[Acosta, J., Ortega, R., Astolfi, A. and Mahindrakar, A. (2005). Interconnection and damping assignment passivity-based control of mechanical systems with underactuation degree one, IEEE Transactions on Automatic Control 50(12): 1936-1955.10.1109/TAC.2005.860292]Search in Google Scholar
[Aguilar-Ibanez, C. (2016). Stabilization of the PVTOL aircraft based on a sliding mode and a saturation function, International Journal of Robust and Nonlinear Control 27(5): 843-859.10.1002/rnc.3601]Search in Google Scholar
[Antonio-Cruz, M., Hernandez-Guzman, V.M. and Silva-Ortigoza, R. (2018). Limit cycle elimination in inverted pendulums: Furuta pendulum and pendubot, IEEE Access 6: 30317-30332.10.1109/ACCESS.2018.2839642]Search in Google Scholar
[Bloch, A.M. (2003). Nonholonomic Mechanics and Control, Springer-Verlag, New York, NY.10.1007/b97376]Search in Google Scholar
[Bloch, A.M., Reyhanoglu, M. and McClamroch, N.H. (1992). Control and stabilization of nonholonomic dynamic systems, IEEE Transactions on Automatic Control 37(11): 1746-1757.10.1109/9.173144]Search in Google Scholar
[Cannon, R.H. (1967). Dynamics of Physical Systems, McGraw-Hill, New York, NY.]Search in Google Scholar
[Chang, D. (2014). On the method of interconnection and damping assignment passivity-based control for the stabilization of mechanical systems, Regular and Chaotic Dynamics 19(5): 556-575.10.1134/S1560354714050049]Search in Google Scholar
[Chin, C.S., Lau, M.W.S., Low, E. and Seet, G.G.L. (2006). A robust controller design method and stability analysis of an underactuated underwater vehicle, International Journal of Applied Mathematics and Computer Science 16(3): 345-356.]Search in Google Scholar
[Donaire, A., Mehra, R., Ortega, R., Satpute, S., Romero, J.G., Kazi, F. and Singh, N.M. (2015). Shaping the energy of mechanical systems without solving partial differential equations, American Control Conference, Chicago, IL, USA, pp. 1351-1356.10.1109/ACC.2015.7170921]Search in Google Scholar
[Donaire, A., Romero, J.G., Ortega, R., Siciliano, B. and Crespo, M. (2016). Robust IDA-PBC for underactuated mechanical systems subject to matched disturbances, International Journal of Robust and Nonlinear Control 27(6): 1000-1016.10.1002/rnc.3615]Search in Google Scholar
[Fantoni, I. and Lozano, R. (2002). Non-linear Control for Underactuated Mechanical Systems, Advances in Pattern Recognition, Springer, London.10.1007/978-1-4471-0177-2]Search in Google Scholar
[Ferraz-Mello, S. (2007). Canonical Perturbation Theories, 1st Edn., Springer-Verlag, New York, NY.10.1007/978-0-387-38905-9]Search in Google Scholar
[Fulford, G., Forrester, P. and Jones, A. (1997). Modelling with Differential and Difference Equations, Australian Mathematical Society Lecture Series, Cambridge University Press, Cambridge.]Search in Google Scholar
[Gómez-Estern, F. and van der Schaft, A. (2004). Physical damping in IDA-PBC controlled underactuated mechanical systems, European Journal of Control 10(5): 451-468.10.3166/ejc.10.451-468]Search in Google Scholar
[Greenwood, D.T. (1977). Classical Dynamics, Dover, New York, NY.10.1115/1.3424126]Search in Google Scholar
[Jiang, Z.P. (2010). Controlling underactuated mechanical systems: A review and open problems, in J. Levine and P. Mullhaupt (Eds.), Advances in the Theory of Control, Signals and Systems with Physical Modeling, Lecture Notes in Control and Information Sciences, Vol. 407, Springer, Berlin, pp. 77-88.10.1007/978-3-642-16135-3_7]Search in Google Scholar
[Kang, W., Xiao, M. and Borges, C. (2003). New Trends in Nonlinear Dynamics and Control, and their Applications, 1st Edn., Springer-Verlag, Heidelberg/Berlin.10.1007/b80168]Search in Google Scholar
[Kelly, R., Santibánez, V. and Loría, A. (2005). Control of Robot Manipulators in Joint Space, 1st Edn., Springer-Verlag, London.]Search in Google Scholar
[Kotyczka, P. and Lohmann, B. (2009). Parametrization of IDA-PBC by assignment of local linear dynamics, Proceedings of the European Control Conference, Budapest, Hungary, pp. 4721-4726.10.23919/ECC.2009.7075146]Search in Google Scholar
[Kozlov, V.V. (1996). Symmetries, Topology and Resonances in Hamiltonian Mechanics, 1st Edn., Springer-Verlag, Heidelberg/Berlin.10.1007/978-3-642-78393-7_1]Search in Google Scholar
[Layek, G.C. (2015). An Introduction to Dynamical Systems and Chaos, 1st Edn., Springer, New Delhi.10.1007/978-81-322-2556-0_1]Search in Google Scholar
[Liu, Y. (2018). Control of a class of multibody underactuated mechanical systems with discontinuous friction using sliding-mode, Transactions of the Institute of Measurement and Control 40(2): 514-527.10.1177/0142331216661759]Search in Google Scholar
