Infrared and Laser Engineering, Volume. 51, Issue 4, 20210225(2022)
Simulation study of smoke screen jamming laser terminal guidance projectile
Fig. 1. General structure and input/output relationship of the digital simulation system of laser terminal guidance projectile
Fig. 2. Distance curve and the interference result of the projectile with the initial velocity of 1000 m/s and the ballistic deflection angle of 2°
Fig. 3. Distance curve and the interference result of the projectile with the initial velocity of 900 m/s and the ballistic deflection angle of 5°
Fig. 4. When the formation time of the smoke screen is 25 s, the distance curve of the projectile to the target and the interference situation
Fig. 5. When the formation time of the smoke screen is 30 s, the distance curve of the projectile to the target and the interference situation
Fig. 6. When the formation time of the smoke screen is 35 s, the distance curve of the projectile to the target and the interference situation
Fig. 7. When the formation time of the smoke screen is 45 s, the distance curve of the projectile to the target and the interference situation
Fig. 8. When the formation time of the smoke screen is 55 s, the distance curve of the projectile to the target and the interference situation
Fig. 9. Horizontal plane trajectory of the projectile under different smoke screen formation time
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Aiqiang Guo, Tianpeng Li, Xiaonan Li, Xinbao Gao. Simulation study of smoke screen jamming laser terminal guidance projectile[J]. Infrared and Laser Engineering, 2022, 51(4): 20210225
Category: Lasers & Laser optics
Received: Apr. 6, 2021
Accepted: --
Published Online: May. 18, 2022
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