Rain load optimization algorithm based on circular domain integration

The invention discloses a rain load optimization algorithm based on circular domain integration. The algorithm comprises the following steps: S1, obtaining parameters such as a raindrop falling speed and an average radius according to an actual rain condition; s2, obtaining the relative speed of rai...

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Bibliographic Details
Main Author WANG PUDI
Format Patent
LanguageChinese
English
Published 16.01.2024
Subjects
CALCULATING
COMPUTING
COUNTING
ELECTRIC DIGITAL DATA PROCESSING
PHYSICS
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Abstract The invention discloses a rain load optimization algorithm based on circular domain integration. The algorithm comprises the following steps: S1, obtaining parameters such as a raindrop falling speed and an average radius according to an actual rain condition; s2, obtaining the relative speed of raindrops according to the motion characteristics of the mechanical part, and calculating the acting force of a single raindrop; in combination with the motion characteristics of the mechanical part to be analyzed, the relative speed of raindrop falling is obtained, and a coordinate system with the raindrop falling point as the center is constructed; s3, performing circular domain integration on the single raindrop according to the acting force of the single raindrop on the mechanical part; and S4, obtaining rain load distribution for the whole mechanical part. According to the method, the problems that a traditional rain load calculation method is inaccurate in evaluation, limited in use scene and the like are solved
AbstractList The invention discloses a rain load optimization algorithm based on circular domain integration. The algorithm comprises the following steps: S1, obtaining parameters such as a raindrop falling speed and an average radius according to an actual rain condition; s2, obtaining the relative speed of raindrops according to the motion characteristics of the mechanical part, and calculating the acting force of a single raindrop; in combination with the motion characteristics of the mechanical part to be analyzed, the relative speed of raindrop falling is obtained, and a coordinate system with the raindrop falling point as the center is constructed; s3, performing circular domain integration on the single raindrop according to the acting force of the single raindrop on the mechanical part; and S4, obtaining rain load distribution for the whole mechanical part. According to the method, the problems that a traditional rain load calculation method is inaccurate in evaluation, limited in use scene and the like are solved
Author WANG PUDI
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DocumentTitleAlternate 一种基于圆域积分的雨载荷优化算法
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Snippet The invention discloses a rain load optimization algorithm based on circular domain integration. The algorithm comprises the following steps: S1, obtaining...
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SubjectTerms CALCULATING
COMPUTING
COUNTING
ELECTRIC DIGITAL DATA PROCESSING
PHYSICS
Title Rain load optimization algorithm based on circular domain integration
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