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Imprecise probability reliability design method for equipment airborne airbag buffer device

A buffer device and design method technology, applied in computer-aided design, design optimization/simulation, calculation, etc., can solve problems such as system response deviation, unknown probability distribution density, and difficulty in accurately obtaining uncertain design variables

Inactive Publication Date: 2019-08-23
CHANGSHA UNIVERSITY OF SCIENCE AND TECHNOLOGY
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Problems solved by technology

[0004] 1. Most of the existing design methods for airbag cushioning devices for airborne equipment are studied under the deterministic condition of the system parameter model, but in the actual airborne equipment process, there are errors in boundary conditions, initial conditions, and measurement conditions or uncertainty, if these factors are still treated as deterministic factors, it will lead to a large deviation between the system response and the actual response
[0005] 2. For the reliability design method of the airborne airbag buffer device, some existing methods use probability models to describe the uncertain design variables, but in the actual design process, many uncertain variables cause probability The distribution density is unknown, making it difficult to accurately obtain the probability distribution of uncertain design variables
[0006] 3. For the reliability design method of the airborne airbag cushioning device, some existing methods use non-probabilistic convex set models to describe uncertain design variables, although the non-probable convex set models describing uncertain design variables do not need to be accurate probability distribution, but because the non-probability convex set model emphasizes too much extreme conditions, it will result in a conservative design

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  • Imprecise probability reliability design method for equipment airborne airbag buffer device
  • Imprecise probability reliability design method for equipment airborne airbag buffer device
  • Imprecise probability reliability design method for equipment airborne airbag buffer device

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Embodiment Construction

[0085] General method of the present invention is described below in conjunction with accompanying drawing:

[0086] like figure 1 As shown, an imprecise probabilistic reliability design method for an airborne airbag buffer device includes the following steps:

[0087] Step 1: Analyze the uncertainty factors in the buffering process of equipped with airborne airbags, and divide the uncertainty vectors into random vectors and probability box vectors according to the information of sample points; random vector X=(X 1 ,X μ ,...,X W ), μ=1,2,...,W is described by a probability model, and the probability box vector Described by probability box model; probability box variable Consists of n focal elements in formula (1):

[0088]

[0089]

[0090] In formula (1), y i Indicates the i-th focal element, Indicates the interval of the i-th focal element, a i and b i Indicates the interval endpoint of the i-th focal element, Indicates the quality of the i-th focal eleme...

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Abstract

The invention discloses an imprecise probability reliability design method for an equipment airborne airbag buffer device. The method comprises the following steps: describing a random vector and a probability box vector through a probability model and a probability box model respectively; in order to effectively construct a cumulative distribution function of a probability box variable, ensuringthe consistency of the cumulative distribution function by adopting a moment condition, and ensuring the effectiveness of the cumulative distribution function by adopting a shape condition; meanwhile,in order to ensure the uniqueness of the cumulative distribution function, reconstructing the cumulative distribution function of the probability box variables based on the maximum entropy principle,and solving the reliability index of the equipment airborne airbag buffer device through an iterative mapping genetic algorithm; according to the method, the uncertain variable in the buffer processof the air bag under equipment can be effectively constructed, the calculation efficiency and the solution quality of the solution reliability index can be improved essentially, and the method has a wide engineering application value in the field of air bag under equipment safety.

Description

technical field [0001] The invention relates to the field of equipment airborne safety protection, in particular to an inaccurate probabilistic reliability design method for an equipped airborne airbag buffer device. Background technique [0002] Due to its light weight and good energy absorption effect, the airbag cushioning device has been widely used in technical fields such as equipment airborne, drone recovery, space return, etc., and has become an important part of equipment safety. [0003] For the design of the buffer device equipped with airborne airbags, the existing design methods have the following problems: [0004] 1. Most of the existing design methods for airbag cushioning devices for airborne equipment are studied under the deterministic condition of the system parameter model, but in the actual airborne equipment process, there are errors in boundary conditions, initial conditions, and measurement conditions Or uncertainty, if these factors are still treat...

Claims

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Application Information

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IPC IPC(8): G06F17/50G06F17/18G06F17/16
CPCG06F17/18G06F17/16G06F30/20
Inventor 刘鑫张远洋周振华王昕宇
Owner CHANGSHA UNIVERSITY OF SCIENCE AND TECHNOLOGY
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