1 / 34

Design Tools 1

Design Tools 1 . William Oakes, P.E Director of EPICS Assoc. Prof. Engineering Education. Learning Objectives. At the end of this session, you will be able to: Describe a specification Describe a decision matrix Categorize potential failures for a design

heba
Download Presentation

Design Tools 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Design Tools 1 William Oakes, P.E Director of EPICS Assoc. Prof. Engineering Education

  2. Learning Objectives • At the end of this session, you will be able to: • Describe a specification • Describe a decision matrix • Categorize potential failures for a design • Perform a functional decomposition • Create a personna

  3. EPICS Balance • Service-learning is a balance of the learning of design and the service we contribute the communities through completed designs and support • Service • To our partners, meeting needs in the community • Learning • Becoming good designers, professionals & active citizens Complimentary goals that enhance each other

  4. Design Tool: Engineering specifications

  5. Specifications Development • What does your project partner need? • Don’t just rely on what they want, find out what they need • Understand the problems and issues you are addressing • Who will use product and who will benefit from it? • Gather Data • Talk to Project Partner and others impacted by the project • How will the problem be worked? • Criteria for design teams • How will teams be integrated • Transition plans for multiple semesters • Gather input from project partner on specifications • Develop a specifications document and share it

  6. Customer Requirements • Types of customer requirements • Functional performance • Human factors • Physical • Time (reliability) • Cost • Standards • Test Method • Service & maintenance

  7. Customer Requirements For a cell phone, make a list of Ten customer requirements

  8. Design Specifications • Answers the “how” question • Quantified • Should be able to measure whether you meet it • Objective quantities • A set of units should be associated with each specification • Forms the basis for your specifications document

  9. Design Requirements Starting with the customer requirements for a cell phone, make a list of design requirements

  10. Defining Requirements • Benchmarks • What is available • Why did they use their approach • Patent searches • avoid infringement • Protect IP • Are we smarter than everyone else? • Or did we miss something?

  11. Design Targets • Set standards to meet with your design • How good is good • Can be a living document • Don’t compromise on goals, but refine as the design progresses • Tool make design trade offs • Design decisions • Communication with project partner

  12. Decision Matrix • Table with alternatives • Quantify categories and score alternatives • Importance in different categories • Use judgement to do reality checks • Leaves documentation of thought process of design • Can be shared in design reviews

  13. Ideas to be compared Criteria for Comparison Weights Scores Totals Decision Matrix

  14. Decision MatrixExample: Getting a Job

  15. Design Tool: Defining the System

  16. Functional Decomposition • Breaking tasks or functions of the system down to the finest level • Create a tree diagram starting at the most general function of your system • What is the purpose of your system? • Break this function down into simpler subtasks or subfunctions • Continue until you are at the most basic functions or tasks

  17. Functional Decomposition Diagram

  18. Sample Diagram – Bike Fender

  19. Functional Decomposition • Each function has a box with • An action verb • The object(s) on which the verb acts • Possibly a modifier giving details of the function • Known flows of materials, energy, control or information • Consider WHAT not HOW

  20. Create a functional decomposition diagram for a mechanical pencil Prepare them to share

  21. DFMEA :Design for Robustness

  22. DFMEA Steps • Review the design • Brainstorm potential failure modes • List potential effects of failure • Rank failures • Severity • Occurrence • Detection • RPN = Severity X Occurrence X Detection • Develop action plan • Implement fixes • Revisit potential failure risks

  23. In a group, Identify one project to use as an example for this exercise Describe the project so the whole group understands it

  24. Brainstorm Failures • What could go wrong? • What could break? • Are there systems your design relies upon? • e.g. myEPICSsoftware authenticates through Purdue’s career accounts. What if the server goes down? • Are there things that could fail over time?

  25. Brainstorm a list of potential failures for the project

  26. Rate failures

  27. DFMEA Calculations • Scores for Severity, Occurrence and Detection • 1 to 10 • 1 = Low • 10 = High • Risk Priority Number (RPN) • RPN =Severity X Occurrence X Detection

  28. DFMEA Matrix

  29. Example http://en.wikipedia.org/wiki/Failure_mode_and_effects_analysis, accessed 22 Aug. 2011

  30. Example Chart

  31. Identify the failure scenario that should be addressed first

  32. Develop an action plan to address the failure scenario

  33. Continue the process • Implement the plan to eliminate the failure scenario • Revisit other potential failure risks • Prioritize • Eliminate failure scenarios • Continue until risks are below determined thresholds • Show to the design reviews for confirmation

  34. Questions/Discussion

More Related