CHENG Yuanhao, WANG Sun'an, YU Dehong. Multi-objective Optimization Design of a Bionic Parallel Oculogyric Mechanism[J]. ROBOT, 2017, 39(2): 176-181. DOI: 10.13973/j.cnki.robot.2017.0176
Citation: CHENG Yuanhao, WANG Sun'an, YU Dehong. Multi-objective Optimization Design of a Bionic Parallel Oculogyric Mechanism[J]. ROBOT, 2017, 39(2): 176-181. DOI: 10.13973/j.cnki.robot.2017.0176

Multi-objective Optimization Design of a Bionic Parallel Oculogyric Mechanism

  • To ensure requirements of wide search range and smooth and continuous target-tracking in the low-altitude airspace visual monitoring system, a bionic parallel oculogyric mechanism is designed to simulate the function of human extraocular muscles according to the bionic principle. Most of the existing parallel oculogyric mechanisms adopt the single-objective optimization, which can't simultaneously optimize the dip angle of the moving platform and the motion performances including the motion precision, the mechanism dexterity and the motion transmission performance. In order to overcome the problem, non-dominated sorting-based genetic algorithm-Ⅱ (NSGA-Ⅱ) is used to optimize the structural parameters of the mechanism under the constraints of the installation, driver size and hinge angle. An experimental prototype is developed according to the optimized structural parameters. The actual measurement results show that the mechanism designed can achieve satisfactory results in terms of the maximum dip angle and the integrated motion performance of the moving platform, and the dip angle of 55.94° and the precision of 0.01° are realized by the moving platform, which are better than the human vision system as well as related research, and also meet the needs of low-altitude airspace monitoring.
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