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121 - 130 of 291 results for: ME

ME 284B: Cardiovascular Bioengineering (BIOE 284B)

Continuation of ME/ BIOE 284A. Integrative cardiovascular physiology, blood fluid mechanics, and transport in the microcirculation. Sensing, feedback, and control of the circulation. Overview of congenital and adult cardiovascular disease, diagnostic methods, and treatment strategies. Engineering principles to evaluate the performance of cardiovascular devices and the efficacy of treatment strategies.
Last offered: Winter 2011

ME 287: Mechanics of Biological Tissues

Introduction to the mechanical behaviors of biological tissues in health and disease. Overview of experimental approaches to evaluating tissue properties and mathematical constitutive models. Elastic behaviors of hard tissues, nonlinear elastic and viscoelastic models for soft tissues.
Terms: Aut | Units: 4

ME 288: ReDesigning Theater: Live & Digital Performance (TAPS 130)

This quarter¿s version of ReDesigning Theater looks at Live and Digital Performance. We will examine the use of digital technology in collaboration with live performance. Students will learn and employ the design thinking process as well as improv and theatrical techniques. We aim to create user-centric, interactive experiences where technology enables the audience to become part of and/or influence the outcome of the story or its presentation. Student projects will begin with the concepts enabled by personal technology such as smart phones and expand to animation, video projection, and other media. Students will work in small groups to investigate and experiment with formats that blur the lines between live and digital, performer and audience, and physical and virtual platforms. This project-based course is accessible to students of all backgrounds interested in exploring and transforming the frontiers of technology, art, and live performance.
Last offered: Autumn 2013

ME 289A: Interactive Art / Performance Design (TAPS 289A)

This class is for those who want the experience of designing and creating interactive art and performance pieces for public audiences, using design thinking as the method, and supported by guest speakers, artist studio visits and needfinding trips to music festivals, museums and performances.nnDrawing on the fields of design, art, performance, and engineering, each student will ideate, design, plan and lead a team to build an interactive art and/or performance piece to be showcased to audience of 5000 at the Frost Music and Art Festival held on the Stanford campus on May 17th 2014. Projects can range from interactive art to unconventional set design, and from site-specific sculpture to immersive performance.nnThis is a two-quarter long commitment during which students will first learn the design, planning, story boarding, budgeting, engineering, proposal creation and concept pitching of projects for applying for grants and presenting to funders. The second quarter will concentrate on prototyping, maquette making, testing, team forming, project management, creative leadership, construction, site installation and documentation.nPart one of a two course series: ME 289A&B.
Last offered: Winter 2014

ME 289B: Interactive Art / Performance Creation (TAPS 289B)

This class is the continuation of ME289A where students experience the designing and creating of interactive art and performance pieces for public audiences, using design thinking as the method, and supported by guest speakers, artist studio visits and needfinding trips to music festivals, museums and performances.nnDrawing on the fields of design, art, performance, and engineering, each student will ideate, design, plan and lead a team to build an interactive art and/or performance piece to be showcased to audience of 5000 at the Frost Music and Art Festival held on the Stanford campus on May 17th 2014. Projects can range from interactive art to unconventional set design, and from site-specific sculpture to immersive performance.nnDuring this second quarter students will concentrate on prototyping, maquette making, testing, team forming, project management, creative leadership, construction, site installation and documentation.nPart two of a two course series : ME 289A&B.
Last offered: Spring 2014

ME 290: GIVE BIG OR GO HOME

When individuals or organizations attempt to solve social problems by giving money, they often overlook the people at the center of the situation. The bigger the problem, the more removed the donors or funding institutions become from the human experience. You will learn how to use human centered design to shape your giving, while also considering the roles of larger systems. Students will learn design thinking methods, how to conceptualize a system in which you want to make a difference, and creative ways to think about financing change.
Last offered: Spring 2014

ME 292: Humanize My Ride: Investigations in User-Centric Vehicle Design

Humanize My Ride is vehicle design for the extreme user. We will explore the relationship between specialized vehicles and their user¿s needs to inform a deep dive into designing and prototyping a unique purpose modified ride for a new type of user. Utilizing the designing thinking approach and emerging technology such as Google GLASS, student teams will interview drivers and users of specific purpose cars and trucks and then choose a new user to design and build for. Teams will work collectively on different elements of one vehicle to test with their user¿s needs. This project-based course is accessible to students of all backgrounds interested in exploring and transforming the intersection of user-centric design, automotive technology, creative customization and hands-on building.
Last offered: Autumn 2014 | Repeatable 2 times (up to 6 units total)

