Winter Quarter 2013

David L. Jaffe, MS and Professor Drew Nelson Tuesdays & Thursdays   4:15pm - 5:30pm Thornton Center - Classroom 110

Course Syllabus

Contents:

• Background Information on Assistive Technology
• Suggested Assistive Technology Course Sequence
• Suggested Assistive Technology Course Sequence Overview
• Expectations for Students
• Overview
• Teaching Team
• Credentials
• Objectives
• In-class Discussions
• Lectures
• Tours
• Team Projects
• Project Carryover to Spring Quarter
• Lecture-only Option
• One-Credit Letter Grade Option
• Team Project Option
• Assignment Due Dates
• Missed Lecture Policy
• Grading
• Students with Disabilities
• Lecture Schedule

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Background Information on Assistive Technology:
Assistive Technology (AT) is a generic term that includes both the description of devices that benefits seniors and people with disabilities as well as the process that makes them available to this population. An AT device is one that has a diagnostic, functional, adaptive, or rehabilitative benefit. Engineers employ an AT process to design, develop, test, and bring to market new devices. Other professionals are involved in evaluating their need, prescribing them, supplying them, installing and setting them up, instructing their use, and assessing their benefit. These products promote greater independence, increased opportunities and participation, and an enhanced quality of life for people with disabilities by enabling them to perform tasks that they were formerly unable to accomplish (or had great difficulty accomplishing, or required assistance) through enhanced or alternate methods of interacting with the world.

There are an estimated 54 million Americans (20.6 percent of the population) with some level of disability which limits their ability to fully participate in society. As the nation ages, the number of people experiencing such limitations will certainly increase. New AT devices incorporating novel designs and emerging technologies have the potential to further improve the lives of people with disabilities and seniors.

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Suggested Assistive Technology Course Sequence:

Winter Quarter:
ENGR110/210: Perspectives in Assistive Technology (3 units)

Spring Quarter:
ME113: Mechanical Engineering Design (4 units)

or

CS194: Computer Science Senior Project (3 units)

or

Independent Study

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Suggested Assistive Technology Course Sequence Overview:
This suggested course sequence provides an opportunity for engineering students from all departments and interested students from other disciplines to learn about the engineering, medical, psychological, and social aspects of designing, developing, and employing assistive technology to improve the quality of life and independence of people with disabilities.

ENGR110/210 consists of twice-weekly lectures from experts in the field, including designers, entrepreneurs, clinicians, and users. Beyond these lectures, students engage in a team-based design project experience that includes need finding, project identification, and design. Teams interact with users of assistive technology, design coaches, and project partners.

ME113 is the Spring Quarter capstone course for the undergraduate Mechanical Engineering degree. Students pursue a quarter-long team-based project with the expectation that they will take their design concept as far towards a functioning device as possible by creating designs, models, and working prototypes of new mechanical devices. Mechanical design, teamwork, project management, and resource allocation are emphasized.

CS194 is the Spring Quarter capstone course for the undergraduate Computer Science degree. The goals for the course are as follows:

• To provide a significant design experience, starting from a blank sheet
• To provide a team software-building experience, where effective communication within the team is as important as coding ability
• To provide experience in building a large system that requires integration of the skills and knowledge gained in the undergraduate program
• To provide practice in public presentation of technical work, both in class and to faculty and industry guests at the end-of-quarter Software Faire
• To provide practice in the written description of a technical project, satisfying the Writing in Major (WIM) requirement
• To acquaint the students with current practices in software engineering

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Expectations for Students:
By taking this suggested two-quarter course sequence, students will:

• Gain a full appreciation for and an understanding of the engineering, medical, and social aspects associated with the design, development, and use of assistive technology,

• Learn about a wide variety of issues in technology development, including intellectual property rights and best practices in community engagement, and

• Engage in a comprehensive design experience that includes working with users of assistive technology to identify needs, prototype solutions, perform user testing, practice iterative design, and communicate results.

