At present, as a method of establishing mathematical model of the system, the system identification has been widely applied to the automatic control, aviation, spaceflight, astronomy, medicine, biology, marine ecology and society, economics and many other fields. With the rapid development of science and technology, the status of system identification technique in various disciplines is becoming increasingly important. This paper introduces an system identification used for a quarter car passive suspension and a review previous research.

Aly, A., A., and Salem, F., A. (2013). Vehicle Suspension System Control: A Review. International journal Of Control, Automation And System, Vol. 2, No. 2, July 2013

Experimental Approach of a Quarter Car Modelling. UTHM, Johor, Malaysia

Chen, T ., Andersen, S., M, and Ljung, L. (2014). System Identification Via Sparse Multiple Kernel-Based Regularization Using Sequential Convex Optimization Techniques. IEEE Transaction On Automatic Control, Vol 59, No. 11, November 2014.

Esmalizadeh, E., and Taghirad, H.D. (1996). Active Vehicle Suspension With Optimal State Feedback Control. International Journal of Mechanical

Falk, T. (2013). Nonliear system Identification Using Structured Karnel Based Model. PhD Thesis. Katholieke Universiteit Leuven.

Fu, L., and Li, P. (2013), The Research Survey of System identification Method, Fifth International Conference on Intelligent Human-Machine Systems and Cybernetics.

Ghazali, M., N., and Moaaz, O., A. (2014), The Future development and Analysis of vehicle Active Suspension System, IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), Volume 11, Issue 5 Ver (Sep-Oct 2014, PP 19-25

Gillespie, T. D. (1992). Fundamentals of Vehicle Dynamics. Society of Automative Engginer. Inc, Warrendale.

Hanafi, D. (2009). The Quarter Car Fuzzy Controller Design Based on Model from Intelligent System Identification. IEEE Symposium Electronics and Aplication (ISIEA 2009). Oktober 4-6, Kuala lumpur, Malaysia

Hanafi, D. (2010). PID Controller Design For Semi Active Car Suspension Based On Model From Intelligent System Identification. Second International Conference on Computer Engineering and Applications.

Hanafi, D and Rahmat, F., M., (2005) System Identification Of Hammerstein Model A Quarter Car Passive Suspension System Using Multilayer Perception Neural Network (MPNN), Jurnal Teknologi, Universiti Teknologi Malaysia, 2005, 95-109

Hanafi, D., Rahmar, B. F., Ahmad, B. A. Z., and Zaid, M.B.A. (2009). Intelligent System identification for an Axis of Car Passive Suspension System Using Real Data. Journal IEEE, 2009

Hindi, H. (2004). A Tutorial on Convex Optimization. Proceeding of the American Conference, Boston, Massachusetts, June 30-July 2, 2004

John, S., Pedro, J., O., and Roza, C., R. (2011) Enhanced Slip Control Performance Using Nonlinier Pssive Suspension System. IEEE/ASME International Confenence on Advanced Intelligent Mechatronics (AIM2011), Budapet, Hungary. July 3-7, 2011

Kashtiban, M., A., and Pourqorban, N., et al. (2009), Nonlinier Optimal Control of a half Car Active Suspension. Second International Conference on Computer and Electrical Engineering, 2009

Keesman, K., J. (2011). System Identification an Introduction, Springer, London 2011

Kim, C., and Ro, P.I. (2000). Reduced Order Modeling and Parameter Estimation for A Quarter Car Suspension System. Instrumentation Mechanical Engineering 214(D)

Liberti, L. (2008). Introduction to Global Optimization, Februari, 15, 2008, France.

Ljung, L., (1987). System Identification : Theory for the user, Prentice-Hall, Inc, New Jersey

Luo, Z., and Yu,W. (2006). An Introduction to Convex Optimization Fpr Communication and Signal Processing. IEEE Journal In Communication, Vol 24, No.8, August 2006

Majjad, R. (1997). Estimation of Suspension Parameters. Proceedings of IEEE International Conference on Control Applications, 552-527, Hartford.

Mukai, F., Adachi. S., Baba, T., and Kamiyama, N,. (2010). An Application of System Identification Theory to The Ultrasound Doppler Image Processing System. SICE Annual Conference , August 28-21, 2010, Taipei, Taiwan.

Tan, H-S., and Bradshow, T. (1997). Model Identification of an Automotive Hydraulic Active Suspension System. Procceding of The Amarican Control Conference, New Mexico, June, 1997

Ujang, B., C., Jahanchahi, C and Took, C., C. et al. (2014) Adaptive Convex Combination Approach for the Identification of Improper Quaternion Processes. IEEE Transactions on Neural Networks and learning systems, Vol. 25, No.1, January 2014.

Zadeh, L., A. (1961). From Circuit Theory to System Theory. Proceedings Of The IRE, August 25, 1961.