This chapter describes a methodology for modeling and simulation of Electrical Energy Systems, based on a “native” power modeling and simulation approach, where power is explicitly simulated as a (non digital) signal. The proposed methodology relies on the use of a standard hardware description language (HDL), namely SystemC, and exploits its extension to model and simulate analog and mixed-signal (AMS) components, thus enabling the concurrent simulation of functionality and the tracking of power. The approach relies on the definition of a unified interface for the various components of a smart system from the power perspective (ESDs, power sources, power converters, interconnects, and functional components—regarded as “loads”) and a “metam...
Energy-driven computing is an emerging paradigm that aims to fuel the proliferation of tiny and low-...
Power electronic converters have evolved rapidly, both in terms of available electronic switching de...
Simulation of power electronics systems, particularly at higher power levels, is an important part o...
This chapter describes a methodology for modeling and simulation of Electrical Energy Systems, based...
Electrical energy systems (EESs) represent a wide class of systems involving consumption, generation...
Smart electronic systems represent a vast category of energy-autonomous and ubiquitously connected s...
Electrical energy systems (EESs) are systems which consume, generate, distribute and store energy at...
We propose a simulation framework that can model a house equipped with various home appliances and n...
Smart Systems represent a broad class of intelligent, miniaturized devices incorporating functionali...
Electrical energy systems (EES) are systems which consume, generate, distribute and store energy at ...
International audienceModeling and simulation of power systems at low levels of abstraction is suppo...
Electrical energy systems (EESs) are systems which con- sume, generate, distribute and store energy ...
Discusses the application of mathematical and engineering tools for modeling, simulation and control...
In this contribution, a model-based method for analyzing and designing energy systems comprising the...
Investigations of the dynamic behaviour of power electronic components integrated into electric netw...
Energy-driven computing is an emerging paradigm that aims to fuel the proliferation of tiny and low-...
Power electronic converters have evolved rapidly, both in terms of available electronic switching de...
Simulation of power electronics systems, particularly at higher power levels, is an important part o...
This chapter describes a methodology for modeling and simulation of Electrical Energy Systems, based...
Electrical energy systems (EESs) represent a wide class of systems involving consumption, generation...
Smart electronic systems represent a vast category of energy-autonomous and ubiquitously connected s...
Electrical energy systems (EESs) are systems which consume, generate, distribute and store energy at...
We propose a simulation framework that can model a house equipped with various home appliances and n...
Smart Systems represent a broad class of intelligent, miniaturized devices incorporating functionali...
Electrical energy systems (EES) are systems which consume, generate, distribute and store energy at ...
International audienceModeling and simulation of power systems at low levels of abstraction is suppo...
Electrical energy systems (EESs) are systems which con- sume, generate, distribute and store energy ...
Discusses the application of mathematical and engineering tools for modeling, simulation and control...
In this contribution, a model-based method for analyzing and designing energy systems comprising the...
Investigations of the dynamic behaviour of power electronic components integrated into electric netw...
Energy-driven computing is an emerging paradigm that aims to fuel the proliferation of tiny and low-...
Power electronic converters have evolved rapidly, both in terms of available electronic switching de...
Simulation of power electronics systems, particularly at higher power levels, is an important part o...