronic mail. His Energy management research is multidisciplinary, incorporating perspectives in Demand response and Database.
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The 2015 Ukraine Blackout: Implications for False Data Injection Attacks
Gaoqi Liang;Steven R. Weller;Junhua Zhao;Fengji Luo.
IEEE Transactions on Power Systems (2017)
A Review of False Data Injection Attacks Against Modern Power Systems
Gaoqi Liang;Junhua Zhao;Fengji Luo;Steven R. Weller.
IEEE Transactions on Smart Grid (2017)
Short-Term Residential Load Forecasting Based on Resident Behaviour Learning
Weicong Kong;Zhao Yang Dong;David J. Hill;Fengji Luo.
IEEE Transactions on Power Systems (2018)
Optimal Allocation of Energy Storage System for Risk Mitigation of DISCOs With High Renewable Penetrations
Yu Zheng;Zhao Yang Dong;Feng Ji Luo;Ke Meng.
IEEE Transactions on Power Systems (2014)
Coordinated Operational Planning for Wind Farm With Battery Energy Storage System
Fengji Luo;Ke Meng;Zhao Yang Dong;Yu Zheng.
IEEE Transactions on Sustainable Energy (2015)
Distributed Blockchain-Based Data Protection Framework for Modern Power Systems Against Cyber Attacks
Gaoqi Liang;Steven R. Weller;Fengji Luo;Junhua Zhao.
IEEE Transactions on Smart Grid (2019)
Blockchain: a secure, decentralized, trusted cyber infrastructure solution for future energy systems
Zhaoyang Dong;Fengji Luo;Gaoqi Liang.
Journal of Modern Power Systems and Clean Energy (2018)
A Distributed Electricity Trading System in Active Distribution Networks Based on Multi-Agent Coalition and Blockchain
Fengji Luo;Zhao Yang Dong;Gaoqi Liang;Junichi Murata.
IEEE Transactions on Power Systems (2019)
Optimal allocation of battery energy storage systems in distribution networks with high wind power penetration
Yongxi Zhang;Zhao Yang Dong;Fengji Luo;Yu Zheng.
Iet Renewable Power Generation (2016)
Flexible transmission expansion planning associated with large-scale wind farms integration considering demand response
Chengxin Li;ZhaoYang Dong;Guo Chen;Fengji Luo.
Iet Generation Transmission & Distribution (2015)
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