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31 - 40 of 67 results for: ME

ME 298: Silversmithing and Design

A course focusing on creating small scale objects in precious metals, with equal attention given to design and the process of investment casting in the Product Realization Lab.
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)

ME 299B: Practical Training

For Ph.D. 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)

ME 300B: Partial Differential Equations in Engineering (CME 204)

Terms: Win | Units: 3

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

This course provides a holistic overview over the field of vehicle automation. The course starts with the history of vehicle automation and then introduces key terminology and taxonomy. Guest lecturers present the legal and policy aspects of vehicle automation both on the federal and state level. Then, the state of the art in vehicle automation is provided. This includes sensor and actuator technology as well as the driver assistance technology in cars today. Finally, the technology currently being developed for future highly and fully automated vehicles is described, including a high-level introduction of the software and algorithms used as well as HMI and system aspects. Students are asking to work in groups on a current topic related to vehicle automation and present their findings in the final two classes in a short presentation.
Terms: Win | Units: 1 | Repeatable 2 times (up to 2 units total)
Instructors: Becker, J. (PI)

ME 310B: Global Engineering Design Thinking, Innovation, and Entrepreneurship

ME310BC is a two-quarter continuation of ME310 and typically requires ME310A as a prerequisite. In ME310B the focus is on detailed design and prototyping of novel components and systems, often re-framing the problem and identifying new user populations in light of new information. ME310C focuses on making the design credible from an engineering and business perspective. Teams perform user testing and explore pre-production manufacturing techniques to create their final prototypes. They present their solutions at the EXPE ( http://expe.stanford.edu) and produce a report that documents not only the final solutions but also the alternatives considered. Final reports are archived in the Stanford Engineering Libraries: ME310 Project Based Engineering, Digital Collection.
Terms: Win | Units: 4

ME 315: The Designer in Society (DESIGN 315)

This class focuses on individuals and their psychological wellbeing. The class delves into how students perceive themselves and their work, and how they might use design thinking to lead a more creative and committed life. As a participant you read parts of a different book each week and then engage in exercises designed to unlock learnings. In addition, there are two self-selected term projects dealing with eliminating a problem from your life and doing something you have never done before. Apply the first day during class. Attendance at the first session is mandatory.
Terms: Win | Units: 3

ME 318: Computer-Aided Product Creation

Design course focusing on an integrated suite of computer tools: rapid prototyping, solid modeling, computer-aided machining, and computer numerical control manufacturing. Students choose, design, and manufacture individual products, emphasizing individual design process and computer design tools. Structured lab experiences build a basic CAD/CAM/CNC proficiency. Limited enrollment. Prerequisite: ME103 or equivalent and consent of instructor. ME 203 or consent of instructor.
Terms: Aut, Win, Spr | Units: 3-4

ME 320: Introduction to Robotics (CS 223A)

Robotics foundations in modeling, design, planning, and control. Class covers relevant results from geometry, kinematics, statics, dynamics, motion planning, and control, providing the basic methodologies and tools in robotics research and applications. Concepts and models are illustrated through physical robot platforms, interactive robot simulations, and video segments relevant to historical research developments or to emerging application areas in the field. Recommended: matrix algebra.
Terms: Win | Units: 3

ME 325: Making Multiples: Injection Molding

Design course focusing on the process of injection molding as a prototyping and manufacturing tool. Coursework will include creating and evaluating initial design concepts, detailed part design, mold design, mold manufacturing, molding parts, and testing and evaluating the results. Students will work primarily on individually selected projects, using each project as a tool to continue developing and exercising individual design process. Lectures and field trips will provide students with context for their work in the Stanford Product Realization Lab. Prerequisite: ME318 or consent of instructors.
Terms: Aut, Win, Spr | Units: 3
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