Fractional Order Controller Design for Vibration Attenuation in an Airplane Wing
The wing is one of the most important parts of an airplane because it ensures stability, sustenance and maneuverability of the airplane. Because of its shape, the airplane wing can be simplified to a smart beam. Active vibration suppression is realized using piezoelectric actuators that are mounted on the surface of the beam. This work presents a tuning procedure of fractional order controllers based on a graphical approach of the frequency domain representation. The efficacy of the method is proven by practically testing the controller on a laboratory scale experimental stand.
[1] Dr. Hatem, R. Wasmi Hussein Abdulridha Abdulameer, "Vibration Control Analysis of Aircraft Wing by Using Smart Material," Innovative Systems Design and Engineering, vol. 6, no. 8, 2015.
[2] Cem Onat, Melin Sahin, Yavuz Yaman, Eswar Prasad, and Sailendra Nemana, "Design of an LPV based fractional controller for the vibration suppression of a smart beam," in Smart Materials, Structures & NDT in Aerospace, Montreal, Quebec, Canada, 2 - 4 November 2011.
[3] Caliskan T., Smart Materials and Their Applications in Aerospace Structures, September, 2012, Ph.D. Thesis.
[4] Zhang Yahong, Zhang Xinong, Xie Shilin Niu Hongpan, "Active Vibration Control of Beam Using Electro-Magnetic Constrained Layer Damping," Chinese Journal of Aeronautics, vol. 22, no. 2, pp. 115-124, April 2008.
[5] Mohammad A. Ayoubi, Sean Shan-Min Swei, and Nhan T. Nguyen, "Fuzzy model-based pitch stabilization and wing vibration suppression of flexible aircraft," in 2014 American Control Conference, Portland, OR, 4-6 June 2014, pp. 3083 - 3088.
[6] Aleksandar Simonović, Zoran Mitrović, Slobodan Stupar Nemanja Zorić, "Active Vibration Control of Smart Composite Beams Using PSO-Optimized Self-Tuning Fuzzy Logic Controller," Journal of Theoretical and Applied Mechanics, vol. 51, no. 2, pp. 275-286, 2013.
[7] Daniel R. Fay, "Vibration control in a smart beam," in Widener University, Chester, Pennsylvania.
[8] Gergely Takács, Tomáš Polóni, and Boris Rohal’-Ilkiv, "Adaptive Model Predictive Vibration Control of a Cantilever Beam with Real-Time Parameter Estimation," Shock and Vibration, 2014.
[9] Melin Şahin, Yavuz Yaman Cem Onat, "Active Vibration Suppression of a Smart Beam by Using a Fractional Control," in 2nd International Conference of Engineering Against Fracture (ICEAF II), Mykonos, Greece, 22-24 June 2011.
[10] Conception Alicia Monje, YangQuan Chen, Blas Manuel Vinagre, Dingyu Xue, and Vicente Feliu, Fractional-order Systems and Controls.: Springer, 2010.
[11] Muresan C.I. and Prodan O., "Vibration Suppression in Smart Structures using Fractional Order PD controllers," in IEEE International Conference on Automation, Quality and Testing, Robotics AQTR, 22-24 May, Cluj-Napoca, Romania, 2014, pp. 1-5.
[12] Ovidiu Prodan, Isabela Birs, Silviu Folea, and Cristina Muresan, "Seismic Mitigation in Civil Structures Using a Fractional Order PD," in The 3rd International Conference on Control, Mechatronics and Automation, Barcelona, Spain, 21-22 December, 2015.
[13] C. Zhao, Y. Chen D. Xue, "A Modified Approximation Method of Fractional Order System," in Proceedings of the 2006 IEEE International Conference on Mechatronics and Automation, Luoyang, China, June 25 - 28, 2006, pp. 1043 – 1048.
[14] R. De Keyser, C. Muresan, and C. Ionescu, "A low-order computationally efficient approximation of fractional order systems," submitted to Automatica, 2016, under review.
[1] Dr. Hatem, R. Wasmi Hussein Abdulridha Abdulameer, "Vibration Control Analysis of Aircraft Wing by Using Smart Material," Innovative Systems Design and Engineering, vol. 6, no. 8, 2015.
