Robust Quasi–LPV Model Reference FTC of a Quadrotor Uav Subject to Actuator Faults

Abdullah, A. and Zribi, M. (2009). Model reference control of LPV systems, Journal of the Franklin Institute 346(9): 854-871.10.1016/j.jfranklin.2009.04.006Search in Google Scholar

Aguilar-Sierra, H., Flores, G., Salazar, S. and Lozano, R. (2014). Fault estimation for a quad-rotor MAV using a polynomial observer, Journal of Intelligent and Robotic Systems 73(1-4): 455-468.10.1007/s10846-013-9924-5Search in Google Scholar

Amoozgar, M., Chamseddine, A. and Zhang, Y. (2012). Fault-tolerant fuzzy gain-scheduled PID for a quadrotor helicopter testbed in the presence of actuator faults, Proceedings of the IFAC Conference on Advances in PID Control, Brescia, Italy, pp. 1-6.Search in Google Scholar

Apkarian, P., Gahinet, P. and Becker, G. (1995). Self-scheduled H∞ control of linear parameter-varying systems: A design example, Automatica 31(9): 1251 - 1261.10.1016/0005-1098(95)00038-XSearch in Google Scholar

Aranjo-Estrada, S., Liceaga-Castro, E. and Rodríguez-Cortés, H. (2009). Nonlinear motion control of a rotary wing vehicle powered by four rotors, Revista Ingeniería, Investigación y Tecnología 10(4): 373-383.10.22201/fi.25940732e.2009.10n4.034Search in Google Scholar

Benosman, M. (2010). A survey of some recent results on nonlinear fault tolerant control, Mathematical Problems in Engineering: 1-25, Article ID 586169, DOI: 10.1155/2010/586169.10.1155/2010/586169Search in Google Scholar

Bouabdallah, S., Murrieri, P. and Siegwart, R. (2004). Design and control of an indoor micro quadrotor, Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), New Orleans, LA, USA, pp. 4393-4398. Search in Google Scholar

Bresciani, T. (2008). Modelling, Identification and Control of a Quadrotor Helicopter, Master’s thesis, Lund University, Lund.Search in Google Scholar

Budiyono, A. and Sutarto, H. (2006). Linear parameter varying model identification for control of rotorcraft-based UAV, Proceedings of the 5th Taiwan-Indonesia Workshop on Aeronautical Science, Technology and Industry, Tainan, Taiwan, pp. 1-6.Search in Google Scholar

Castillo, P., Lozano, R. and Dzul, A. (2005). Stabilization of a mini rotorcraft with four rotors, IEEE Control Systems Magazine 25: 45-55.10.1109/MCS.2005.1550152Search in Google Scholar

Cen, Z., Noura, H., Susilo, T.B. and Al Younes, Y. (2014). Robust fault diagnosis for quadrotor UAVs using adaptive Thau observer, Journal of Intelligent and Robotic Systems 73(1-4): 573-588.10.1007/s10846-013-9921-8Search in Google Scholar

Chamseddine, A., Sadeghzadeh, I., Zhang, Y. and Theilliol, D. (2012). Control allocation and re-allocation for a modified quadrotor helicopter against actuator faults, Proceedings of the 8th IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes (SAFEPROCESS), Mexico City, Mexico, pp. 247-252 Search in Google Scholar

Chamseddine, A., Zhang, Y., Rabbath, C., Fulford, C. and Apkarian, J. (2011). Model reference adaptive fault tolerant control of a quadrotor UAV, Proceedings of the AIAA Infotech Aerospace, St. Louis, MO, USA.Search in Google Scholar

Chilali, M. and Gahinet, P. (1996). H∞ design with pole placement constraints: An LMI approach, IEEE Transactions on Automatic Control 41(3): 358-367.10.1109/9.486637Search in Google Scholar

Chowdhary, G., Frazzoli, E., How, J. and Liu, H. (2014). Nonlinear flight control techniques for unmanned aerial vehicles, in K.P. Valavanis and G.J. Vachtsevanos (Eds.), Handbook of Unmanned Aerial Vehicles, Springer, Houten.Search in Google Scholar

