Business sensible design: Exploratory research on the importance of considering cost and profit for undergraduate industrial design students.

Shahi, Sepideh

14 October 2013

No description available.

Design

design education

design process

business design

financial assessment tool

design tools

design business model

Developing Functional Literacy of Machine Learning Among UX Design Students

Srivastava, Akshat

29 September 2021

No description available.

Design

User Experience Design

Machine Learning

Human-Centered AI

Artificial Intelligence

Design Education

The Innovation Imperative: Not Without Design

Hardin, Dianne

11 July 2014

No description available.

Design

design

innovation

design driven organization

Sempathy Continuum Model

design value

design education

Design Research Planning and Execution:A comparison between undergraduate design students’ and design research practitioners’ processes of design research planning and execution

Hu, Lingyue

January 2014

No description available.

Design

Education

design research

design research planning and execution

design research practitioners

design education

design research processes

Product and color: Designing a tool to aid methodical color application for Industrial Design students

Liu, Lanna R.

23 October 2015

No description available.

Design

Color

Product Design

Industrial Design

Color Selection

Color Application

Design Education

TRACING THE PATHS OF INTERIOR DESIGN EDUCATION

NUTTER, KRISTA ATKINS

11 October 2001

No description available.

Architecture

HISTORY OF INTERIOR DESIGN

INTERIOR DESIGN EDUCATION

Design Research in Design Education: Relevance and Implementation

Strouse, Robert V.

08 September 2010

No description available.

Design

Design Research

Design Research Methodologies

Design Education

Design and Critical Thinking: A Process Model to Support Critical, Creative and Empathic Learning in Studio-based Design Education

Duncan, Erin

19 December 2012

No description available.

Design

Design Education

Interior Design

Critical Thinking

Creativity

Empathy

Design Process

<b>​​A Move Toward Transdisciplinarity: Exploring Challenges and Opportunities of Cross-College Co-teaching in the Pursuit of Innovation</b>

Deana Maria Lucas (18429996)

25 April 2024

<p dir="ltr">This research examines the integration of three academic units—engineering/technology, business management, and liberal arts—through collaborative teaching. Two instructors from different disciplines guide students together in real-time to solve relevant problems and explore opportunities for innovation. To gain insights, a qualitative case study approach was used, incorporating semi-structured interviews with university stakeholders, observations of co-taught classes, and analysis of curriculum materials. The study was framed by the Community of Transformation (CoT) theoretical perspective. This methodology provided an understanding of the dynamics of cross-college co-teaching in higher education to foster innovation. The results highlight both benefits and obstacles related to institutional structure, advising, implementation of co-teaching, and strategies for sustaining cross-college co-teaching for transdisciplinarity in the pursuit of innovation. </p>

Higher education

Trandisciplinary

Design Education

Higher Education

Cross-college Co-teaching

Beyond the Classroom: Understanding the Educational Significance of Non-Curricular Engineering Design Experiences

Kusano, Stephanie Marie

29 January 2015

The purpose of my dissertation study is to better understand the educational experiences of undergraduate engineering students within non-curricular learning environments, specifically in the form of extracurricular engineering groups or programs. I first conducted a content analysis of engineering education literature to identify where engineering design learning occurs, and to synthesize the implications of studies regarding engineering design learning. Aiming to fill a gap in the literature regarding non-curricular learning contexts, this study investigated what extracurricular groups and programs can educationally provide undergraduate engineering students by observing and interviewing students engaging in these environments. This study also aimed to identify if and how engineering students find navigational flexibility within engineering curricula, and how non-curricular learning environments might provide navigational flexibility. With regard to where engineering design learning occurs, the literature points to various educational contexts that effectively deliver engineering design education. Strategies that involve authentic and longer-term engineering design experiences tend to be the most impactful in terms of student outcomes and perceptions, however those experiences are not always implementable at larger scale. More traditional educational approaches to engineering design learning, though less impactful, are still effective delivery methods for introducing key aspects of engineering design education (e.g. modeling, global/societal/economic/environmental factors, communication skills). However, there was limited literature regarding more non-curricular learning experiences, such as learning in designed settings, outreach learning, learning media, and everyday informal learning. This literature review is one of the first attempts towards synthesizing where and how engineering design learning occurs, and has identified a significant gap in the literature regarding non-curricular educational settings. Addressing the identified gap in engineering education literature regarding non-curricular learning experiences, this dissertation study investigated five non-curricular engineering learning sites for undergraduate engineering students at a large research-driven state institution. Informed by the preliminary findings of a pilot study, I first investigated the salient features of engineering-related non-curricular activities from the students' perspectives using a self-directed learner autonomy framework to guide the study. Students participating in extracurricular engineering environments exhibited strong attributes of self-directed learners, particularly a willingness and ability to be challenged and to learn. The educational environments of the extracurricular opportunities cultivated these self-directed learning attributes by providing students a space to be exposed to an engineering community, authentic engineering work, and accessible resources. Findings from this portion of the dissertation indicated necessary modifications to the self-directed learner autonomy framework used to guide this study. The modified framework contributes a possible approach towards future assessment or research pursuits regarding non-curricular learning experiences in engineering. I also investigated the role non-curricular activities play in providing engineering students navigational flexibility through engineering curricula. Extracurricular engineering environments afford navigational flexibility by offering students opportunities to work on motivating challenges with and among supportive communities. By providing a space for students to express their engineering selves in primarily self-directed ways, extracurricular engineering experiences cultivate students' drive to find and pursue personally meaningful curricular and non-curricular educational experiences. However, institutional barriers, particularly time constraints and institutionally recognized achievements, stifle students' flexibility and willingness to pursue personally meaningful experiences. The findings of this study have helped uncover the various affordances non-curricular learning experiences provide engineering students, but more importantly, have identified the institutional barriers that prevent students from taking full advantage of non-curricular learning experiences. Based on these findings, I recommend that university and program level structures be reevaluated to encourage and provide students with more flexibility to find personalized learning experiences in and out of the classroom. / Ph. D.

Engineering Education

Engineering Design Education

Non-curricular Learning

Self-Directed Learning

Navigational Flexibility