A new methodology to identify minimum strain anatomical lines based on 3-D digital image correlation

Barrios-Muriel, Jorge; Alonso Sánchez, Francisco Javier; Salgado, David Rodríguez; Romero-Sánchez, Francisco

doi:10.5194/ms-8-337-2017

Articles | Volume 8, issue 2

https://doi.org/10.5194/ms-8-337-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/ms-8-337-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 8, issue 2

Research article

|

16 Nov 2017

Research article |

| 16 Nov 2017

A new methodology to identify minimum strain anatomical lines based on 3-D digital image correlation

Jorge Barrios-Muriel, Francisco Javier Alonso Sánchez, David Rodríguez Salgado, and Francisco Romero-Sánchez

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Cumulative views and downloads (calculated since 16 Nov 2017)

Month	HTML	PDF	XML	Total
Nov 2017	109	22	3	134
Dec 2017	154	26	1	181
Jan 2018	146	19	4	169
Feb 2018	111	12	3	126
Mar 2018	97	7	0	104
Apr 2018	90	2	0	92
May 2018	95	5	0	100
Jun 2018	3	2	0	5
Jul 2018	8	6	1	15
Aug 2018	8	5	1	14
Sep 2018	9	4	1	14
Oct 2018	3	6	0	9
Nov 2018	13	12	0	25
Dec 2018	6	6	1	13
Jan 2019	5	7	0	12
Feb 2019	12	2	0	14
Mar 2019	14	7	2	23
Apr 2019	6	6	0	12
May 2019	2	5	1	8
Jun 2019	9	10	0	19
Jul 2019	9	4	1	14
Aug 2019	8	10	1	19
Sep 2019	5	9	0	14
Oct 2019	5	7	1	13
Nov 2019	16	1	0	17
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Apr 2020	4	5	0	9
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Jul 2020	25	16	12	53
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Sep 2020	7	2	0	9
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Oct 2024	10	8	0	18
Nov 2024	10	2	1	13
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Jan 2025	9	5	0	14
Feb 2025	11	1	3	15
Mar 2025	26	7	2	35
Apr 2025	4	9	0	13
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Jun 2025	19	29	0	48
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Aug 2025	11	5	2	18
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Oct 2025	28	15	6	49
Nov 2025	25	12	16	53
Dec 2025	22	13	3	38
Jan 2026	8	13	4	25

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Short summary

The design of these devices involves the human body as a support environment. Based on this premise, the development of wearable devices requires an improved understanding of the skin strain field of the body segment during human motion. This paper presents a new methodology to improve and optimize the design of wearable devices, specifically orthoses, based on the combination of biomechanical studies, computer aided design/computer aided engineering (CAD/CAE) tools and 3D printing technology.


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