Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems

Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems

This paper proposes dynamic clustering and user scheduling for previously conceived inter-cluster interference cancellation scheme on ultra-high density distributed antenna system (UHD-DAS). UHD-DAS is composed of one central unit (CU) and densely deployed remote radio units (RUs) serving as small c...

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Bibliographic Details
Main Author: Kazuki Maruta
Format: Article
Language:English
Published: MDPI AG 2018-08-01
Series:Entropy
Subjects:
distributed antenna
cell clustering
cooperation
large scale
multiuser MIMO
Online Access:http://www.mdpi.com/1099-4300/20/8/616
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spelling doaj-a370844697874694914062575de964e82020-11-25T02:48:42ZengMDPI AGEntropy1099-43002018-08-0120861610.3390/e20080616e20080616Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna SystemsKazuki Maruta0Graduate School of Engineering, Chiba University, Chiba 263-8522, JapanThis paper proposes dynamic clustering and user scheduling for previously conceived inter-cluster interference cancellation scheme on ultra-high density distributed antenna system (UHD-DAS). UHD-DAS is composed of one central unit (CU) and densely deployed remote radio units (RUs) serving as small cell access points. It can enhance spatial spectral efficiency by alleviating traffic load imposed per radio unit; however, intenser small cell deployment revives the inter-cell interference (ICI) problem. Cell clustering, cooperation of multiple RUs, can mitigate ICI partially, whereas inter-cluster interference (ICLI) still limits its possible capacity. Simplified ICLI cancellation based on localized RU cooperation was previously proposed to mitigate interference globally. The resolved issue is that it required frequency reuse distance to fully obtain its interference cancellation ability. This paper introduces dynamic clustering with coordinated user scheduling to ensure reuse distance without extra frequency reuse. Joint dynamic clustering and ICLI cancellation can effectively work and almost reaches ideal performance as full cooperative spatial multiplexing transmission.http://www.mdpi.com/1099-4300/20/8/616distributed antennacell clusteringcooperationlarge scalemultiuser MIMO
collection DOAJ
language English
format Article
sources DOAJ
author Kazuki Maruta
spellingShingle Kazuki Maruta
Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems
Entropy
distributed antenna
cell clustering
cooperation
large scale
multiuser MIMO
author_facet Kazuki Maruta
author_sort Kazuki Maruta
title Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems
title_short Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems
title_full Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems
title_fullStr Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems
title_full_unstemmed Dynamic Clustering and Coordinated User Scheduling for Cooperative Interference Cancellation on Ultra-High Density Distributed Antenna Systems
title_sort dynamic clustering and coordinated user scheduling for cooperative interference cancellation on ultra-high density distributed antenna systems
publisher MDPI AG
series Entropy
issn 1099-4300
publishDate 2018-08-01
description This paper proposes dynamic clustering and user scheduling for previously conceived inter-cluster interference cancellation scheme on ultra-high density distributed antenna system (UHD-DAS). UHD-DAS is composed of one central unit (CU) and densely deployed remote radio units (RUs) serving as small cell access points. It can enhance spatial spectral efficiency by alleviating traffic load imposed per radio unit; however, intenser small cell deployment revives the inter-cell interference (ICI) problem. Cell clustering, cooperation of multiple RUs, can mitigate ICI partially, whereas inter-cluster interference (ICLI) still limits its possible capacity. Simplified ICLI cancellation based on localized RU cooperation was previously proposed to mitigate interference globally. The resolved issue is that it required frequency reuse distance to fully obtain its interference cancellation ability. This paper introduces dynamic clustering with coordinated user scheduling to ensure reuse distance without extra frequency reuse. Joint dynamic clustering and ICLI cancellation can effectively work and almost reaches ideal performance as full cooperative spatial multiplexing transmission.
topic distributed antenna
cell clustering
cooperation
large scale
multiuser MIMO
url http://www.mdpi.com/1099-4300/20/8/616
work_keys_str_mv AT kazukimaruta dynamicclusteringandcoordinateduserschedulingforcooperativeinterferencecancellationonultrahighdensitydistributedantennasystems
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