Advanced Communication Programming (Lecturer: Prof. Ahn, Lab. TA: Dansran Bayarsaikhan)

 

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Week-01: Introduction to Lecture

 

Week-02: RFID-UHF

Lab: Theory(pdf, pptx), Arduino code(ino)

(Optimal self-study)

     UHF RFID solutions for smartphone: Park, Lautner, Vanch Inc.

     Digital receiver-based UHF RFID reader: Huang

     ST25RU3993 dev kit and use cases

CST simulation: Half-wave dipole design (htm, mp4-1, mp4-2)

 

Week-03: RFID-NFC

Lab: Theory(pptx), Experiment(docx)

CST simulation: Coupling between two half-wave dipoles, Lab instructions (htm), Simulation guide (htm)

 

Week-04:

Lecture: Wireless MIMO (pdf)

(Homework 1)

1. List worldwide frequency ranges for LF RFID, HF RFID (RFID-NFC), and UHF RFID.

2. What is the range of the UHF RFID in South Korea?

3. What is the EIRP (effective isotropically radiated power)?

4. What is the maximum EIRP for the UHF RFID reader in South Korea.

5. What is the read collision in the RFID-NFC reader?

6. What is a typical read range of RFID-NFC?

 

Week-05: Bluetooth peer to peer

Lab: Theory(pptx), Experiment(docx)

CST simulation: Monopole antenna, Lab instructions (htm), Simulation guide (htm)

 

Week-06: Bluetooth network

Lab: Theory(pptx), Experiment(docx)

CST simulation: Impedance matching of short dipole antenna and small loop antenna: instructions, guide

Small antenna matching calculator: source code (ant-imped-match.f90), exectable code (ant-imped-match.exe)

 

Week-07: Digital predistortion (pdf)

Lecture note (pdf)

(Homework 2)

Write down keywords of the lecture notes for Weeks 2 to 6.

 

Week-08: Wi-Fi peer to peer

Lab: Theory(pptx), Experiment(docx)

CST simulation: Microstrip 10dB directional coupler (docx, cst)

Advanced Communication Programming, Mid-tem. Exam.

Student ID (                    ), Name (                  )

Problem: Use Adafruit PN732 and make it read a tag.

 

Week-09: Wi-Fi network

Lab: Theory(pptx), Experiment(docx)

CST simulation: Microstrip Wilkinson power divider (docx, cst, jpg)

 

Week-10: Wireless MAN

Lecture note (pdf)

 

Week-11: Zigbee

Lab: Theory(pptx), Experiment(docx)

CST simulaiton: Microstrip quadrature hybrid coupler (docx, cst, jpg)

 

Week-12: LoRa

Lab: Theory(pptx), Experiment(docx)

CST simulation: Unfolded Lange coupler (docx, cst, jpg)

 

Week-13: Analog and digital I/Q modulation

Lecture note (pdf)

(Homework 3)

Write down keywords of the lecture notes for Weeks 7 to 11.

 

Week-14: LTE

Lab: Theory(pptx), Experiment(docx)

CST simulaiton: Microstrip T-junction (htm)

 

Week-15: IR Communication

Lab: Theory(pptx), Experiment(docx)

Microstrip analysis with online tools (doc)

Advanced Communication Programming Final Exam.

Student ID (                    ), Name (                  )

Problem: Use two units of Heltek CP2102 Arduino ESP32 0.96 and make them communicate with each other through Wi-Fi.