Dynamical analysis and controllers performance evaluation for single degree-of-freedom system

Ahmed, A. 2018. Fuzzy logic control of classic SDOF spring mass dashpot system. International Journal of Advanced Research in Engineering and Technology, 9(6): 51–58. Ahmed A. 2018 Fuzzy logic control of classic SDOF spring mass dashpot system International Journal of Advanced Research in Engineering and Technology 9(6 ): 51 – 58 Search in Google Scholar

Akpakpavi, M. 2017. Modeling and control of a car suspension system using P, PI, PID, GA-PID and auto-tuned PID controller in MATLAB/Simulink. Journal of Multidisciplinary Engineering Science Studies 3(3): 1506–1513. Akpakpavi M. 2017 Modeling and control of a car suspension system using P, PI, PID, GA-PID and auto-tuned PID controller in MATLAB/Simulink Journal of Multidisciplinary Engineering Science Studies 3(3 ): 1506 – 1513 Search in Google Scholar

Alan, H. 2010. Fuzzy system case study, intelligent systems: lectures. London: Universitat de Girona. Alan H. 2010 Fuzzy system case study, intelligent systems: lectures London: Universitat de Girona Search in Google Scholar

Allamraju, K. V. 2016. Dynamic analysis of an automobile suspension system. IPASJ International Journal of Mechanical Engineering 4(7): 15–21. Allamraju K. V. 2016 Dynamic analysis of an automobile suspension system IPASJ International Journal of Mechanical Engineering 4(7 ): 15 – 21 Search in Google Scholar

Al-Samarraie, S. A., Midhat, B. F. and Gorial, I. I. 2016. Nonlinear integral control design for DC motor speed control with unknown and variable external torque. Journal of Engineering and Sustainable Development 20(4): 19–33. Al-Samarraie S. A. Midhat B. F. and Gorial I. I. 2016 Nonlinear integral control design for DC motor speed control with unknown and variable external torque Journal of Engineering and Sustainable Development 20(4 ): 19 – 33 Search in Google Scholar

Ang, K. H., Chong, G. and Li, Y. 2005. PID control system analysis, design, and technology. IEEE Transactions on Control Systems Technology 13(4): 559–576. Ang K. H. Chong G. and Li Y. 2005 PID control system analysis, design, and technology IEEE Transactions on Control Systems Technology 13(4 ): 559 – 576 Search in Google Scholar

Bahiah, N., Noor, M. and Ahmad, M. R. 2017. Modeling the vibrational dynamics of piezoelectric actuator by system identification technique. 7(3): 1506–1512. Bahiah N. Noor M. and Ahmad M. R. 2017 Modeling the vibrational dynamics of piezoelectric actuator by system identification technique 7(3 ): 1506 – 1512 Search in Google Scholar

Bhutta, H. A., Mansoor, H. and Tariq, M. 2016. Proceedings of the 3rd International Conference on Engineering & Emerging Technologies (ICEET), Lahore, PK: Superior University, April 7–8. Bhutta H. A. Mansoor H. and Tariq M. 2016 Proceedings of the 3rd International Conference on Engineering & Emerging Technologies (ICEET), Lahore, PK: Superior University, April 7–8 Search in Google Scholar

Caliò, R., Rongala, U., Camboni, D., Milazzo, M., Stefanini, C., de Petris, G. and Oddo, C. 2014. Piezoelectric energy harvesting solutions. Sensors 14(12): 4755–4790. Caliò R. Rongala U. Camboni D. Milazzo M. Stefanini C. de Petris G. and Oddo C. 2014 Piezoelectric energy harvesting solutions Sensors 14(12 ): 4755 – 4790 Search in Google Scholar

El-Nasser, A., Ahmed, S., Ali, A. S., Ghazaly, N. M. and Abd El-Jaber, G. T. 2015. PID controller of active suspension system for a quarter car model. International Journal of Advances in Engineering & Technology 8(6): 899–909. El-Nasser A. Ahmed S. Ali A. S. Ghazaly N. M. and Abd El-Jaber G. T. 2015 PID controller of active suspension system for a quarter car model International Journal of Advances in Engineering & Technology 8(6 ): 899 – 909 Search in Google Scholar

Frankovský, P., Delyová, I. and Hroncová, D. 2011. Modeling of a mechanical system with one degree of freedom of movement in the MATLAB program. pp. 71-73. Frankovský P. Delyová I. and Hroncová D. 2011 Modeling of a mechanical system with one degree of freedom of movement in the MATLAB program pp. 71-73 Search in Google Scholar

Katal, N. and Singh, S. K. 2012. Optimization of PID controller for quarter-car suspension system using genetic algorithm. International Journal of Advance Research in Computer Engineering & Technology 1(7): 30–32. Katal N. and Singh S. K. 2012 Optimization of PID controller for quarter-car suspension system using genetic algorithm International Journal of Advance Research in Computer Engineering & Technology 1(7 ): 30 – 32 Search in Google Scholar

Katsuhiko, O. 2010. Modern Control Engineering 5th ed., Prentice Hall. Katsuhiko O. 2010 Modern Control Engineering 5th ed ., Prentice Hall Search in Google Scholar

