Juan Vicente Durá scite author profile

Juan Vicente Durá

3Publications

33Citation Statements Received

41Citation Statements Given

How they've been cited

How they cite others

Affiliations

Biomechanics Institute of Valencia, Universitat Politècnica de València, Polytechnic University of Puerto Rico

Publications

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FASHION-ABLE: Needs and requirements for clothing, footwear and orthotics of consumers groups with highly individualised needs

González

Olaso

Gil

et al. 2012

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Until now, masscustomization of werable products has been offered as a higher addedvalue to the broad public.However there are population groups for which personalization is a real need affecting their health and quality of life because of the self products do not meet their needs. FASHION -ABLE project aims at providing the European innovative and customizationconcemed SMEs with the technological means that will enable the agile and eco efficient production of personalised products in terms of health and performance, addressing the complex individualised needs of such growing market niches out of the scope of massproduced goods. The first step of this project have been the generation of the users' needs and requirements for fashionable and personalized footwear for diabetic feet, clothing for wheelchair users and highperforming textile compression bandages. In addition, the personalization processes of each type of products already existing in the industry were analyzed and some adaptations/improvements have been advised. KeywordsCustomization, clothing for wheelchair users, footwear for diabetic people, textile compression bandages 978-1-4673-2275-1/12/$3l.00 ©l012 IEEE 978-1-4673-2275-1/12/$31.00 ©l012 IEEE 2/10

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3D Human Models from 1D, 2D and 3D Inputs: Reliability and Compatibility of Body Measurements

Ballester¹,

Pierola²,

Parrilla³

et al. 2018

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This paper presents partial results of a larger validation study of different Data-driven 3D Reconstruction (D3DR) technologies developed by IBV to create watertight 3D human models from measurements (1D3D), 2D images (2D3D) or raw scans (3D3D). This study quantifies the reliability (Standard Error of Measurement, SEM; Mean Absolute Deviation, MAD; Intra-class Correlation Coefficient, ICC; and Coefficient of Variation, CV) of body measurements taken on human subjects. Our results are also compared to similar studies found in literature assessing the reliability of digital and traditional anthropometry. Moreover, we assess the compatibility (bias and Mean Absolute Error, MAE) of measurements between D3DR technologies. The results show that 2D3D can provide visually accurate body shapes and, for the measurements assessed, 2D3D is as reliable as high resolution 3D scanners. It is also more accurate than manual measurements taken by untrained users. Due to accessibility, cost and portability (e.g. 2D3D built in a smartphone app) they could be more suitable than other methods at locations where body scanners are not available such as homes, medical or physical therapy offices, and small retail stores and gyms.

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Identification of floor friction safety level for public buildings considering mobility disabled people needs

et al. 2005

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