An interference mitigation scheme for multi-user multi-cell MIMO systems

Moh Amin; Moh Nafie; Magdi Fikri; Moh Abdallah

doi:10.1109/ICENCO.2010.5720423

An interference mitigation scheme for multi-user multi-cell MIMO systems

Moh Amin^*, Moh Nafie, Magdi Fikri, Moh Abdallah

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

Multiple Input Multiple Output (MIMO) system provides lot of advantages when introduced in a wireless communication system. It helps in increasing system throughput and reducing error rates. Moreover, designing a MIMO system to support both multi-user and multi-cell provides larger increase in system throughput and allows an increase in number of users. This comes at the cost of how to design that system such that the interference generated is minimized. In this paper, a precoding scheme for multi-user multi-cell MIMO system is proposed to mitigate the interference generated in the downlink direction. To design the precoders, we use a metric called signal to generating interference, leakage and noise ratio (SGILNR), which is a combination of two previous metrics: one that was used to design the precoders for a multi-cell system and the other that was used for a multi-user system. Simulation results show that the proposed scheme outperform the conventional MIMO system. Also the limitations of the proposed scheme when number of users becomes higher are discussed.

Original language	English
Title of host publication	ICENCO'2010 - 2010 International Computer Engineering Conference
Subtitle of host publication	Expanding Information Society Frontiers
Publisher	IEEE Computer Society
Pages	40-43
Number of pages	4
ISBN (Print)	9781612841830
DOIs	https://doi.org/10.1109/ICENCO.2010.5720423
Publication status	Published - 2010
Externally published	Yes

Publication series

Name	ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers

Keywords

Diversity methods
Interference
MIMO systems
Signal processing
Wireless LAN

Access to Document

10.1109/ICENCO.2010.5720423

Cite this

Amin, M., Nafie, M., Fikri, M., & Abdallah, M. (2010). An interference mitigation scheme for multi-user multi-cell MIMO systems. In ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers (pp. 40-43). Article 5720423 (ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers). IEEE Computer Society. https://doi.org/10.1109/ICENCO.2010.5720423

Amin, Moh ; Nafie, Moh ; Fikri, Magdi et al. / An interference mitigation scheme for multi-user multi-cell MIMO systems. ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers. IEEE Computer Society, 2010. pp. 40-43 (ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers).

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title = "An interference mitigation scheme for multi-user multi-cell MIMO systems",

abstract = "Multiple Input Multiple Output (MIMO) system provides lot of advantages when introduced in a wireless communication system. It helps in increasing system throughput and reducing error rates. Moreover, designing a MIMO system to support both multi-user and multi-cell provides larger increase in system throughput and allows an increase in number of users. This comes at the cost of how to design that system such that the interference generated is minimized. In this paper, a precoding scheme for multi-user multi-cell MIMO system is proposed to mitigate the interference generated in the downlink direction. To design the precoders, we use a metric called signal to generating interference, leakage and noise ratio (SGILNR), which is a combination of two previous metrics: one that was used to design the precoders for a multi-cell system and the other that was used for a multi-user system. Simulation results show that the proposed scheme outperform the conventional MIMO system. Also the limitations of the proposed scheme when number of users becomes higher are discussed.",

keywords = "Diversity methods, Interference, MIMO systems, Signal processing, Wireless LAN",

author = "Moh Amin and Moh Nafie and Magdi Fikri and Moh Abdallah",

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language = "English",

isbn = "9781612841830",

series = "ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers",

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Amin, M, Nafie, M, Fikri, M & Abdallah, M 2010, An interference mitigation scheme for multi-user multi-cell MIMO systems. in ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers., 5720423, ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers, IEEE Computer Society, pp. 40-43. https://doi.org/10.1109/ICENCO.2010.5720423

An interference mitigation scheme for multi-user multi-cell MIMO systems. / Amin, Moh; Nafie, Moh; Fikri, Magdi et al.
ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers. IEEE Computer Society, 2010. p. 40-43 5720423 (ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Amin, Moh

AU - Nafie, Moh

AU - Fikri, Magdi

AU - Abdallah, Moh

PY - 2010

Y1 - 2010

N2 - Multiple Input Multiple Output (MIMO) system provides lot of advantages when introduced in a wireless communication system. It helps in increasing system throughput and reducing error rates. Moreover, designing a MIMO system to support both multi-user and multi-cell provides larger increase in system throughput and allows an increase in number of users. This comes at the cost of how to design that system such that the interference generated is minimized. In this paper, a precoding scheme for multi-user multi-cell MIMO system is proposed to mitigate the interference generated in the downlink direction. To design the precoders, we use a metric called signal to generating interference, leakage and noise ratio (SGILNR), which is a combination of two previous metrics: one that was used to design the precoders for a multi-cell system and the other that was used for a multi-user system. Simulation results show that the proposed scheme outperform the conventional MIMO system. Also the limitations of the proposed scheme when number of users becomes higher are discussed.

AB - Multiple Input Multiple Output (MIMO) system provides lot of advantages when introduced in a wireless communication system. It helps in increasing system throughput and reducing error rates. Moreover, designing a MIMO system to support both multi-user and multi-cell provides larger increase in system throughput and allows an increase in number of users. This comes at the cost of how to design that system such that the interference generated is minimized. In this paper, a precoding scheme for multi-user multi-cell MIMO system is proposed to mitigate the interference generated in the downlink direction. To design the precoders, we use a metric called signal to generating interference, leakage and noise ratio (SGILNR), which is a combination of two previous metrics: one that was used to design the precoders for a multi-cell system and the other that was used for a multi-user system. Simulation results show that the proposed scheme outperform the conventional MIMO system. Also the limitations of the proposed scheme when number of users becomes higher are discussed.

KW - Diversity methods

KW - Interference

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Amin M, Nafie M, Fikri M, Abdallah M. An interference mitigation scheme for multi-user multi-cell MIMO systems. In ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers. IEEE Computer Society. 2010. p. 40-43. 5720423. (ICENCO'2010 - 2010 International Computer Engineering Conference: Expanding Information Society Frontiers). doi: 10.1109/ICENCO.2010.5720423

An interference mitigation scheme for multi-user multi-cell MIMO systems

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