OFDM
Relay
Cognitive Radio
Multiple Antennas
Resource Allocation
Full Duplex
Spectrum Sensing
Synchronization
Spectrum Sharing
Interference Cancellation
Channel Estimation
Feedback
Heterogeneous Networks
Bi-directional
Energy Harvesting
Stochastic Geometry
HetNet
relay networks
FBMC
Equalization
channel capacity
TVWS
CDMA
interference
in-band full-duplex system
Duplex
MIMO
Ultra Low Power
C-V2V
5G
Reliability
SC-FDMA
interference suppression
D-TDD
CLI
indoor positioning
reinforcement learning
RSRP weighting
- Computation offloading
smart factory
Cell-free
multi-access edge computing
estimated position overlapping
—Device-to-device (D2D)
estimated position updating
mMIMO
control overhead
hybrid
NR positioning
Femtocell
Rat-dependent positioning
frame structure
Zigbee
body area networks
channel estimation error
Handoff
CoMP
User grouping
power uncertainty
ultra-dense small cell network
mode selection
antenna arrays
5G mobile communication
UFMC
resource block management
inter user interference
WVAN
health care
partial overlap
GFDM
Dynamic TDD
Multi-user Receiver
Number of training blocks
Uplink SCMA system
V2X
Vehicular communication
cross-link interference
LTE-TDD
FS-NOMA
Location-based
user fairness
Mode 3
QR Factorization
Metaheuristics
P-NOMA
non-orthogonal multiple access
dynamic HetNet
spectrum partitioning
and 5G networks.
massive connectivity
non-orthogonal multiple access (NOMA)
overloading
DQN
OTDOA
distributed mode
Communication range
resource selection
maximum likelihood method
Resource sharing
Power allocation
packet delay
Dongkyu Kim, Hano Wang, and Daesik Hong, "On the Feasibility of a Overlay Cellular System for Future Military Networks," ICEIC2012, Feb. 2012
[ICEIC]
조회 65948
| 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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