An Improved Underwater Confrontation Simulation Method of Naval Amphibious Operational Training System
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This paper described an improved underwater confrontation simulation method of naval amphibious operational training system. The initial position of submarine forces on the enemy is generated automatically, and the attacking distance model of torpedoes is established based on the kinematics theory, which is more flexible and reasonable to judge the launch condition compared to traditional method. The two kinds of confrontation behavior models on the enemy submarine are created to depict its tactical action from the defensive to the offensive as well as the contrary, ensuring that operational style is simulated more comprehensively and properly. The existing motion trajectory estimation and collision detection algorithms on operational platforms are also improved to reduce the iteration error and further enhance the detection accuracy of target hit.
Key wordscombat training system military modeling and simulation striking distance model motion trajectory estimation collision detection
CLC numberTP 391.4
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- Neil V H, Bodgan G, Venketesh N, et al. An overview of self-adaptive technologies within virtual reality training[J]. Computer Science Review, 2016, 22(11):65–68.Google Scholar
- Hayri O, Philip W, Scott A, et al. A dynamic simulation/ optimization model for scheduling restoration of degraded military training lands[J]. Journal of Environmental Management, 2016, 171(4):144–157.Google Scholar
- Richard A, James D, James K, et al. A real-time near shore wave and current prediction system[J]. Journal of Marine Systems, 2008, 69(1):37–58.Google Scholar
- Tencer L, Reznakova M, Cheriet M. Summit-training: A hybrid semi-supervised technique and its application to classification tasks [J]. Applied Soft Computing, 2017, 50(1): 1–20.Google Scholar