Device-to-Device mmWave Communication in the Presence of Interference and Hardware Distortion Noises

Leila Tlebaldiyeva; Behrouz Maham; Theodoros A. Tsiftsis

doi:10.1109/LCOMM.2019.2922905

Device-to-Device mmWave Communication in the Presence of Interference and Hardware Distortion Noises

Leila Tlebaldiyeva, Behrouz Maham, Theodoros A. Tsiftsis

Research output: Journal Publication › Article › peer-review

27 Citations (Scopus)

Abstract

The residual hardware impairments originating from transceiver hardware such as phase noise, amplifier non-linearity, in-phase, and quadrature imbalances create distortion noises generating a mismatch between an intended and a received signal. This letter investigates the outage probability performance of a device-to-device communication-assisted millimeter wave (mmWave) network by considering interference and practical hardware distortion noises. Note that all channels are modeled as independent and non-identically distributed Nakagami- m fading channels, which is a suitable assumption for mmWave communication according to recent research. Numerical results are corroborated by Monte Carlo simulations.

Original language	English
Article number	8737950
Pages (from-to)	1607-1610
Number of pages	4
Journal	IEEE Communications Letters
Volume	23
Issue number	9
DOIs	https://doi.org/10.1109/LCOMM.2019.2922905
Publication status	Published - Sept 2019
Externally published	Yes

Keywords

Device-to-device communications (D2D)
hardware distortion noises
mmWave communications
Nakagami-m fading channel

ASJC Scopus subject areas

Modelling and Simulation
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/LCOMM.2019.2922905

Cite this

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abstract = "The residual hardware impairments originating from transceiver hardware such as phase noise, amplifier non-linearity, in-phase, and quadrature imbalances create distortion noises generating a mismatch between an intended and a received signal. This letter investigates the outage probability performance of a device-to-device communication-assisted millimeter wave (mmWave) network by considering interference and practical hardware distortion noises. Note that all channels are modeled as independent and non-identically distributed Nakagami- m fading channels, which is a suitable assumption for mmWave communication according to recent research. Numerical results are corroborated by Monte Carlo simulations.",

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author = "Leila Tlebaldiyeva and Behrouz Maham and Tsiftsis, \{Theodoros A.\}",

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AU - Maham, Behrouz

AU - Tsiftsis, Theodoros A.

PY - 2019/9

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N2 - The residual hardware impairments originating from transceiver hardware such as phase noise, amplifier non-linearity, in-phase, and quadrature imbalances create distortion noises generating a mismatch between an intended and a received signal. This letter investigates the outage probability performance of a device-to-device communication-assisted millimeter wave (mmWave) network by considering interference and practical hardware distortion noises. Note that all channels are modeled as independent and non-identically distributed Nakagami- m fading channels, which is a suitable assumption for mmWave communication according to recent research. Numerical results are corroborated by Monte Carlo simulations.

AB - The residual hardware impairments originating from transceiver hardware such as phase noise, amplifier non-linearity, in-phase, and quadrature imbalances create distortion noises generating a mismatch between an intended and a received signal. This letter investigates the outage probability performance of a device-to-device communication-assisted millimeter wave (mmWave) network by considering interference and practical hardware distortion noises. Note that all channels are modeled as independent and non-identically distributed Nakagami- m fading channels, which is a suitable assumption for mmWave communication according to recent research. Numerical results are corroborated by Monte Carlo simulations.

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Device-to-Device mmWave Communication in the Presence of Interference and Hardware Distortion Noises

Abstract

Keywords

ASJC Scopus subject areas

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