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ACS 562 – SYSTEMS ANALYSIS AND DESIGN Course Accomplishment Summary

ACS 562 – SYSTEMS ANALYSIS AND DESIGN Course Accomplishment Summary. Shilpashree K.S Varsha Fall 2010 Purdue University – Fort Wayne Instructor – Dr. John Tanik. PART 1. Study on C-Map Research on project topic Review of the Scholarly papers Summarize SWEBOK Knowledge Areas.

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ACS 562 – SYSTEMS ANALYSIS AND DESIGN Course Accomplishment Summary

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  1. ACS 562 – SYSTEMS ANALYSIS AND DESIGN Course Accomplishment Summary Shilpashree K.S Varsha Fall 2010 Purdue University – Fort Wayne Instructor – Dr. John Tanik

  2. PART 1 • Study on C-Map • Research on project topic • Review of the Scholarly papers • Summarize SWEBOK Knowledge Areas

  3. Project Topic Research • Went Through http://www.openclinical.org/ • http://www.purdue.edu/discoverypark/rche/to get more details about biomedical research field • Surveyed the Cancer Detection and Laparoscopic Robotic Surgery from various websites • Created a draft version of the Project proposal for “An Automated Detection and Laparoscopic Robotic Surgery for Thyroid Cancer”

  4. Review of the Scholarly Papers • Representing Clinical Guidelines in UML: A Comparative Study • A UML Approach to Process Modelling of Clinical Practice Guidelines for Enactment • Enhancing Object-Oriented Software Development through Axiomatic Design. • A UML 2.0 Profile for SystemC: Toward Highlevel SoC Design • SysML and Systems Engineering Applied to UML based SoC Design • Designing Real-Time and Embedded Systems with the COMET / UML method

  5. Summarize SWEBOK Knowledge Areas • KA 1: Software Requirements • KA 2: Software Design • KA 3: Software Construction • KA 4: Software Testing • KA 5: Software Maintenance • KA 6: Software Configuration Management • KA 7: Software Engineering Management • KA 8: Software Engineering Process • KA 9: Software Engineering Tools and Methods • KA 10: Software Quality • KA 11: Knowledge Areas of Related Desciplines

  6. PART 2 • Implementation of Inception Phase of RUP • Implementation of Elaboration Phase of RUP

  7. Implementation of Inception Phase

  8. Implementation of Inception Phase • Research • Business Modeling • Requirements • Analysis and Design

  9. Research • Automated CAD for Detection of Lung Nodule using CT Scans by M. Gomathi, Dr.P Thangaraj • An Automated Computer Aided Breast Cancer Detection System by Varsha H. Patil , Dattatraya S. Bormane and Vaishali S. Pawar.Chronic Disease Alliance: A Unified Approach • Segmentation technique for detecting suspect masses in dense breast digitized images as a tool for mammography CAD schemes by Homero Schiabel, Vivian T. Santos, Michele F. Angelo

  10. Research • A Telerobotic Assistant tor Laparoscopic Surgery • A Virtual Environment and Model of the Eye for Surgical Simulation by Mark A. Sagar, David Bullivant, Gordon D. Mallinson, Peter J. Hunter, Ian W. Hunter • Robotic Surgery, Telerobotic surgery, Telepresence, and Telementoring: Review of early clinical results by G.H. Ballantyne.

  11. Research • OMG Systems Modeling Language Tutorial • Introduction to UML • IEEErecommended practice for software requirements specifications. • IEEE 1016 – Recommended Practices for Software Design Description

  12. Business Modeling • Vision Document: A general vision of the core project’s requirements, key features, and main constraints • An Initial Business Case Document which includes business context, success criteria, and financial forecast

  13. Requirements • Voice of Customer Document • Customer Needs Document • Functional Requirements Document • Project Glossary Document

  14. Analysis and Design • Axiomatic Design • Initial Use Case Model • Project Plan • Initial Risk Assessment

  15. Axiomatic DesignFR-DP Design Matrix

  16. Axiomatic DesignCustomer Needs

  17. Axiomatic DesignFR-DP Decomposition

  18. Axiomatic DesignQuality Function Deployment

  19. An Initial Use Case ModelThyroid Cancer Detection System

  20. An Initial Use Case ModelLaparoscopic Robotic Surgery

  21. Project Plan

  22. Project Plan (Contd)

  23. Project Plan (Contd)

  24. Risk Analysis

  25. Implementation of Elaboration Phase

  26. Implementation of Elaboration Phase • Business Modeling • Requirements • Analysis and Design

  27. Business Modeling • Business Case Document which includes business context, success criteria, and financial forecast

  28. Software Requirements Specification • Introduction • Overall Description – Product Perspective, Product Functions, User Characteristics, Stakeholder Needs, General Constraint, Assumptions & Dependencies • Specific Requirements – Functional Requirements – External Interface Requirements – Performance Requirements – Design Constraints – Software System Attributes – Other Requirements

  29. Software Requirements Specification

  30. Software Requirements SpecificationAutomated Thyroid Cancer Detection System

  31. Software Requirements Specification Laparoscopic Robotic Surgery

  32. Software Design Descriptions • Overview – Introduction, Purpose, Scope, Assumptions and General Constraints, Definitions, Reference Documents • Stakeholder – Identification, Concerns • Software Architecture Overview – Viewpoint - Views Summary, Architecture Goals and Constraints • Architecture Viewpoint – Architecture Viewpoint summary, UML & SysML diagram

  33. UML ModelingData Flow Diagram Automated Thyroid Cancer Detection System

  34. UML ModelingData Flow DiagramLaparoscopic Robotic Surgery

  35. UML ModelingActivity Diagram Automated Thyroid Cancer Detection System

  36. UML ModelingActivity DiagramLaparoscopic Robotic Surgery

  37. UML ModelingSequence DiagramAutomated Thyroid Cancer Detection System

  38. UML ModelingSequence DiagramLaparoscopic Robotic Surgery

  39. UML ModelingClass DiagramAutomated Thyroid Cancer Detection System

  40. UML ModelingClass DiagramLaparoscopic Robotic Surgery for Thyroid Cancer

  41. UML ModelingState Chart DiagramAutomated Thyroid Cancer Detection System

  42. UML ModelingState Chart DiagramLaparoscopic Robotic Surgery

  43. UML ModelingDeployment DiagramAutomated Thyroid Cancer Detection System

  44. UML ModelingDeployment DiagramLaparoscopic Robotic Surgery

  45. SysML ModelingRequirements DiagramAutomated Thyroid Cancer Detection System

  46. SysML ModelingRequirements DiagramLaparoscopic Robotic Surgery

  47. SysML ModelingActivity DiagramAutomated Thyroid Cancer Detection System

  48. SysML ModelingActivity DiagramLaparoscopic Robotic Surgery

  49. Thank You

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