Ciencias Exactas y Ciencias de la Salud
Permanent URI for this collectionhttps://hdl.handle.net/11285/551039
Pertenecen a esta colección Tesis y Trabajos de grado de las Maestrías correspondientes a las Escuelas de Ingeniería y Ciencias así como a Medicina y Ciencias de la Salud.
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- Improving manufacturing system design using particular and partial instantiated models based on an integrated product, processand ,manufacturing system reference framework(Instituto Tecnológico y de Estudios Superiores de Monterrey, 2020-12-03) Ramírez Alba, José Antonio; Molina Gutiérrez, Arturo; tolmquevedo; Rodríguez-Salvador, Marisela; Escuela de Ingeniería y Ciencias; Campus Ciudad de México; Ponce Cruz, PedroModern manufacturing systems have faced several changes in recent decades. The creation of Industry 4.0 and the changing dynamics of markets place an increasing pressure to generate better manufacturing systems that are flexible but robust at the same time. In this way, it arises the need to assist in the design, modification or improvement of manufacturing systems at different scales, both in large manufacturers and small and medium-sized enterprises. To help with this goal, enterprise modelling architectures supports the specific description of various aspects of an enterprise and assist in the product lifecycle development by reusing general models that can be tailored to particular scenarios through instantiation processes. This work improves the development of manufacturing systems through partial and particular instantiated models based on the Integrated Product, Process and Manufacturing System Development methodology. These methodology benefits from the characterization of different industrial sectors to provide a collection of tools and activities that avoid starting developing manufacturing systems from anew. In this way, the proposed solution is to create the particular models to assist in the design of different manufacturing scenarios: (i) product transfer, (ii) technology transfer and (ii) manufacturing system design. The design consists of generating: (i) decision flow diagrams to assist in the definition of the manufacturing system type, (ii) engineering activities to support the development of the system, (iii) different toolboxes to straightforward the activities achievements and, (iv) a general map to guide the development of particular instantiations of the model. To verify the efficiency of this model, case studies are created in which the particular project activities are developed, and finally, the results are measured by qualitative and quantitative parameters to allow performance measurement of the present work.
- The application of inclusive design approach in the conceptual design of mechatronic products and reconfigurable manufacturing systems(Instituto Tecnológico y de Estudios Superiores de Monterrey, 2004-12-01) Guízar Castrejón, Luis Manuel; MOLINA GUTIERREZ, ARTURO;;2015309; Molina Gutiérrez, Arturo; Ramírez Cadena, Miguel de Jesús; Céspedes Mota, Armando; Programa de Graduados en Ingeniería; Campus MonterreyIn the current rapidly ageing world, there is no commercial or social sense to design, develop or attempt to market products and services whose usability is unnecessarily, challenging to people, whether they be young or old, able-bodied or less able. There is the need to design and develop products with some functional capabilities that fulfill the needs of the widest possible population. This thesis is a research of how the inclusive design concepts can be applied and integrated in the process of product planning and its conceptual design. The methodology consists of a series of methods, considerations and activities that must be undertaken to perform a good design focusing on disabled people with the help of useful tools of the inclusive design. In addition, in this thesis is given a methodology for incorporating inclusive design concepts in reconfigurable manufacturing systems to enhance their key characteristics with the focus on a user centered approach, considering fully able users. The methodology comprehends an evaluation system for a FMS and the proposal to improve the system oriented to users. This thesis represents the use of wireless sensor technology to improve the assistive characteristics of products in the first part of mechatronic product design; and the addition of automation characteristics to the reconfigurable manufacturing systems to improve the system features and provide a better customization to users. Two case studies are developed in this thesis; the first one is the conceptual design of three mechatronic products and their improved capabilities with inclusive design. Then, a second case study with the addition of inclusive design to a existing manufacturing cell to achieve reconfigurability and improve its characteristics with the inclusive design approach.