Min Huang scite author profile

Vulnerability evaluation of lightning disaster is an important part of lightning disaster research and it is a typical multi-factor comprehensive evaluation problem based on index system. Multi-factor evaluation methods such as hierarchical zoning method, cluster analysis, analytic hierarchy process, principal component analysis and fuzzy evaluation are all applied to the vulnerability evaluation of lightning disaster. However, these methods need to determine the weights of each index artificially in the process of comprehensive evaluation, which leads to the subjective differences of evaluation results. Therefore, a comprehensive evaluation model of lightning disaster vulnerability is established by using projection pursuit dynamic clustering method. The case studies show that the method does not need to be given the weight of each index in advance, but evaluates comprehensively according to the characteristics of the sample data. The results are objective and easy to operate, which provides a new method for the objective evaluation of lightning disasters vulnerability.

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Optimization of Plasma Spray Process VIA Orthogonal Test Design Method, SVM, and Improved PSO

Xue¹,

Huang²

2017

IJMMM

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Abstract-Plasma spray is a widespread thermal spraying technology due to its unique advantages, but control of various defects in the coating is still the major trouble currently faced in the field. The key problem left to be solved is how to determine the optimum combination of input process parameters to achieve the required quality of coating. This research work integrates Orthogonal Test Design Method, Support Vector Machine (SVM), and Particle Swarm Optimization (PSO) algorithm to ascertain the optimal process parameter settings of the plasma spray. Orthogonal Test Design method is used to design a set of representative experiments for reducing the number of tests, simultaneously, accessing to the most valuable sample data. The data obtained from orthogonal test is used as samples for training and testing SVM so as to establish relation model between process parameters and the coating quality. Then, SVM is combined with Improved PSO to find the optimal combination of spraying parameters. In the end, the verification test is implemented to verify the effectiveness of the optimal process parameters.In this paper, the proposed method is applied to determine the optimal process parameter settings of aero-engine seal coating formed by plasma spray. The experimental results show that this method can overcome the shortcomings of the traditional orthogonal test which only obtain a discrete optimization and the difficulties to optimizing the complex systems when there are small samples or the high number of dimension, furtherly obtain the optimal ones in the continuous ranges of plasma spray process parameters, which contributes to spraying coatings with the best quality.Index Terms-Plasma spray, orthogonal test design method, support vector machine, particle swarm optimization.

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Agricultural Economic Evaluation Based on Improved Support Vector Regression

Huang¹

2015

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Min Huang

A simulation and comparative study of the CONWIP, Kanban and MRP production control systems in a cold rolling plant

Nonlinear control design of piezoelectric actuators with micro positioning capability

Study on Vulnerability Evaluation Method of Lightning Disaster based on Projection Pursuit Dynamic Clustering Model

Optimization of Plasma Spray Process VIA Orthogonal Test Design Method, SVM, and Improved PSO

Agricultural Economic Evaluation Based on Improved Support Vector Regression

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