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Overview:
The Winter Quarter ENGR110/210 course consists of twice-weekly seminars open to the general student population (as well as the greater Stanford community). The flexible course structure includes individual and team-based assistive technology design project options as well as a lectures-only option.

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Teaching Team:

David L. Jaffe, MS - dljaffe -at- stanford.edu

      Lecturer in Mechanical Engineering

Drew Nelson, PhD - dnelson -at- stanford.edu

      Professor of Mechanical Engineering

Krystal Le - kqle2014 -at- stanford.edu

      Course Peer Liaison

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Credentials:
The course:

• Has no prerequisites

• Is a designated Service-Learning Course

• Is approved for the Program in Science, Technology & Society (STS) - included on the BS Major STS Core list in Social Scientific Perspectives area of the Disciplinary Analyses section (3 credit option)

• Satisfies the optional course requirement for the BS degree in Mechanical Engineering (3 credit option)

• Can be approved as an elective for the MS degree in Mechanical Engineering by a faculty advisor

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Objectives:

• Expose students to the engineering, medical, and social issues facing engineers, researchers, entrepreneurs, clinicians, seniors, and individuals with disabilities in the design, development, and use of assistive technology

• Engage students in a team-based project experience that exercises team working skills and applies an engineering design process to address difficulties experienced by individuals with disabilities and seniors

• Provide an opportunity for students to interact with users of assistive technology in the local community along with health care professionals, coaches, and project partners

• Enhance students' critical thinking and communication skills, with specific emphasis on in-class discussions, report writing, and project presentations

• Encourage students to use their engineering skills and design expertise to help individuals with disabilities and seniors increase their independence and improve their quality of life

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In-class Discussions:
Each class session begins with a ten to fifteen minute interactive discussion that promotes critical thinking, analysis, and questioning.

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Lectures:
Presentations are given by guest lecturers who address a wide variety of issues in assistive technology such as disability and rehabilitation, research and development, service learning, brainstorming and need-finding, design software, intellectual property, technology licensing, personal perspectives, and human subjects in research.

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Tours:
Tours of local medical facilities and engineering laboratories are scheduled during the quarter.

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Team Projects (3 credit option):
Students work in teams of no more than three to address problems faced by individuals with disabilities and seniors with the goal of fabricating, testing, and presenting a functional prototype device or software application. Project ideas come from various public and private sources in the community, such as the Department of Veterans Affairs (VA) Palo Alto Health Care System's Spinal Cord Injury Center, local senior assistive living facilities, senior centers, as well as from foundations like the Muscular Dystrophy Association, or from individuals. Funding to support the projects come from internal sources, company partners, foundations, etc.

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Project Carryover to Spring Quarter:
Team-based design projects in ENGR110/210 serve as a foundation for continuing development, testing, and fabrication of an improved working prototype in the Spring Quarter. Teams of undergraduate students enroll in ME113 or CS194 (or a comparable senior design project course) while individual or graduate students can pursue independent study for credit with the approval of their faculty advisor. The Spring Quarter effort focuses on developing and testing a more refined, functional prototype. As with ENGR110/210, students continue to work closely with persons with disabilities throughout the design process.

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Lecture-only Option:
For students whose schedule does not permit working on a team-based project in ENGR110/210, a one-unit lecture-only option is offered. As there are no assignments or exams, the grading is Credit / No Credit - no letter grades are given for this option. Students enrolled with this option must attend at least 10 lectures, including the first lecture, Introduction to Assistive Technology.

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One Credit Letter Grade Option:
For students whose schedule does not permit working on a team-based project in ENGR110/210, but wish to receive a letter grade, a one-credit letter grade option is offered.

Individual Project Assignment
Students are asked to interview an individual with a disability or a senior, choose and pursue a specific project activity, present their work, submit a final comprehensive final project report that encompasses their efforts for the entire quarter, and reflect on their experiences.

