�ݺ�ߣshows by User: WonsupLee1

�ݺ�ߣshows by User: WonsupLee1 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: WonsupLee1 / Sat, 10 Apr 2021 14:05:57 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: WonsupLee1 3D Anthropometry (Kor) /slideshow/3d-anthropometry-kor/246040551 3danthropometrykor-210410140558
Introduction to 3D Anthropometry as a research area in ergonomics and engineering design domain]]>
Introduction to 3D Anthropometry as a research area in ergonomics and engineering design domain]]> Sat, 10 Apr 2021 14:05:57 GMT /slideshow/3d-anthropometry-kor/246040551 WonsupLee1@slideshare.net(WonsupLee1) 3D Anthropometry (Kor) WonsupLee1 Introduction to 3D Anthropometry as a research area in ergonomics and engineering design domain <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3danthropometrykor-210410140558-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction to 3D Anthropometry as a research area in ergonomics and engineering design domain

3D Anthropometry (Kor) from Handong Global University

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0 Analysis of contact pressure of the face using finite eleent analysis on 3D scan datablase /slideshow/analysis-of-contact-pressure-of-the-face-using-finite-eleent-analysis-on-3d-scan-datablase/113845675 180828ieacontactpressureanalysis-180910223757
Abstract: 3D body scanning has been used broadly including digital human modeling, simulation, ergonomic product design, and so forth. This research used template-registered faces of 336 Koreans in order to use them to design an oxy-gen mask that provides good fit to Korean faces. The finite element analysis method is applied onto the template-registered faces to predict the contact pres-sure of a mask design onto different faces. The average and variation of the esti-mated contact pressure values among all the Korean faces were analyzed for eval-uation of the appropriateness of a mask design for Koreans. The proposed meth-od can be usefully applied to find an optimal shape of wearable products for a specific target population.]]>
Abstract: 3D body scanning has been used broadly including digital human modeling, simulation, ergonomic product design, and so forth. This research used template-registered faces of 336 Koreans in order to use them to design an oxy-gen mask that provides good fit to Korean faces. The finite element analysis method is applied onto the template-registered faces to predict the contact pres-sure of a mask design onto different faces. The average and variation of the esti-mated contact pressure values among all the Korean faces were analyzed for eval-uation of the appropriateness of a mask design for Koreans. The proposed meth-od can be usefully applied to find an optimal shape of wearable products for a specific target population.]]> Mon, 10 Sep 2018 22:37:57 GMT /slideshow/analysis-of-contact-pressure-of-the-face-using-finite-eleent-analysis-on-3d-scan-datablase/113845675 WonsupLee1@slideshare.net(WonsupLee1) Analysis of contact pressure of the face using finite eleent analysis on 3D scan datablase WonsupLee1 Abstract: 3D body scanning has been used broadly including digital human modeling, simulation, ergonomic product design, and so forth. This research used template-registered faces of 336 Koreans in order to use them to design an oxy-gen mask that provides good fit to Korean faces. The finite element analysis method is applied onto the template-registered faces to predict the contact pres-sure of a mask design onto different faces. The average and variation of the esti-mated contact pressure values among all the Korean faces were analyzed for eval-uation of the appropriateness of a mask design for Koreans. The proposed meth-od can be usefully applied to find an optimal shape of wearable products for a specific target population. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/180828ieacontactpressureanalysis-180910223757-thumbnail.jpg?width=120&height=120&fit=bounds" /> Abstract: 3D body scanning has been used broadly including digital human modeling, simulation, ergonomic product design, and so forth. This research used template-registered faces of 336 Koreans in order to use them to design an oxy-gen mask that provides good fit to Korean faces. The finite element analysis method is applied onto the template-registered faces to predict the contact pres-sure of a mask design onto different faces. The average and variation of the esti-mated contact pressure values among all the Korean faces were analyzed for eval-uation of the appropriateness of a mask design for Koreans. The proposed meth-od can be usefully applied to find an optimal shape of wearable products for a specific target population.

