stephen l. canfield, tennessee technological university

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Providing Real-World Mechanism Design Experience through the Early Intervention and Mechanical Engineering (EIME) Project Stephen L. Canfield, Tennessee Technological University Educational Objective Develop a context for learning in a junior-level mechanism design course – in which students act as design engineers creating specialized assistive devices for children with special needs Strategy: 1. Engage students in real-world application of mechanism design, 2. Provide compelling and immediate purpose for learning theory, 3. Provide experience in working with customers (not peer engineers), 4. Student see design in practice and learn from experience Summary: 1. Enhances educational experience at key point in curriculum 2. Students highly motivated to acquire and use engineering skills to help others 3. Project leverages student resources and local support 4. Student outcomes demonstrate gains in learning, retention, experience 5. Project has served as a model for other programs within the University and State Model Tasks: 2012 Frontiers of Engineering Education Project Execution Learning resources required Sample Projects: Innovation in Context, Delivery New Context: Your company thinks that Jon’s quality of life might be enhanced with a machine. You are assigned to use your mechanism design skills to help Jon. Successful outcomes might look like: Traditional Context: The syllabus Collect assistive technology needs Form Student Design teams (Engineering, Education) Match Child needs with Student teams Form Final project team background research, integrate course material, create design Family Service coord. Therapists / Medical prof. Deliver Final product to child/family Within context of a course Reflect Community Curriculum Fabrication, testing, evaluation and final preparation Disseminate Results 1. Collect Project Needs 2. Connect Student teams w/ projects 3. Provide feedback to students during the design process 4. Provide Course material in timely (asynchronous) fashion 5. Provide resources for fabricating/ testing the product 6. Reflect 1. Partnerships – project needs 2. Feedback on projects from customer/medical standpoint 3. Variety of access to course material & examples of applications 4. Partnerships to support project costs 1. University Service-learning and engagement survey 2. Senior Exit Interviews 3. FE topic specific data Assessment Tools

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2012 Frontiers of Engineering Education. Community. Curriculum. Collect assistive technology needs. Form Student Design teams (Engineering, Education). Match Child needs with Student teams. Innovation in Context, Delivery. Family. Within context of a course. - PowerPoint PPT Presentation

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Page 1: Stephen L. Canfield,  Tennessee Technological University

Providing Real-World Mechanism Design Experience through the Early Intervention and Mechanical Engineering (EIME) Project

Stephen L. Canfield, Tennessee Technological University

Educational ObjectiveDevelop a context for learning in a junior-level mechanism design course – in which students act as design engineers creating specialized assistive devices for children with special needs

Strategy:1. Engage students in real-world application of mechanism design, 2. Provide compelling and immediate purpose for learning theory, 3. Provide experience in working with customers (not peer engineers), 4. Student see design in practice and learn from experience

Summary:1. Enhances educational experience at key point in curriculum2. Students highly motivated to acquire and use engineering skills to help others3. Project leverages student resources and local support4. Student outcomes demonstrate gains in learning, retention, experience5. Project has served as a model for other programs within the University and State

Model Tasks:

2012 Frontiers of Engineering Education

Project Execution

Learning resources required

Sample Projects:

Innovation in Context, Delivery

New Context:Your company thinks that Jon’s quality of life might be enhanced with a machine. You are assigned to use your mechanism design skills to help Jon. Successful outcomes might look like:

Traditional Context: The syllabus

Collect assistive technology needs

Form Student Design teams (Engineering, Education)

Match Child needs with Student teams

Form Final project team

background research, integrate course material,

create design

Family

Service coord.

Therapists / Medical prof.

Deliver Final product to child/family

Within context of a course

Reflect

Community Curriculum

Fabrication, testing, evaluation and final

preparationDisseminate

Results

1. Collect Project Needs2. Connect Student teams w/ projects3. Provide feedback to students during the

design process4. Provide Course material in timely

(asynchronous) fashion5. Provide resources for fabricating/ testing

the product6. Reflect

1. Partnerships – project needs2. Feedback on projects from

customer/medical standpoint3. Variety of access to course

material & examples of applications

4. Partnerships to support project costs

1. University Service-learning and engagement survey

2. Senior Exit Interviews3. FE topic specific data

Assessment Tools