Method for optimizing reliability of structural noise based on dimension-by-dimension analysis strategy

A structure noise and reliability technology, applied in special data processing applications, instruments, electrical digital data processing, etc., to achieve wide applicability and avoid conservatism

Active Publication Date: 2016-08-31
BEIHANG UNIV
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Problems solved by technology

[0004] The technical problem to be solved by the present invention is: to overcome the limitation of large sample capacity requirements for design parameter test data in random optimization of structural noise, and to overcome the limitatio

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  • Method for optimizing reliability of structural noise based on dimension-by-dimension analysis strategy
  • Method for optimizing reliability of structural noise based on dimension-by-dimension analysis strategy
  • Method for optimizing reliability of structural noise based on dimension-by-dimension analysis strategy

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Embodiment Construction

[0028] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

[0029] The invention discloses a structure noise reliability optimization method based on a dimension-by-dimensional analysis strategy, which is beneficial to improving the safety of key equipment inside a cabin enclosed by thin-walled structures under the action of acoustic vibration loads or the comfort of occupants inside the cabin. In this method, the interval model is used to quantify the relevant uncertainties in the analysis and optimization of structural acoustic radiation, and the influence law of interval parameters on the structural acoustic response characteristics is calculated by using the dimension-by-dimensional analysis strategy. The reliability analysis model completes the reliability conversion of uncertain structural acoustic responses, and uses optimization algorithms to achieve structural optimization under the premise of m...

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Abstract

The invention discloses a method for optimizing reliability of structural noise based on a dimension-by-dimension analysis strategy. The method comprises following steps: firstly, establishing a structural noise optimizing model based on an interval reliability analysis model by using a quantitative structure for a model of interval value and environment and other uncertainties, determining orders and gauss integral points based on least-squares approximation responding to interval parameters by utilizing structural acoustics to response to nonlinearity degree related to interval parameters; secondly, utilizing gauss integral points and a quantitative model for interval numbers to sample parameter vectors of intervals, calculating response vector value at interval parameter sample points, establishing the best square approximation in order to determine the max-minimum point matrix such that response interval vectors can be calculated; and finally, utilizing response interval vectors and safety requirement to calculate reliability in intervals and finishing structural optimization under drive of the optimizing algorithm. The method for optimizing reliability of structural noise based on the dimension-by-dimension analysis strategy has following beneficial effects: by replacing classic safety factor with interval reliability, the method echoes the fine development trend of optimizing structural noise; conservativeness of a conventional optimizing method is effectively avoided; and the method has a broad application prospect.

Description

technical field [0001] The invention relates to the technical field of equipment noise measurement, in particular to a noise optimization method in a closed structure space, which is suitable for noise optimization in the interior space of equipment with closed cabin structures such as passenger planes, automobiles and submarines. Background technique [0002] Closed structural forms (such as the passenger plane fuselage or submarine cabin enclosed by a cylindrical thin-walled structure, and the interior space of a car enclosed by a rectangular parallelepiped thin-walled structure) are very common in the engineering field. Under the action of excitation, the vibration radiates noise to the inner space of the closed structure. High-level noise not only seriously affects the physical and mental health and comfort experience of the occupants in the cabin, but also has great harm to the comprehensive performance of the equipment or the functions of key equipment components. Acou...

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Application Information

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IPC IPC(8): G06F19/00
CPCG16Z99/00
Inventor 邱志平许孟辉王晓军王冲王磊李云龙仇翯辰陈贤佳郑宇宁
Owner BEIHANG UNIV
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