1. ENGINEERING TEAM PROJECT ELECTRONIC MATRIC RECORDING SYSTEM GROUP 44 TEAM MEMBERS : MUHAMMAD ASYRAFF BIN AZMI (CHE)13675 DANDY LAU JING HUI (EE)13782 MUHAMMAD HASSANEI HEYKAL BIN AZMI (ME)13937 ABDUL RAHIM BIN MOHD SABRI (PE) 13584 NUR IZZATI IZUREEN BINTI ADNAN (PE)13600 JONATHAN WONG SIONG KAI(CV)13831 Supervisor: Ir Dr Mohd Shiraz B Aris (GPE)

2. OVERVIEW Introduction Background study Problem statement Objectives Methodology & Concept Technicals Economic Feasibility Result & discussion Conclusion

3. INTRODUCTION (PROBLEM STATEMENT) The present class attendance signing system is unorganized, inefficient and need to be manually managed by lecturers.

4. INTRODUCTION (BACKGROUND STUDIES) The present class attendance signing system: Takes too much time Disturbs the focus of students Cause cheating among students

5. INTRODUCTION (OBJECTIVES) To create a more systematic and well-managed attendance system by making use of student’s matric card. Introduce an electronic attendance registration system which is Cheat proof Reliable Cost effective Encourages paperless environment

6. METHODOLOGY Problem Identification Come out with design system Analyze the design system Gather data (survey and feedback) Work on the prototype Test and evaluate the prototype Make improvement if necessary Come out with final product

7. Data saved in the Excel file and ready to be copied Subject passing sensor 1 Subject passing sensor 2 Scan the matric card Data sent to the computer

13. FEATURES Accurate data recording User-friendly software Quick operation Anti-cheat system

14. TECHNICALS (ELECTRONICS)

15. USE BOTH DIGITAL & ANALOGUE COMPONENTS USED: 8 AND GATES 2 OR GATES 12 NOT GATES 1 XOR GATE 3 COMPARATORS/OP-AMPS

16. TECHNICALITIES (ELECTRONICS)

18. LOW POWER COMSUMPTiON

19. TECHNICALITIES (FABRICATION)

20. PROTOTYPE Mild Steel (1” X 2”) Dimension: Vertical Pole: 1.1m Horizontal Base: 0.9m X 0.2m Perspex Sheet Dimension: 1m X 0.3m X 0.003m IR Sensors Barcode Scanner

21. POSSIBLE REAL CONCEPT INSTALLATION Suitable Location for EMRSys1.0

22. Possible Installation in UTP

23. RESULTS & DISCUSSION

24. ECONOMIC FEASIBILITY

25. DEVICES IN THE MARKET 50 USD 80 USD

26. CONCLUSION Project is Economically feasible Practically feasible, proven to be efficient Further improvements on prototype Integrated system of a few other prototype to maximize efficiency Faster barcode scanner and better IR sensor Further development of the interfacing software