2 research outputs found
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Bond-graph Input-State-Output Port-Hamiltonian formulation of memristive networks for emulation of Josephson junction circuits
A bond graph Input-State-Output Port-Hamiltonian formulation of memristive networks for Josephson junction circuits in state space is presented. The methodology has
applications to the modeling of SQUIDs and other non-linear transducers and enables the formulation of input-output models of complex components embedded in non-linear networks
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Port hamiltonian formulation of a memristive switch circuit represented in bond graph
With the term ‘Internet of Things’ (IoT), one wishes to cover various aspects of sensing and control associated with the extension of the Internet and Web technologies into the physical realm. This requires the seamless integration of multi-domain analog and digital devices within a complex network environment. This contribution focuses on the use of a Bond Graph to represent multi-domain transduction processes assuming a memristive switching system embedded in a simple network. The non-linearity in the dynamics of the system is derived in state space form using an ISO PHS formulation. This formulation permits us to develop multi-domain non-linear circuit elements analysis in state space where multiple elements are embedded in a network. The derived system dynamics may provide additional information regarding the states within any sensor network. This is also of relevance to the modelling of power dissipation in sensor networks