Kundu, S. and Nemade, H. B. 2016. Modeling and simulation of a piezoelectric vibration energy harvester. Procedia Engineering 144: 568–575. Kundu S. and Nemade H. B. 2016 Modeling and simulation of a piezoelectric vibration energy harvester Procedia Engineering 144 568 – 575 Search in Google Scholar

Li, Z. and Yin, Z. 2017. Position tracking control of mass spring damper system with time-varying coefficients. 29th Chinese Control and Decision Conference (CCDC), IEEE, 4994–4998. Li Z. and Yin Z. 2017 Position tracking control of mass spring damper system with time-varying coefficients 29th Chinese Control and Decision Conference (CCDC), IEEE 4994 – 4998 Search in Google Scholar

Liang, L., Feng, Z. and Chen, Z. 2019. “Seismic control of SDOF systems with nonlinear eddy current dampers”, Applied Sciences, 9(16): 1–18. Liang L. Feng Z. and Chen Z. 2019 . “ Seismic control of SDOF systems with nonlinear eddy current dampers ”, Applied Sciences 9(16 ): 1 – 18 Search in Google Scholar

Nafea, M., Mohammad Ali, A. R., Baliah, J. and Mohamed Ali, M. S. 2018. Metamodel-based optimization of a PID controller parameters for a coupled-tank system. TELKOMNIKA Telecommunication Computer Electronics and Control 16(4): 1590–1596. Nafea M. Mohammad Ali A. R. Baliah J. and Mohamed Ali M. S. 2018 Metamodel-based optimization of a PID controller parameters for a coupled-tank system TELKOMNIKA Telecommunication Computer Electronics and Control 16(4 ): 1590 – 1596 Search in Google Scholar

Orhorhoro, E. K., Onogbotsere, M. E. and Ikpe, A. E. 2016. Simulation of a mass spring damper model in phase variable. ELK Asia Pacific Journal of Mechanical Engineering Research 2(2): 1–16. Orhorhoro E. K. Onogbotsere M. E. and Ikpe A. E. 2016 Simulation of a mass spring damper model in phase variable ELK Asia Pacific Journal of Mechanical Engineering Research 2(2 ): 1 – 16 Search in Google Scholar

Samin, R. E., Jie, L. M. and Zawawi, M. A. 2011. PID implementation of heating tank in mini automation plant using programmable logic controller (PLC). International Conference on Electrical, Control and Computer Engineering, pp. 515–519. Samin R. E. Jie L. M. and Zawawi M. A. 2011 PID implementation of heating tank in mini automation plant using programmable logic controller (PLC) International Conference on Electrical, Control and Computer Engineering , pp. 515 – 519 Search in Google Scholar

Sánchez, M. and Pugnaloni, L. A. 2011. Effective mass overshoot in single degree of freedom mechanical systems with a particle damper. Journal of Sound and Vibration 330(24): 5812–5819. Sánchez M. and Pugnaloni L. A. 2011 Effective mass overshoot in single degree of freedom mechanical systems with a particle damper Journal of Sound and Vibration 330(24 ): 5812 – 5819 Search in Google Scholar

Sartika, E. M., Sarjono, T. R. and Saputra, D. D. 2019. Prediction of PID control model on PLC. TELKOMNIKA 17(1): 529–536. Sartika E. M. Sarjono T. R. and Saputra D. D. 2019 Prediction of PID control model on PLC TELKOMNIKA 17(1 ): 529 – 536 Search in Google Scholar

Sharma, M. and Singh, S. P. 2014. Fuzzy logic-based vibration control of a single degree of freedom system. 2014 Recent Advances in Engineering and Computational Sciences (RAECS), IEEE, pp. 1–6. Sharma M. and Singh S. P. 2014 Fuzzy logic-based vibration control of a single degree of freedom system 2014 Recent Advances in Engineering and Computational Sciences (RAECS), IEEE , pp. 1 – 6 Search in Google Scholar

Shen, Y., Fan, M., Li, X., Yang, S. and Xing, H. 2015. Dynamical analysis on single degree-of-freedom semi active control system by using fractional-order derivative. Mathematical Problems in Engineering 2015: 1–14. Shen Y. Fan M. Li X. Yang S. and Xing H. 2015 Dynamical analysis on single degree-of-freedom semi active control system by using fractional-order derivative Mathematical Problems in Engineering 2015: 1 – 14 Search in Google Scholar

Srinivasan, G., Kumar, M. S. and Basha, A. M. J. 2016. Mathematical modeling and PID controller design using transfer function and root locus method for active suspension system. Middle-East Journal of Scientific Research 24(3): 622–627. Srinivasan G. Kumar M. S. and Basha A. M. J. 2016 Mathematical modeling and PID controller design using transfer function and root locus method for active suspension system Middle-East Journal of Scientific Research 24(3 ): 622 – 627 Search in Google Scholar

Vargas, R. and Bruneau, M. 2004. “Seismic response of single degree of freedom structural fuse systems”, 13th World Conference on Earthquake Engineering, Vancouver, August 1–6. Vargas R. and Bruneau M. 2004 . “ Seismic response of single degree of freedom structural fuse systems ”, 13th World Conference on Earthquake Engineering Vancouver August 1 – 6 Search in Google Scholar