[{"data":1,"prerenderedAt":108},["ShallowReactive",2],{"person-e05d5ada-1a0a-485c-8176-a76441d41a3e":3},{"success":4,"person":5,"request":104},true,{"lastName":6,"role":7,"name":8,"description":9,"_id":10,"designation":7,"id":7,"email":11,"url":7,"createDate":12,"filiation":13,"slugs":14,"articles":17},"Dewes","","Gustavo Luiz dos Santos",{},"e05d5ada-1a0a-485c-8176-a76441d41a3e","dewes.design@gmail.com","2025-12-16T22:56:53-03:00","UFRGS",[15,16],"gustavo-luiz-dos-santos-dewes","dewes-gustavo-luiz-dos-santos",[18],{"parent":19,"metaData":20,"data":22,"langs":31,"_id":34,"type":35,"typeData":36,"status":75,"updateDate":76,"contributors":77,"contributorsIds":100,"download":101,"slugs":102,"slug":103},"1ab1f6ea-e043-44d8-a7ab-1bd0d96c1c82",{"updateDate":7,"createDate":21,"deleteDate":7},1765936613,{"secondary":23,"primary":27},{"keywords":24,"excerpt":25,"title":26},"\u003Cp>Ergonomic analysis, Motion capture, Kinesiology\u003C/p>","The evolution of digital technologies has significantly transformed approaches to ergonomic analysis. In this context, ErgoMotion, a digital simulator for movement analysis based on kinesiology, was developed. The system utilizes Microsoft's Kinect® V.1 for motion capture and was developed on the Unity 3D® platform. The software employs intuitive chromatic representations, grounded in concepts of goniometry and kinesiology, to facilitate the analysis of human movement ranges and amplitudes. A specific library includes 42 joint movement analyses, each with illustrative animations. The six-color tonal scale, ranging from green to red, allows for the quick identification of discomforts and maximum joint amplitudes.","Ergomotion: Digital Simulator for Ergonomic Analysis Based on Kinesiology",{"keywords":28,"excerpt":29,"title":30},"\u003Cp>Análises ergonômicas, Captura de movimentos, Cinesiologia\u003C/p>","A evolução das tecnologias digitais têm transformado significativamente as abordagens em análises ergonômicas. Nesta linha, foi desenvolvido o ErgoMotion, um simulador digital para análises de movimentos baseado em cinesiologia. O sistema utiliza o Kinect® V.1 da Microsoft® para captura de movimentos e foi desenvolvido na plataforma Unity 3D®. O software emprega representações cromáticas intuitivas, fundamentadas em conceitos de goniometria e cinesiologia, para facilitar a análise das amplitudes e dos movimentos humanos. Uma biblioteca específica inclui 42 análises de movimentos articulares, cada uma com animações ilustrativas. A escala tonal de seis cores, variando do verde ao vermelho, permite a identificação rápida de desconfortos e amplitudes máximas articulares. O objetivo é apresentar uma ferramenta acessível e eficaz para avaliações ergonômicas, com potencial para expandir suas aplicações no futuro.","Ergomotion: Simulador Digital para Análises Ergonômicas Baseadas em Cinesiologia",[32,33],"primary","secondary","7aef3c52-6875-4d76-8caf-3744689e65f1","article",{"startPage":37,"file":38,"references":41,"endPage":72,"track":73,"doi":74},1570,{"fullpath":39,"name":40},"https://storage.googleapis.com/memoria-ped.appspot.com/articles%2F15_pd_design_2024%2F16520_10086.pdf","16520_10086.pdf",[42,45,48,51,54,57,60,63,66,69],{"id":43,"label":44},"11b21dac-e3fc-49ee-9d8c-42887beea30d","\u003Cp>DE WALL, M.; VAN RIEL, M. P. J. M.; SNIJDERS, C. J. The effect on sitting posture a desk with 10° inclination for reading and writing. \u003Cstrong>Ergonomonomics\u003C/strong>, v. 34, n. 5, p. 575-584, jun. 1992.