[RP13] Electrical and Mechanical Drone Beamforming, IITP, 2018~2023 In this project, we develop electrical and mechanical drone beamforming algorithms to improve the performance of target detection and wireless communications. Actual drone systems are implemented to evaluate the proposed algorithms. We plan to employ deep learning algorithms to further improve the performance of drone control optimization and… Continue reading
In this project, we study and develop a communication/network system for active mobile trackers working without any extra power source. In the mother project, fundamental technologies underpinning a self-powered miniature nationwide mobile position tracker system are developed. As the third sub-project, we develop wide area sensor communication network systems to support the active trackers.
[RP11]: Learning-Based Asynchronous Communications/Radar Combined Systems, National Research Foundation of Korea(NRF) funded by the Ministry of Science, ICT & Future Planning, Nov. 2016 ~ Nov. 2019 In this project, we will develop an asynchronous communications/radar combined systems for improved spectral efficiency and lower cost. The key idea is to employ asynchronous communication techniques and combine them with radar… Continue reading
[RP9] Research on Core Technologies for Hyperloop, UNIST, May 2016 ~ Feb. 2019 [*figure from wikipedia] In this project, we develop core technologies for next generation ultra high speed transportation. The emphasis is on real-time wireless communication technologies. The main application will be Hyperloop, which is expected to move faster than 1000km/h.
[RP5] Research on Near-Zero Latency Network for 5G Immersive Service, Ministry of Science, ICT and Future Planning, May 2015 ~ Feb. 2020 The 5G mobile wireless communications are expected to enable immersive real-time services such as cloud streaming gaming, remote surgery, smart car, and etc. To this end, the end-to-end latency needs to be lowered to several… Continue reading