Paper Info
Title
3D Human Body Measurement by Multiple Range Images
Abstract
A compact and high-speed 3D human body measurement system is proposed. Whole human body data which we can take from systems that have been developed with a few viewpoints is not successfully acquired due to occlusion. It is proposed a method that can obtain successful data by allocating multiple rangefinders correctly. Four compact rangefinders are installed in a pole. Those four pole units with 16 rangefinders are assigned around a human. Multiple viewpoint range images allow the 3D shape reconstruction for a human body. The measurement time is 2 seconds and the average error is found to be 1.88 mm. In this paper, system configuration, calibration and experimental results are described.
Year
DOI
Venue
2006
10.1109/ICPR.2006.26
ICPR (4)
Keywords
Field
DocType
measurement time,system configuration,successful data,human body measurement,compact rangefinder,whole human body data,human body measurement system,multiple rangefinder,multiple viewpoint range image,multiple range images,pole unit,human body,measurement system,shape,anthropometry,image reconstruction,feature extraction,time measurement,calibration,semiconductor lasers
Iterative reconstruction,Computer vision,Distance measurement,Pattern recognition,System of measurement,Computer science,System configuration,Feature extraction,Artificial intelligence,Shape reconstruction,Calibration
Conference
ISSN
ISBN
Citations 
1051-4651
0-7695-2521-0
5
PageRank 
References 
Authors
0.52
3
2
Name
Order
Citations
PageRank
Koichiro Yamauchi122021.09
Yukio Sato282.67