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1. NOVICE DESIGNERS' USE OF PROTOTYPES AS COMMUNICATION TOOLS

   https://doi.org/10.1017/pds.2021.489  

   Krishnakumar, Sandeep; Lauff, Carlye; McComb, Christopher; Berdanier, Catherine; Menold, Jessica (August 2021, Proceedings of the Design Society)

   Abstract Prototypes are critical design artifacts, and recent studies have established the ability of prototypes to facilitate communication. However, prior work suggests that novice designers often fail to perceive prototypes as effective communication tools, and struggle to rationalize design decisions made during prototyping tasks. To understand the interactions between communication and prototypes, design pitches from 40 undergraduate engineering design teams were collected and qualitatively analysed. Our findings suggest that students used prototypes to explain and persuade, aligning with prior studies of design practitioners. The results also suggest that students tend to use prototypes to justify design decisions and adverse outcomes. Future work will seek to understand novice designers’ use of prototypes as communication tools in further depth. Ultimately, this work will inform the creation of pedagogical strategies to provide students with the skills needed to effectively communicate design solutions and intent. 

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2. Special Issue: Emerging Technologies and Methods for Early-Stage Product Design and Development

   https://doi.org/10.1115/1.4056744  

   Moghaddam, Mohsen; Marion, Tucker; Holtta-Otto, Katja; Fu, Kate; Olechowski, Alison; McComb, Christopher (April 2023, Journal of Mechanical Design)

   Moghaddam, Mohsen; Marion, Tucker; Holtta-Otto, Katja; Fu, Kate; Olechowski, Alison; McComb, Christopher (Ed.)

   The early-stage product design and development (PDD) process fundamentally involves the processing, synthesis, and communication of a large amount of information to make a series of key decisions on design exploration and specification, concept generation and evaluation, and prototyping. Although most current PDD practices depend heavily on human intuition, advances in computing, communication, and human–computer interaction technologies can transform PDD processes by combining the creativity and ingenuity of human designers with the speed and precision of computers. Emerging technologies like artificial intelligence (AI), cloud computing, and extended reality (XR) stand to substantially change the way designers process information and make decisions in the early stages of PDD by enabling new methods such as natural language processing, generative modeling, cloud-based virtual collaboration, and immersive design and prototyping. These new technologies are unlikely to render the human designer obsolete, but rather do change the role that the human designer plays. Thus, it is essential to understand the designer's role as an individual, a team, and a group that forms an organization. The purpose of this special issue is to synthesize the state-of-the-art research on technologies and methods that augment the performance of designers in the front-end of PDD—from understanding user needs to conceptual design, prototyping, and development of systems architecture while also emphasizing the critical need to understand the designer and their role as well. 

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3. Evaluating the Effect of Project Frame on Communicative Patterns in Capstone Design Pitches

   https://doi.org/10.1115/DETC2022-91229  

   Link, Samantha; Krishnakumar, Sandeep; Menold, Jessica (August 2022, American Society of Mechanical Engineers)

   Effective communication is an integral part of engineering design and leads to successful design outcomes. While there have been extensive calls to equip novice designers with effective communication skills, there is only a limited body of work that has attempted to characterize the communication patterns of novice designers, particularly when engaging with external audiences. This work seeks to characterize how the project type, or the nature of design problem, shapes the communicative patterns of novice designers when communicating design outcomes to external audiences. Presentations of design solutions from 46 teams were collected at the end of a semester-long capstone design program. These presentations were then characterized as industry- and human-centered projects. Analysis was conducted using topic modeling and Linguistic Inquiry and Word Count analysis to identify differences in linguistic patterns of novice designers between the two project types. Contrary to prior findings, no significant differences were found, implying that the communication patterns of novice designers are not affected by the type of project (or design problem being solved). 

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4. Understanding the Roles of Low-fidelity Prototypes in Engineering Design Activity

   Ali, Hadi; Lande, Micah (June 2019, ASEE Annual Conference proceedings)

   Practical ingenuity is demonstrated in engineering design through many ways. Students and practitioners alike create many iterations of prototypes in solving problems and design challenges. While focus is on the end product and/or the process employed along the way, this study combines these interests to better understand the product and process through the roles of initial prototyping through the creation of such things as alpha prototypes, conceptual mock-ups, and other rapid prototypes. We explore the purposes and affordances of these low-fidelity prototypes in engineering design activity through both synthesis of different perspectives from literature to compose an integrated framework to characterize prototypes that are developed as part of ideation in designing, as well as historic and student examples and case studies. Studying prototyping (activity) and prototypes (artifacts) is a way to studying design thinking and how students and practitioners learn and apply a problem solving process to their work. Prototyping can make readily evident and explicit (through act of creating and the creations themselves) some of the thinking and insights of the engineering designer into the design problem. Initial, low-fidelity prototypes are characterized as prototypes that are not always elaborate depictions containing all the fine details of the design. In fact, features in a prototype do not always appear in the final design. The underpinning of this work is that prototyping, as a process, is an act of externalizing design thinking, embodying it through physical objects. While several prescriptive frameworks have been developed to describe what prototypes prototype and the role of prototype, the role of low-fidelity prototypes, specifically, lacks sufficient attention. We will present prototyping rather as an holistic mindset that can be a means to approach problem solving in a more accessible manner. It can be helpful to apply this sort of mindset approach from these initial problem understanding through functional decomposition to quickly communicate and learn by trial and building in learning loops to oneself, with an engineering design team, and to potential stakeholders outside the team. 

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5. Problem Reframing and Empathy Manifestation in the Innovation Process

   https://doi.org/10.18260/1-2--35084  

   Kim, Eunhye; Purzer, Senay; Vivas-Valencia, Carolina; Payne, Lindsey; Kong, Nan (June 2020, 2020 ASEE Annual Conference & Exposition, Montréal, Quebec, Canada)

   null (Ed.)

   In the innovation process, design practice involves multiple iterations of framing and reframing under high levels of uncertainty and ambiguity. Additionally, as user desirability is a significant criterion for innovative design, designers' empathy in the framing and reframing process is considered a critical user-centered design ability that engineering students should develop. In this context, this study aims to discuss how problem framing and empathy manifestation interplay in the innovation process. As an exploratory study, this study investigates biomedical engineering (BME) students’ reframing processes and decisions in a one-semester design project involving problem definition and concept identification. This investigation is guided by the following research questions: 1) how do engineering students perceive the relationship between empathy and reframing in the innovation process, 2) how and how often do they make reframing decisions over the stages of problem definition and concept identification, and 3) how different are reframing processes and decisions between teams with higher and lower empathetic design tendency scores? This study was conducted in a junior-level design course, including 76 BME students. We collected and analyzed three data sources: students’ self-reflection reports about their reframing processes, empathic design tendency score, and interviews with selected teams and instructors. The results demonstrated that more than half of the students perceived the connection between empathy and their reframing decisions and that they usually had one reframing moment in the stages of problem definition and concept identification. Also, the findings illustrate triggers for their reframing moments, information sources guiding their reframing processes, changes made through reframing, and influences of reframing decisions on team project processes. Furthermore, the comparison of the selected two teams revealed two differences in reframing processes between the high and low empathic design tendency-scoring teams. The authors believe that the study expands engineering education research on engineering students’ empathy and problem-framing by illustrating students’ reframing processes throughout a design project and exploring the interplay of empathy and reframing processes. Also, based on our study findings, engineering design educators can promote student empathy development by including more project activities and evaluation criteria related to empathic design and providing formative feedback on their reframing processes. 

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