Fast NURBS-based parametric modeling of human calves with high-accuracy for personalized design of graduated compression stockings

•A fast 3D parametric model of human calves based on NURBS was proposed.•Feature points were identified based on standards and arranged by unsupervised learning.•The model can represent the origin shape with smallest error of only 0.37% ± 0.03%.•The model can facilitate design of GCS with target pre...

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Published in	Computer methods and programs in biomedicine Vol. 229; p. 107292
Main Authors	Wang, Xi, Wu, Zongqian, Xiong, Ying, Li, Qiao, Tao, Xiaoming
Format	Journal Article
Language	English
Published	Ireland Elsevier B.V 01.02.2023
Subjects	Computer-Aided Design High-accuracy Human calves Humans Leg - anatomy & histology Leg - diagnostic imaging Models, Anatomic NURBS Parametric modeling Pressure Stockings, Compression Human calves Parametric modeling High-accuracy NURBS
Online Access	Get full text
ISSN	0169-2607 1872-7565 1872-7565
DOI	10.1016/j.cmpb.2022.107292

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Abstract	•A fast 3D parametric model of human calves based on NURBS was proposed.•Feature points were identified based on standards and arranged by unsupervised learning.•The model can represent the origin shape with smallest error of only 0.37% ± 0.03%.•The model can facilitate design of GCS with target pressure map on calf. Accurate human body models are increasingly demanded by high-quality human-centered ergonomic applications, especially the design and manufacturing of compressive functional apparels. However, existing parametric models in related works are not capable to accurately describe detailed local shape features of human. In this work, a high-accuracy parametric modeling approach for human limb was proposed. 3D Scans of human calves were studied. Key data points of the scanned human calves were identified according to human anatomy, forming a quasi-triangular mesh of feature points. Then, non-uniform rational B-splines (NURBS) method was implemented. Control points were calculated from the key data points, with which the human calf shapes can be reconstructed by the smooth NURBS surface, giving rise to a new parametric model of human calves. Error between the scanned and reconstructed calf shapes were analyzed to verify the effectiveness of this model. Error analysis showed that, this proposed method delivers a high-efficiency and high-accuracy parametric shape modeling approach with averaged error observed as only 0.37% for all the 260 subjects, much less compared to previous relative works (around 5%). For tentative application, customized medical compression stockings were designed based on this model and proved as valid to exert desired gradient compression on the according calf mannequin. By introducing the non-uniform rational B-splines method, a parametric model capable of characterizing human limbs with high-accuracy was proposed. Using very small amount of data, this model is expected to highly facilitate remote customized design and provide 3D shape references for design of compressive garments. Moreover, the proposed methods can inspire developments of other mixed modeling methods for high-accuracy applications.
AbstractList	Accurate human body models are increasingly demanded by high-quality human-centered ergonomic applications, especially the design and manufacturing of compressive functional apparels. However, existing parametric models in related works are not capable to accurately describe detailed local shape features of human. In this work, a high-accuracy parametric modeling approach for human limb was proposed. 3D Scans of human calves were studied. Key data points of the scanned human calves were identified according to human anatomy, forming a quasi-triangular mesh of feature points. Then, non-uniform rational B-splines (NURBS) method was implemented. Control points were calculated from the key data points, with which the human calf shapes can be reconstructed by the smooth NURBS surface, giving rise to a new parametric model of human calves. Error between the scanned and reconstructed calf shapes were analyzed to verify the effectiveness of this model. Error analysis showed that, this proposed method delivers a high-efficiency and high-accuracy parametric shape modeling approach with averaged error observed as only 0.37% for all the 260 subjects, much less compared to previous relative works (around 5%). For tentative application, customized medical compression stockings were designed based on this model and proved as valid to exert desired gradient compression on the according calf mannequin. By introducing the non-uniform rational B-splines method, a parametric model capable of characterizing human limbs with high-accuracy was proposed. Using very small amount of data, this model is expected to highly facilitate remote customized design and provide 3D shape references for design of compressive garments. Moreover, the proposed methods can inspire developments of other mixed modeling methods for high-accuracy applications. Accurate human body models are increasingly demanded by high-quality human-centered ergonomic applications, especially the design and manufacturing of compressive functional apparels. However, existing parametric models in related works are not capable to accurately describe detailed local shape features of human.BACKGROUND AND OBJECTIVESAccurate human body models are increasingly demanded by high-quality human-centered ergonomic applications, especially the design and manufacturing of compressive functional apparels. However, existing parametric models in related works are not capable to accurately describe detailed local shape features of human.In this work, a high-accuracy parametric modeling approach for human limb was proposed. 3D Scans of human calves were studied. Key data points of the scanned human calves were identified according to human anatomy, forming a quasi-triangular mesh of feature points. Then, non-uniform rational B-splines (NURBS) method was implemented. Control points were calculated from the key data points, with which the human calf shapes can be reconstructed by the smooth NURBS surface, giving rise to a new parametric model of human calves. Error between the scanned and reconstructed calf shapes were analyzed to verify the effectiveness of this model.METHODSIn this work, a high-accuracy parametric modeling approach for human limb was proposed. 