Página 1 dos resultados de 8 itens digitais encontrados em 0.083 segundos

Proceso de industrializaci??n local de prototipos funcionales

Hern??ndez P??rez, Juan Carlos
Fonte: Universidad EAFIT; Maestr??a en Ingenier??a; Escuela de Ingenier??a Publicador: Universidad EAFIT; Maestr??a en Ingenier??a; Escuela de Ingenier??a
Tipo: masterThesis; Tesis de Maestr??a; acceptedVersion
SPA
Relevância na Pesquisa
56.1%

A computer tools classification based on collaborative engineering environments and its value on education

Osorio G??mez, Gilberto; Mej??a Guti??rrez, Ricardo; R??os Zapata, David
Fonte: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: conferenceObject; Documento de conferencia; publishedVersion
ENG
Relevância na Pesquisa
106.21%
Computer tools usage has dramatically changed the working practice of design engineers, even from early stages of the product design and development process, offering new and more efficient ways to reduce costs and lead time and to obtain better products -- Furthermore, computer science advances have driven the development of new informatics solutions supporting different areas of knowledge, changing the way of doing things and demanding new learning strategies -- In order to accomplish all these objectives, the authors propose a new computer tools classification centred on both specifics areas of knowledge and different stages of the design process -- Related to product design engineering knowledge, there are some classifications focused on sorting tools to fulfil specific design aspects such as concurrent engineering or product life-cycle management (PLM) -- However, none of the current classifications are focused to find and to categorize computer tools for each design stage of the product life cycle, starting from early product design stages, such as need identification, to final design stages, such as recycling and disposal -- In the same manner, it is important to differentiate which technologies allow and support collaborative and distributed work -- This document presents a computer tools classification oriented to product design engineering processes...

International multidisciplinary collaborative project for design of conceptual products

Mej??a Guti??rrez, Ricardo; Osorio G??mez, Gilberto; Sierra Zuluaga, Luis Fernando; Atkinson, Peter
Fonte: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: conferenceObject; Documento de conferencia; publishedVersion
ENG
Relevância na Pesquisa
96.21%
Nowadays, due to globalization, the design and development process of complex systems demands distributed multidisciplinary work in order to improve product quality -- Within the university contextstudents are generally trained to work in groups, however, they often develop their academic projects with classmates of the same curricular program and the real industrial work situation is new for them -- To make this experience more realistic, EAFIT University in Colombia and Coventry University in the United Kingdom have joined to set-up and develop an international collaborative project course -- Two different disciplines have been paired, the engineering approach from Colombia and the industrial design competencies from the UK -- In a recent project, a real industrial need was used to reinforce the real life constraints in order to expose students to a realistic engineering and design approach -- The collaborative experience was strengthened with the co-location of all students after the UK participants travelled to Colombia for the final part of the project -- Results are analyzed in this article showing a good international cooperation scenario that enhanced the competitive level of students involved, as well as offering practical and creative solutions to local industry

Requirements elicitation based on a product design approach; Elicitaci??n de requisitos desde la perspectiva del dise??o de producto

Mej??a Guti??rrez, Ricardo; Zuluaga Holgu??n, Daniel; Calad ??lvarez, Alejandro
Fonte: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: conferenceObject; Documento de conferencia; publishedVersion
ENG
Relevância na Pesquisa
126.43%
Este art??culo busca comparar los procesos relacionados con el dise??o de producto y el desarrollo de software; espec??ficamente la identificaci??n de necesidades en el desarrollo de producto y la ingenier??a de requisitos en el desarrollo de software -- La investigaci??n presenta una revisi??n y comparaci??n de m??todos, la obtenci??n de aspectos similares y c??mo este resultado puede justificar una posible mejora al desarrollo de software en la fase de elicitaci??n de requerimientos mediante la implementaci??n de de m??todos adaptados de la teor??a de ingenier??a concurrente; The aim of this article is to compare two different processes -- These processes are product design and software development, specifically requirement identification and requirement engineering respectively -- The research presents a review and a comparison of methods to obtain theirs similar aspects and uses this result to justify why could be possible to improve software development on the requirements elicitation phase by implementing an abstraction of concurrent engineering methods

Collaborative tools for global design project management: case study of an academic experience

