Frequency assignment problem with net filter discrimination constraints
Managing radio spectrum resources is a crucial issue. The frequency assignment problem (FAP) basically aims to allocate limited number of frequencies to communication links in an efficient manner. Geographically close links, however, cause interference, which complicates the assignment, imposing fre...
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| Veröffentlicht in: | Journal of communications and networks 2017, 19(4), , pp.329-340 |
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| container_title | Journal of communications and networks |
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| creator | Yilmaz, H. Birkan Bon-Hong Koo Sung-Ho Park Hwi-Sung Park Jae-Hyun Ham Chan-Byoung Chae |
| description | Managing radio spectrum resources is a crucial issue. The frequency assignment problem (FAP) basically aims to allocate limited number of frequencies to communication links in an efficient manner. Geographically close links, however, cause interference, which complicates the assignment, imposing frequency separation constraints. The FAP is closely related to the graph-coloring problem and it is an NP-hard problem. In this paper, we propose to incorporate the randomization into greedy and fast heuristics. As far as being implemented, the proposed algorithms are quite straight forward and are unencumbered by system parameters that need to be tuned whenever the system changes. The proposed algorithms significantly improve, quickly and effectively, the solutions obtained by greedy algorithms in terms of the number of assigned frequencies and the range. The enhanced versions of the proposed algorithms perform close to the lower bounds while running in a reasonable duration. Another novelty of our study is its consideration of the net filter discrimination effects in the communication model. Performance analysis is done by synthetic and measured data, where the measurement data includes the effect of the real 3-dimensional (3D) geographical features in the Daejeon region in Korea. In both cases, we observe a significant improvement by employing randomized heuristics. |
| doi_str_mv | 10.1109/JCN.2017.000057 |
| format | Article |
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Birkan ; Bon-Hong Koo ; Sung-Ho Park ; Hwi-Sung Park ; Jae-Hyun Ham ; Chan-Byoung Chae</creator><creatorcontrib>Yilmaz, H. Birkan ; Bon-Hong Koo ; Sung-Ho Park ; Hwi-Sung Park ; Jae-Hyun Ham ; Chan-Byoung Chae</creatorcontrib><description>Managing radio spectrum resources is a crucial issue. The frequency assignment problem (FAP) basically aims to allocate limited number of frequencies to communication links in an efficient manner. Geographically close links, however, cause interference, which complicates the assignment, imposing frequency separation constraints. The FAP is closely related to the graph-coloring problem and it is an NP-hard problem. In this paper, we propose to incorporate the randomization into greedy and fast heuristics. As far as being implemented, the proposed algorithms are quite straight forward and are unencumbered by system parameters that need to be tuned whenever the system changes. The proposed algorithms significantly improve, quickly and effectively, the solutions obtained by greedy algorithms in terms of the number of assigned frequencies and the range. The enhanced versions of the proposed algorithms perform close to the lower bounds while running in a reasonable duration. Another novelty of our study is its consideration of the net filter discrimination effects in the communication model. Performance analysis is done by synthetic and measured data, where the measurement data includes the effect of the real 3-dimensional (3D) geographical features in the Daejeon region in Korea. 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| source | IEEE Electronic Library (IEL) |
| subjects | Algorithms Antenna measurements Coloring Discrimination Electronic mail Frequencies Frequency assignment Greedy algorithms Lower bounds Operations research Radiofrequency interference Randomization Receiving antennas Spectrum allocation Transmitters 전자/정보통신공학 |
| title | Frequency assignment problem with net filter discrimination constraints |
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