[{"data":1,"prerenderedAt":174},["ShallowReactive",2],{"person-93383228-255a-4ead-a020-a309229a41b5":3},{"success":4,"person":5,"request":170},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},"Strobel do Nascimento","","Elisa",{},"93383228-255a-4ead-a020-a309229a41b5","elisastrobel@ufpr.br","2025-12-17T01:03:14-03:00","Universidade Federal do Paraná",[15,16],"elisa-strobel-do-nascimento","strobel-do-nascimento-elisa",[18,73],{"parent":19,"metaData":20,"updateDate":22,"data":23,"langs":29,"_id":32,"contributors":33,"contributorsIds":61,"type":62,"typeData":63,"status":70,"slugs":71,"slug":72},"f1f23d35-203a-4494-b7cd-e41787bada40",{"updateDate":7,"createDate":21,"deleteDate":7},1765947379,"2025-12-17T01:56:19-03:00",{"secondary":24,"primary":26},{"keywords":7,"excerpt":7,"title":25},"Bottlenecks in Product Design Projects",{"keywords":7,"excerpt":27,"title":28},"Gargalos são situações que atrasam um processo ou sistema. O Design é uma atividade complexa que necessita da interação entre diversas partes para mediar uma determinada solução – sendo passível de gargalos por natureza. Modelos de Referência/Métodos de Projeto são construídos para minimizá-los com a experiência de seus preconizadores. Alguns gargalos são descritos por estes autores: transição da etapa de Projeto Conceitual para o Projeto Detalhado (preparação para a produção) e a interação/troca de Informações entre os seus participantes. Este estudo faz uma revisão bibliográfica sistemática com o objetivo de conhecer os principais gargalos abordados em trabalhos recentes e as soluções propostas. Constatou-se corroboração dos gargalos da Informação e da transição entre etapas Conceitual e Projeto Detalhado. Encontrou-se ainda um método de gestão de gargalos para desenvolvimento de produtos. Propõe-se ainda caminhos para estudos futuros.","Gargalos em Projetos de Design de Produtos",[30,31],"primary","secondary","6c93d06a-6553-42dc-a303-ba096f57fbe3",[34,43,52],{"id":7,"name":35,"lastName":36,"email":7,"designation":7,"description":37,"role":7,"_id":10,"createDate":38,"filiation":7,"slugs":39,"url":7,"path":41,"lastmodified":42,"objectID":10},"Elisa Strobel do","Nascimento",{},"2025-12-17T04:56:19.051Z",[15,40],"nascimento-elisa-strobel-do","people/93383228-255a-4ead-a020-a309229a41b5",1765947379051,{"id":7,"name":44,"lastName":45,"email":7,"designation":7,"description":46,"role":7,"_id":47,"createDate":38,"filiation":7,"slugs":48,"url":7,"path":51,"lastmodified":42,"objectID":47},"Marcelo Gitirana Gomes","Ferreira",{},"44d38b7f-61fe-468e-9a39-59cf3b84e312",[49,50],"marcelo-gitirana-gomes-ferreira","ferreira-marcelo-gitirana-gomes","people/44d38b7f-61fe-468e-9a39-59cf3b84e312",{"id":7,"name":53,"lastName":54,"email":7,"designation":7,"description":55,"role":7,"_id":56,"createDate":38,"filiation":7,"slugs":57,"url":7,"path":60,"lastmodified":42,"objectID":56},"Adriano","Heemann",{},"cb3f72c0-938b-44da-a5a2-c8abb3f733f0",[58,59],"adriano-heemann","heemann-adriano","people/cb3f72c0-938b-44da-a5a2-c8abb3f733f0",[10,47,56],"article",{"startPage":64,"file":65,"references":66,"endPage":67,"track":68,"doi":69},1321,null