Title :
Simulation of hybrid MTL systems with random parameters based on stochastic DAEs
Author_Institution :
Dept. of Radio Electron., Brno Univ. of Technol., Brno, Czech Republic
Abstract :
The paper deals with a method for the simulation of hybrid systems containing multiconductor transmission lines (MTL) with randomly varying primary parameters. A core of the method lies on a theory of stochastic differential equations (SDE) considering the system responses as stochastic processes. In fact, due to a hybrid nature of the system containing also parts with lumped parameters, a system of stochastic differential-algebraic equations (SDAE) is obtained. The responses are formed by the sets of stochastic trajectories completed by corresponding sample means and confidence intervals. The MTL model is based on a cascade connection of generalized RLCG T-networks and a statevariable method is used to formulate its equations. The boundary conditions are folded in by a modified nodal analysis (MNA) enabling to include the MTLs as parts of arbitrary lumped-parameter circuits. Finally, a backward differentiation formula consistent with the Itô stochastic calculus is used for numerical solutions. All the computer simulations were performed using the Matlab language.
Keywords :
differential algebraic equations; multiconductor transmission lines; stochastic processes; Itô stochastic calculus; MTL model; Matlab language; arbitrary lumped-parameter circuits; backward differentiation formula; boundary conditions; cascade connection; computer simulations; generalized RLCG T-networks; hybrid MTL system simulation; lumped parameters; modified nodal analysis; multiconductor transmission lines; numerical solutions; random parameters; state-variable method; stochastic DAE; stochastic differential-algebraic equations; stochastic processes; system responses; varying primary parameters; Integrated circuit modeling; Mathematical model; Multiconductor transmission lines; Noise; Stochastic processes; Transmission line matrix methods; Vectors; hybrid system; modified nodal analysis; multiconductor transmission line; stochastic differential-algebraic equation;
Conference_Titel :
Circuit Theory and Design (ECCTD), 2013 European Conference on
Conference_Location :
Dresden
DOI :
10.1109/ECCTD.2013.6662336
