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Discrete time-delay control of an autonomous underwater vehicle: Theory and experimental results |
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| Authors: | R.P. Kumar D. Sen |
| Affiliation: | a School of Mechanical and Aerospace Engineering, Gyeongsang National University, Jinju, South Korea b Department of Mechanical Engineering, Indian Institute of Technology, Kharagpur, India c Department of Ocean Engineering and Naval Architecture, Indian Institute of Technology, Kharagpur, India |
| Abstract: | A discrete time-delay control (DTDC) law for a general six degrees of freedom unsymmetric autonomous underwater vehicle (AUV) is presented. Hydrodynamic parameters like added mass coefficients and drag coefficients, which are generally uncertain, are not required by the controller. This control law cancels the uncertainties in the AUV dynamics by direct estimation of the uncertainties using time-delay estimation technique. The discrete-time version of the time-delay control does not require the derivative of the system state to be measured or estimated, which is required by the continuous-time version of the controller. This particularly provides an advantage over continuous-time controller in terms of computational effort or availability of sensors for measuring state derivatives, i.e., linear and angular accelerations. Implementation issues for practical realization of the controller are discussed. Experiments on a test-bed AUV were conducted in depth, pitch, and yaw degrees of freedom. Results show that the proposed control law performs well in the presence of uncertainties. |
| Keywords: | Autonomous underwater vehicle Robust control Time-delay estimation Discrete time-delay control |
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