Track control method of cableless autonomous underwater vehicle (AUV)
A technology of underwater vehicle and control method, which is applied in the directions of self-adaptive control, three-dimensional position/channel control, general control system, etc., can solve problems such as the inability to complete the task of accurate tracking of track, and improve the accuracy of track tracking and work Reliable, simple and feasible effect
Inactive Publication Date: 2013-04-17
SHENYANG INST OF AUTOMATION - CHINESE ACAD OF SCI
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[0002] In the past, the untethered autonomous underwater vehicle usually used the target point closed-loop method to sail according to the predetermined route, that is, the target heading angle always pointed to the navigation target point, such as figure 1 As shown in the figure, AB represents the planned path, B is the target point of the navigation path, L represents the track of the AUV when navigating in still waters, and L1 represents the track achieved by the previous closed-loop control method of the target point in the presence of ocean currents ; If sailing according to the track, the underwater vehicle will deviate from the planned path under the action of ocean currents, and cannot complete the task of precise tracking of the track. The cable autonomous underwater vehicle sails in strict accordance with the planned route
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[0016] The present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.
[0017] (1) Calculate the vertical distance ΔS from the current position of the AUV to the planned path (straight line), that is, the deviation ΔS of the AUV currently sailing along the planned route;
[0018] (2) Calculate the control amount ΔS of the AUV navigation path offset 控制 .
[0019] Using the PID algorithm to calculate the control amount ΔS of the offset of the AUV navigation path 控制 The standard PID algorithm is as follows:
[0020]
[0021] In order to be easy to realize in the computer, we discretize the above companies, and the PID control algorithm after discretization is:
[0022]
[0023] In the above, Kp, Ki, and Kd are proportional, integral, and differential coefficients, which need to be selected according to the characteristics of the entire system. ΔS is the distance deviation from the current position of the AUV...
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The invention relates to a navigation control technology for a cableless autonomous underwater vehicle (AUV). A control method comprises the following steps of: calculating a distance deltaS between the current position of the underwater vehicle and a planned path; substituting the distance deltaS into a PID (Proportion Integration Differentiation) algorithm to obtain control quantity deltaS control of a navigation path offset; calculating navigation control quantity deltaH control of the underwater vehicle reaching a target point; and distributing the sum of the control quantity deltaS control and the navigation control quantity deltaH control serving as a total control quantity to each propeller motor according to the propeller arrangement situation of the underwater vehicle to realize track control over the underwater vehicle. According to the method, accurate track control over the cableless AUV can be realized under an ocean current situation, the distance between the practical track of the AUV and the planned path can be controlled within two meters during stable navigation, and navigation guarantee is provided for accurate completion of a track tracking task by the cableless AUV.
Description
technical field [0001] The present invention relates to a navigation control technology of a cableless autonomous underwater vehicle (AUV, Autonomous Underwater Vehicle), specifically a track control method of a cableless autonomous underwater vehicle. The main control computer adopts an appropriate control method, So that the untethered autonomous underwater vehicle can accurately navigate along the planned path. Background technique [0002] In the past, the untethered autonomous underwater vehicle usually used the target point closed-loop method to sail according to the predetermined route, that is, the target heading angle always pointed to the navigation target point, such as figure 1 As shown in the figure, AB represents the planned path, B is the target point of the navigation path, L represents the track of the AUV when navigating in still waters, and L1 represents the track achieved by the previous closed-loop control method of the target point in the presence of oc...
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IPC IPC(8): G05D1/10G05B13/04
Inventor 刘健于闯林扬贾松力刘爱民刘铁军
Owner SHENYANG INST OF AUTOMATION - CHINESE ACAD OF SCI
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