In most of his Modelica studies, his work intersects topics such as Control engineering. His Control engineering study often links to related topics such as Modelica. Michael Wetter performs integrative study on Simulation and Artificial intelligence. In his works, Michael Wetter performs multidisciplinary study on Artificial intelligence and Simulation. He performs multidisciplinary study on Computation and Algorithm in his works. Michael Wetter merges Algorithm with Computation in his study. His Approximations of π research extends to the thematically linked field of Applied mathematics. Approximations of π is closely attributed to Applied mathematics in his study. Mathematical analysis is closely attributed to Algebraic number in his study.
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Modelica Buildings Library
Michael Wetter;Wangda Zuo;Thierry S. Nouidui;Xiufeng Pang.
Journal of Building Performance Simulation (2014)
Co-Simulation of Building Energy and Control Systems with the Building Controls Virtual Test Bed
Journal of Building Performance Simulation (2011)
A comparison of deterministic and probabilistic optimization algorithms for nonsmooth simulation-based optimization
Michael Wetter;Jonathan Wright.
Building and Environment (2004)
Modelica-based Modeling and Simulation to Support Research and Development in Building Energy and Control Systems
Journal of Building Performance Simulation (2009)
Determinate composition of FMUs for co-simulation
David Broman;Christopher Brooks;Lev Greenberg;Edward A. Lee.
embedded software (2013)
A framework for simulation-based real-time whole building performance assessment
Xiufeng Pang;Michael Wetter;Prajesh Bhattacharya;Philip Haves.
Building and Environment (2012)
All you need to know about model predictive control for buildings
Ján Drgoňa;Ján Drgoňa;Javier Arroyo;Iago Cupeiro Figueroa;David Blum.
Annual Reviews in Control (2020)
A Modular Building Controls Virtual Test Bed for the Integrations of Heterogeneous Systems
Michael Wetter;Philip Haves.
Lawrence Berkeley National Laboratory (2008)
Dynamic equation-based thermo-hydraulic pipe model for district heating and cooling systems
B. Van Der Heijde;M. Fuchs;C. Ribas Tugores;G. Schweiger.
Energy Conversion and Management (2017)
Bidirectional low temperature district energy systems with agent-based control: Performance comparison and operation optimization
Felix Bünning;Felix Bünning;Michael Wetter;Marcus Fuchs;Dirk Müller.
Applied Energy (2018)
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