ECET/CPET 491 Senior Design Project II
October 16, 2007
Paul Lin, Professor or Electrical and Computer Engineering Technology
Recommended
Sections and Information for the Final Report.
A Transmittal Letter
Address to Professor Paul Lin
Content:
Student signature
Enclosure: Final Report
Cover Page:
Project Title (largest font)
Final Project Report
Date
Student Name
Professor Names
ENGW 421 Technical Writing Project
Submitted to:
Paul I. Lin, Professor of ECET 491 Senior Design II
Department of Electrical and Computer Engineering Technology
ABSTRACT
TABLE OF CONTENT
LIST OF ILLUSTRATIONS
LIST OF TABLES
EXECUTIVE SUMMARY (purpose of the project, project time period, development process, short description of the final deliverables, acknowledgement; and a list of keywords)
CHAPTER 1. INTRODUCTION
Problem Topic
Background
Criteria
Methodology
Primary Purpose
Overview
CHAPTER 2. SYSTEM DESIGN OVERVIEW AND RESEARCH
Feasibility
Design Process
Legal Aspects
System Scope
CHAPTER 3. HARDWARE (Circuit) DESIGN (if applicable)
Circuit Design
Simulation Results
Circuit Prototypes and Testing
PCB Layout
CHAPTER 4. SOFTWARE DESIGN (if applicable)
Software Architecture
Programming Language
Integrated Development Environment
Main Components
UML Diagrams: State Diagrams, Activity Diagrams, etc
CHAPTER 5. UNIT TESTING AND SYSTEM INTEGRATION
Software Testing and Validation
Hardware Testing and Validation
System Integration, Testing, and Validation
CHAPTER 6. PROJECT MANAGEMENT
Schedule and Time Management
Resource and Cost Management
Quality Management
Risk Management
Project Procurement
Lessons Learned
CHAPTER 7. CONCLUSION
REFERENCES
(Last page of the report; in IEEE Format with examples for reference to data sheet, user manual, technical specification, technical documentation, books, conference papers, and papers)
[1] M.
Duguid, “Automated Piezometer System,” B.S. EET Senior
Design Report,
[2] Philips P8 x 592 8-bit Microcontroller with on-Chip CAN: Datasheet, Philips Semiconductor, 1996.
[3] MCP2515 Stand-Alone CAN Controller with SPI Interface: Datasheet, Microchip, 2005.
[4] Crossbow, MICAz-Wireless Measurement System Product Data Sheet, 2005. [Online]. Available: http://www.xbow.com/Products/Product_pdf_files/Wirelss_pdf/MICAz_Datasheet.pdf. [Accessed: Oct. 2007]
[5] C515C 8-bit CMOS Microcontroller, User’s Manual, Siemens, 1997.
[6] R.
Bosch, CAN Specification 2.0. Postfach,
[7] M.
Spong and M. Vidyasagar, Robot Dynamics and Control,
[8] A. Hemani and M. Mehrabi, “On the steering control of automated vehicles,” in Proc. IEEE Conf. Intelligent Transportation System, 1977, pp. 266-271.
[9] Y.S. Kim, B.S. Soh, and S.G. Lee, “A new wearable input device: SCURRY,” IEEE Trans. Ind. Electron., vol. 52, no. 6, pp. 1490-1499, Dec. 2005.
[10] J.
[11] W. Hu, X. Xiao, D. Xie, T. Tan, and S. Maybank, “Traffic accident prediction using 3-D model-based vehicle tracking,” IEEE Trans. Veh. Technol., vol. 53. no. 3, pp. 677-694, May 2004.
[12] W. van der Mark and D. Gavrila, “Real-time dense stereo for intelligent vehicle,” IEEE Trans. Intell. Transp. Syst., vol. 7, no. 1, pp. 63-77.
[13] M. Hunt et al., “Speed control design for an experimental vehicle using a generalized gain scheduling approach,” IEEE Trans. Control Syst. Technol., vol. 8, no. 3, pp. 381-395, May 2000.
[14] M. F. Rasid and B. Woodward, “Bluetooth telemedicine processor for multichannel biomedical signal transmission via mobile cellular networks,” IEEE IEEE Info. Technol. in Biomed., vol. 9, no. 1, pp. 35-43, Mar. 2005.
[15] Z. Doulgeri, and T. Matiakis, “A web telerobotic system to teach industrial robot path planning and control,” IEEE Trans. Educ. vol. 49, no. 2, May 2006.
[16] K. K. Tan and H. L. Goh, “Complete mobile e-mail management,” in Proc. Int. Symp. Santa Caterina on Challenges in the Internet Interdisplinary Research, 2004, pp. 29-1-29-6.
APPENDICES
Appendix A: Bosch CAN
Appendix B: Parts List for Prototype
Appendix C: Software Programs and Routines
Appendix D: Technical Support & Communications