The paper presents a methodology for the automatic abstraction of analog magnetic components to achieve efficient simulation of complex smart system virtual platform. We aim at facilitating the validation process by allowing the simulation of both functional and extra-functional behaviors of the system with an unified simulation environment. The approach employs a process of simplification which removes unnecessary details of the analog model, enabling a much faster simulation
The faster the scale of integration of digital circuits increases the more important is the accelera...
A proper use of electromagnetic numerical simulations can lead to an efficient equipment integration...
Smart grid systems are characterized by high complexity due to interactions between a traditional pa...
The paper presents a methodology for the automatic abstraction of analog magnetic components to achi...
The paper presents a methodology for the automatic abstraction of analog magnetic components to achi...
Multi-discipline components introduce problems when inserted within virtual platforms of Smart Syste...
Modern smart systems are usually built by implementing SW functionalities executed on HW platforms c...
Design of smart systems needs to cover a wide variety of domains, ranging from analogue to digital, ...
Analog components are fundamental blocks of smart systems, as they allow a tight interaction with th...
Smart grid systems are characterized by high complexity due to interactions between a traditional pa...
Large and complex systems, such as the Smart Grid, are often best understood through the use of mode...
This chapter provides a brief overview of modelling and simulation approaches for smart grid systems...
The faster the scale of integration of digital circuits increases the more important is the accelera...
Several embedded system applications are used to control physical processes thus leading to the conc...
A physical control/protection platform needs to be tested and its functionality verified prior to in...
The faster the scale of integration of digital circuits increases the more important is the accelera...
A proper use of electromagnetic numerical simulations can lead to an efficient equipment integration...
Smart grid systems are characterized by high complexity due to interactions between a traditional pa...
The paper presents a methodology for the automatic abstraction of analog magnetic components to achi...
The paper presents a methodology for the automatic abstraction of analog magnetic components to achi...
Multi-discipline components introduce problems when inserted within virtual platforms of Smart Syste...
Modern smart systems are usually built by implementing SW functionalities executed on HW platforms c...
Design of smart systems needs to cover a wide variety of domains, ranging from analogue to digital, ...
Analog components are fundamental blocks of smart systems, as they allow a tight interaction with th...
Smart grid systems are characterized by high complexity due to interactions between a traditional pa...
Large and complex systems, such as the Smart Grid, are often best understood through the use of mode...
This chapter provides a brief overview of modelling and simulation approaches for smart grid systems...
The faster the scale of integration of digital circuits increases the more important is the accelera...
Several embedded system applications are used to control physical processes thus leading to the conc...
A physical control/protection platform needs to be tested and its functionality verified prior to in...
The faster the scale of integration of digital circuits increases the more important is the accelera...
A proper use of electromagnetic numerical simulations can lead to an efficient equipment integration...
Smart grid systems are characterized by high complexity due to interactions between a traditional pa...