Affiliation:
1. School of Engineering and Sciences, Tecnológico de Monterrey, Sur Monterrey, NL, Mexico
2. College of Engineering, Montana State University, Bozeman, MT, USA
Abstract
The Given-Find-Solution (GFS) method is a widely used procedure to systematically understand “what the problem is” in engineering problems. Nevertheless, the GFS method does not provide a clear guide on how to handle uncertainty, feasibility, and preference for design problems. Addressing this issue is crucial since the designer usually requires making assumptions to be able to propose functional solutions. The Given-Find-In Order To-Subjected To (GFIS) method and roadmap are here proposed to systematically state a design problem and requirements using fuzzy desirability functions to handle uncertainty, feasibility, and preference. The GFIS method lists the parameters, variables, specifications, restrictions, and preferences to facilitate the decision-making process. A comparative study was conducted with undergraduate students from Tecnológico de Monterrey enrolled in the course Design Methodologies. The students solved a band brake design problem before and after applying the GFIS method, and their performance was compared. The results showed a significant improvement in their decision-making ability, their capability to find feasible solutions, and the time required to make a design proposal.
Subject
Mechanical Engineering,Education
Reference47 articles.
1. Design Cognition
2. Sobek DII. Understanding the importance of intermediate representations in engineering. In: Proceedings of the 2001 American Society of Engineering Education annual conference, Albuquerque, New Mexico, 24–27 June 2001. New Mexico: ASEE, pp.6.1083.1–6.1083.8.
3. The Influence of the Designer’s Expertise on the Design Process
4. Linking design process to customer satisfaction through virtual design of experiments
5. Engineering Design Processes: A Comparison of Students and Expert Practitioners