Development of Port Vehicle with Semi-active Suspension—A Literature Review
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Margolis D, Shim T. A bond graph model incorporating sensors, actuators, and vehicle dynamics for developing controllers for vehicle safety. Journal of the Franklin Institute. 2001 Jan 1;338(1):21–34.
Dauphin-Tanguy G, Rahmani A, Sueur C. Bond graph aided design of controlled systems. Simulation Practice and Theory. 1999 Dec 15;7(5–6):493–513.
Gawthrop PJ. Physical model-based control: A bond graph approach. Journal of the Franklin Institute. 1995 May 1;332(3):285–305.
Gawthrop PJ. Bond graphs: A representation for mechatronic systems. Mechatronics. 1991 Jan 1;1(2):127–56.
Granda JJ. The role of bond graph modeling and simulation in mechatronics systems: An integrated software tool: CAMP-G, MATLAB–SIMULINK. Mechatronics. 2002 Nov 1;12(9–10):1271–95.
Cho W. A bond graph approach to the modeling of general multibody dynamic systems. KSME International Journal. 1998 Sep 1;12(5):888.
Karnopp DC, Margolis DL, Rosenberg RC. System dynamics: modeling, simulation, and control of mechatronic systems. John Wiley & Sons; 2012 Mar 7.
Borutzky W. Bond graphs: a methodology for modelling multidisciplinary dynamic systems. Erlangen: SCS Publishing House; 2004.
Mukherjee A, Karmakar R, Samantaray AK. Bond graph in modeling, simulation and fault
identification. New Delhi: IK International; 2006 Jan 1.
Samantaray AK, Bouamama BO. Model-based process supervision: a bond graph approach. Springer Science & Business Media; 2008 Mar 14.
Bos AM. Modelling multibody systems in terms of multibond graphs: with application to a motorcycle, PhD thesis at Twente University, 1986.
Gawthrop PJ. Physical model-based control: A bond graph approach. Journal of the Franklin Institute. 1995 May 1;332(3):285–305.
Dauphin-Tanguy G, Rahmani A, Sueur C. Bond graph aided design of controlled systems. Simulation Practice and Theory. 1999 Dec 15;7(5–6):493–513.
Pathak PM, Kumar RP, Mukherjee A, Dasgupta A. A scheme for robust trajectory control of space robots. Simulation Modelling Practice and Theory. 2008 Oct 1;16(9):1337–49.
Ngwompo RF, Gawthrop PJ. Bond graph-based simulation of non-linear inverse systems using physical performance specifications. Journal of the Franklin Institute. 1999 Nov 1;336(8):1225–47.
Hrovat D, Asgari J, Fodor M. Automotive mechatronic systems. InMechatronic systems techniques and applications 2000 Aug 8 (pp. 15–112). CRC Press.
Filippini, G., Nigro, N., and Junco, S. Vehicle dynamics simulation using bond graphs. International conference on integrated modelling and analysis in applied control and automation (IMAACA 2007), Buenos Aires, Argentina.
Shiao Y, Lai CC, Nguyen QA. The analysis of a semi-active suspension system. InProceedings of SICE Annual Conference 2010 2010 Aug 18 (pp. 2070–2082). IEEE.
Collette C, Preumont A. High frequency energy transfer in semi-active suspension. Journal of Sound and Vibration. 2010 Oct 25;329(22):4604–16.
Mailat F, Donescu Ş, Chiroiu V. On the automotive semi-active suspensions. Proc. of the Romanian Academy, Series A: Mathematics, Physics, Technical Sciences, Information Science. 2004;5(1):47–54.
Ieluzzi M, Turco P, Montiglio M. Development of a heavy truck semi-active suspension control. Control Engineering Practice. 2006 Mar 1;14(3):305–12.
Poussot-Vassal C, Savaresi SM, Spelta C, Sename O, Dugard L. A methodology for optimal semi-active suspension systems performance evaluation. In49th IEEE Conference on Decision and Control (CDC) 2010 Dec 15 (pp. 2892–2897). IEEE.
Fang Z, Shu W, Du D, Xiang B, He Q, He K. Semi-active suspension of a full-vehicle model based on double-loop control. Procedia Engineering. 2011 Jan 1; 16: 428–37.
Poussot-Vassal C, Sename O, Dugard L, Gaspar P, Szabo Z, Bokor J. A new semi-active suspension control strategy through LPV technique. Control Engineering Practice. 2008 Dec 1;16(12):1519–34.
Eslaminasab N, Vahid AO, Golnaraghi F. Nonlinear analysis of switched
semi-active controlled systems. Vehicle system dynamics. 2011 Feb 1;49(1–2):291–309.
Ahmadian M, Blanchard E. Non-dimensionalised closed-form parametric analysis of semi-active vehicle suspensions using a quarter-car model. Vehicle system dynamics. 2011 Feb 1;49(1–2):219–35.
Chen BC, Shiu YH, Hsieh FC. Sliding-mode control for semi-active suspension with actuator dynamics. Vehicle System Dynamics. 2011 Feb 1;49(1–2):277–90.
Maciejewski I, Krzyżyński T. Control design of semi-active seat suspension systems. Journal of Theoretical and Applied Mechanics. 2011;49(4):1151–68.
Yi K, Hedrick JK. Active and semi-active heavy truck suspensions to reduce pavement damage. SAE transactions. 1989 Jan 1:588–95.
Kamalakannan K, ElayaPerumal A, Mangalaramanan S, Arunachalam K. Performance analysis and behaviour characteristics of CVD (Semi Active) in quarter car model. Jordan Journal of Mechanical and industrial engineering. 2011 Jun;5(3):261–5.
Spelta C, Savaresi SM, Fabbri L. Experimental analysis of a motorcycle semi-active rear suspension. Control Engineering Practice. 2010 Nov 1;18(11):1239–50.
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