Paper ID #8959Design Heuristics: An Evidence-Based tool to improve innovationDr. Seda Yilmaz, Iowa State University Dr. Yilmaz is an Assistant Professor of Industrial Design who teaches design studios and lecture courses on developing creativity and research skills. For her research, she investigates design approaches and ideation, creative processes, and cross-disciplinary design team dynamics. She is the author of more than 20 peer-reviewed journals and conference proceedings. She also serves on review, advisory, and scientific boards of various journals and conferences. Her current research focuses on identifying
Paper ID #8808Investigating impacts on the ideation flexibility of engineersDr. Seda Yilmaz, Iowa State University is an Assistant Professor of Industrial Design who teaches design studios and lecture courses on devel- oping creativity and research skills. For her research, she investigates design approaches and ideation, ethnography in design, foundations of innovation, creative processes, and cross-disciplinary design team dynamics. She is the author of more than 20 peer-reviewed journals and conference proceedings. She also serves on review, advisory, and scientific boards of various journals and conferences. Her
], and thusheightens engagement and learning [16]. Experiments should therefore be tuned to their specificaudience, such that the lab becomes an enjoyable experience instead of merely a hoop needing tobe jumped through to progress.2.4 Appeal to different types of learning stylesBalchen et al. [2] said that experiments should “give visual and acoustic sensation”.namely Visual, Auditory, Read/Write, and Kinesthetic (VARK) modalities [17].2.5 Provide a reasonable return on investment (ROI)It is not enough to say that an experiment should be low cost, because low is relative to theinstitution. Additionally, a low cost experiment that needs repurchase every year or two is notnecessarily lower cost than specialty hardware that is purchased once then
Paper ID #9042Prof. Ram Pendyala, Arizona State University Ram M. Pendyala is a Professor of Transportation Systems in the School of Sustainable Engineering and the Built Environment at Arizona State University. His expertise lies in the study of human activity-travel behavior, sustainable mobility strategies, public transportation systems, and the land use, travel, energy, and air quality impacts of a wide range of transportation policies and technologies. Dr. Pendyala has conducted more than $5 million in sponsored research and published nearly 100 peer-reviewed journal articles and book chapters. He serves on the editorial boards of a number of journals including Transporta- tion, Transport Reviews, Journal of
. Dr. Thole has published over 180 peer-reviewed archival journal and conference papers and advised over 50 theses and dissertations. She founded the Experimental and Computational Convection Laboratory (ExCCL) which is a Pratt and Whitney Center of Excellence for heat transfer. She is a Fellow of ASME and serves as the Chair of the Board of Directors for the International Gas Turbine Institute, as the Chair of the ASME - ME Department Head Executive Committee, as a member of the Vision 2030 Committee, and as the Chair of ASME’s Committee on Honors. She has been recognized by the U.S. White House Champion of Change for recruitment efforts in STEM and by Penn State’s Rosemary Schraer Mentoring Award.Ms. Melissa
for all the BSET majors. The course focuses on planning, development, andimplementation of an engineering design project, which includes formal report writing, projectdocumentation, group presentations, and project demonstrations. The goal of these courses is todemonstrate the ability to manage a major project involving the design and implementation ofproducts with a mixture of electrical and mechanical elements as a member of a productinnovation and/or development team. In these project-based courses, the students are expected toeffectively manage their time and team efforts to produce a working prototype of a product inthree ten-week quarters. Progress and formal reports, and oral presentations constitute integralcomponents of this course
Simulation Wheatstone Bridge Circuit Derive output voltage expression of the op Linearize the circuit to meet deisign amp-based Wheatsone bridge circuit with specification. Use Matlab as a design tool to respect to the thermistor and resistor network. assist in achieving the design goals. Analyze Write Matlab script to simulate the op amp circuit linearity of the design. Build the circuit. output voltage as s function of temperature. Week 3 – Voltage Comparing and Alarm Week 4 – System Integration and Design Circuits Design Characterization Design comparing circuit to cmpare voltage
Education, 2014 Paper ID #8971 Mechanical Engineering from Cornell University in 1994. His research interests include product family and product platform design, product dissection, multidisciplinary design optimization (MDO), and addi- tive manufacturing, and he has published over 250 peer-reviewed papers to date. He teaches courses on Product Family Design, Concurrent Engineering, Mechanical Systems Design, and Product Dissection, and he serves as the Director of the Product Realization Minor in the College of Engineering. He is a recipient of the ASEE Fred Merryfield Design Award and a NSF Career Award. He has received