\u003C/p>",{"id":46,"label":47},"841088ab-7b0d-4cbf-b55b-1fffb495ea1c","\u003Cp>DEWES, G. L. S. ErgoMotion: Simulador digital para análises ergonômicas com captura de movimentos. 2024. 345 f. Tese (Doutorado em Design) – Escola de Engenharia / Faculdade de Arquitetura, Universidade Federal do Rio Grande do Sul, Porto Alegre, 2024.\u003C/p>",{"id":49,"label":50},"18abf086-bf0d-489c-99cd-285aa947191f","\u003Cp>DRESCH, A; LACERDA, D. P.; ANTUNES JÚNIOR, J. A. V. \u003Cstrong>Design Science Research: método de pesquisa para avanço da ciência e tecnologia\u003C/strong>. Porto Alegre: Bookman, 2015.\u003C/p>",{"id":52,"label":53},"17969c3c-ce06-462d-9706-4fb40209829c","\u003Cp>IIDA, I. \u003Cstrong>Ergonomia: projeto e produção\u003C/strong>. 2. ed. rev. e ampliada, ed. São Paulo: Blucher, 2005.\u003C/p>",{"id":55,"label":56},"38d3d1b4-9907-412f-8542-82e8ffd962df","\u003Cp>IPI SOFT. User Guide for Multiple Depth Sensors Configuration. 2024. Disponível em: https://docs.ipisoft.com/User_Guide_for_Multiple_Depth_Sensors_Configuration#iPi_Recorder. Acesso em: 15 jul. 2024.\u003C/p>",{"id":58,"label":59},"ec19811d-97c3-41ed-82d1-5f5bf0a10533","\u003Cp>KIM, K. et al. Biomechanical Tissue Characterization of the Superior Joint Space of the Porcine Temporomandibular Joint. \u003Cstrong>Journal of Dental Research\u003C/strong>, v. 82, n. 11, p. 883-887, 2003.\u003C/p>",{"id":61,"label":62},"e52cb595-bf18-498c-93d4-383fb1b62ba5","\u003Cp>MARQUES, Amélia Pasqual. \u003Cstrong>Manual de Goniometria\u003C/strong>. Editora Manole, 2003.\u003C/p>",{"id":64,"label":65},"394883c3-c354-42fd-8336-8221b6bfb29f","\u003Cp>SACCO I. C. N., TANAKA C. \u003Cstrong>Cinesiologia e biomecânica dos complexos articulares\u003C/strong>. Rio Janeiro: Guanabara Koogan, 2008.\u003C/p>",{"id":67,"label":68},"4a77bfbf-515b-4d6a-a19e-f2043b07d943","\u003Cp>SILVA, J. C. P.; PASCHOARELLI, L. C. (Orgs.). \u003Cstrong>A evolução histórica da ergonomia no mundo e seus pioneiros\u003C/strong>. Editora UNESP, 2010. 103 p. ISBN: 9788579831201.\u003C/p>",{"id":70,"label":71},"e212033c-3699-4ba3-b631-5521f1628792","\u003Cp>THOMPSON, J.; FLOYD, R. \u003Cstrong>Manual de Cinesiologia Estrutural\u003C/strong>. 19. ed. São Paulo: Editora Manole Saúde, 2016. ISBN 978-8520445921.\u003C/p>",1586,"jut1uawr","https://doi.org/10.29327/5457226.1-124","enabled","2025-12-27T20:49:46-03:00",[78,84,90],{"path":79,"createDate":80,"role":7,"url":7,"name":8,"slugs":81,"description":82,"id":7,"designation":7,"lastmodified":83,"lastName":6,"objectID":10,"email":11,"filiation":13,"_id":10},"people/e05d5ada-1a0a-485c-8176-a76441d41a3e","2025-12-17T01:56:53.937Z",[15,16],{},1765936613937,{"designation":7,"name":85,"url":7,"role":7,"filiation":86,"email":87,"lastName":88,"_id":89},"Clariana Fischer","Universidade Federal do Rio Grande do Sul","clafischer@hotmail.com","Brendler","c5456388-de16-4524-8e6b-2f9e57417761",{"createDate":80,"email":91,"lastmodified":83,"_id":92,"id":7,"designation":7,"lastName":93,"path":94,"filiation":13,"objectID":92,"role":7,"slugs":95,"description":98,"url":7,"name":99},"fabiogt@ufrgs.br","64f5b731-199d-41ae-bd7e-ff12da6bc2be","Teixeira","people/64f5b731-199d-41ae-bd7e-ff12da6bc2be",[96,97],"fabio-goncalves-teixeira","teixeira-fabio-goncalves",{},"Fábio Gonçalves",[10,89,92],6,[103],"ergomotion-digital-simulator-for-ergonomic-analysis-based-on-kinesiology",{"target":105,"query":106},"people/get",{"id":10,"articles":107},"true",1780316183252]