Research Themes
- Hardware Implementation of Channel Estimation for OFDM Receiver with ESPAR Antenna
- Subcarrier index modulation based flexible OFDM system
- Radio over Fiber Technology
- Throughput Measurement of 2-by-2 LCX-MIMO System in Real Indoor Liner-cell Environment
- Diversity Gain Analysis of SFN-STBC Digital Terrestrial TV System using Dual Polarized MIMO Antenna
- Linear cell system of LCX-MIMO and its beam-forming
- Compressed Sensing based Channel Estimation Algorithm for MIMO-OFDM System
- Subcarrier index modulation based flexible OFDM system
- Radio over Fiber Technology
- Throughput Measurement of 2-by-2 LCX-MIMO System in Real Indoor Liner-cell Environment
- Diversity Gain Analysis of SFN-STBC Digital Terrestrial TV System using Dual Polarized MIMO Antenna
- Linear cell system of LCX-MIMO and its beam-forming
- Compressed Sensing based Channel Estimation Algorithm for MIMO-OFDM System
- Sensing
- Weather data processing and rainfall prediction using particle filter
- High-resolution localization using leaky coaxial cable antenna
- RFID tag localization using hybrid inductive-capacitive coupling
- High-resolution localization using leaky coaxial cable antenna
- RFID tag localization using hybrid inductive-capacitive coupling
- Wireless Power Transmission
Research Topic: Radio over Fiber Technology
Person in charge: Communication team
Research Brief
The radio over fiber (RoF) technique has employed in order to fill radio dead zone for many years ago. Optical fiber is superior to metaric coaxial cable in terms of bandwidth, propagation loss, weight, and immunity from electromagnetic induction. Our laboratory proposes as following. 1. Optical repeater for next generation terrestrial digital television broadcasting (DTTB). 2. Simultaneous transmission of 10 Gbps OOK signal microwave radio signal in single wavelength. 3. Centralized control for LTE base station in mobile fronthaul.
