Description of electrical networks using bond graphs

## We show that it is possible to describe electromagnetic (E-M) fields with a generalized network representation (generalized bond graphs). E-M fields in moving matter, forces due to E-Mfields (Lorentzforce, etc.) and$eld transformations are included in the network description. The relations of the

This paper describes three methods of optimizing linear time-invariant networks using nonlinear programming (NLP), particularly the sequential unconstrained minimization technique (SUM T). Examples involving realistic constraints are included. I. Zntroduction

## A Computer Aided Modeling Program (CAMP) is developed to process a bond graph representation of a physical engineering system into suitable source input used by Digital Simulation Languages such as IBM DSL (Digital Simulation Language), CSMP (Continuous System Modeling Program), ACSL (Advanced Co

The e$cacy of simulation of deterministic trafic flow with electrical netzcork parameters is examined. First the car-following model is described and then compared to both lumped and distributed parameter electrical networks. New models are then introduced for use in simulating steady-state and tran