,[],1334,"jjx99kuu","10.5151/ped2018-3","enabled",[72],"bottlenecks-in-product-design-projects",{"parent":74,"metaData":75,"updateDate":12,"data":77,"langs":86,"_id":87,"contributors":88,"contributorsIds":94,"type":62,"typeData":95,"status":70,"download":167,"slugs":168,"slug":169},"1ab1f6ea-e043-44d8-a7ab-1bd0d96c1c82",{"updateDate":7,"createDate":76,"deleteDate":7},1765944194,{"secondary":78,"primary":82},{"keywords":79,"excerpt":80,"title":81},"\u003Cp>Biodesign, Living Materials, Applications\u003C/p>","It is well known that designing with other living beings, involving \"living matter\", is different from designing with ceramics, metals and polymers. This practice is called biodesign, a polysemic term. This work seeks to answer three research questions: (i) How are biodesigned artefacts characterised in the literature? (ii) What are the lifeforms that designers are working with in their design research? and (iii) What are the applications that are being planned for \"living matter\"? The methodological strategy consisted in revisiting a systematic literature review with a sample of 48 works. For future studies, a search beyond scientific literature is recommended, such as in private and public initiatives.","Design with \"living Matter\": Characteristics of Biodesigned Artefacts According to the Literature",{"keywords":83,"excerpt":84,"title":85},"\u003Cp>Biodesign, Materiais Vivos, Aplicações\u003C/p>","É sabido que fazer design com outros seres viventes, implicando em \"matéria viva\", é diferente do que projetar com cerâmica, metais e polímeros. Esta prática tem o nome de biodesign, um termo polissêmico. Neste trabalho busca-se responder a três perguntas de pesquisa: (i) Como os artefatos de biodesign são caracterizados na literatura?; (ii) Quais são as formas de vida com as quais designers estão trabalhando em suas pesquisas de design?; e (iii) Quais são as aplicações que estão sendo planejadas para a \"matéria viva\"? Como estratégia metodológica revisita-se uma revisão sistemática bibliográfica com uma amostra de 48 trabalhos. Para estudos futuros recomenda-se uma busca para além da literatura científica, como em iniciativas públicas e privadas.","Design com \"matéria Viva\": Características de Artefatos de Biodesign de Acordo com a Literatura",[30,31],"8b8aacfe-6b2c-4e50-8366-77dfa6a2419e",[89],{"id":7,"name":8,"lastName":6,"email":11,"designation":7,"description":90,"role":7,"_id":10,"createDate":91,"filiation":13,"slugs":92,"url":7,"path":41,"lastmodified":93,"objectID":10},{},"2025-12-17T04:03:14.009Z",[15,16],1765944194009,[10],{"startPage":96,"file":97,"references":100,"endPage":164,"track":165,"doi":166},4926,{"fullpath":98,"name":99},"https://storage.googleapis.com/memoria-ped.appspot.com/articles%2F15_pd_design_2024%2F16920_10392.pdf","16920_10392.pdf",[101,104,107,110,113,116,119,122,125,128,131,134,137,140,143,146,149,152,155,158,161],{"id":102,"label":103},"4cdb0be0-fe7c-4bcd-8bf0-7baff425e42e","\u003Cp>CAMERE, S.; KARANA, E. Fabricating materials from living organisms: An emerging design practice. \u003Cstrong>Journal of Cleaner Production\u003C/strong>, v. 186, p. 570–584, 2018.