Coleman, T., Branch, M.A. and Grace, A. (1999). Optimization Toolbox User’s Guide, The Mathworks, Inc., Natick, MA.Search in Google Scholar

Dydek, Z., Annaswamy, A. and Lavretsky, E. (2010a). Adaptive control of quadrotor UAVs in the presence of actuator uncertainties, Proceedings of the AIAA Infotech Aerospace, Atlanta, GA, USA, pp. 1-9.10.2514/6.2010-7575Search in Google Scholar

Dydek, Z., Annaswamy, A. and Lavretsky, E. (2010b). Combined/composite adaptive control of a quadrotor UAV in the presence of actuator uncertainty, Proceedings of the AIAA Guidance, Navigation and Control Conference, Toronto, ON, Canada, pp. 1-10. 10.2514/6.2010-7575Search in Google Scholar

Freddi, A., Lanzon, A. and Longhi, S. (2011). A feedback linearization approach to fault tolerance in quadrotor vehicles, Proceedings of the 18th IFAC World Congress, Milan, Italy, pp. 5413-5418.Search in Google Scholar

Ghersin, A.S. and Sanchez-Peña, R.S. (2002). LPV control of a 6 DOF vehicle, IEEE Transactions on Control Systems Technology 10(6): 883-887.10.1109/TCST.2002.804123Search in Google Scholar

Guenard, N., Hamel, T. and Mahony, R. (2008). A practical visual servo control for an unmanned aerial vehicle, IEEE Transactions on Robotics 24(2): 331-340.10.1109/TRO.2008.916666Search in Google Scholar

Guerrero-Castellano, J.F., Téllez-Guzmán, J.J., Durand, S., Marchand, N., Alvarez-Muñoz, J.U. and González-Díaz, V.R. (2013). Attitude stabilization of a quadrotor by means of event-triggered nonlinear control, Journal of Intelligent and Robotic Systems 73(1-4): 123-135.10.1007/s10846-013-9890-ySearch in Google Scholar

Hoffmann, G. and Waslander, S. (2008). Quadrotor helicopter trajectory tracking control, Proceedings of the AIAA Guidance, Navigation and Control Conference and Exhibit, Honolulu, HI, USA, pp. 1-14.Search in Google Scholar

Horn, R.A. and Johnson, C.R. (1990). Matrix Analysis, Cambridge University Press, Cambridge.Search in Google Scholar

Izadi, H., Gordon, B. and Zhang, Y. (2010). A data-driven fault tolerant model predictive control with fault identification, Proceedings of the 1st Conference on Control and Fault- Tolerant Systems (SYSTOL), Nice, France, pp. 732-737.Search in Google Scholar

Izadi, H., Zhang, Y. and Gordon, B. (2011). Fault tolerant model predictive control of quad-rotor helicopters with actuator fault estimation, Proceedings of the 18th IFAC World Congress, Milan, Italy, pp. 6343-6348.Search in Google Scholar

Jiang, J. and Yu, X. (2012). Fault-tolerant control systems: A comparative study between active and passive approaches, Annual Reviews in Control 36(1): 60-72.10.1016/j.arcontrol.2012.03.005Search in Google Scholar

Khebbache, H., Sait, B., Bounar, N. and Yacef, F. (2012). Robust stabilization of a quadrotor UAV in presence of actuator and sensor faults, International Journal of Instrumentation and Control Systems 2(2): 53-67.10.5121/ijics.2012.2205Search in Google Scholar

Kwiatkowski, A., Boll, M.-T. andWerner, H. (2006). Automated generation and assessment of affine LPV models, Proceedings of the 45th IEEE Conference on Decision and Control, San Diego, CA, USA, pp. 6690-6695.Search in Google Scholar

Landau, Y.D. (1979). Adaptive Control-The Model Reference Approach, Marcel Dekker, New York, NY.Search in Google Scholar