Mej??a Guti??rrez, Ricardo; Esparragoza, Iv??n E.; Rodr??guez Arroyave, Carlos Arturo
Fonte: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: conferenceObject; Documento de conferencia; publishedVersion
ENG
Relevância na Pesquisa
96.18%
The management of information and the capture of design ideas are very critical during theproduct development and product lifecycle management -- They could be very challenging tasks when time, efficiency and quality are important and the concurrent design team is physically distributed in different locations -- However, the existing technology for communication, the increase of tools over the Internet and the cloud computing model have made possible and accelerated the means of sharing information synchronous and asynchronously in a very effective way -- This has facilitated the work of teams that in many cases are geographically dispersed around the world -- Therefore, there is a need to start preparing the future engineers in the use of collaborative tools for global design project management not only to schedule and coordinate all the required tasks for the project but also to capture all the information, ideas and concepts generated during the design process which contains valuable data that supports design decisions -- This paper presents the use of several tools for communication and project management used in academic collaborative global design projects -- In these projects, students are required to work with international partners from different universities in coordinating activities and documenting the conceptual design for a given problem -- The paper reports the experience using the tools and discusses opportunities and pitfalls in the use of them as they were identified by the authors

Collaborative planning of a manufacturing design project through a novel e-engineering hub

Mej??a Guti??rrez, Ricardo; Molina, Arturo; Augenbroe, Godfried
Fonte: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: conferenceObject; Documento de conferencia; publishedVersion
ENG
Relevância na Pesquisa
106.18%
Due to globalization of economies, organizations have started a new way of thinking in projects development -- New needs arise on working practices as well as supporting Information and Communication Technologies -- This article describes a novel concept of an e-engineering HUB for remote collaboration on engineering partnerships -- It offers collaborative project planning services that focus on collaborative, tactical decision making that goes into the formation, work planning, contracting and trust building on both sides of an e-engineering partnership -- An e-Hub software prototype has been developed and a domain-specific scenario originated in the manufacturing-engineering domain has been evaluated

Smart experience engineering to support collaborative design problems based on constraints modelling

Calad ??lvarez, Alejandro; Mej??a Guti??rrez, Ricardo; Maldonado San??n, C??sar; Szczerbicki, Edward
Fonte: IOS Press; Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: IOS Press; Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: article; Art??culo; publishedVersion
ENG
Relevância na Pesquisa
96.2%
Engineering design is a knowledge intensive process -- Experts??? experiences from different product life-cycle stages play a key role in problem solving during design decision making by linking up knowledge to find better solutions for a specific design problem -- Different approaches have been used to support Collaborative and Concurrent Product Design, such as Constraint Satisfaction Problem (CSP) modelling -- Additionally, due to the need of capitalizing these experiences, the Set of Experience Knowledge Structure (SOEKS) is used to store and manage experiences of decision making process -- However it was necessary to adapt the structure to property manage the constraints approach used in Engineering Design -- This article presents a proposed adaptation to SOEKS structure in order to be able to store and reuse CSP design experiences for further re-use and analysis of multiple experiences -- Finally, a case study is presented in order to show how the proposed approach can be used in the industrial application

Implementation of conceptual validation of product mock ups with augmented reality; Implementaci??n de la validaci??n conceptual de modelo blando con realidad aumentada

Osorio G??mez, Gilberto; Mej??a Guti??rrez, Ricardo; R??os Zapata, David
Fonte: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a Publicador: Grupo de Investigaci??n en Ingenier??a de Dise??o - GRID; Design Engineering Research Group - GRID; Escuela de Ingenier??a
Tipo: article; Art??culo; publishedVersion
ENG
Relevância na Pesquisa
106.22%
La implementaci??n de ayudas inform??ticas en el dise??o de productos es pr??cticamente una demanda en el dise??o del siglo XXI, ya que su uso permite un aumento de la calidad y la creatividad de los entregables de un proceso de dise??o -- Pero esta implementaci??n debe estar guiada por un proceso acad??mico, en el cual se implementen tecnolog??as y metodolog??as de trabajo -- El presente art??culo muestra los resultados de una implementaci??n de t??cnicas de realidad virtual y aumentada para validar el dise??o de productos en cursos de movilidad el??ctrica dentro del pregrado en Ingenier??a de Dise??o de Producto en la Universidad EAFIT; The implementation of computational aids in product design is a demand in the design processes on century XXI, that because they allow an increase in quality and creativity of the deliverables of a design process -- But this implementation should be guided to an academic process, where technologies methodologies work along -- This article presents the results of an implementation of virtual reality techniques to validate and increased product design courses within the undergraduate electrical mobility in Product Design Engineering at that university