과제정보
This research was supported by Hwarang-dae research institute of Korea Military Academy in 2021
참고문헌
- B. Bharti, P. Thakur & G. Singh. (2021) A framework for spectrum sharing in cognitive radio networks for military applications. IEEE Potentials.
- T. J. Willink. (2007). SDR and Cognitive Radio for Military Applications. Emerging Wireless Technologies.
- A. G. Fragkiadakis, E. Z. Tragos & I. G. Askoxylakis. (2013). A Survey on Security Threats and Detection Techniques in Cognitive Radio Networks. IEEE Communications Surveys & Tutorials.
- J. R. Agre, T. MacDonald, S. Shah & M. S. Vassiliou. (2013) Crucial Differences Between Commercial and Military Communications Technology Needs. IEEE Military Communications Conference.
- T. Braun, A. Kassler, M. Kihl, V. Rakocevic, V. Siris & G. Heijenk. (2009) Multihop Wireless Networks. Traffic and QoS Management in Wireless Multimedia Networks.
- T. Braysy, B. Buchin, S. Couturier, J. Krygier, V. L. Nir, N. Smit, T. Tuukkanen & E. Verheul. (2018). Assessment of Cognitive Radio Networks through Military Capability Development Viewpoint. International Conference on Military Communications and Information Systems (ICMCIS).
- H. Tang & S. Watson. (2014). Cognitive radio networks for tactical wireless communications. Defence R&D Canada, Scientific report.
- H. Liu, Z. Lin, X. Chu & Y. Leung. (2012). Taxonomy and Challenges of Rendezvous Algorithms in Cognitive Radio Networks. International Conference on Computing, Networking and Communications (ICNC).
- Y. Chen, Q. Lei & X. Yuan. (2014). Resource allocation based on dynamic hybrid overlay/underlay for heterogeneous services of cognitive radio networks. Wireless Personal Communications.
- North Atlantic Treaty Organization. (2014) Cognitive Radio in NATO. Science and Technology Organization, January, 76-83.