TGGS > ECE > 322
Advanced Wireless Communications and Metering Infrastructure
Introduction to Wireless Communications. Probability Theory. Random Variables. Random Processes. Matrix definitions. Operations. and Properties. Path Loss. Shadowing. Statistical Multipath Channel Models. Digital Modulation and Detection. Performance of Digital Modulation over Wireless Channels. Multiple Access Techniques. Signal to Noise Power Ratio. Detection Error Probability. Smart Meters. Advanced Metering Infrastructure (AMI). Communication Network Architecture for Smart Grids. Meter Data Acquisition System. Meter Data Management System (MDMS). Anti-tampering Methodology. Smart Grid System Integration.
Credits : 3 (3-0-6)
Pre-Requisites : No
| Course Learning Outcomes (CLOs) : | |
|---|---|
| CLO 1 | Explain the theoretical concepts effectively in the following topics: • Wireless communication systems • Advanced metering infrastructure (AMI). |
| CLO 2 | Design the wireless communication systems optimally, including the digital modulation/demodulation, the optimal receiver, and the signal constellation and decision region. |
| CLO 3 | Design the AMI systems optimally, including the AMI smart meters, the communication technology for AMI systems, the head-end system (HES) and meter data management system (MDMS), and the data analytics for AMI systems. |
| CLO 4 | Analyze the performance of wireless communication systems and AMI systems effectively by using both computer simulation and instruments. |
| CLO 5 | Demonstrate the simulation results, experimental results, and assignments given in the class to the publics effectively. |
| CLO1 | CLO2 | CLO3 | CLO4 | CLO5 | |
| ELO 1 | ✓ | ||||
| ELO 2 | ✓ | ||||
| ELO 3 | ✓ | ✓ | |||
| ELO 7 | ✓ |
Revision : July 2021 (090245429)
Other Revisions : July 2020