1 |
Bruni, S., Goodall, R., Mei, T.X. and Tsunashima, H. (2007), "Control and monitoring for railway vehicle dynamics", Vehicle Syst. Dyn., 45(7-8), 743-779.
DOI
|
2 |
Carlson, J.D., Catanzarite, D.M. and St. Clair, K.A. (1996), "Commercial magneto-rheological fluid devices", Int. J. Modern Phys. B, 10(23-24), 2857-2865.
DOI
|
3 |
Cheli, F. and Corradi, R. (2011), "On rail vehicle vibrations induced by track unevenness analysis of the excitation mechanism", J. Sound Vib., 330(15), 3744-3765.
DOI
|
4 |
Chen, Z.H., Ni, Y.Q. and Or, S.W. (2015), "Characterization and modeling of a self-sensing MR damper under harmonic loading", Smart Struct. Syst., 15(4), 1103-1120.
DOI
|
5 |
El Wahed, A.K. and Balkhoyor, L.B. (2015), "Magnetorheological fluids subjected to tension, compression, and oscillatory squeeze input", Smart Struct. Syst., 16(5), 961-980.
DOI
|
6 |
Fujimoto, H. and Miyamoto, M. (1996), "Lateral vibration and its decreasing measure of a Shinkansen train (decrease of train vibration with yaw damper between cars)", Vehicle Syst. Dyn., 25(1), 188-199.
DOI
|
7 |
Goodall, R.M. (2011), "Control for railways active suspensions and other opportunities", Proceedings of the 19th Mediterranean Conference on Control and Automation, Corfu, Greece.
|
8 |
Hudha, K., Hafiz Harun, M., Hanif Harun, M. and Jamaluddin, H. (2011), "Lateral suspension control of railway vehicle using semi-active magnetorheological damper", Proceedings of the IEEE Intelligent Vehicle Symposium (IV), Baden-Baden Germany.
|
9 |
Iwnicki, S. (ed.) (2006), Handbook of Railway Vehicle Dynamics, Taylor & Francis, Boca Raton, FL, USA.
|
10 |
Jiang, J.Z., Matomoros-Sanchez, A.Z., Goodall, R.M. and Smith, M.C. (2012), "Passive suspensions incorporating inerters for railway vehicles", Vehicle Syst. Dyn., 50(1), 263-276.
DOI
|
11 |
Liao, W.H. and Wang, D.H. (2003), "Semiactive vibration control of train suspension systems via magnetorheological dampers", J. Intell. Mat. Syst. Str., 14(3), 161-172.
DOI
|
12 |
Mantaras, D.A. and Luque, P. (2006), "Ride comfort performance of different active suspension systems", Int. J. Vehicle Des., 40(1-3), 106-125.
DOI
|
13 |
Mei, T.X. and Goodall, R.M. (2003), "Recent development in active steering of railway vehicles", Vehicle Syst. Dyn., 39(6), 415-436.
DOI
|
14 |
Mei, T.X. and Goodall, R.M. (2006), "Stability control of railway bogies using absolute stiffness: sky-hook spring approach", Vehicle Syst. Dyn., 44(l), 83-92.
|
15 |
Or, S.W., Duan, Y.F., Ni, Y.Q., Chen, Z.H. and Lam, K.H. (2008), "Development of magnetorheological dampers with embedded piezoelectric force sensors for structural vibration control", J. Intell. Mat. Syst. Str., 19(11), 1327-1338.
DOI
|
16 |
Oueslati, F., Rakheja, S. and Sankar, S. (1995), "Study of an active suspension for improved ride quality and reduced dynamic wheel loads", Road Transport Technol., 4, 441-452.
|
17 |
Shieh, N.C., Lin, C.L., Lin, Y.C. and Liang, K.Z. (2005), "Optimal design for passive suspension of a light rail vehicle using constrained multiobjective evolutionary search", J. Sound Vib., 285(1-2), 407-424.
DOI
|
18 |
Spencer Jr., B.F., Dyke, S.J., Sain, M.K. and Carlson, J.D. (1997), "Phenomenological model of magnetorheological damper", J. Eng. Mech. - ASCE, 123(3), 230-238.
|
19 |
Stribersky, A., Kienberger, A., Wagner, G. and Muller, H. (1998), "Design and evaluation of a semi-active damping system for rail vehicles", Vehicle Syst. Dyn., 29(1), 669-681.
DOI
|
20 |
Wang, D.H. and Liao, W.H. (2009a), "Semi-active suspension systems for railway vehicles using magnetorheological dampers. Part I: system integration and modeling", Vehicle Syst. Dyn., 47(11), 1305-1325.
DOI
|
21 |
Wang, D.H. and Liao, W.H. (2009b), "Semi-active suspension systems for railway vehicles using magnetorheological dampers. Part II: simulation and analysis", Vehicle Syst. Dyn., 47(12), 1439-1471.
DOI
|
22 |
Yang, J., Li, J. and Du, Y. (2006), "Adaptive fuzzy control of lateral semi-active suspension for high-speed railway vehicle", Proceedings of the International Conference on Intelligent Computing, Kunming, China.
|
23 |
Yang, Z., Zhang, B., Zhang, J. and Wang, C. (2011), "Research on semi-active control of high-speed railway vehicle based on neural network-PID control", Proceeding of the 7th International Conference on Natural Computation, Shanghai, China.
|
24 |
Yazid, I.I.M., Mazlan, S.A., Kikuchi, T., Zamzuri, H. and Imaduddin, F. (2014), "Magnetic circuit optimization in designing Magnetorheological damper", Smart Struct. Syst., 14(5), 869-881.
DOI
|
25 |
Zhao, N. and Cao, D.Q. (2012), "Semi-active control and its robustness for a bogie model with uncertain parameters", Proceeding of the 1st International Workshop on High-Speed and Intercity Railways, Hong Kong.
|