[1] Abdel-Rahman, E.M., Nayfeh, A.H., and Masoud, Z.N., "Dynamics and Control of Cranes: A Review", Journal of Vibration and Control, Vol. 9, pp. 863-908, (2003).
[2] Singhose, W.E., Porter, L.J., and Seering, W.P., "Input Shaped Control of a Planar Gantry Crane with Hoisting", Proceedings of the American Control Conference, Vol. 1, pp. 97-100, (1997).
[3] Singh, T., and Singhose, W., "Tutorial on Input Shaping/Time Delay Control of Maneuvering Flexible Structures", American Control Conference, IEEE, Vol. 3, pp. 1717-1731, (2002).
[4] Sorensen, K.L., Singhose, W., and Dickerson, S., "A Controller Enabling Precise Positioning and Sway Reduction in Bridge and Gantry Cranes", Control Engineering Practice Journal, Vol. 15, pp. 825-837, (2006).
[5] Gustafsson,T., and Heidenback, C., "Automatic Control of Unmanned Cranes at the Pasir Panjang Terminal", Proceedings of the 2002 IEEE International Conference of Control Applications, Vol. 1, pp.180-185, (2002).
[6] Mahfouf, M., Kee, C. H., Abbod, M. F., and Linkens, D. A., "Fuzzy Logic-based Anti-Sway Control Design for Overhead Cranes", Neural Computing and Application Journal, Vol. 9, pp. 38-43, (2000).
[7] Chang, C.Y., "The Switching Algorithm for the Control of Overhead Crane", Neural Computing & Applications Journal, Vol. 15, pp. 350-358, (2006).
[8] Assa, A., Raie, A.A., Attar Kashani, A., Gorji, S., and Naraghi, M., "A Four Step Design Procedure for an Improved Fuzzy Crane Control", 4th International Conference on Autonomous Robots and Agents, Wellington, New Zealand, pp. 133 – 137, (2009).
[9] Me´ndez, J.A., Acosta, L., Moreno, L., Torres, S., and Marichal, G.N., "An Application of a Neural Self-tuning Controller to an Overhead Crane", Neural Computing and Application Journal, Vol. 8, pp. 143–150, (1999).
[10] Suh, J.H., Lee, J.W., Lee, Y.J., and Lee, K.S., "An Automatic Travel Control of a Container Crane using Neural Network Predictive PID Control Technique", International Journal of Precision Engineering and Manufacturing, Vol. 7, pp. 35-41, (2006).
[11] Masoud, Z.N., and Nayfeh, A.H., "Sway Reduction on Container Cranes using Delayed Feedback Controller", Nonlinear Dynamics Journal, Vol. 34, pp. 347–358, (2003).
[12] Hua, Y.J., and Shine, Y.K., "Adaptive Coupling Control for Overhead Crane Systems", Mechatronics Journal, Vol. 17, pp. 143–152, (2007).
[13] Ahmad, M.A., Ismail, R.M.T.R., Nasir, A.N.K., and Ramli, M.S., "Anti-sway Control of a Gantry Crane System Based on Feedback Loop Approaches", IEEE/ASME International Conference on Advanced Intelligent Mechatronics, Singapore, pp. 1094 – 1099, (2009).
[14] Hang, C.C., Ho, W.K., and Lee, T.H., "Adaptive Control", Instrument Society of America, Research Triangle Park, North Carolina, USA, (1993).
[15] Kees, M., Burnham, K.J., and Tabor, J.H., "Modeling and Simulation Considerations for an Industrial Crane", International Conference on Simulation98, University of York, York, England, pp. 249 - 252, (1998).
[16] Omar, H.M., "Control of Gantry and Tower Cranes", Ph.D. Thesis, Department of Mechanical Engineering, Virginia Polytechnic Institute and State University, Virginia, (2003).
[17] Hagan, M.T., and Demuth, H.B., "Neural Networks for Control", Invited Tutorial, American Control Conference, San Diego, CA, USA, pp. 1642-1656, (1999).
[18] Haulin, J., "Feed forward Anti-sway Control for Overhead Cranes", M.Sc. Thesis, Department of Electrical Engineering, Uppsala University, Uppsala, Sweden, (2005).
