Analysis method for structure response interval comprising interval parameters based on hyper-volume iterative strategy

A technology of interval parameters and structural response, which is applied in special data processing applications, electrical digital data processing, instruments, etc., can solve the problems that there is no clear convergence criterion and the inability to obtain the global optimal solution, etc., and achieve clear convergence criteria, high precision, Computationally efficient effects

Active Publication Date: 2017-06-20
BEIHANG UNIV
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Problems solved by technology

Among many optimization methods, Newton's method is widely used in various optimization problems due to its fast convergence speed, but Newton's method is aimed at local optimization problems. When targeting global optimization problems, Newton's method and other algorithms based on gradient information will Stuck in the local optimal solution area and cannot jump out, so that the global optimal solution cannot be obtained
Heuristic algorithm is a kind of global optimization algori

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  • Analysis method for structure response interval comprising interval parameters based on hyper-volume iterative strategy
  • Analysis method for structure response interval comprising interval parameters based on hyper-volume iterative strategy
  • Analysis method for structure response interval comprising interval parameters based on hyper-volume iterative strategy

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[0053] In order to fully understand the characteristics of the present invention and its applicability to engineering practice, the present invention establishes a truss structure including elastic modulus and load uncertainty as shown in the figure, and analyzes the displacement propagation in the structural interval. The truss structure and related physical parameters such as Figure 4 , where the uncertainties of the elastic moduli of rods ①, ⑤ and ⑥ are The uncertainty of the dead load is The uncertainty of the live load is The method of the present invention is compared with the results of the Monte Carlo method and the interval parameter perturbation method, and the calculation results are shown in Table 1. Through comparison, it is found that the calculation results of the three are almost the same, and it can be seen from Table 3 that the interval parameter perturbation method has certain advantages. But this is for a working condition with a small uncertainty, a...

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Abstract

The invention discloses an analysis method for a structure response interval comprising interval parameters based on a hyper-volume iterative strategy. According to the method, a structure response variable is taken as a target function, the maximum/minimum value of the response is solved through an optimization algorithm, and therefore an upper/lower boundary of the response is determined. The adopted optimization algorithm is a global optimization algorithm based on the hyper-volume iterative strategy, a strategy of Simpson integral is adopted to self-adaptively arrange integral points within a range of uncertain parameters, the corresponding maximum/minimum value of the target function in the integral points is founded, then an integral point corresponding to the maximum/minimum value of the target function is taken as a starting point, the global maximum/minimum value is obtained on the basis of a Newton method, and namely the upper/lower boundary of the uncertain parameters which is propagated in a nonlinear system. According to the analysis method for the structure response interval comprising interval parameters based on the hyper-volume iterative strategy, under an uncertain input condition, the interval response propagation boundary of a structure can be determined accurately.

Description

technical field [0001] The invention relates to the field of uncertainty propagation of structural response with interval parameters, in particular to an analysis method for structural response intervals with interval parameters based on a hypervolume iterative strategy. The method is proposed based on a global optimization algorithm of the hypervolume iterative strategy. Background technique [0002] The structure of modern engineering is complex and delicate, but due to the limitation of manufacturing process, lack of cognition, measurement error and changes in environmental factors, uncertainty problems widely exist in engineering problems, so more attention should be paid to advanced numerical values ​​in analysis and design The study of algorithms and design techniques. For complex systems, uncertain factors will make it difficult to determine the upper / lower bounds of the response interval due to the nonlinearity of the system. Now the methods to solve this problem mai...

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Application Information

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IPC IPC(8): G06F17/50
CPCG06F30/23
Inventor 王晓军罗振先石庆贺任强刘东亮
Owner BEIHANG UNIV
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