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Kinematic model based jamming bomb simulation method

A technology of kinematic model and simulation method, applied in the field of jamming projectile simulation based on kinematic model, can solve the problems of non-representation and inability to ensure the authenticity of the experiment, etc.

Active Publication Date: 2015-04-29
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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  • Abstract
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Problems solved by technology

However, the target dragging amount in this article can only get one data in each simulation, and the results obtained are the same when the experimental parameters are fixed.
Such experimental results are not representative. The motion model parameters and trajectory of the jamming bomb are fixed each time, so the authenticity of the experiment cannot be guaranteed.

Method used

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  • Kinematic model based jamming bomb simulation method
  • Kinematic model based jamming bomb simulation method
  • Kinematic model based jamming bomb simulation method

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Embodiment Construction

[0063] Below we will further illustrate the present invention in conjunction with the accompanying drawings.

[0064] Combine figure 2 with image 3 As shown, a simulation method of jamming bomb based on kinematics model includes the following steps:

[0065] Step 1 Determine the launch direction

[0066] Step 1.1 Obtain the current airborne motion direction vector T 0 ;

[0067] Step 1.2 Suppose the number of jamming bombs launched is N, the angle increment of launching jamming bombs is Δθ, then the direction of each jamming bomb is: D i = T 0 +i×Δθ, (i=0,1,2...N).

[0068] Step 2 Determine the launch speed

[0069] Step 2.1 Get the current airborne speed V 0 ;

[0070] Step 2.2 Suppose the number of jamming bombs launched is N, and the random function rand(0,1) for launching jamming bombs, then the launch speed of each jamming bomb: V i =V 0 +10×rand(0,1),(i=0,1,2...N).

[0071] Step 3 Determine the launch trajectory

[0072] Step 3.1 Get the starting position P of the launch 0 , The sta...

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Abstract

The invention discloses a kinematic model based jamming bomb simulation method. The kinematic model based jamming bomb simulation method comprises the following steps of 1 determining launching direction; 2 determining launching speed; 3 determining a launching track; 4 determining ignition time; 5 rendering a bomb head of a jamming bomb; 6 rendering a trail of an infected bomb; 7 generating animation. According to the kinematic model based jamming bomb simulation method, a three-time Bezier curve is used for simulating continuous motion of the jamming bomb, and the problem that motion trails of a segmented model are not continuous is effectively solved. In the kinematic model based jamming bomb simulation method, a kinetic factor is considered, motion randomness is further increased, the motion speed of the jamming bomb is randomized at certain standard, the launching direction is random, and the problem of single models is effectively solved. The kinematic model based jamming bomb simulation method is high in simulation speed, real in effect and more flexible in parameter setting.

Description

Technical field [0001] The invention relates to the field of kinematics simulation models, in particular to a kinematics model-based jamming bomb simulation method. Background technique [0002] The simulation and simulation of jamming bombs is an important content in the simulation of fighter battle scenes. The working principle of the infrared missile is to guide the warhead to track the radiation source, and the jamming bomb burns to produce a radiant heat source when projecting. Generally, its radiation energy is higher than the airborne itself. In this way, when the radiation of the airborne and jamming bombs is equivalent, the energy is The center deviates from the airborne itself, so that the infrared missile cannot hit the real target and miss the target. The existing simulation methods of jamming bombs include: one considers the influence factors of air resistance, the gravity of the jamming bomb, and the cross-sectional area of ​​the jamming bomb to establish a dynamic...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
Inventor 陈雷霆周川邱航蔡洪斌曹跃卢光辉
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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