Keyhole effect in MIMO wireless Channels - Measurements and Theory

Peter Almers; Fredrik Tufvesson; Andreas Molisch

doi:10.1109/TWC.2006.05025

Keyhole effect in MIMO wireless Channels - Measurements and Theory

Peter Almers, Fredrik Tufvesson, Andreas Molisch

Department of Electrical and Information Technology

Research output: Contribution to journal › Article › peer-review

Abstract

It has been predicted theoretically that for some environments, the capacity of wireless multiple-input multiple-output systems can become very low even for uncorrelated signals; this effect has been termed "keyhole" or "pinhole". In this paper the first unique measurements of this effect are presented. The measurements were performed in a controlled indoor environment that was designed to obtain a keyhole channel. We analyze limitations due to measurement imperfections for measurement-based capacity calculations and keyhole investigations. We further present a bound for the higher eigenmodes as a function of the finite measurement signal-to-noise ratio and multipath component leakage. The bound is compared to the measurement results and shows excellent agreement. Finally, we analyze the envelope distribution and, as expected from theory, it follows a double-Rayleigh distribution

Original language	English
Pages (from-to)	3596-3604
Journal	IEEE Transactions on Wireless Communications
Volume	5
Issue number	12
DOIs	https://doi.org/10.1109/TWC.2006.05025
Publication status	Published - 2006

Subject classification (UKÄ)

Electrical Engineering, Electronic Engineering, Information Engineering

Free keywords

measurements
pinhole
eigenvalue
double-Rayleigh
capacity
MIMO
keyhole

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10.1109/TWC.2006.05025

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title = "Keyhole effect in MIMO wireless Channels - Measurements and Theory",

abstract = "It has been predicted theoretically that for some environments, the capacity of wireless multiple-input multiple-output systems can become very low even for uncorrelated signals; this effect has been termed {"}keyhole{"} or {"}pinhole{"}. In this paper the first unique measurements of this effect are presented. The measurements were performed in a controlled indoor environment that was designed to obtain a keyhole channel. We analyze limitations due to measurement imperfections for measurement-based capacity calculations and keyhole investigations. We further present a bound for the higher eigenmodes as a function of the finite measurement signal-to-noise ratio and multipath component leakage. The bound is compared to the measurement results and shows excellent agreement. Finally, we analyze the envelope distribution and, as expected from theory, it follows a double-Rayleigh distribution",

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T1 - Keyhole effect in MIMO wireless Channels - Measurements and Theory

AU - Almers, Peter

AU - Tufvesson, Fredrik

AU - Molisch, Andreas

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N2 - It has been predicted theoretically that for some environments, the capacity of wireless multiple-input multiple-output systems can become very low even for uncorrelated signals; this effect has been termed "keyhole" or "pinhole". In this paper the first unique measurements of this effect are presented. The measurements were performed in a controlled indoor environment that was designed to obtain a keyhole channel. We analyze limitations due to measurement imperfections for measurement-based capacity calculations and keyhole investigations. We further present a bound for the higher eigenmodes as a function of the finite measurement signal-to-noise ratio and multipath component leakage. The bound is compared to the measurement results and shows excellent agreement. Finally, we analyze the envelope distribution and, as expected from theory, it follows a double-Rayleigh distribution

AB - It has been predicted theoretically that for some environments, the capacity of wireless multiple-input multiple-output systems can become very low even for uncorrelated signals; this effect has been termed "keyhole" or "pinhole". In this paper the first unique measurements of this effect are presented. The measurements were performed in a controlled indoor environment that was designed to obtain a keyhole channel. We analyze limitations due to measurement imperfections for measurement-based capacity calculations and keyhole investigations. We further present a bound for the higher eigenmodes as a function of the finite measurement signal-to-noise ratio and multipath component leakage. The bound is compared to the measurement results and shows excellent agreement. Finally, we analyze the envelope distribution and, as expected from theory, it follows a double-Rayleigh distribution

KW - measurements

KW - pinhole

KW - eigenvalue

KW - double-Rayleigh

KW - capacity

KW - MIMO

KW - keyhole

UR - https://www.scopus.com/pages/publications/33845616650

U2 - 10.1109/TWC.2006.05025

DO - 10.1109/TWC.2006.05025

M3 - Article

SN - 1536-1276

VL - 5

SP - 3596

EP - 3604

JO - IEEE Transactions on Wireless Communications

JF - IEEE Transactions on Wireless Communications

IS - 12

ER -

Keyhole effect in MIMO wireless Channels - Measurements and Theory

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