COURSE OUTLINE Fall 2007
Real Time System Verification and Validation
CSE 595 CRN: 48249
Instructor: Professor. Subra Ganesan
Office: 105 DHE, Phone: (248) 370-2206; Fax: 370 4625,
Email:
Lecture: 4:00 P.M. to5:47P.M., on M, W at Ford
Laboratory: There will be no labs. Assignments requiring laboratory type work will be given.
Office Hours: Just after the class or at other times by appointment
TEXT BOOKS:
- Jeffrey O. Grady, “System Validation and Verification” CRC press, Taylor & Francis Group, 1997, ISBN—0-8493-7838-9
- Phillip A. Laplante, “Real time systems design and analysis”, 3rd edition,Wiley Inder Science, ISBN 0-471-22855-9
References:
Jane W. Liu “Real Time Systems” Prentice Hall, 2000, ISBN: 0-13-099651-3.
C.M. Krishna and R.G. Shin, “Real time system” McGraw Hill 1997.
Ronald Jurgen “ Automotive Handbook”, McGrawHill Handbook, Latest edition.
PREREQUISITES: Vehicle electronics
Course Description
- Real Time Embedded System Characteristics
- Real Time Scheduling of Tasks- RM and EDF scheduling
- System Requirement
- Real time distributed vehicle system,
- performance measure,
- communication issues,
- modeling hardware and software embedded system-
-model in the loop tests,
-software in the loop test, hardware in the loop tests-
- Verification of-- concept, requirement, design analysis, implantation, system integration, operational and maintenance phases.
- Diagnosis- failure mode analysis-
- embedded software and hardware verification process,
- NASA/IEEE Standards,
- use of NI labview,
- Matlab, Real time analysis tool boxes and
- simulation tools for validation.
- Research issues.
Presentation:
A number of papers will be assigned for reading. Each student has to make one presentation on one of the topics during the term (October).
Lab type Assignments:
CANoe communication simulation, Use of Real Time Matlab tool, Code Composer studio for DSP System, code Warrior for HC 12 system or LiveDevices Real Time Architect software tool.
PROJECT
Each student must work on a term project during the second half of the course. The
project must be completed before the due date mentioned below.
Project title and brief abstract is due on: Oct. 3
Project Progress reportOct 24
Presentation in the lecture room 12/3, 12/5
Final Project report is due on: 12/5
EXAMINATION AND GRADE POLICY. (Nov 22 to Nov 25 Thanksgiving holidays)
Quiz 1 : (Open book; ) October 1010%
(Last day for withdrawal is Nov 6 )
Quiz 2 (Take home)Nov 510%
Final Exam (Take Home, 1 week time) due on Dec 10, 30%
Presentations in the Class10%
Project -Report / Demonstration/presentation: (10% +5% +5%) 20%
Home work 15%
Participation in the class 5%
GRADING POLICY: 55% and 95% of the total score will be 1.0 and 4.0 respectively. The grading curve is linear between 1.0 and 4.0. Grading policy may be modified if the average of the exams/score is very low.
Academic Conduct: Students are expected to practice and uphold standards of academic integrity and honesty. Examples of dishonesty: cheating in exams, labs, and home work; Plagiarizing the work of others, unauthorized collaborations on computer assignments . Please refer the Graduate or Undergraduate catalog for details.