[Liu, Y. and Yu, H. (2013). A survey of underactuated mechanical systems, IET Control Theory and Applications 7(7): 921-931.10.1049/iet-cta.2012.0505]Search in Google Scholar
[Mahindrakar, A.D., Astolfi, A., Ortega, R. and Viola, G. (2006). Further constructive results on interconnection and damping assignment control of mechanical systems: The acrobot example, International Journal of Robust and Nonlinear Control 16(14): 671-685.10.1002/rnc.1088]Search in Google Scholar
[Moreno-Valenzuela, J. and Aguilar-Avelar, C. (2018). Motion Control of Underactuated Mechanical Systems, 1st Edn., Springer International Publishing, Cham.10.1007/978-3-319-58319-8]Search in Google Scholar
[Nagata, W. and Namachchivaya, N.S. (2006). Bifurcation Theory and Spatio-Temporal Pattern Formation, Fields Institute Communications, Ontario.10.1090/fic/049]Search in Google Scholar
[Ortega, R., Spong, M., Gómez-Estern, F. and Blankeinstein, G. (2002). Stabilization of a class of underactuated mechanical systems via interconnection and damping assignment, IEEE Transactions on Automatic Control 47(8): 1213-1233.10.1109/TAC.2002.800770]Search in Google Scholar
[Ostrowski, J.P. and Burdick, J.W. (1997). Controllability for mechanical systems with symmetries and constraints, Applied Mathematics and Computer Science 7(2): 305-331.]Search in Google Scholar
[Parks, R. (1999). Manual for model 750 control moment gyroscope, Technical document, Educational Control Products, Bell Canyon, CA, http://maecourses.ucsd.edu/ugcl/download/manuals/gyroscope.pdf.]Search in Google Scholar
[Quanser (2009). Specialty plant: 3 DOF gyroscope. User manual, Document Number 806, Revision 1.0, https://www.quanser.com/products/3-dof-gyroscope.]Search in Google Scholar
[Rana, N. and Joag, P. (1991). Classical Mechanics, Tata McGraw-Hill, New Delhi. Reyhanoglu, M. and van de Loo, J. (2006a). Rest-to-rest maneuvering of a nonholonomic control moment gyroscope, IEEE International Symposium on Industrial Electronics, Montreal, Canada, pp. 160-165.]Search in Google Scholar
[Reyhanoglu, M. and van de Loo, J. (2006b). State feedback tracking of a nonholonomic control moment gyroscope, Proceedings of the 45th IEEE Conference on Decision and Control, San Diego, CA, USA, pp. 6156-6161.10.1109/CDC.2006.377590]Search in Google Scholar
[Romero, J.G., Donaire, A., Ortega, R. and Borja, P. (2017). Global stabilisation of underactuated mechanical systems via PID passivity-based control, IFAC PapersOnLine 50(1): 9577-9582.10.1016/j.ifacol.2017.08.1674]Search in Google Scholar
[Sabattini, L., Secchi, C. and Fantuzzi, C. (2017). Collision avoidance for multiple Lagrangian dynamical systems with gyroscopic forces, International Journal of Advanced Robotic Systems 1(15): 1-15.10.1177/1729881416687109]Search in Google Scholar
[Sandoval, J., Kelly, R. and Santibanez, V. (2011). Interconnection and damping assignment passivity-based control of a class of underactuated mechanical systems with dynamic friction, International Journal of Robust and Nonlinear Control 21(7): 738-751.10.1002/rnc.1622]Search in Google Scholar
[Sandoval, J., Ortega, R. and Kelly, R. (2008). Interconnection and damping assignment passivity-based control of the pendubot, Proceedings of the 17th IFAC World Congress, Seoul, Korea, pp. 7700-7704.10.3182/20080706-5-KR-1001.01302]Search in Google Scholar
[Santibanez, V., Kelly, R. and Llama, M.A. (2004). Global asymptotic stability of a tracking sectorial fuzzy controller for robot manipulators, IEEE Transactions on Systems, Man, and Cybernetics B: Cybernetics 34(1): 710-718.10.1109/TSMCB.2003.811764]Search in Google Scholar
[Seifried, R. (2014). Dynamics of Underactuated Multibody Systems: Modeling, Control and Optimal Design (Solid Mechanics and Its Applications), Springer, Cham.10.1007/978-3-319-01228-5]Search in Google Scholar
[Seyranian, A., Stoustrup, J. and Kliem, W. (1995). On gyroscopic stabilization, Journal of Applied Mathematics and Physics 46(2): 255-267.10.1007/BF00944756]Search in Google Scholar
[She, J., Zhang, A., Lai, X. and Wu, M. (2012). Global stabilization of 2-DOF underactuated mechanical systems: An equivalent-input-disturbance approach, Nonlinear Dynamics 69(1-2): 495-509.10.1007/s11071-011-0280-3]Search in Google Scholar
[Wichlund, K.Y., Sordalen, O.J. and Egeland, O. (1995). Control of vehicles with second-order nonholonomic constraints: Underactuated vehicles, Proceedings of the 3rd European Control Conference, Rome, Italy, pp. 3086-3091.]Search in Google Scholar