\u003C/p>",{"id":105,"label":106},"bc6dee0c-7faa-48fe-993a-74fba0f0df06","\u003Cp>DADE-ROBERTSON, M. \u003Cstrong>The Architecture of Microbes\u003C/strong>. 2021.\u003C/p>",{"id":108,"label":109},"0f57209b-e4bf-41f0-8c49-d4eb4c74f216","\u003Cp>OXMAN, N.; LAUCKS, J.; KAYSER, M.; URIBE, C. D. G.; DURO-ROYO, J. Biological Computation for Digital Design and Fabrication. \u003Cstrong>Proceedings of the 31st International Conference on Education and research in Computer Aided Architectural Design in Europe eCAADe 2013\u003C/strong>, v. 18, p. 585, 2013.\u003C/p>",{"id":111,"label":112},"caf23a9d-d938-424b-8c21-de0ce768d76f","\u003Cp>OXMAN, N.; ORTIZ, C.; GRAMAZIO, F.; KOHLERPROF, M. Material ecology. \u003Cstrong>CAD Computer Aided Design\u003C/strong>, v. 60, p. 1–2, 2015.\u003C/p>",{"id":114,"label":115},"858efe7e-81a2-490d-b182-57f63b699fdb","\u003Cp>PARISI, S.; ROGNOLI, V. Tinkering with Mycelium. A case study. \u003Cstrong>Alive. Active. Adaptive: International Conference on Experiential Knowledge and Emerging Materials, EKSIG 2017\u003C/strong>, p. 66–78, 2017.\u003C/p>",{"id":117,"label":118},"8e325c98-b619-4fe7-b222-21e5ab6a97a7","\u003Cp>PARISI, S.; ROGNOLI, V.; AYALA-GARCIA, C. Designing materials experiences through passing of time - Material driven design method applied to mycelium-based composites. \u003Cstrong>Proceedings - D and E 2016: 10th International Conference on Design and Emotion - Celebration and Contemplation\u003C/strong>, p. 239–255, 2016.\u003C/p>",{"id":120,"label":121},"d2261edf-5028-49a9-b565-2066b5ca52fc","\u003Cp>PATARANUTAPORN, P.; INGALLS, T.; FINN, E. Biological HCI: Towards integrative interfaces between people, computer, and biological materials. \u003Cstrong>CHI EA '18: Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems\u003C/strong>, p. 1–6, 2018.\u003C/p>",{"id":123,"label":124},"6fe5b622-eacf-45e6-9e01-9e079ec0c81d","\u003Cp>REEF DESIGN LAB. About. Available at: https://www.reefdesignlab.com/about-2. Accessed on May 19, 2021.\u003C/p>",{"id":126,"label":127},"9a7f11f8-5c06-4d2f-a760-0975c2e460e4","\u003Cp>SAYUTI, N. A. A.; AHMED-KRISTENSEN, S. Understanding emotional responses and perception within new creative practices of biological materials. \u003Cstrong>Proceedings of the 6th International Conference on Design Creativity, ICDC 2020\u003C/strong>, p. 144–151, 2020.\u003C/p>",{"id":129,"label":130},"744a7e16-58ed-4d15-a6da-3ae572aea237","\u003Cp>SCHAFFNER, M.; RÜHS, P. A.; COULTER, F.; KILCHER, S.; STUDART, A. R. 3D printing of bacteria into functional complex materials. \u003Cstrong>Science Advances\u003C/strong>, v. 3, n. 12, 2017.\u003C/p>",{"id":132,"label":133},"35ac1527-444b-4e99-a93b-46627cf85ce1","\u003Cp>SHUNK, G. K.; GOMEZ, X. R.; AVERESCH, N. J. H. A Self-Replicating Radiation-Shield for Human Deep-Space Exploration: Radiotrophic Fungi can Attenuate Ionizing Radiation aboard the International Space Station. \u003Cstrong>bioRxiv\u003C/strong>, p. 2020.07.16.205534, 2020.