Joint Downlink Cell Association and Bandwidth Allocation for Wireless Backhauling in Two-Tier HetNets With Large-Scale Antenna Arrays

Joint Downlink Cell Association and Bandwidth Allocation for Wireless Backhauling in Two-Tier HetNets With Large-Scale Antenna Arrays

The problem of joint downlink cell association (CA) and wireless backhaul bandwidth allocation (WBBA) in two-tier cellular heterogeneous networks (HetNets) is investigated. Large-scale antenna array is implemented at the macro base station (BS), while the small cells within the macro cell range are...

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Bibliographic Details
Published in:IEEE transactions on wireless communications Vol. 15; no. 5; pp. 3251 - 3268
Main Authors: Ning Wang, Hossain, Ekram, Bhargava, Vijay K.
Format: Journal Article
Language:English
Published: New York IEEE 01-05-2016
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
5G cellular HetNet
Algorithms
Allocations
Antenna arrays
Antennas
Bands
Bandwidth
bandwidth allocation
Bandwidths
Base stations
cell association
Cellular
Computer architecture
dense small cell network
Interference
large-scale MIMO
Maximization
Microprocessors
MIMO
Optimization
wireless backhaul
Wireless communication
5G cellular HetNet
bandwidth allocation
wireless backhaul
dense small cell network
cell association
large-scale MIMO
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Summary:The problem of joint downlink cell association (CA) and wireless backhaul bandwidth allocation (WBBA) in two-tier cellular heterogeneous networks (HetNets) is investigated. Large-scale antenna array is implemented at the macro base station (BS), while the small cells within the macro cell range are single-antenna BSs and they rely on over-the-air links to the macro BS for backhauling. A sum logarithmic user rate maximization problem is studied under the wireless backhaul constraints. Duplex and spectrum sharing with co-channel reverse time-division duplex (TDD) and dynamic soft frequency reuse is considered for interference management in the two-tier HetNet employing large-scale antenna arrays at the macro BS and wireless backhauling for small cells. Two in-band WBBA scenarios, namely, unified bandwidth allocation and per-small-cell bandwidth allocation, are investigated for joint CA-WBBA in the HetNet. A two-level hierarchical decomposition method for relaxed optimization is employed to solve the mixed-integer nonlinear program (MINLP). Solutions based on the General Algorithm Modeling System (GAMS) optimization solver and fast heuristics are also proposed for cell association in the per-small-cell WBBA scenario. It is shown that when all small cells have to use in-band wireless backhaul, the system load has more impact on both the sum logarithmic rate and per-user rate performance than the number of small cells deployed within the macro cell range. The proposed joint CA-WBBA algorithms have an optimal load approximately equal to the size of the large-scale antenna array at the macro BS. The cell range expansion (CRE) strategy, which is an efficient cell association scheme for HetNets with ideal backhauling, is shown to be inefficient when in-band wireless backhauling for small cells comes into play.
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ISSN:1536-1276
1558-2248
DOI:10.1109/TWC.2016.2519401