[2] Cem Onat, Melin Sahin, Yavuz Yaman, Eswar Prasad, and Sailendra Nemana, "Design of an LPV based fractional controller for the vibration suppression of a smart beam," in Smart Materials, Structures & NDT in Aerospace, Montreal, Quebec, Canada, 2 - 4 November 2011.
[3] Caliskan T., Smart Materials and Their Applications in Aerospace Structures, September, 2012, Ph.D. Thesis.
[4] Zhang Yahong, Zhang Xinong, Xie Shilin Niu Hongpan, "Active Vibration Control of Beam Using Electro-Magnetic Constrained Layer Damping," Chinese Journal of Aeronautics, vol. 22, no. 2, pp. 115-124, April 2008.
[5] Mohammad A. Ayoubi, Sean Shan-Min Swei, and Nhan T. Nguyen, "Fuzzy model-based pitch stabilization and wing vibration suppression of flexible aircraft," in 2014 American Control Conference, Portland, OR, 4-6 June 2014, pp. 3083 - 3088.
[6] Aleksandar Simonović, Zoran Mitrović, Slobodan Stupar Nemanja Zorić, "Active Vibration Control of Smart Composite Beams Using PSO-Optimized Self-Tuning Fuzzy Logic Controller," Journal of Theoretical and Applied Mechanics, vol. 51, no. 2, pp. 275-286, 2013.
[7] Daniel R. Fay, "Vibration control in a smart beam," in Widener University, Chester, Pennsylvania.
[8] Gergely Takács, Tomáš Polóni, and Boris Rohal’-Ilkiv, "Adaptive Model Predictive Vibration Control of a Cantilever Beam with Real-Time Parameter Estimation," Shock and Vibration, 2014.
[9] Melin Şahin, Yavuz Yaman Cem Onat, "Active Vibration Suppression of a Smart Beam by Using a Fractional Control," in 2nd International Conference of Engineering Against Fracture (ICEAF II), Mykonos, Greece, 22-24 June 2011.
[10] Conception Alicia Monje, YangQuan Chen, Blas Manuel Vinagre, Dingyu Xue, and Vicente Feliu, Fractional-order Systems and Controls.: Springer, 2010.
[11] Muresan C.I. and Prodan O., "Vibration Suppression in Smart Structures using Fractional Order PD controllers," in IEEE International Conference on Automation, Quality and Testing, Robotics AQTR, 22-24 May, Cluj-Napoca, Romania, 2014, pp. 1-5.
[12] Ovidiu Prodan, Isabela Birs, Silviu Folea, and Cristina Muresan, "Seismic Mitigation in Civil Structures Using a Fractional Order PD," in The 3rd International Conference on Control, Mechatronics and Automation, Barcelona, Spain, 21-22 December, 2015.
[13] C. Zhao, Y. Chen D. Xue, "A Modified Approximation Method of Fractional Order System," in Proceedings of the 2006 IEEE International Conference on Mechatronics and Automation, Luoyang, China, June 25 - 28, 2006, pp. 1043 – 1048.
[14] R. De Keyser, C. Muresan, and C. Ionescu, "A low-order computationally efficient approximation of fractional order systems," submitted to Automatica, 2016, under review.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:74083", author = "Birs Isabela and Muresan Cristina and Folea Silviu and Prodan Ovidiu", title = "Fractional Order Controller Design for Vibration Attenuation in an Airplane Wing", abstract = "The wing is one of the most important parts of an airplane because it ensures stability, sustenance and maneuverability of the airplane. Because of its shape, the airplane wing can be simplified to a smart beam. Active vibration suppression is realized using piezoelectric actuators that are mounted on the surface of the beam. This work presents a tuning procedure of fractional order controllers based on a graphical approach of the frequency domain representation. The efficacy of the method is proven by practically testing the controller on a laboratory scale experimental stand.
", keywords = "Fractional order controller, piezoelectric actuators, smart beam, vibration suppression. ", volume = "10", number = "10", pages = "1805-5", }