\u003C/p>",{"id":135,"label":136},"11b4564d-92b4-43a8-a259-f3f3ec2deb32","\u003Cp>SMITH, R. S. H.; BADER, C.; SHARMA, S.; et al. Hybrid Living Materials: Digital Design and Fabrication of 3D Multimaterial Structures with Programmable Biohybrid Surfaces. \u003Cstrong>Advanced Functional Materials\u003C/strong>, v. 30, n. 7, p. 1–14, 2020.\u003C/p>",{"id":138,"label":139},"e086ba4d-d212-4516-b563-37888bd3f0c9","\u003Cp>STROBEL DO NASCIMENTO, E. Design with the Living: Learning to Work Together. 2023. Thesis (Ph.D.) – Post Graduation in Design Program, Design Department, Universidade Federal do Paraná, Curitiba, 2023.\u003C/p>",{"id":141,"label":142},"c197ded5-75df-4d35-853d-c3725ad19c6a","\u003Cp>VETTIER, L. Biodesign, comment penser la production avec le vivant? \u003Cstrong>Philosophical Readings\u003C/strong>, v. 11, n. 1, p. 26–32, 2019.\u003C/p>",{"id":144,"label":145},"1c8d6a15-502f-41d6-b7f2-5b32d5d2db23","\u003Cp>WALKER, K. T.; GOOSENS, V. J.; DAS, A.; GRAHAM, A. E.; ELLIS, T. Engineered cell-to-cell signalling within growing bacterial cellulose pellicles. \u003Cstrong>Microbial Biotechnology\u003C/strong>, v. 12, n. 4, p. 611–619, 2019.\u003C/p>",{"id":147,"label":148},"22bf407c-1dfe-42d2-bf2a-af087334c2c2","\u003Cp>WEILER, J.; FERNANDO, P.; SIYAMBALAPITIYA, N.; KUZNETSOV, S. Mycelium artifacts: Exploring shapeable and accessible biofabrication. \u003Cstrong>DIS 2019 Companion - Companion Publication of the 2019 ACM Designing Interactive Systems Conference\u003C/strong>, p. 69–72, 2019.\u003C/p>",{"id":150,"label":151},"b95a84ed-03db-4d27-8385-16d23779c7e1","\u003Cp>WILLIAMS, N.; COLLET, C. Biodesign and the Allure of \"Grow-made\" Textiles: An Interview with Carole Collet. \u003Cstrong>GeoHumanities\u003C/strong>, v. 7, n. 1, p. 345–357, 2020. Available at: https://doi.org/10.1080/2373566X.2020.1816141. Accessed on 29 Apr. 2024.\u003C/p>",{"id":153,"label":154},"ea696ea2-370c-4a0c-aae0-d70287326dba","\u003Cp>YANG, Q.; GAO, B.; XU, F. Recent Advances in 4D Bioprinting. \u003Cstrong>Biotechnology Journal\u003C/strong>, v. 15, n. 1, p. 1–10, 2020.\u003C/p>",{"id":156,"label":157},"1a4ffc72-bf45-4ef7-be2a-06fb3d7e4fc5","\u003Cp>ZHOU, J.; BARATI, B.; WU, J.; SCHERER, D.; KARANA, E. Digital biofabrication to realize the potentials of plant roots for product design. \u003Cstrong>Bio-Design and Manufacturing\u003C/strong>, n. 0123456789, 2020.\u003C/p>",{"id":159,"label":160},"e3c8e2ea-2492-44b3-9678-e1ba1b442abf","\u003Cp>ZOLOTOVSKY, K.; GAZIT, M.; ORTIZ, C. Guided Growth of Bacterial Cellulose Biofilms. In: \u003Cstrong>7th International Conference on Biomimetic and Bio-hybrid Systems, Living Machines (LM)\u003C/strong>, Paris, 2018, p. 538–548.\u003C/p>",{"id":162,"label":163},"5b2ef6e9-451e-434c-920e-1e71502ab9fb","\u003Cp>ZOLOTOVSKY, K. BioConstructs – Methods for Bio-Inspired and Bio-Fabricated Design. 2012. Master Thesis – Master of Science in Architecture Studies at the Massachusetts Institute of Technology, Cambridge, 2012.\u003C/p>",4941,"13t4ecxh","https://doi.org/10.29327/5457226.1-196",4,[169],"design-com-materia-viva-caracteristicas-de-artefatos-de-biodesign-de-acordo-com-a-literatura",{"target":171,"query":172},"people/get",{"id":10,"articles":173},"true",1780316139407]