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Cooperative MPC-based Energy Management for Networked Microgrids
Alessandra Parisio
, Christian Wiezorek
, Timo Kyntäjä
, Joonas Elo
, Kai Strunz
, Karl Henrik Johansson
KTH Royal Institute of Technology
University of Manchester
Technical University of Berlin
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
233
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Citations (Scopus)
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INIS
control
100%
energy
100%
cooperatives
100%
energy management
100%
resources
75%
grids
75%
constraints
50%
distribution
50%
environment
25%
cost
25%
devices
25%
operation
25%
demand
25%
prices
25%
simulators
25%
cooperation
25%
testing
25%
flexibility
25%
weather
25%
algorithms
25%
energy costs
25%
heating systems
25%
energy management systems
25%
Keyphrases
Energy Management
100%
Networked Microgrids
100%
Microgrid
100%
Cooperative Model Predictive Control
100%
Distributed Energy Resources
33%
Urban District
33%
Distribution Grid
33%
Operational Constraints
16%
Generation Device
16%
Overall Energy
16%
Cost Savings
16%
Energy Management System
16%
Model Predictive Control
16%
Controllable System
16%
Local Generation
16%
Coordination Algorithms
16%
Energy Cost
16%
Heating System
16%
Resource Sharing
16%
End-user Preferences
16%
Technical Constraints
16%
Constraint Satisfaction
16%
Energy Prices
16%
System Generations
16%
Energy Minimization
16%
Demand Forecast
16%
Price Constraints
16%
Control Framework
16%
Flexibility Sources
16%
Numerical Experiments
16%
Flexible Load
16%
Virtual Testbed
16%
Device-independent
16%
Multiple Microgrids
16%
Generation Forecasting
16%
Computer Science
Predictive Model
100%
Distribution Grid
66%
Cost Saving
33%
User Preference
33%
Control Framework
33%
Testing Environment
33%
Constraint Satisfaction Problems
33%
Accurate Simulator
33%
Shared Resource
33%
Heating System
33%
Multiple Microgrids
33%
Engineering
Predictive Control Model
100%
Energy Management
100%
Microgrid
100%
Distributed Energy Resource
25%
End-Users
12%
Numerical Experiment
12%
Controllable System
12%
Energy Management System
12%
Minimizing Energy
12%
Shared Resource
12%
Generation Device
12%
Heating System
12%
Demand Forecast
12%