printer friendly pageME 206A: Design for Extreme Affordability
Design for Extreme Affordability (fondly called Extreme) is a two-quarter course offered by the d.school through the School of Engineering and the Graduate School of Business. This multidisciplinary project-based experience creates an enabling environment in which students learn to design products and services that will change the lives of the world's poorest citizens. Students work directly with course partners on real world problems, the culmination of which is actual implementation and real impact. Topics include design thinking, product and service design, rapid prototype engineering and testing, business modelling, social entrepreneurship, team dynamics, impact measurement, operations planning and ethics. Possibility to travel overseas during spring break. Previous projects include d.light, Driptech, Earthenable, Embrace, the Lotus Pump, MiracleBrace, Noora Health and Sanku. Periodic design reviews; Final course presentation and expo; industry and adviser interaction. Limited enrollment via application. Must sign up for ME206A and
ME206B. See
extreme.stanford.edu
Terms: Win
| Units: 4
Instructors:
Coulson, S. (PI)
;
Yeturu, M. (SI)
ME 206B: Design for Extreme Affordability
Design for Extreme Affordability (fondly called Extreme) is a two-quarter course offered by the d.school through the School of Engineering and the Graduate School of Business. This multidisciplinary project-based experience creates an enabling environment in which students learn to design products and services that will change the lives of the world's poorest citizens. Students work directly with course partners on real world problems, the culmination of which is actual implementation and real impact. Topics include design thinking, product and service design, rapid prototype engineering and testing, business modelling, social entrepreneurship, team dynamics, impact measurement, operations planning and ethics. Possibility to travel overseas during spring break. Previous projects include d.light, Driptech, Earthenable, Embrace, the Lotus Pump, MiracleBrace, Noora Health and Sanku. Periodic design reviews; Final course presentation and expo; industry and adviser interaction. Limited enrollment via application. Must sign up for ME206A and
ME206B. See
extreme.stanford.edu. Cardinal Course certified by the Haas Center
Terms: Spr
| Units: 4
Instructors:
Coulson, S. (PI)
;
Yeturu, M. (SI)
ME 236: Tales to Design Cars By
Students learn to tell personal narratives and prototype connections between popular and historic media using the automobile. Explores the meaning and impact of personal and preserved car histories. Storytelling techniques serve to make sense of car experiences through engineering design principles and social learning, Replay memories, examine engagement and understand user interviews, to design for the mobility experience of the future. This course celebrates car fascination, and leads the student through finding and telling a car story through the REVS photographic archives, ethnographic research, interviews, and diverse individual and collaborative narrative methods-verbal, non-verbal, and film. Methods draw from socio-cognitive psychology design thinking, and fine art; applied to car storytelling. Course culminates in a final story presentation and showcase. Restricted to co-term and graduate students. Class Size limited to 16.
Terms: Spr
| Units: 1-3
| Repeatable
2 times
(up to 6 units total)
Instructors:
Karanian, B. (PI)
ME 243: Designing Emotion: for Reactive Car Interfaces
Students learn to define emotions as physiology, expression, and private experience using the automobile and shared space. Explores the meaning and impact of personal and user car experience. Reflective, narrative, and socio-cognitive techniques serve to make sense of mobility experiences; replay memories; examine engagement; understand user interviews. This course celebrates car fascination and leads the student through finding and telling the car experience through discussion, ethnographic research, interviews, and diverse individual and collaborative narrative methods-verbal, non-verbal, and in car experiences. Methods draw from socio-cognitive psychology, design thinking, and fine art, and are applied to the car or mobility experience. Course culminates in a final individual narrative presentation and group project demonstration. Class size limited to 18.
Terms: Aut
| Units: 1-3
| Repeatable
2 times
(up to 3 units total)
Instructors:
Karanian, B. (PI)
ME 368B: Biodesign Innovation: Concept Development and Implementation (BIOE 374B, MED 272B)
In this two-quarter course, multidisciplinary teams identify real unmet healthcare needs, invent health technologies to address them, and plan for their implementation into patient care. In second quarter, teams select a lead solution to advance through technical prototyping, strategies to address healthcare-specific requirements (IP, regulation, reimbursement), and business planning. Class sessions include faculty-led instruction, case studies, coaching sessions by experts, guest lecturers, and interactive team meetings. Enrollment is by application. Students are required to take both quarters of the course.