Analysis of contact pressure of the face using finite eleent analysis on 3D scan datablase from Handong Global University

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0 3D Scan Based Design in Product Development Process /slideshow/3d-scan-based-design-in-product-development-process/82885854 3dscan-baseddesigninproductdevelopmentprocess-171128091435
Introduction to 3D-scan-based product design and case studies]]>
Introduction to 3D-scan-based product design and case studies]]> Tue, 28 Nov 2017 09:14:35 GMT /slideshow/3d-scan-based-design-in-product-development-process/82885854 WonsupLee1@slideshare.net(WonsupLee1) 3D Scan Based Design in Product Development Process WonsupLee1 Introduction to 3D-scan-based product design and case studies <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3dscan-baseddesigninproductdevelopmentprocess-171128091435-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction to 3D-scan-based product design and case studies

3D Scan Based Design in Product Development Process from Handong Global University

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0 3D Ear Anthropometry for Earphone Design /slideshow/3d-ear-anthropometry-for-earphone-design/77491447 earanthrohfespresentation-170704080059
Lee et al. (2016) Measurement and application of 3D ear images for earphone design. In Proceedings of the Human Factors and Ergonomics Society (HFES) 60th Annual Meeting.]]>
Lee et al. (2016) Measurement and application of 3D ear images for earphone design. In Proceedings of the Human Factors and Ergonomics Society (HFES) 60th Annual Meeting.]]> Tue, 04 Jul 2017 08:00:59 GMT /slideshow/3d-ear-anthropometry-for-earphone-design/77491447 WonsupLee1@slideshare.net(WonsupLee1) 3D Ear Anthropometry for Earphone Design WonsupLee1 Lee et al. (2016) Measurement and application of 3D ear images for earphone design. In Proceedings of the Human Factors and Ergonomics Society (HFES) 60th Annual Meeting. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/earanthrohfespresentation-170704080059-thumbnail.jpg?width=120&height=120&fit=bounds" /> Lee et al. (2016) Measurement and application of 3D ear images for earphone design. In Proceedings of the Human Factors and Ergonomics Society (HFES) 60th Annual Meeting.

3D Ear Anthropometry for Earphone Design from Handong Global University

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0 Development of Headforms and an Anthropometric Sizing Analysis System for Head-Related Product Designs /slideshow/development-of-headforms-and-an-anthropometric-sizing-analysis-system-for-headrelated-product-designs/60494571 3d-asashfespresentation1005-160405084445
[Abstract] The present study developed a sizing analysis system based on the Civilian American and European Surface Anthropometry Resource (CAESAR) database of North Americans (n = 2,299) for head-related product designs. To find representative heads from a huge amount of 3D human scan database, a sizing analysis system is required for efficient analysis of sizing systems based on anthropometric measurements. The head of the CAESAR 3D scan were manually edited to improve a quality for better use to the product design. Twenty one anthropometric landmarks were marked on the edited 3D heads to measure 40 anthropometric dimensions related to the head product designs. All head and face dimensions were automatically measured by applying a measurement system coded using Matlab. Fifteen representative headforms were generated in terms of 5 ethnic groups (composite group, Caucasians, American Africans, Asians, and Hispanics) and 3 gender groups (composite gender, males, and females). Finally, the sizing analysis system was developed based on the measurement of the CAESAR for analysis of head and facial measurements and generation of sizing systems.]]>
[Abstract] The present study developed a sizing analysis system based on the Civilian American and European Surface Anthropometry Resource (CAESAR) database of North Americans (n = 2,299) for head-related product designs. To find representative heads from a huge amount of 3D human scan database, a sizing analysis system is required for efficient analysis of sizing systems based on anthropometric measurements. The head of the CAESAR 3D scan were manually edited to improve a quality for better use to the product design. Twenty one anthropometric landmarks were marked on the edited 3D heads to measure 40 anthropometric dimensions related to the head product designs. All head and face dimensions were automatically measured by applying a measurement system coded using Matlab. Fifteen representative headforms were generated in terms of 5 ethnic groups (composite group, Caucasians, American Africans, Asians, and Hispanics) and 3 gender groups (composite gender, males, and females). Finally, the sizing analysis system was developed based on the measurement of the CAESAR for analysis of head and facial measurements and generation of sizing systems.]]> Tue, 05 Apr 2016 08:44:45 GMT /slideshow/development-of-headforms-and-an-anthropometric-sizing-analysis-system-for-headrelated-product-designs/60494571 WonsupLee1@slideshare.net(WonsupLee1) Development of Headforms and an Anthropometric Sizing Analysis System for Head-Related Product Designs WonsupLee1 [Abstract] The present study developed a sizing analysis system based on the Civilian American and European Surface Anthropometry Resource (CAESAR) database of North Americans (n = 2,299) for head-related product designs. To find representative heads from a huge amount of 3D human scan database, a sizing analysis system is required for efficient analysis of sizing systems based on anthropometric measurements. The head of the CAESAR 3D scan were manually edited to improve a quality for better use to the product design. Twenty one anthropometric landmarks were marked on the edited 3D heads to measure 40 anthropometric dimensions related to the head product designs. All head and face dimensions were automatically measured by applying a measurement system coded using Matlab. Fifteen representative headforms were generated in terms of 5 ethnic groups (composite group, Caucasians, American Africans, Asians, and Hispanics) and 3 gender groups (composite gender, males, and females). Finally, the sizing analysis system was developed based on the measurement of the CAESAR for analysis of head and facial measurements and generation of sizing systems. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3d-asashfespresentation1005-160405084445-thumbnail.jpg?width=120&height=120&fit=bounds" /> [Abstract] The present study developed a sizing analysis system based on the Civilian American and European Surface Anthropometry Resource (CAESAR) database of North Americans (n = 2,299) for head-related product designs. To find representative heads from a huge amount of 3D human scan database, a sizing analysis system is required for efficient analysis of sizing systems based on anthropometric measurements. The head of the CAESAR 3D scan were manually edited to improve a quality for better use to the product design. Twenty one anthropometric landmarks were marked on the edited 3D heads to measure 40 anthropometric dimensions related to the head product designs. All head and face dimensions were automatically measured by applying a measurement system coded using Matlab. Fifteen representative headforms were generated in terms of 5 ethnic groups (composite group, Caucasians, American Africans, Asians, and Hispanics) and 3 gender groups (composite gender, males, and females). Finally, the sizing analysis system was developed based on the measurement of the CAESAR for analysis of head and facial measurements and generation of sizing systems.