ME 297: Forecasting for Innovators:Technology, Tools & Social Change

Technologies from the steam engine to the microprocessor have been mixed gifts, at once benefitting humankind and creating many of the problems facing humanity today. This class will explore how innovators can use forecasting methods to identify new challenges, develop responsive innovations and anticipate unintended consequences. Students will produce a long-range forecast project, applying a variety of methodologies including research, expert interviews and graphical exploration.
Terms: Win | Units: 3

ME 298: Silversmithing and Design

Skills involved in working with precious metals at a small scale. Investment casting and fabrication techniques such as reticulation, granulations, filigree, and mokume gane.
Terms: Win | Units: 3-4 | Repeatable for credit

ME 299A: Practical Training

For master's students. Educational opportunities in high technology research and development labs in industry. Students engage in internship work and integrate that work into their academic program. Following internship work, students complete a research report outlining work activity, problems investigated, key results, and follow-up projects they expect to perform. Meets the requirements for curricular practical training for students on F-1 visas. Student is responsible for arranging own internship/employment and faculty sponsorship. Register under faculty sponsor's section number. All paperwork must be completed by student and faculty sponsor, as the Student Services Office does not sponsor CPT. Students are allowed only two quarters of CPT per degree program. Course may be repeated twice.
Terms: Aut, Win, Spr, Sum | Units: 1 | Repeatable 2 times (up to 2 units total)
Instructors: Adams, J. (PI) ; Andriacchi, T. (PI) ; Banerjee, B. (PI) ; Barnett, D. (PI) ; Bazant, M. (PI) ; Beach, D. (PI) ; Bowman, C. (PI) ; Bradshaw, P. (PI) ; Burnett, W. (PI) ; Cai, W. (PI) ; Camarillo, D. (PI) ; Cantwell, B. (PI) ; Cappelli, M. (PI) ; Carryer, J. (PI) ; Carter, D. (PI) ; Chang, F. (PI) ; Chaudhuri, O. (PI) ; Cho, K. (PI) ; Cutkosky, M. (PI) ; Darve, E. (PI) ; Dauskardt, R. (PI) ; DeBra, D. (PI) ; Delp, S. (PI) ; Durbin, P. (PI) ; Eaton, J. (PI) ; Edwards, C. (PI) ; Enge, P. (PI) ; Farhat, C. (PI) ; Follmer, S. (PI) ; Gerdes, J. (PI) ; Goodson, K. (PI) ; Hanson, R. (PI) ; Harris, J. (PI) ; Harris, J. (PI) ; Homsy, G. (PI) ; Hughes, T. (PI) ; Iaccarino, G. (PI) ; Ihme, M. (PI) ; Ishii, K. (PI) ; Jameson, A. (PI) ; Johnston, J. (PI) ; Kasevich, M. (PI) ; Kelley, D. (PI) ; Kelly, M. (PI) ; Kembel, G. (PI) ; Kenny, T. (PI) ; Khatib, O. (PI) ; Kovacs, G. (PI) ; Kruger, C. (PI) ; Kuhl, E. (PI) ; Latombe, J. (PI) ; Leifer, L. (PI) ; Lele, S. (PI) ; Lentink, D. (PI) ; Levenston, M. (PI) ; Lew, A. (PI) ; MacDonald, E. (PI) ; Majumdar, A. (PI) ; Mani, A. (PI) ; Milroy, J. (PI) ; Mitchell, R. (PI) ; Mitiguy, P. (PI) ; Moin, P. (PI) ; Monismith, S. (PI) ; Mungal, M. (PI) ; Nelson, D. (PI) ; Niemeyer, G. (PI) ; Okamura, A. (PI) ; Pianetta, P. (PI) ; Pinsky, P. (PI) ; Pitsch, H. (PI) ; Powell, J. (PI) ; Prinz, F. (PI) ; Pruitt, B. (PI) ; Rock, S. (PI) ; Roth, B. (PI) ; Salisbury, J. (PI) ; Santiago, J. (PI) ; Shaqfeh, E. (PI) ; Sheppard, S. (PI) ; Sherby, O. (PI) ; Springer, G. (PI) ; Street, B. (PI) ; Tang, S. (PI) ; Taylor, C. (PI) ; Toye, G. (PI) ; Tsai, S. (PI) ; Waldron, K. (PI) ; Wang, H. (PI) ; Zheng, X. (PI)
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