Mousa Marzband spends much of his time researching Microgrid, Energy management system, Real-time computing, Electricity generation and Energy market. The concepts of his Microgrid study are interwoven with issues in Distributed generation, Electric power system, Energy management, Reliability engineering and PID controller. His Reliability engineering research is multidisciplinary, incorporating elements of Smart grid and Renewable energy.
His Energy management system research is multidisciplinary, incorporating perspectives in Mathematical optimization and Demand response. In his work, Minification is strongly intertwined with Economic dispatch, which is a subfield of Demand response. His Energy market research incorporates themes from Microeconomics, Game theory and Electricity market.
Renewable energy, Electric power system, Microgrid, Demand response and Electricity are his primary areas of study. His Renewable energy research includes themes of Power grid, AC power, Smart grid, Energy storage and Electricity generation. His biological study spans a wide range of topics, including Wind power, Control theory, Reliability engineering, Control engineering and Voltage.
His Microgrid research integrates issues from Distributed generation, Energy management system, Energy management, Real-time computing and Mathematical optimization. His research integrates issues of Game theory and Energy market in his study of Distributed generation. His study in Electricity is interdisciplinary in nature, drawing from both Environmental economics, Profit and Process engineering.
Mousa Marzband mainly investigates Renewable energy, Electric vehicle, Demand response, Scheduling and Electricity. His Renewable energy study combines topics from a wide range of disciplines, such as Environmental economics and Compressed air energy storage, Energy storage. In his study, Fault, Thyristor and Control theory is strongly linked to Electric power system, which falls under the umbrella field of Electric vehicle.
His Demand response study incorporates themes from Energy consumption, Microgrid, Energy management and Electricity market. His study with Scheduling involves better knowledge in Mathematical optimization. The study incorporates disciplines such as Control system, Energy management system, Distributed computing and Smart grid in addition to Electricity.
His primary areas of investigation include Renewable energy, Demand response, Cogeneration, Energy market and Forms of energy. His Renewable energy study integrates concerns from other disciplines, such as Wind power, Environmental economics and Electric power system. Mousa Marzband has researched Demand response in several fields, including Energy consumption, Electric vehicle, Reliability engineering, Power system simulation and AC power.
His work deals with themes such as Compressed air energy storage, Renewable resource, Job shop scheduling and Operations research, which intersect with Cogeneration. The various areas that Mousa Marzband examines in his Energy market study include Energy carrier and Energy storage. The Forms of energy study combines topics in areas such as Profit, Electricity market and Industrial organization.
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An Optimal Energy Management System for Islanded Microgrids Based on Multiperiod Artificial Bee Colony Combined With Markov Chain
Mousa Marzband;Fatemeh Azarinejadian;Mehdi Savaghebi;Josep M. Guerrero.
IEEE Systems Journal (2017)
Experimental validation of a real time energy management system for microgrids in islanded mode using a local day-ahead electricity market and MINLP
Mousa Marzband;Andreas Sumper;Andreas Sumper;José Luis Domínguez-García;Ramon Gumara-Ferret.
Energy Conversion and Management (2013)
Real time experimental implementation of optimum energy management system in standalone Microgrid by using multi-layer ant colony optimization
Mousa Marzband;Mousa Marzband;Ebrahim Yousefnejad;Andreas Sumper;José Luis Domínguez-García.
International Journal of Electrical Power & Energy Systems (2016)
Experimental Validation of a Real-Time Energy Management System Using Multi-Period Gravitational Search Algorithm for Microgrids in Islanded Mode
Mousa Marzband;Mousa Marzband;Majid Ghadimi;Andreas Sumper;Andreas Sumper;José Luis Domínguez-García.
Applied Energy (2014)
Experimental evaluation of a real time energy management system for stand-alone microgrids in day-ahead markets
Mousa Marzband;Andreas Sumper;Andreas Sumper;Albert Ruiz-Álvarez;José Luis Domínguez-García.
Applied Energy (2013)
Smart transactive energy framework in grid-connected multiple home microgrids under independent and coalition operations
Mousa Marzband;Mousa Marzband;Fatemeh Azarinejadian;Mehdi Savaghebi;Edris Pouresmaeil.
Renewable Energy (2018)
Distributed Smart Decision-Making for a Multimicrogrid System Based on a Hierarchical Interactive Architecture
Mousa Marzband;Narges Parhizi;Mehdi Savaghebi;Josep M. Guerrero.
IEEE Transactions on Energy Conversion (2016)
A real-time evaluation of energy management systems for smart hybrid home microgrids
Mousa Marzband;Mousa Marzband;Seyedeh Samaneh Ghazimirsaeid;Hasan Uppal;Terrence Fernando.
Electric Power Systems Research (2017)
CVaR-based energy management scheme for optimal resilience and operational cost in commercial building microgrids
Mehdi Tavakoli;Fatemeh Shokridehaki;Mudathir Funsho Akorede;Mousa Marzband.
International Journal of Electrical Power & Energy Systems (2018)
Optimal energy management system based on stochastic approach for a home Microgrid with integrated responsive load demand and energy storage
Mousa Marzband;Mousa Marzband;Hamed Alavi;Seyedeh Samaneh Ghazimirsaeid;Hasan Uppal.
Sustainable Cities and Society (2017)
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