Analysis of Vertical Sectorization for HSPA on a System Level: Capacity and Coverage

In this paper, capacity and coverage performances by deploying vertical sectorization in HSPA networks are evaluated. A novel resource-scheduling scheme for vertical sectorization is proposed to improve the SINR of cell-edge users. Performances of both conventional vertical sectorization and propose...

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Hauptverfasser:	Youqi Fu, Jian Wang, Zhuyan Zhao, Liyun Dai, Hongwen Yang
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Antenna radiation patterns Downlink Interference Signal to noise ratio Simulation Throughput
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creator	Youqi Fu Jian Wang Zhuyan Zhao Liyun Dai Hongwen Yang
description	In this paper, capacity and coverage performances by deploying vertical sectorization in HSPA networks are evaluated. A novel resource-scheduling scheme for vertical sectorization is proposed to improve the SINR of cell-edge users. Performances of both conventional vertical sectorization and proposed mechanism are investigated through analysis and simulations. A three dimensional propagation model is used in the system level simulator. Our results indicate in a regular HSPA network conventional vertical sectorization is able to provide up to 59.2% capacity gain at the cost of significantly increased network outage levels. On the other hand, the proposed scheme can remarkably improve network outage performance while providing maximal 21% network throughput enhancement.
doi_str_mv	10.1109/VTCFall.2012.6399301
format	Conference Proceeding
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subjects	Antenna radiation patterns Downlink Interference Signal to noise ratio Simulation Throughput
title	Analysis of Vertical Sectorization for HSPA on a System Level: Capacity and Coverage
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