Paper Info
Title
Personalized computational models in human anatomy for electromagnetic dosimetry
Abstract
The implications of electromagnetic waves for human health are the subject of rising concern. Numerical simulation with fine-resolution and anatomically realistic computational human models has recently been performed for electromagnetic dosimetry. However, most of the computational models are reference models. Every person has different physical features even if when of the same age. In this study, we proposed a volume morphing technique for developing personalized computational models from existing computational models. We also tested the feasibility of our proposed method. The result indicated that the proposed method is able to construct the computational models fitted with the body surface and internal structures of target person. Our proposed technique can be used to quickly and accurately construct various personalized computational models.
Year
DOI
Venue
2011
10.1145/2093698.2093750
ISABEL
Keywords
Field
DocType
human health,personalized computational model,electromagnetic wave,realistic computational human model,proposed technique,various personalized computational model,human anatomy,target person,computational model,electromagnetic dosimetry,reference model,electromagnetic waves,numerical simulation,computer model,specific absorption rate
Morphing,Computer vision,Specific absorption rate,Computer simulation,Reference model,Computer science,Simulation,Dosimetry,Computational model,Artificial intelligence,Human anatomy,Human health
Conference
Citations 
PageRank 
References 
0
0.34
3
Authors
2
Name
Order
Citations
PageRank
Tomoaki Nagaoka102.37
Soichi Watanabe21315.03