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Six Steps of Problem Solving And Engineering Design Process

Six Steps of Problem Solving And Engineering Design Process. SVES Colleges of Engineering UML – ATP Lecture 2. Step One Research the Problem. Gather all the information needed to consider this project Define the Problem Completion is realized with a project proposal.

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Six Steps of Problem Solving And Engineering Design Process

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  1. Six Steps of Problem Solving And Engineering Design Process SVES Colleges of Engineering UML – ATP Lecture 2

  2. Step OneResearch the Problem • Gather all the information needed to consider this project • Define the Problem • Completion is realized with a project proposal

  3. Step TwoDefine the Problem • Study the problem and list as many facts as possible to fully define the problem • Completing the design specifications • Set Objectives • Outcome is a set of specifications

  4. Step Two Develop Design SpecificationsDefine the Problem • Specifications are a formal document listing the requirements of a project • Define details that must be met • Can be used as a guide in future projects • Market Specifications

  5. Develop Design Specifications& Specification Format • General description • Performance • Power requirements • Packaging • Environmental • Operation • Project and production cost • Agency approvals • Special requirements

  6. Develop Design SpecificationsPackaging • Mechanical size limits • Environmental rating • Shape • Material • Human engineering aspects

  7. Develop Design SpecificationsEnvironmental • Ambient temperature • Humidity • Vibration • Shock • Electromagnetic interference (EMI) • Immunity • emissions

  8. Develop Design SpecificationsManufacturing Cost Goal • Total cost of purchased parts • Labor cost to manufacture • Manufacturing overhead • The projected costs should be stated at the volume of manufacture for the costs

  9. Develop Design SpecificationsSoftware • Outline of the planned method of software operation • All operations that involve the end user • All operations that involve the hardware • Flow charts ( top level ) • Flow charts ( sublevel operations )

  10. Step ThreePlan the Solution • Develop a Plan • Outline Strategy • List steps intended to solve the problem • Outcome is a Project Schedule

  11. Step FourExecute the Plan • Preliminary design • Component selection • Breadboarding • Prototype development • Outcome working Prototype

  12. Step FiveVerify the Results • Test design to set design specifications • Review measured results to specifications • Does it meet the specifications ? • Outcome is a reasonable solution to the problem

  13. Step SixDevelop a set of conclusions • Results of the project are summarized • Design improvements and performance monitoring • Design documentation • Outcome is a Final Report

  14. The Engineering Design Process… 1. Identify need or problem 8. Redesign 2. Research need …can be used to solve ANY type of problem 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  15. 1. Identify need or problem 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  16. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  17. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  18. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  19. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  20. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  21. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  22. 1. Identify need or problem 8. Redesign 2. Research need 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

  23. 1. Identify need or problem 1. Identify need or problem 8. Redesign 2. Research need Work a problem 7. Present solution 3. Develop pos-sible solutions 6. Test & Evaluate 4. Select best solution 5. Construct a prototype

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