Load Balancing in UDNs Considering the Small-Cell Cluster Layout and the APs Inter-Communications

In Ultra-Dense Networks, the load across the small cells is unevenly distributed due to the random deployment of small cells, the mobility of user equipments (UEs) and the preference of small cells during the selection and reselection. This results in performance degradation. To solve this problem,...

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Bibliographic Details
Published in:2019 IEEE International Conference on Communication, Networks and Satellite (Comnetsat) pp. 64 - 68
Main Author: Salhani, Mohamad
Format: Conference Proceeding
Language:English
Published: IEEE 01.08.2019
Subjects:
Clustering algorithms
DSM method
Handover
Integrated circuit modeling
Layout
load balancing
Load management
Load modeling
proactive algorithms
reactive algorithms
small-cell layout
UDN
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Summary:In Ultra-Dense Networks, the load across the small cells is unevenly distributed due to the random deployment of small cells, the mobility of user equipments (UEs) and the preference of small cells during the selection and reselection. This results in performance degradation. To solve this problem, this paper proposes proactive algorithms for balancing the load across the small-cell clusters and compares their balancing results to the previous reactive algorithms. The proactive algorithms distribute the UEs to the access points (APs), while the reactive algorithms are only triggered when the load of the chosen small-cell cluster reaches a predefined threshold. Moreover, this paper employs the design structure matrix (DSM) method in balancing the load and reducing the inter-communications between the APs. The impact of the small-cell cluster layout on the balancing results is also studied. The results indicate that the proactive algorithm with the DSM method achieves the best balance efficiency and significantly reduces the inter-communications between the APs.
DOI:10.1109/COMNETSAT.2019.8844104