Li, T., Zhang, Y. and Gordon, B. (2013). Passive and active nonlinear fault-tolerant control of a quadrotor UAV based on sliding mode control technique, Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering 227(1): 12-23.10.1177/0959651812455293Search in Google Scholar

Maki, M., Jiang, J. and Hagino, K. (2004). A stability guaranteed active fault-tolerant control system against actuator failures, International Journal of Robust and Nonlinear Control 14(12): 1061-1077.10.1002/rnc.932Search in Google Scholar

Merheb, A.-R., Noura, H. and Bateman, F. (2013). Passive fault tolerant control of quadrotor UAV using regular and cascaded sliding mode control, Proceedings of the 2nd Conference on Control and Fault-Tolerant Systems (SYSTOL), Nice, France, pp. 330-335.Search in Google Scholar

Milhim, A., Zhang, Y. and Rabbath, C. (2010). Gain scheduling based PID controller for fault tolerant control of a quadrotor UAV, Proceedings of AIAA Infotech Aerospace, Atlanta, GA, USA, pp. 1-13.Search in Google Scholar

Mokhtari, A. and Benallegue, A. (2004). Dynamic feedback controller of Euler angles and wind parameter estimation for a quadrotor unmanned aerial vehicle, Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), New Orleans, LA, USA, pp. 2359-2366.Search in Google Scholar

Raffo, G.V., Ortega, M.G. and Rubio, F.R. (2010). An integral predictive/nonlinear H∞ control structure for a quadrotor helicopter, Automatica 46(1): 29-39.10.1016/j.automatica.2009.10.018Search in Google Scholar

Rangajeeva, S. and Whidborne, J. (2011). Linear parameter varying control of a quadrotor, Proceedings of the 6th International Conference on Industrial and Information Systems (ICIIS), Kandy, Sri Lanka, pp. 483-488.Search in Google Scholar

Rotondo, D., Nejjari, F. and Puig, V. (2012). Fault estimation and virtual actuator FTC approach for LPV systems, Proceedings of the 8th IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes (SAFEPROCESS), Mexico City, Mexico, pp. 824-829.Search in Google Scholar

Rotondo, D., Nejjari, F. and Puig, V. (2013a). Fault tolerant control design for polytopic uncertain LPV systems, Proceedings of the 21st Mediterranean Conference on Control and Automation, Platanias-Chania, Crete, Greece, pp. 66-72.10.1109/MED.2013.6608700Search in Google Scholar

Rotondo, D., Nejjari, F. and Puig, V. (2013b). Passive and active FTC comparison for polytopic LPV systems, Proceedings of the 12th European Control Conference, Zurich, Switzerland, pp. 2951-2956.10.23919/ECC.2013.6669235Search in Google Scholar

Rotondo, D., Nejjari, F., Torren, A. and Puig, V. (2013c). Fault tolerant control design for polytopic uncertain LPV systems: Application to a quadrotor, Proceedings of the 2nd Conference on Control and Fault-Tolerant Systems (SYSTOL), Nice, France, pp. 643-648.10.1109/SysTol.2013.6693899Search in Google Scholar

Rotondo, D., Nejjari, F. and Puig, V. (2014). Model reference quasi-LPV control of a quadrotor UAV, IEEE Multiconference on Systems and Control, Antibes, France, pp. 736-741.Search in Google Scholar

Sadeghzadeh, I., Mehta, A. and Zhang, Y. (2011a). Fault/damage tolerant control of a quadrotor helicopter UAV using model reference adaptive control and gain-scheduled PID, Proceedings of the AIAA Guidance, Navigation and Control Conference, Portland, OR, USA.10.2514/6.2011-6716Search in Google Scholar

Sadeghzadeh, I., Mehta, A., Zhang, Y. and Rabbath, C. (2011b). Fault-tolerant trajectory tracking control of a quadrotor helicopter using gain-scheduled PID and model reference adaptive control, Proceedings of the Annual Conference of the Prognostics and Health Management Society, Montreal, QC, Canada, pp. 1-10.Search in Google Scholar