Terms: Spr
| Units: 4
| Repeatable
2 times
(up to 8 units total)
MED 235: Designing Research-Based Interventions to Solve Global Health Problems (AFRICAST 135, AFRICAST 235, EDUC 135, EDUC 335, EPI 235, HUMBIO 26)
The excitement around social innovation and entrepreneurship has spawned numerous startups focused on tackling world problems, particularly in the fields of education and health. The best social ventures are launched with careful consideration paid to research, design, and efficacy. This course offers students an immersive educational experience into understanding how to effectively develop, evaluate, and scale social ventures. Students will also get a rare "behind-the-scenes" glimpse at the complex ethical dilemmas social entrepreneurs have tackled to navigate the odds. Partnered with TeachAids, a global award-winning nonprofit (scaled to 82 countries), this course introduces students to the major principles of research-based design and integrates instruction supported by several game-changing social leaders. Open to both undergraduate and graduate students, it culminates in a formal presentation to an interdisciplinary panel of diverse Silicon Valley leaders. (Cardinal Course certified by the Haas Center)
Terms: Win
| Units: 3
MED 272A: Biodesign Innovation: Needs Finding and Concept Creation (BIOE 374A, ME 368A)
In this two-quarter course series (
BIOE 374A/B,
MED 272A/B,
ME 368A/B,
OIT 384/5), multidisciplinary student teams identify real-world unmet healthcare needs, invent new health technologies to address them, and plan for their implementation into patient care. During the first quarter (winter), students select and characterize an important unmet healthcare problem, validate it through primary interviews and secondary research, and then brainstorm and screen initial technology-based solutions. In the second quarter (spring), teams select a lead solution and move it toward the market through prototyping, technical re-risking, strategies to address healthcare-specific requirements (regulation, reimbursement), and business planning. Final presentations in winter and spring are made to a panel of prominent health technology experts and/or investors. Class sessions include faculty-led instruction and case studies, coaching sessions by industry specialists, expert guest lecturers, and int
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In this two-quarter course series (
BIOE 374A/B,
MED 272A/B,
ME 368A/B,
OIT 384/5), multidisciplinary student teams identify real-world unmet healthcare needs, invent new health technologies to address them, and plan for their implementation into patient care. During the first quarter (winter), students select and characterize an important unmet healthcare problem, validate it through primary interviews and secondary research, and then brainstorm and screen initial technology-based solutions. In the second quarter (spring), teams select a lead solution and move it toward the market through prototyping, technical re-risking, strategies to address healthcare-specific requirements (regulation, reimbursement), and business planning. Final presentations in winter and spring are made to a panel of prominent health technology experts and/or investors. Class sessions include faculty-led instruction and case studies, coaching sessions by industry specialists, expert guest lecturers, and interactive team meetings. Enrollment is by application only, and students are required to participate in both quarters of the course. Visit
http://biodesign.stanford.edu/programs/stanford-courses/biodesign-innovation.html to access the application, examples of past projects, and student testimonials. More information about Stanford Biodesign, which has led to the creation of 50 venture-backed healthcare companies and has helped hundreds of student launch health technology careers, can be found at
http://biodesign.stanford.edu/.
Terms: Win
| Units: 4
Instructors:
Denend, L. (PI)
;
Edmonds, Z. (SI)
;
Makower, J. (SI)
...
more instructors for MED 272A »
Instructors:
Denend, L. (PI)
;
Edmonds, Z. (SI)
;
Makower, J. (SI)
;
Venook, R. (SI)
;
Sunier, S. (TA)
MED 272B: Biodesign Innovation: Concept Development and Implementation (BIOE 374B, ME 368B)
In this two-quarter course, multidisciplinary teams identify real unmet healthcare needs, invent health technologies to address them, and plan for their implementation into patient care. In second quarter, teams select a lead solution to advance through technical prototyping, strategies to address healthcare-specific requirements (IP, regulation, reimbursement), and business planning. Class sessions include faculty-led instruction, case studies, coaching sessions by experts, guest lecturers, and interactive team meetings. Enrollment is by application. Students are required to take both quarters of the course.
Terms: Spr
| Units: 4
| Repeatable
2 times
(up to 8 units total)
MS&E 297: "Hacking for Defense": Solving National Security issues with the Lean Launchpad
In a crisis, national security initiatives move at the speed of a startup yet in peacetime they default to decades-long acquisition and procurement cycles. Startups operate with continual speed and urgency 24/7. Over the last few years they've learned how to be not only fast, but extremely efficient with resources and time using lean startup methodologies. In this class student teams will take actual national security problems and learn how to apply lean startup principles, ("business model canvas," "customer development," and "agile engineering) to discover and validate customer needs and to continually build iterative prototypes to test whether they understood the problem and solution. Teams take a hands-on approach requiring close engagement with actual military, Department of Defense and other government agency end-users. Team applications required in February, see
hacking4defense.stanford.edu. Limited enrollment.
Terms: Spr
| Units: 3-5
Instructors:
Blank, S. (PI)
;
Felter, J. (PI)
;
Weinstein, S. (PI)
...
more instructors for MS&E 297 »
Instructors:
Blank, S. (PI)
;
Felter, J. (PI)
;
Weinstein, S. (PI)
;
Aubakirova, M. (TA)
;
Paul, S. (TA)
NBIO 227: Understanding Techniques in Neuroscience
Students will learn to select and evaluate multidisciplinary techniques for approaching modern neuroscience questions. A combination of lectures and small group paper discussions will introduce techniques from molecular, genetic, behavioral, electrophysiological, imaging, and computational neuroscience. Students will be expected to complete homework assignments analyzing primary literature and attend optional laboratory demonstrations. Intended for graduate students, postdocs, and staff from any discipline; and for advanced undergraduates in the biosciences, engineering, or medicine.
Terms: Aut
| Units: 2
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