Virtually every phenomenon in nature, whether biological, geological, or mechanical, can be described with the aid of the laws of physics, in terms of algebraic, differential, or integral equations relating various quantities of interest. The objectives of the thesis were to show how distributed parameter systems can be modeled using a bond graph model, which is by its nature itself a lumped parameter model. Two ways are possible :- using an approximation technique to discretize the model in the space domain, assuming that physical distributed phenomena can be considered as homogenous in some parts of space, and thus lumped. Different bond graph models can be obtained depending on the technique used.- determining a solution of the PDE depen...
© 2019 Michael PanA major goal of systems biology is to develop comprehensive, multi-scale mathemati...
AbstractThe work shows the use of Bond Graph formalism for modeling dynamic systems. As an example a...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
Tout phénomène, qu’il soit biologique, géologique ou mécanique peut être décrit à l’aide de lois de ...
Port-based modeling of dynamic systems is the topic of the first chapter of the book that will be on...
In this chapter the basics of the port-based approach are introduced as well as their natural notati...
This book presents theory and latest application work in Bond Graph methodology with a focus on: • H...
This book presents theory and latest application work in Bond Graph methodology with a focus on: Hyb...
The research works described in the dissertation deal with modelling, analysis and control of dynami...
A theoretical framework for the computer simulation of all uncoupled diffusion processes was develop...
This work develops a graph-theoretic framework to model thermo-fluidic diffusion processes as a netw...
This paper deals with mathematical formulation of bond graphs. It is proven that the power continuou...
The bond graph theory provides a firm and complete strategy for making mathematical models and are u...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
This thesis deals with the analysis and homogenization of partial differential equations (PDE) posed...
© 2019 Michael PanA major goal of systems biology is to develop comprehensive, multi-scale mathemati...
AbstractThe work shows the use of Bond Graph formalism for modeling dynamic systems. As an example a...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
Tout phénomène, qu’il soit biologique, géologique ou mécanique peut être décrit à l’aide de lois de ...
Port-based modeling of dynamic systems is the topic of the first chapter of the book that will be on...
In this chapter the basics of the port-based approach are introduced as well as their natural notati...
This book presents theory and latest application work in Bond Graph methodology with a focus on: • H...
This book presents theory and latest application work in Bond Graph methodology with a focus on: Hyb...
The research works described in the dissertation deal with modelling, analysis and control of dynami...
A theoretical framework for the computer simulation of all uncoupled diffusion processes was develop...
This work develops a graph-theoretic framework to model thermo-fluidic diffusion processes as a netw...
This paper deals with mathematical formulation of bond graphs. It is proven that the power continuou...
The bond graph theory provides a firm and complete strategy for making mathematical models and are u...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
This thesis deals with the analysis and homogenization of partial differential equations (PDE) posed...
© 2019 Michael PanA major goal of systems biology is to develop comprehensive, multi-scale mathemati...
AbstractThe work shows the use of Bond Graph formalism for modeling dynamic systems. As an example a...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...