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Senior Capstone Projects: A Taste of the Real Word. Prof. Susan E. Martonosi Harvey Mudd College Mathematics Clinic Director. HMC Olin Science Center, Claremont, California. Today’s Workshop. Brief overview of HMC Clinic Brainstorming: How might you start a similar program?
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Senior Capstone Projects:A Taste of the Real Word Prof. Susan E. Martonosi Harvey Mudd College Mathematics Clinic Director HMC Olin Science Center, Claremont, California
Today’s Workshop • Brief overview of HMC Clinic • Brainstorming: How might you start a similar program? • Pole pole: Other ways to incorporate real-world modeling
Harvey Mudd College • Highly-selective liberal arts college of science and engineering • Undergraduates only • Curriculum and post-graduate opportunities similar to a university • Math major emphasizes theory and application • Required courses in pure and applied math • Students choose an elective track (OR is one option) • Capstone
What Is a Capstone? • Project conducted during student’s final year • Synthesizes material learned in courses • Typically involves a final report and/or presentation to develop communication skills • Thesis: • One-on-one with faculty advisor • Often (but not always) theoretical research • Topic comes from student or advisor • Clinic: • Team project with faculty advisor and liaison • Often (but not always) applied research • Topic comes from a sponsor (Industrial, Non-profit, Government agency, …)
Clinic Is a Sponsored Student Capstone Project Tackling a Real-World Problem Sponsor Research Problem Liaison(s) Funding (flat fee) Harvey Mudd Students (4-5) Faculty Advisor Infrastructure Clinic Team Nine Months Original Research / Education in Professional Practice Deliverables (Final Report, Prototypes, Models, Software, Intellectual Property Rights)
Clinic Was Founded as an Engineering Education Innovation in 1963 • Over 1300 projects since! • 42 projects in 2011-12 • Programs in: -Computer Science -Engineering -Mathematics -Physics -Global Clinic
Global Clinic Started in 2006 Partnerships with universities and sponsors in Puerto Rico, Singapore, Iceland, China, Japan and India
There Is No “Typical” Clinic Project • Math clinic sponsors have included: • for-profit corporations, entrepreneurs, national labs, defense contractors and nonprofit organizations • Mathematical areas of contribution: Statistics and Probability Fluid dynamics Optimal controlOperations research Algorithm design Simulations Numerical methods Image processing Financial mathematics Resource management • Given a problem description we help sponsors scope it for project duration and difficulty
The Clinic Program Has Two Primary Goals • Give advanced students the opportunity to solve real-world problems • Synthesize all they have learned • Training environment for solving important real-world problems professionally and in a controlled and mentored setting. • Provide value to the sponsoring organization in return for funding the project • Patents, prototypes, ideas • Recruiting opportunities
Clinic Directors Are Tasked with Recruiting Project Sponsors • Good potential sponsors: • Local and regional companies, non-profits and government agencies • Alumni network • Successful projects lead to repeat sponsorships • Curricular requirement pressure to find good projects in sufficient numbers
The First Step Is Identifying a Problem • Sponsor provides a written problem statement • 1-2 revision cycles with Clinic Director to ensure project scope is appropriate for students’ background and 9-month project timeframe • Sponsor appoints a liaison to • monitor team progress, • provide domain expertise, and • ensure project direction is consistent with sponsor’s objectives • Sponsor/HMC sign Letter of Understanding • Faculty advisor assigned to project based on interest and expertise • At start of fall semester, students are assigned to teams based on their preferences
Each Student Spends ~10 Hrs/Wk on the Project Throughout Academic Year • Sept: Orientation Day • Oct.: Statement of Work • Fall semester: Site Visit • End of fall: Mid-year report • Spring semester: Weekly Clinic-wide presentations • May: Projects Day and final site visit
The Year Culminates in Projects Day • Sponsoring organization invited to campus • Presentations and poster sessions by all teams • Celebration of student work and the end of an exciting year
Project Deliverables Are Sent to Sponsor • Bound final report • CD-ROM containing • Final report • Software installation and code • User documentation • Relevant data • Final presentation • Poster • Statement of Work • Mid-year report • All hardware or prototypes • Final site visit Low-thrust Orbit Raising
Quotes from Students: Knowledge Synthesis “[T]his project was a very interesting mesh between theory and application.... Applying some of our control theory from classes to getting [good results in the lab] was quite a challenge and provided a lot of useful (and frustrating) experience.”
Quotes from Students: Teamwork “We each had different strengths and weaknesses. Yet, they seemed to complement each other well. Where I was weak, my teammates were strong, and vice versa.”
Quotes from Students: Professional Preparation “Clinic has been … good in terms of giving me job experience.”
Clinic Gives Sponsor Fresh Ideas on an Important Problem • Students gain technical expertise and develop professional skills • Team of sharp, motivated and creative students working for a whole year • Many projects lead to patents • Many results are implemented • Many clients come back in subsequent years • Excellent recruiting opportunities
Significant Support Infrastructure Is Not Necessary at First • Sponsorship fee • Covers equipment, staff, overhead, site visit, recruiting • Sponsor expects results • Blessing and curse: non-profits can’t afford fee • At first, not necessary • Graduation requirement • Need enough projects for students • Could offer as an extracurricular option • Could have multiple teams on same project • Sponsors across the country • Start locally
Getting Started • Assessing your students’ strengths • Identifying potential sponsors • Approaching sponsors • Choosing projects • Obtaining institutional support • Running the projects
Assessing Your Students’ Strengths “Think, Pair, Share”: • What is your program’s specialty? • How are your students successful? • What other skills do they have? • Computing? • Communication? • Research? • Job experience? • How much time can you expect students to spend on the project?
Identifying Potential Sponsors “Think, Pair, Share”: • Are there companies or organizations near you who might have interesting O.R. problems? • Industry • Hospitals • Non-profit organizations • Offices at your own institution? • Do you have contacts at these institutions? • “Mine” your contacts • “Mine” your colleagues’ contacts • Where are your alumni?
Approaching Sponsors and Choosing Projects • Have a clear idea of what you will offer them • Cold calls • Presentations • Successful projects typically lead to more projects! • Walking a tightrope: Aim for projects just beyond the students’ training • Too easy: students don’t grow • Too hard: students and sponsor can get discouraged • If at first you don’t succeed….
Obtaining Institutional Support “Think, Pair, Share”: • Who will oversee the program? • How many projects do you need to recruit? • How many projects can you feasibly staff with faculty advisors? • Where will the teams work on the projects? • Do you have the computing hardware/software? • Will you need funding, and if so, where will you find it? • What is a reasonable sponsorship fee?
Running the Project “Think, Pair, Share”: • What might go wrong, and how do you handle it? • Team dynamics • Professional communication training • Intervene early and often • Team loses interest in project • Graduation requirement • Sponsor loses interest in project • Can you continue without input from sponsor? • Is there another sponsor with similar interests? • Project is not successful • Hakunamatata: Redefine success
Pole pole: Other Real-World Opportunities • Project of choice • Students define a real-world problem of interest and identify their own “sponsors” • Modeling contests • COMAP International Mathematical and Interdisciplinary Contests in Modeling (MCM/ICM): http://www.comap.com/undergraduate/contests/mcm • Entrance fee of $100 US per team • Modeling workshop • All previous COMAP problems are available online • Can even run your own local MCM contest!