000007648 001__ 7648
000007648 005__ 20240531164758.0
000007648 02470 $$2doi$$a10.24868/issn.2515-818X.2020.006
000007648 035__ $$a4468862
000007648 037__ $$aGENERAL
000007648 245__ $$aTorsional Vibration and stability Analysis by Bond Graph Modelling: A practical approach, part two.
000007648 269__ $$a2020-10-05
000007648 336__ $$aConference Proceedings
000007648 520__ $$aThe traditional modelling approach in engineering is mathematical, but thanks to the advances in computer technology it is now possible for the practical engineer to model physical systems in a more “user friendly” way. This paper will demonstrate the power and simplicity of Bond Graphs in modelling technique. Bond Graph modelling was original developed in the late 1950s by the late Professor Henry M. Paynter of MIT. Professor Paynter acted well before his time as the main advantage of his creation, other than the modeling insight that it provides and the ability of effectively dealing with mechatronics, came into fruition only with the recent advent of modern computer technology and the tools derived as a result of it, including symbolic manipulation, MATLAB and SIMULINK and the simulation package 20-sim, which allows direct input of the Bond Graph.
000007648 542__ $$fCC-BY-4.0
000007648 6531_ $$aElectro-mechanical vibrations
000007648 6531_ $$aBond Graph modelling
000007648 6531_ $$aPark equation
000007648 6531_ $$aMaxwell element
000007648 7001_ $$aHeeringa, Tjeerd$$uTMC, The Netherlands
000007648 7001_ $$aNúñez-Hernández, Israel$$uTMC, The Netherlands
000007648 773__ $$tConference Proceedings of INEC
000007648 773__ $$jINEC 2020
000007648 789__ $$whttps://zenodo.org/record/4468862$$2URL$$eIsIdenticalTo
000007648 85641 $$uhttps://www.imarest.org/events/inec-2020$$yConference website
000007648 8564_ $$9afdbf115-db86-474b-ab4a-e8dffff7b624$$s6637638$$uhttps://library.imarest.org/record/7648/files/INEC_2020_Paper_7.pdf