1 |
H. Kim, "Air Traffic Communication & Information Service," Sung Jin Culture, 2017, pp.60.
|
2 |
J. Hyun, "The Analysis of Voice Communication Traffic based on ADS-B Providing the Aiming Altitude Parameter," The journal of Korea Navigation Institute, vol.15, no.6, Dec, 2011, pp.947
|
3 |
Y. Kim, "Next Generation Aviation Survaeillance System Using SBAS:ADS-B," Korea Aerospace Research Institute, 2018, pp.2.
|
4 |
Y. Jin, "Trends in Collsion Avoidance Technology Based on Automated Vision of Unmanned Aerial Vehicles," Progress in Aerospace Sciences, Vol.80, 2016
|
5 |
I. Song, "A Design and Implementation of an ADS-B Monitoring System Capable of Displaying Air Traffic Situation," J. of Korea Navigation Institute, vol.18, no.4, Aug, 2014, pp.279-280.
|
6 |
D. Sin, "Standard Ultra-Light-Vehicle Pilots Handbook," Myujin Tree, 2019, pp.59
|
7 |
S. Jeong, "Drones flying and violations of privacy laws, such as riskon," J. of Satellite, Information and Communications. vol.12, no.1, 2017, pp.23
|
8 |
S. Cho, "Collision Avoidance Maneuver of Unmanned Aerial Vehicles Applying TCAS-II," J. of the Korean Society for Aeronautical and Space Sciences," vol.32, no.4, 2006, pp.2
|
9 |
J. So, "Aviation, Space and Ocean : Detection Performance Comparison of ADS-B and TCAS Using Simulation," The Journal of Korea Nevigation Institute, vol.19, no.6, 2015, pp.466-468
|
10 |
G. Yun, "Drone Core Technologies and Future Challenges," 光學世界, Vol.158No.-[2015], pp. 52-54
|