3D Scans of human calves were studied. Key data points of the scanned human calves were identified according to human anatomy, forming a quasi-triangular mesh of feature points. Then, non-uniform rational B-splines (NURBS) method was implemented. Control points were calculated from the key data points, with which the human calf shapes can be reconstructed by the smooth NURBS surface, giving rise to a new parametric model of human calves. Error between the scanned and reconstructed calf shapes were analyzed to verify the effectiveness of this model.Error analysis showed that, this proposed method delivers a high-efficiency and high-accuracy parametric shape modeling approach with averaged error observed as only 0.37% for all the 260 subjects, much less compared to previous relative works (around 5%). For tentative application, customized medical compression stockings were designed based on this model and proved as valid to exert desired gradient compression on the according calf mannequin.RESULTSError analysis showed that, this proposed method delivers a high-efficiency and high-accuracy parametric shape modeling approach with averaged error observed as only 0.37% for all the 260 subjects, much less compared to previous relative works (around 5%). For tentative application, customized medical compression stockings were designed based on this model and proved as valid to exert desired gradient compression on the according calf mannequin.By introducing the non-uniform rational B-splines method, a parametric model capable of characterizing human limbs with high-accuracy was proposed. Using very small amount of data, this model is expected to highly facilitate remote customized design and provide 3D shape references for design of compressive garments. Moreover, the proposed methods can inspire developments of other mixed modeling methods for high-accuracy applications.CONCLUSIONSBy introducing the non-uniform rational B-splines method, a parametric model capable of characterizing human limbs with high-accuracy was proposed. Using very small amount of data, this model is expected to highly facilitate remote customized design and provide 3D shape references for design of compressive garments. Moreover, the proposed methods can inspire developments of other mixed modeling methods for high-accuracy applications. •A fast 3D parametric model of human calves based on NURBS was proposed.•Feature points were identified based on standards and arranged by unsupervised learning.•The model can represent the origin shape with smallest error of only 0.37% ± 0.03%.•The model can facilitate design of GCS with target pressure map on calf. Accurate human body models are increasingly demanded by high-quality human-centered ergonomic applications, especially the design and manufacturing of compressive functional apparels. However, existing parametric models in related works are not capable to accurately describe detailed local shape features of human. In this work, a high-accuracy parametric modeling approach for human limb was proposed. 3D Scans of human calves were studied. Key data points of the scanned human calves were identified according to human anatomy, forming a quasi-triangular mesh of feature points. Then, non-uniform rational B-splines (NURBS) method was implemented. Control points were calculated from the key data points, with which the human calf shapes can be reconstructed by the smooth NURBS surface, giving rise to a new parametric model of human calves. Error between the scanned and reconstructed calf shapes were analyzed to verify the effectiveness of this model. Error analysis showed that, this proposed method delivers a high-efficiency and high-accuracy parametric shape modeling approach with averaged error observed as only 0.37% for all the 260 subjects, much less compared to previous relative works (around 5%). For tentative application, customized medical compression stockings were designed based on this model and proved as valid to exert desired gradient compression on the according calf mannequin. By introducing the non-uniform rational B-splines method, a parametric model capable of characterizing human limbs with high-accuracy was proposed. Using very small amount of data, this model is expected to highly facilitate remote customized design and provide 3D shape references for design of compressive garments. Moreover, the proposed methods can inspire developments of other mixed modeling methods for high-accuracy applications.
ArticleNumber	107292
Author	Wu, Zongqian Li, Qiao Xiong, Ying Tao, Xiaoming Wang, Xi
Author_xml	– sequence: 1 givenname: Xi orcidid: 0000-0003-4770-3128 surname: Wang fullname: Wang, Xi organization: Engineering Research Center of Digitized Textile and Apparel Technology, Ministry of Education, Donghua University, Shanghai 201620, China – sequence: 2 givenname: Zongqian surname: Wu fullname: Wu, Zongqian organization: College of Information Science and Technology, Donghua University, Shanghai 201620, China – sequence: 3 givenname: Ying surname: Xiong fullname: Xiong, Ying organization: School of Fashion and Textiles, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China – sequence: 4 givenname: Qiao surname: Li fullname: Li, Qiao email: qiaoli@dhu.edu.cn organization: Key Laboratory of Textile Science & Technology, Ministry of Education, Donghua University, Shanghai 201620, China – sequence: 5 givenname: Xiaoming surname: Tao fullname: Tao, Xiaoming email: xiao-ming.tao@polyu.edu.hk organization: School of Fashion and Textiles, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China
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Snippet	•A fast 3D parametric model of human calves based on NURBS was proposed.•Feature points were identified based on standards and arranged by unsupervised... Accurate human body models are increasingly demanded by high-quality human-centered ergonomic applications, especially the design and manufacturing of...
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SubjectTerms	Computer-Aided Design High-accuracy Human calves Humans Leg - anatomy & histology Leg - diagnostic imaging Models, Anatomic NURBS Parametric modeling Pressure Stockings, Compression
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Title	Fast NURBS-based parametric modeling of human calves with high-accuracy for personalized design of graduated compression stockings
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