Structure Simulation of Explosive Smoke Bomb in Near-ground Scene
Explosive smoke bombs are of great significance in countering the infrared-guided weapons and protecting the high-value military targets. At present,most of the smoke simulation models do not take into account the vector information of explosion and the near-ground particle diffusion effect,and the authenticity of the explosion smoke simulation is low in the near-ground scene where the wall effect and the air turbulence phenomenon are significant. For the poor simulation accuracy of explosive smoke bomb in near-earth scene,a simulation method of explosive smoke bomb structure model in near-ground scene is proposed. This method uses the particle position information to replace the life cycle of the particle model. Based on the Gaussian puff model,a near-ground smoke explosion model considering the explosion flying direction of bomb and the wall effect is constructed to improve the simulation accuracy of near-ground smoke bomb explosion scene. The structural similarity ( SSIM ) analysis is used on the simulated image. After the best parameter selection experiment,the SSIM value reaches 0.9443 and the standard deviation is±0.0005 . The SSIM value of the proposed model is 0.0112,0.1329 and 0.0063 higher than those of the particle system-Gaussian smoke model,ellipsoid explosion model and explosive smoke bomb model,respectively. The experimental results shows that the proposed model has clear direction information in smoke simulation,stronger ability to express the details of smoke turbulence and wall effect,and higher accuracy in the simulation of near-ground smoke bomb explosion scene.
万方数据
维普
