Optimization of bottom plate size of Longquanjiao Sluice based on dung beetle optimization algorithm
To reduce the material consumption for constructing the bottom plate of the sluice and improve the overall stability of the sluice structure,the size of the bottom plate of the sluice is optimized.A mathematical model for optimizing the size of the sluice bottom plate was constructed,with the total cross-sectional area of the sluice bottom plate as the objective function,the anti-stability of the bottom plate,the stress of the bottom plate as the constraint conditions,and the size of the bottom plate as the optimization variable.The Dung Beetle optimization algorithm was used to optimize the solution,and the optimization results were compared with those obtained using differential evolution algorithm.The Longquanjiao sluice was selected as the analysis object,and the results shows that the optimization rate of the dung beetle optimization algorithm for the bottom plate size of the Longquanjiao sluice is 31.5%,and its optimization effect on the bottom plate size of the sluice is significantly better than that of the differential evolution algorithm.
万方数据
维普
