This paper proposes a novel approach to the generation of state equations from a bond graph (BG) of a mode switching linear time invariant model. Fast state transitions are modelled by ideal or non-ideal switches. Fixed causalities are assigned following the Standard Causality Assignment Procedure such that the number of storage elements in integral causality is maximised. A system of differential and algebraic equations (DAEs) is derived from the BG that holds for all system modes. It is distinguished between storage elements with mode independent causality and those that change causality due to switch state changes
Bond graphs are a powerful and elegant formalism for modeling the continuous dynamics of physical sy...
For the case when the abstraction of instantaneous state transitions is adopted, this paper proposes...
By mode-switching systems we mean physical systems characterized by transitions which are at least ...
This paper proposes a novel approach to the generation of state equations from a bond graph (BG) of ...
The causally dynamic hybrid bond graph is extended to the case of mode-switching behaviour. Mode-swi...
Analytical redundancy relations are fundamental in model-based fault detection and isolation. Their ...
Hybrid models are those containing continuous and discontinuous behaviour. In constructing dynamic s...
When simulating hybrid systems using switched bond graphs, the initialization of new modes is made b...
When simulating hybrid systems using switched bond graphs, the initialization of new modes is made b...
When simulating hybrid systems using switched bond graphs, the initialization of new modes is made b...
In a keynote paper [Rosenberg 1971] Rosenberg formulated a method for deriving the state equations s...
Current approaches to the problem of switching between modes in continuous dynamic system models ten...
Abstract. This paper deals with the modelling of hybrid physical systems. The bond graph technique i...
This paper presents methods to obtain models in the form of Input-State-Output Port-Hamiltonian Syst...
ronments, simulation of hybrid systems. Accurate and efficient simulations facilitate cost-effective...
Bond graphs are a powerful and elegant formalism for modeling the continuous dynamics of physical sy...
For the case when the abstraction of instantaneous state transitions is adopted, this paper proposes...
By mode-switching systems we mean physical systems characterized by transitions which are at least ...
This paper proposes a novel approach to the generation of state equations from a bond graph (BG) of ...
The causally dynamic hybrid bond graph is extended to the case of mode-switching behaviour. Mode-swi...
Analytical redundancy relations are fundamental in model-based fault detection and isolation. Their ...
Hybrid models are those containing continuous and discontinuous behaviour. In constructing dynamic s...
When simulating hybrid systems using switched bond graphs, the initialization of new modes is made b...
When simulating hybrid systems using switched bond graphs, the initialization of new modes is made b...
When simulating hybrid systems using switched bond graphs, the initialization of new modes is made b...
In a keynote paper [Rosenberg 1971] Rosenberg formulated a method for deriving the state equations s...
Current approaches to the problem of switching between modes in continuous dynamic system models ten...
Abstract. This paper deals with the modelling of hybrid physical systems. The bond graph technique i...
This paper presents methods to obtain models in the form of Input-State-Output Port-Hamiltonian Syst...
ronments, simulation of hybrid systems. Accurate and efficient simulations facilitate cost-effective...
Bond graphs are a powerful and elegant formalism for modeling the continuous dynamics of physical sy...
For the case when the abstraction of instantaneous state transitions is adopted, this paper proposes...
By mode-switching systems we mean physical systems characterized by transitions which are at least ...