Abstract
In this paper, the propulsive motility characteristics and the corresponding motion equations of a self-designed sub-mini underwater robot were analyzed. And the disturbance observer was used in propulsive motility control of the underwater robot. According to feedback control principle and dynamic performance index of controlled object, the disturbance observer parameter was designed. Digital simulation of propulsion system indicated that system had a better inhibition effect to the disturbance and the propulsive motility control performance of the underwater robot had also been improved. So all the experimental results showed that the disturbance observer has good robustness, also it is very useful to deal with disturbance rejection, which shows its practical value and good performance in motion control.
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References
Dai, X.-f., Bian, X.-q.: Simulation on Trajectory Control of A 6-DOF Underwater Vehicle. Journal of System Simulation 13(3), 368–369 (2001)
Xing, Z.-W., Zhang, Y., Feng, X.: Position Estimation of Underwater Vehicle Based on Usbl/Doppler. Robot 25(3), 231–234 (2003)
Pappalardo, M., Pellegrino, A., d’Amore, M., Villecco, F.: Design of a fuzzy control for a microwave monomode cavity to soot trap filter regeneration. Intelligence in a Small World – nanomaterials for the 21st Century, CRC- Press in Boca Raton, Florida, 1-932078-19-3 (2005)
Zhai, Y.-y., Ma, J.-m., Yao, Z.-l., Gong, Z.-b.: Ups and Downs System Design of Sub-Mini Shallow-Water Robot. Optics and Precision Engineering 12(3), 299–302 (2004)
Zhai, Y.-Y., Chen, Y., Gong, Z.-B., Tang, H.-B., Ma, J.-M.: Heave Motion Control for Sub-mini Underwater Vehicle. Journal of Applied Sciences 25(2), 189–192 (2007)
Sun, D.-b.: Automatic control principle, vol. 1. Chemical Industry Press, Beijing (2002)
Gao, J.-y.: The theory the design and realization of computer control system, vol. Version 2. Beijing University of Aeronautics and Astronautics Press, Beijing (2001)
Chen, Y.: Blas M.Vinagre & Igor Pldlubny. On Fractional Order Disturbance Observer
Kiogtan, K., Henglee, T., Hao, S.: Precision Motion Control with Disturbance Observer for Pulsewidth-Modulated-Driven Permanent-Magnet Linear Motors. IEEE Transactions On Magnetics 39(3) (May 2003)
Choi, Y., Yang, K., Chung, W.K., Kim, H.R., Suh II, H.: On the Robustness and Performance of Disturbance Observers for Second-Order Systems. IEEE Transactions On Automatic Control 48(2) (February 2003)
Lee, S.-H., Chung, C.C.: Robust Control Using A State Space Disturbance Obserber. In: Proceedings of the 42nd IEEE Conference on Decision and Control Maui, Hawaii, USA (December 2003)
Ohnishi, K.: A new servo method in mechatronics. Trans. Jpn. Soc. Elect. Eng. 107-D, 83–86 (1987)
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Zhai, Y., Liu, L., Lu, W., Li, Y., Yang, S., Villecco, F. (2010). The Application of Disturbance Observer to Propulsion Control of Sub-mini Underwater Robot. In: Taniar, D., Gervasi, O., Murgante, B., Pardede, E., Apduhan, B.O. (eds) Computational Science and Its Applications – ICCSA 2010. ICCSA 2010. Lecture Notes in Computer Science, vol 6016. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-12156-2_44
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DOI: https://doi.org/10.1007/978-3-642-12156-2_44
Publisher Name: Springer, Berlin, Heidelberg
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