Development of Headforms and an Anthropometric Sizing Analysis System for Head-Related Product Designs from Handong Global University

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0 3D Scan to Product Design: Methods, Techniques, and Cases /slideshow/3d-scan-to-product-design-methods-techniques-and-cases/54728971 3dbst2015-151104112740-lva1-app6892
Lee, W., Lee, B., Kim, S., Jung, H., Jeon, E., Choi, T., and You, H. (2015). 3D scan to product design: methods, techniques, and cases. In proceedings of the 3D Body Scanning Technologies (Lugano, Switzerland, 27-28 October 2015).]]>
Lee, W., Lee, B., Kim, S., Jung, H., Jeon, E., Choi, T., and You, H. (2015). 3D scan to product design: methods, techniques, and cases. In proceedings of the 3D Body Scanning Technologies (Lugano, Switzerland, 27-28 October 2015).]]> Wed, 04 Nov 2015 11:27:40 GMT /slideshow/3d-scan-to-product-design-methods-techniques-and-cases/54728971 WonsupLee1@slideshare.net(WonsupLee1) 3D Scan to Product Design: Methods, Techniques, and Cases WonsupLee1 Lee, W., Lee, B., Kim, S., Jung, H., Jeon, E., Choi, T., and You, H. (2015). 3D scan to product design: methods, techniques, and cases. In proceedings of the 3D Body Scanning Technologies (Lugano, Switzerland, 27-28 October 2015). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3dbst2015-151104112740-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds" /> Lee, W., Lee, B., Kim, S., Jung, H., Jeon, E., Choi, T., and You, H. (2015). 3D scan to product design: methods, techniques, and cases. In proceedings of the 3D Body Scanning Technologies (Lugano, Switzerland, 27-28 October 2015).

3D Scan to Product Design: Methods, Techniques, and Cases from Handong Global University

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0 https://cdn.slidesharecdn.com/profile-photo-WonsupLee1-48x48.jpg?cb=1618063284 www.linkedin.com/in/wonsuplee/ https://cdn.slidesharecdn.com/ss_thumbnails/3danthropometrykor-210410140558-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/3d-anthropometry-kor/246040551 3D Anthropometry (Kor) https://cdn.slidesharecdn.com/ss_thumbnails/180828ieacontactpressureanalysis-180910223757-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/analysis-of-contact-pressure-of-the-face-using-finite-eleent-analysis-on-3d-scan-datablase/113845675 Analysis of contact pr... https://cdn.slidesharecdn.com/ss_thumbnails/3dscan-baseddesigninproductdevelopmentprocess-171128091435-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/3d-scan-based-design-in-product-development-process/82885854 3D Scan Based Design i...