Serirojanakul, A. andWongaisuwan, M. (2012). Optimal control of quad-rotor helicopter using state feedback LPV method, Proceedings of the 9th International Conference on Electrical Engineering/Electronics, Computer Telecommunications and Information Technology (ECTI-CON), Hua Hin, Thailand, pp. 1-4. Search in Google Scholar

Shamma, J.S. (2012). An overview of LPV systems, in J. Mohammadpour and C. Scherer (Eds.), Control of Linear Parameter Varying Systems with Applications, Springer, New York, NY, pp. 3-26.10.1007/978-1-4614-1833-7_1Search in Google Scholar

Sharifi, F., Mirzaei, M., Gordon, B. and Zhang, Y. (2010). Fault tolerant control of a quadrotor UAV using sliding mode control, Proceedings of the 1st Conference on Control and Fault-Tolerant Systems (SYSTOL), Nice, France, pp. 239-244.Search in Google Scholar

Staroswiecki, M., Berdjag, D., Jiang, B. and Zhang, K. (2009). PACT: A passive/active approach to fault tolerant stability under actuator outages, Proceedings of the Joint 48th IEEE Conference on Decision and Control and the 28th Chinese Control Conference, Shanghai, China, pp. 7819-7824.Search in Google Scholar

Staroswiecki, M., Zhang, K., Berdjag, D. and Abbas-Turki, M. (2012). Reducing the reliability over-cost in reconfiguration-based fault tolerant control under actuator faults, IEEE Transactions on Automatic Control 57(12): 3181-3186.10.1109/TAC.2012.2199179Search in Google Scholar

Yu, B., Zhang, Y., Minchala, I. and Qu, Y. (2013). Fault-tolerant control with linear quadratic and model predictive control techniques against actuator faults in a quadrotor UAV, Proceedings of the 2nd Conference on Control and Fault- Tolerant Systems (SYSTOL), Nice, France, pp. 661-666.Search in Google Scholar

Yu, X. and Jiang, J. (2012). Hybrid fault-tolerant flight control system design against partial actuator failures, IEEE Transactions on Control Systems Technology 20(4): 871-886.10.1109/TCST.2011.2159606Search in Google Scholar

Zhang, X. and Zhang, Y. (2010). Fault tolerant control for quadrotor UAV by employing Lyapunov-based adaptive control approach, Proceedings of the AIAA Guidance, Navigation and Control Conference, Toronto, ON, Canada.Search in Google Scholar

Zhang, X., Zhang, Y., Su, C.-Y. and Feng, Y. (2010). Fault-tolerant control for quad-rotor UAV via backstepping approach, Proceedings of the 48th AIAA Aerospace Sciences Meeting, Orlando, FL, USA.10.2514/6.2010-947Search in Google Scholar

Zhang, Y. and Jiang, J. (2008). Bibliographical review on reconfigurable fault-tolerant control systems, Annual Reviews in Control 32(2): 229-252.10.1016/j.arcontrol.2008.03.008Search in Google Scholar

Zhang, Y. M., Chamseddine, A., Rabbath, C. A., Gordon, B. W., Su, C.-Y., Rakheja, S., Fulford, C., Apkarian, J. and Gosselin, P. (2013). Development of advanced FDD and FTC techniques with application to an unmanned quadrotor helicopter testbed, Journal of the Franklin Institute 350(9): 2396-2422.10.1016/j.jfranklin.2013.01.009Search in Google Scholar

Zhaohui, C. and Noura, H. (2013). A composite fault tolerant control based on fault estimation for quadrotor UAVs, Proceedings of the 8th IEEE Conference on Industrial Electronics and Applications (ICIEA), Melbourne, Australia, pp. 236-241.Search in Google Scholar

Zhou, Q.-L., Zhang, Y., Rabbath, C. and Theilliol, D. (2010). Design of feedback linearization control and reconfigurable control allocation with application to quadrotor UAV, Proceedings of the 1st Conference on Control and Fault-Tolerant Systems (SYSTOL), Nice, France, pp. 371-376. Search in Google Scholar