More Like this

1. Data-Driven Dynamic Network Modeling for Analyzing the Evolution of Product Competitions

   https://doi.org/10.1115/1.4045687  

   Xie, Jian; Bi, Youyi; Sha, Zhenghui; Wang, Mingxian; Fu, Yan; Contractor, Noshir; Gong, Lin; Chen, Wei (March 2020, Journal of Mechanical Design)

   null (Ed.)

   Abstract Understanding the impact of engineering design on product competitions is imperative for product designers to better address customer needs and develop more competitive products. In this paper, we propose a dynamic network-based approach for modeling and analyzing the evolution of product competitions using multi-year buyer survey data. The product co-consideration network, formed based on the likelihood of two products being co-considered from survey data, is treated as a proxy of products’ competition relations in a market. The separate temporal exponential random graph model (STERGM) is employed as the dynamic network modeling technique to model the evolution of network as two separate processes: link formation and link dissolution. We use China’s automotive market as a case study to illustrate the implementation of the proposed approach and the benefits of dynamic network models compared to the static network modeling approach based on an exponential random graph model (ERGM). The results show that since STERGM takes preexisting competition relations into account, it provides a pathway to gain insights into why a product may maintain or lose its competitiveness over time. These driving factors include both product attributes (e.g., fuel consumption) as well as current market structures (e.g., the centralization effect). With the proposed dynamic network-based approach, the insights gained from this paper can help designers better interpret the temporal changes of product competition relations to support product design decisions. 

   more » « less
2. How do undergraduate engineering students conceptualize product design? An analysis of two third‐year design courses

   https://doi.org/10.1002/jee.20468  

   Miska, Jacob W.; Mathews, Laura; Driscoll, Jessica; Hoffenson, Steven; Crimmins, Sarah; Espera, Jr., Alejandro; Pitterson, Nicole (May 2022, Journal of Engineering Education)

   Abstract BackgroundEngineering education traditionally emphasizes technical skills, sometimes at the cost of under‐preparing graduates for the real‐world engineering context. In recent decades, attempts to address this issue include increasing project‐based assignments and engineering design courses in curricula; however, a skills gap between education and industry remains. Purpose/HypothesisThis study aims to understand how undergraduate engineering students perceive product design before and after an upper‐level project‐based design course, as measured through concept maps. The purpose is to measure whether and how students account for the technical and nontechnical elements of design, as well as how a third‐year design course influences these design perceptions. Design/MethodConcept maps about product design were collected from 105 third‐year engineering students at the beginning and end of a design course. Each concept map's content and structure were quantitatively analyzed to evaluate the students' conceptual understandings and compare them across disciplines in the before and after conditions. ResultsThe analyses report on how student conceptions differ by discipline at the outset and how they changed after taking the course. Mechanical Engineering students showed a decrease in business‐related content and an increased focus on societal content, while students in the Engineering Management and Industrial and Systems Engineering programs showed an increase in business topics, specifically market‐related content. ConclusionThis study reveals how undergraduate students conceptualize product design, and specifically to what extent they consider engineering, business, and societal factors. The design courses were shown to significantly shape student conceptualizations of product design, and they did so in a way that mirrored the topics in the course syllabi. The findings offer insights into the education‐practice skills gap and may help future educators to better prepare engineering students to meet industry needs. 

   more » « less
3. Navigating Process-Product Tensions using a Design Canvas

   Thompson, M. S.; Cheville, R. A. (April 2018, ASEE annual conference & exposition proceedings)

