OFDM
Relay
Cognitive Radio
Multiple Antennas
Resource Allocation
Full Duplex
Spectrum Sensing
Synchronization
Spectrum Sharing
Channel Estimation
Interference Cancellation
Stochastic Geometry
Energy Harvesting
Feedback
Bi-directional
Heterogeneous Networks
Equalization
HetNet
relay networks
FBMC
Ultra Low Power
SC-FDMA
TVWS
Duplex
Reliability
CDMA
MIMO
interference
channel capacity
in-band full-duplex system
interference suppression
5G
C-V2V
reinforcement learning
RSRP weighting
non-orthogonal multiple access (NOMA)
health care
5G mobile communication
indoor positioning
Vehicle-to-vehicle communication
estimated position overlapping
Resource sharing
Power allocation
multi-access edge computing
control overhead
hybrid
Rat-dependent positioning
NR positioning
smart factory
UFMC
Handoff
Femtocell
QAM
CoMP
power uncertainty
- Computation offloading
amplify and forward communication
Zigbee
body area networks
resource block management
frame structure
WVAN
inter user interference
GFDM
mode selection
antenna arrays
partial overlap
LTE-based V2V
resource selection
maximum likelihood method
Communication range
Number of training blocks
Vehicular communication
Uplink SCMA system
Dynamic TDD
QR Factorization
Metaheuristics
FS-NOMA
cross-link interference
user fairness
Multi-user Receiver
Mode 3
V2X
P-NOMA
dynamic HetNet
spectrum partitioning
DQN
D-TDD
CLI
massive connectivity
and 5G networks.
OTDOA
estimated position updating
distributed mode
non-orthogonal multiple access
Spatial capacity
LTE-TDD
—Device-to-device (D2D)
Location-based
overloading
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Dongkyu Kim, Hano Wang, and Daesik Hong, "On the Feasibility of a Overlay Cellular System for Future Military Networks," ICEIC2012, Feb. 2012
[ICEIC]
조회 63260
| Status : | Presented |
|---|---|
| Date : | 2012-02 |
| Title : | On the Feasibility of a Overlay Cellular System for Future Military Networks |
| Authors : | Dongkyu Kim, Hano Wang, and Daesik Hong |
| Conference : | ICEIC2012 |
| Abstract : | Due to the moving nature of military communication units, there should be overlaid regions where a conventional macro-cell and the moving military units represented by microcell use the same frequency band. Therefore, co-channel interference (CCI) might result in severe capacity degradation of the MWiMAX system. For a performance metric to evaluate the overlay M-WiMAX system, we define exclusion region where the frequency reuse between the macro-cell and micro-cell is prohibited because the sum capacity of the macro-cell and the micro-cell is less than the capacity of only the macro-cell due to increase in CCI caused by the micro-cell. In our result, it is shown that the exclusion region can be reduced up to 84.6% by utilizing sectorization antenna and the FFR techniques. |
| Download : | http://mirinae.yonsei.ac.kr/?module=file...a10fc4b7b1 |
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