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Team Project Option (3 credit option):
Students work in teams to address problems faced by individuals with disabilities and seniors. Team project activities include selecting team members; considering project choices; selecting a project; meeting with project partners, assistive technology users, design coaches, and the course instructor; understanding the problem; identifying the need; brainstorming and identifying appropriate project design alternatives; searching for existing commercial products; selecting a project design to pursue; fabricating a prototype; testing and analyzing the performance of the prototype; iterating the fabrication and testing steps; presenting the project; writing a report; and reflecting on the course and team project experience.

Students who wish to work on a team project and have a limitation in the total number of units they can take in the Winter Quarter may enroll for one or two credits, but are expected to complete all the 3-unit course requirements.

Mid-term Team Project Assignment
In the first half of the quarter, students form into teams, select a team project, contact the individual who suggested the project, interview an individual with a disability or a senior who would benefit from the project, gather information on existing products and research, determine the magnitude of the need, brainstorm and evaluate potential solutions, present their findings, and submit a report of the team's progress.

End-of-term Team Project Assignment
During the second half of the quarter, teams choose a specific design concept and fabricate / test a functional prototype. The embodiment of the chosen design will be in the form of detailed sketches, drawings, and a functional prototype. Teams present their design in class and submit a final comprehensive final project report that encompasses their work for the entire quarter and individually reflect on their course and team project experience.

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Assignment Dues Dates:

Assignment	Date
Team Mid-term Presentation	Thursday, February 14th
Team Mid-term Report	Monday, February 18th
Individual Presentation	Week of March 7th
Team Final Presentation	Tuesday, March 12th
Individual and Team Final Report	Monday, March 18th
Individual Reflection	Monday March 18th

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Missed Lecture Policy:
All enrolled students are encouraged to attend all ENGR110/210 lectures.

Student project teams (taking the course for 3 units) may be excused from attending no more than two lectures to work on their team projects. The following guidelines must be followed:

1. The entire team must arrange to work on their project together during the lecture time.

2. The team must inform the instructor of their desire to work on their project before the lecture that will be missed.

3. Lectures that are mandatory are the first lecture, Introduction to Assistive Technology, the second lecture, Project Pitches and Team Formation, the Mid-term Presentations, and the Final Presentations.

Enrolled students taking the course for 1 unit must attend at least 10 lectures including the first lecture, Introduction to Assistive Technology.

In the event a required lecture is missed for any reason, the student must review the course material (listen to the recorded lecture audio, follow along with the PowerPoint slides, view any videos, browse the weblinks, and read any handout material posted on the course website) and submit (via email) a short document (1 - 2 pages) that includes a summary of the lecture along with the student's thoughts, observations, and reflections within a week of the missed lecture. Once it is received, read, and approved, the student will be credited with "attending" the lecture.

If one or more required lectures are missed and are not made up, it will affect the grade as follows:

For students taking the course as Credit / No Credit, the following options are available:

• Receive No Credit for the course.
• Request to receive Incomplete for the course. If subsequently the missed lectures are made up, the grade will be changed to Credit.

For students taking the course for a Letter Grade, the following options are available:

• Deduct one full letter grade for each missed lecture not made up.
• Request to receive Incomplete for the course. If subsequently the missed lectures are made up, a letter grade reflecting the student's performance less a half grade will be recorded.

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* Participation includes meeting with instructor, actively listening, posing questions to the guest speakers and the course instructor, engaging in class discussions, verbalizing thoughts and analyses, and communicating project progress.

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Students with Disabilities:
Creating and enhancing a supportive educational environment is one of the University's highest priorities. Ensuring that students with disabilities have full access to all instructional settings is part of the University's efforts.

Students who may need an academic accommodation based on the impact of a disability must initiate the request with the Office of Accessible Education (OAE). Professional staff will evaluate the request with required documentation, recommend reasonable accommodations, and prepare an Accommodation Letter for Faculty dated in the current quarter in which the request is being made. Students should contact the OAE as soon as possible since timely notice is needed to coordinate accommodations. The OAE is located at 563 Salvatierra Walk; phone: 650/723-1066.

If you require a disability-related accommodation to participate in the course, please contact the course instructor. Requests should be made at least two weeks in advance.

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