Research Article
Design and Implementation of Human Body Shape Analysis System Based on Electronic Tailored Clothing eMT
@INPROCEEDINGS{10.4108/eai.28-2-2017.152302, author={Zhenhua Wen}, title={Design and Implementation of Human Body Shape Analysis System Based on Electronic Tailored Clothing eMT}, proceedings={The 1st EAI International Conference on Multimedia Technology and Enhanced Learning}, publisher={EAI}, proceedings_a={ICMTEL}, year={2017}, month={3}, keywords={Electronic tailored clothing; 3D body scanning; body shape analysis; J2EE; cluster analysis}, doi={10.4108/eai.28-2-2017.152302} }
- Zhenhua Wen
Year: 2017
Design and Implementation of Human Body Shape Analysis System Based on Electronic Tailored Clothing eMT
ICMTEL
EAI
DOI: 10.4108/eai.28-2-2017.152302
Abstract
Body shape analysis, as a key technology in the production of eMTM, plays a very important role in the production of eMTM. The results of shape analysis will directly influence the design of clothing prototype and the generation of garment pattern. Accurate body shape analysis is an important guarantee for the customer to meet the requirement of garment fit. Therefore in our country started for eMTM body shape analysis research, the establishment of efficient and accurate body shape analysis system, will actively guide and help the research and extension of eMTM production in China and China's garment enterprises digital development. In this paper, the human body size analysis of eMTM is studied, and the production is described in detail, and the aim of the research is to establish the human body size analysis system based on eMTM. The paper analyzes the defect of the traditional shape analysis method, presents the multivariate statistical analysis methods introduced ergonomic research field. By the means of clustering analysis of multivariate statistical analysis on the target group human body feature analysis, and the selection of feature variables in traditional shape analysis methods are improved, the shape analysis results can more accurately reflect the human body characteristics. At the same time, this paper proposes the use of advanced J2EE application architecture, the establishment of a Web based human body analysis system, in an efficient system platform to achieve a variety of human body shape analysis.