   National surveys of design courses find many similarities between the way capstone courses are structured and implemented, although more programs focus on the design process rather than creating a product. What is not as well understood are the methods and techniques used to inform students of interrelationship between product and process. This paper discusses the use of multiple formal design representations as a means to focus learning on the interrelation between design processes and products. The ability to utilize multiple representations has been demonstrated to be effective in improving student learning in math education, a discipline that can be highly process-oriented. Similarly representational fluency impacts engineering modeling. In the context of teaching design the term representation here refers to a written or graphical expression of some aspect of the design process and/or product. Ideally the set of representations would form a minimal and complete orthonormal basis set; that is the ensemble of representations captures the design in its entirety and the representations are not redundant. Since the design work of many engineers is a set of plans or diagrams (forms of representation) the complete set of representations has the potential to capture both the process of design and serve as a product of design work. Over a four year period a set of representations was developed and trialed in a year-long senior capstone course in electrical and computer engineering at a small, private liberal arts institution. Using an iterative, action research approach that included student input a set of representations was developed by modifying or eliminating ineffective representations and introducing new formats based on analysis of the students’ response and success. To minimize redundancy and work towards completeness (i.e. a lean, 360° view of the process and product) representations were organized using a “design canvas” modeled after the Business Model Canvas. The Design Canvas classifies representations by actionable questions on two axes—system development and design choices— which in turn are organized hierarchically by scale. Results of the project and examples of representations for the current iteration of the Design Canvas are presented along with the Design Canvas development process. 

   more » « less
4. Modeling Consumer Decisions on Returning End-of-Use Products Considering Design Features and Consumer Interactions: An Agent Based Simulation Approach

   Raihanian Mashhadi, Ardeshir; Esmaeilian, Behzad; Behdad, Sara (August 2015, ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference)

   As electronic waste (e-waste) becomes one of the fastest growing environmental concerns, remanufacturing is considered as a promising solution. However, the profitability of take back systems is hampered by several factors including the lack of information on the quantity and timing of to-be-returned used products to a remanufacturing facility. Product design features, consumers’ awareness of recycling opportunities, socio-demographic information, peer pressure, and the tendency of customer to keep used items in storage are among contributing factors in increasing uncertainties in the waste stream. Predicting customer choice decisions on returning back used products, including both the time in which the customer will stop using the product and the end-of-use decisions (e.g. storage, resell, through away, and return to the waste stream) could help manufacturers have a better estimation of the return trend. The objective of this paper is to develop an Agent Based Simulation (ABS) model integrated with Discrete Choice Analysis (DCA) technique to predict consumer decisions on the End-of-Use (EOU) products. The proposed simulation tool aims at investigating the impact of design features, interaction among individual consumers and socio-demographic characteristics of end users on the number of returns. A numerical example of cellphone take-back system has been provided to show the application of the model. 

   more » « less
5. Deep Learning Methods of Cross-Modal Tasks for Conceptual Design of Product Shapes: A Review

   https://doi.org/10.1115/1.4056436  

   Li, Xingang; Wang, Ye; Sha, Zhenghui (April 2023, Journal of Mechanical Design)

   Conceptual design is the foundational stage of a design process that translates ill-defined design problems into low-fidelity design concepts and prototypes through design search, creation, and integration. In this stage, product shape design is one of the most paramount aspects. When applying deep learning-based methods to product shape design, two major challenges exist: (1) design data exhibit in multiple modalities and (2) an increasing demand for creativity. With recent advances in deep learning of cross-modal tasks (DLCMTs), which can transfer one design modality to another, we see opportunities to develop artificial intelligence (AI) to assist the design of product shapes in a new paradigm. In this paper, we conduct a systematic review of the retrieval, generation, and manipulation methods for DLCMT that involve three cross-modal types: text-to-3D shape, text-to-sketch, and sketch-to-3D shape. The review identifies 50 articles from a pool of 1341 papers in the fields of computer graphics, computer vision, and engineering design. We review (1) state-of-the-art DLCMT methods that can be applied to product shape design and (2) identify the key challenges, such as lack of consideration of engineering performance in the early design phase that need to be addressed when applying DLCMT methods. In the end, we discuss the potential solutions to these challenges and propose a list of research questions that point to future directions of data-driven conceptual design. 

   more » « less