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301 - 310 of 430 results for: CSI::certificate ; Currently searching offered courses. You can also include unoffered courses

MATSCI 302: Solar Cells

This course takes a comprehensive view of solar cells and what will need to be done to enable them to substantially change how the world obtains its electricity. After covering the fundamentals (light trapping, current flow in pn junctions, recombination) that are important for almost all photovoltaic technologies, the course will address technologies based on highly crystalline forms of silicon and gallium arsenide. The device simulator PC1D will be used to model solar cells. The course will then go through multijunctions cells with concentrators, low-cost thin-film solar cells, organic semiconductors, hybrid perovskites and nanowires. There will be discussions of module design and the economics of the solar industry. There will be a tour of a company that makes solar cells and guest lectures.
Terms: Aut | Units: 3 | Grading: Letter or Credit/No Credit
Instructors: McGehee, M. (PI)

ME 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 | Grading: Letter (ABCD/NP)

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
Terms: Spr | Units: 4 | Grading: Letter (ABCD/NP)

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 car 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 ⿿drive along⿝ or mobility experience. Course culminates in a final individual narrative presentation and group project demonstration.
Terms: Aut | Units: 1-3 | Repeatable for credit | Grading: Letter or Credit/No Credit
Instructors: Karanian, B. (PI)

ME 302B: The Future of the Automobile- Driver Assistance and Automated Driving

Automated vehicles are on the verge to productization and have been subject to a lot of news recently: GM bought a self-driving tech startup for presumably more than $1 billion. BMW, Intel and MobilEye teamed up to "bring fully autonomous driving to streets by 2021". Uber acquired Otto (another startup) for reportedly $680 million to lead Uber¿s self-driving car effort. MobilEye and Delphi announced "a partnership for Level 4/5 automated Driving solution for 2019". Ford announced to put a fleet of Level 4 autonomous vehicles on the road in 2021. Tesla is continuing to working on its Autopilot. Intel bought MobilEye. Sounds exciting ¿ if you have an idea what the terms and levels mean, and what the technology actually is, which is driving the vehicle automation. This class will provide a holistic introduction to the field of vehicle automation: The first three lectures will provide an overview, clarify terminology and categories, and dive into the legal and policy aspects of automated d more »
Automated vehicles are on the verge to productization and have been subject to a lot of news recently: GM bought a self-driving tech startup for presumably more than $1 billion. BMW, Intel and MobilEye teamed up to "bring fully autonomous driving to streets by 2021". Uber acquired Otto (another startup) for reportedly $680 million to lead Uber¿s self-driving car effort. MobilEye and Delphi announced "a partnership for Level 4/5 automated Driving solution for 2019". Ford announced to put a fleet of Level 4 autonomous vehicles on the road in 2021. Tesla is continuing to working on its Autopilot. Intel bought MobilEye. Sounds exciting ¿ if you have an idea what the terms and levels mean, and what the technology actually is, which is driving the vehicle automation. This class will provide a holistic introduction to the field of vehicle automation: The first three lectures will provide an overview, clarify terminology and categories, and dive into the legal and policy aspects of automated driving. The next three lectures discuss the technologies enabling vehicle automation and outline applications. Students are asked to work on a class assignment in groups discussing current topics of vehicle automation. The results of the group work will be presented in the final 2 lectures of the class. This is the second course of a 3-quarter seminar series, which build on one another but can be taken independently. This course, lectured by an industry expert, will introduce students to the technology behind the systems, the benefits, challenges, and future perspectives of this exciting field. Students will develop an understanding for the interactions of the technology, business, and public policies with a specific automotive focus.
Terms: Win | Units: 1 | Repeatable for credit | Grading: Satisfactory/No Credit

ME 302C: The Future of the Automobile- Mobility Entrepreneurship

The objective of this course is to develop an understanding for the requirements that go into the design of a highly complex yet easy-to-use product, i.e. the automobile. Students will learn about very different interdisciplinary aspects that characterize the automobile and personal mobility. This is part of a multi-quarter seminar series, which build on one another but can be taken independently. This quarter, students will learn from 10 different founders / C-level executives about how they built their mobility startup to change the world of transportation. Previous classes included speakers from Tesla, Lyft, Pearl Auto, Turo, Nauto. In hearing these founder stories, students will get an insight not only into the world of entrepreneurship but also the multidisciplinary nature of the transportation industry. The course consists of 50-minute discussions with founders, with students encouraged to participate and ask questions of the founders. To obtain credit, students must attend 8 out of 10 classes including the first class.
Terms: Spr | Units: 1 | Repeatable for credit | Grading: Satisfactory/No Credit

ME 368A: Biodesign Innovation: Needs Finding and Concept Creation (BIOE 374A, MED 272A)

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 medtech products to address them, and plan for their development into patient care. During the first quarter (winter 2017), 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 2017), 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 medtech experts and investors. Class sessions include faculty-led instruction and case demonstrations, coaching sessions by industry specialists, expert guest lecturers, and intera more »
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 medtech products to address them, and plan for their development into patient care. During the first quarter (winter 2017), 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 2017), 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 medtech experts and investors. Class sessions include faculty-led instruction and case demonstrations, coaching sessions by industry specialists, expert guest lecturers, and interactive team meetings. Enrollment is by application only, and students are expected 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 more than 40 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 | Grading: Medical Option (Med-Ltr-CR/NC)

ME 368B: Biodesign Innovation: Concept Development and Implementation (BIOE 374B, MED 272B)

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 medtech products to address them, and plan for their development into patient care. During the first quarter (winter 2017), 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 2017), 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 medtech experts and investors. Class sessions include faculty-led instruction and case demonstrations, coaching sessions by industry specialists, expert guest lecturers, and intera more »
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 medtech products to address them, and plan for their development into patient care. During the first quarter (winter 2017), 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 2017), 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 medtech experts and investors. Class sessions include faculty-led instruction and case demonstrations, coaching sessions by industry specialists, expert guest lecturers, and interactive team meetings. Enrollment is by application only, and students are expected 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 more than 40 venture-backed healthcare companies and has helped hundreds of student launch health technology careers, can be found at http://biodesign.stanford.edu/.
Terms: Spr | Units: 4 | Grading: Medical Option (Med-Ltr-CR/NC)

MED 157: Foundations for Community Health Engagement

Open to undergraduate, graduate, and MD students. Examination and exploration of community health principles and their application at the local level. Designed to prepare students to make substantive contributions in a variety of community health settings (e.g. clinics, government agencies, non-profit organization, advocacy groups). Topics include community health assessment; health disparities; health promotion and disease prevention; strategies for working with diverse, low-income, and underserved populations; and principles of ethical and effective community engagement.
Terms: Spr | Units: 3 | UG Reqs: WAY-ED, WAY-SI | Grading: Letter (ABCD/NP)

MED 200: Primary Care Presentations

This course is a lecture series offered during the winter quarter. The aim of this seminar is to allow medical students to experience the mindset of primary care physicians in real time. Classes feature presentations of patient cases submitted by Stanford faculty. Faculty presenters are provided with the diagnostic information for the cases in a sequential manner during and not in advance of each class, allowing students to learn from the thought process of physicians in real time as they put together the differential diagnosis, interpret diagnostic information, deliberate treatment and management options, and discuss other thoughts about the cases.
Terms: Win | Units: 1 | Grading: Medical Satisfactory/No Credit
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