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Group 3

Group 3. OSAA Collider Project. Group 3. Jimmy Huang. Engineering Project Management M.S. Mechanical Engineering ’17 University of California, Berkeley. Erwin Sutiono. Product Design M.S. Mechanical Engineering ’17 University of California, Berkeley. Shuen Hwee Yee. Product Design

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Group 3

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  1. Group 3 OSAA Collider Project

  2. Group 3 Jimmy Huang Engineering Project Management M.S. Mechanical Engineering ’17 University of California, Berkeley Erwin Sutiono Product Design M.S. Mechanical Engineering ’17 University of California, Berkeley Shuen Hwee Yee Product Design B.S. Mechanical Engineering ’16 University of California, Berkeley Sean Xiao Manufacturing B.S. Mechanical Engineering ’17 University of California, Berkeley

  3. Agenda Market Analysis Design Considerations Current Prototype

  4. Value Propositions Increases Patient Mobility and Quality of Life Affordable and Cost Effective No Switching Inertia for Users

  5. Target Customers and Users Customers: Hospitals Pharmacies Users: Active Hospital Patients At-home IV Therapy Patients

  6. Top Down Market Analysis 136M+ hospital visits/year in the US[1] 90% will receive infusion therapy one way or another[2] = 122Myearly users $25 average cost of receiving infusion therapy in the US 136M x 90% x $25 = $3B Total Available Market

  7. Design Considerations (Cust) Overcome Spring Force RELIABLE Stop fluid flow EASY USE No Air Bubbles SAFE Identify quantity of fluid left in bag

  8. Design Considerations (Users) Comfortable User Experience Teddy Bear Backpack Arm band Secure Tubing Route Hygiene US Pragmatic Installation

  9. Our Prototype

  10. Pressure Requirement Central Venous Pressure: <30mm Hg Conventional IV height above heart: 900mm Result: ~14lb push

  11. Air Bubble

  12. Mechanical Strength

  13. Bill of Materials Total Manufacturing Cost at High Volume: < $ 10.00

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