Statistical Modeling and Estimation of Censored Pathloss Data

Carl Gustafson; Taimoor Abbas; David Bolin; Fredrik Tufvesson

doi:10.1109/LWC.2015.2463274

Statistical Modeling and Estimation of Censored Pathloss Data

Carl Gustafson, Taimoor Abbas, David Bolin, Fredrik Tufvesson

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Abstract

Pathloss is typically modeled using a log-distance power law with a large-scale fading term that is log-normal. However, the received signal is affected by the dynamic range and noise floor of the measurement system used to sound the channel, which can cause measurement samples to be truncated or censored. If the information about the censored samples is not included in the estimation method, as in ordinary least squares estimation, it can result in biased estimation of both the pathloss exponent and the large scale fading. This can be solved by applying a Tobit maximum-likelihood estimator, which provides consistent estimates for the pathloss parameters. This letter provides in formation about the Tobit maximum-likelihood estimator and its asymptotic variance under certain conditions.

Original language	English
Pages (from-to)	569-572
Journal	IEEE Wireless Communications Letters
Volume	4
Issue number	5
DOIs	https://doi.org/10.1109/LWC.2015.2463274
Publication status	Published - 2015

Subject classification (UKÄ)

Communication Systems

Free keywords

Pathloss
maximum-likelihood estimation
ordinary least squares
censored data
truncated data
vehicular communication.

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10.1109/LWC.2015.2463274

7862298-1Accepted author manuscript, 1.87 MB

http://arxiv.org/abs/1504.03977

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title = "Statistical Modeling and Estimation of Censored Pathloss Data",

abstract = "Pathloss is typically modeled using a log-distance power law with a large-scale fading term that is log-normal. However, the received signal is affected by the dynamic range and noise floor of the measurement system used to sound the channel, which can cause measurement samples to be truncated or censored. If the information about the censored samples is not included in the estimation method, as in ordinary least squares estimation, it can result in biased estimation of both the pathloss exponent and the large scale fading. This can be solved by applying a Tobit maximum-likelihood estimator, which provides consistent estimates for the pathloss parameters. This letter provides in formation about the Tobit maximum-likelihood estimator and its asymptotic variance under certain conditions.",

keywords = "Pathloss, maximum-likelihood estimation, ordinary least squares, censored data, truncated data, vehicular communication.",

author = "Carl Gustafson and Taimoor Abbas and David Bolin and Fredrik Tufvesson",

year = "2015",

doi = "10.1109/LWC.2015.2463274",

language = "English",

volume = "4",

pages = "569--572",

journal = "IEEE Wireless Communications Letters",

issn = "2162-2345",

publisher = "IEEE - Institute of Electrical and Electronics Engineers Inc.",

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TY - JOUR

T1 - Statistical Modeling and Estimation of Censored Pathloss Data

AU - Gustafson, Carl

AU - Abbas, Taimoor

AU - Bolin, David

AU - Tufvesson, Fredrik

PY - 2015

Y1 - 2015

N2 - Pathloss is typically modeled using a log-distance power law with a large-scale fading term that is log-normal. However, the received signal is affected by the dynamic range and noise floor of the measurement system used to sound the channel, which can cause measurement samples to be truncated or censored. If the information about the censored samples is not included in the estimation method, as in ordinary least squares estimation, it can result in biased estimation of both the pathloss exponent and the large scale fading. This can be solved by applying a Tobit maximum-likelihood estimator, which provides consistent estimates for the pathloss parameters. This letter provides in formation about the Tobit maximum-likelihood estimator and its asymptotic variance under certain conditions.

AB - Pathloss is typically modeled using a log-distance power law with a large-scale fading term that is log-normal. However, the received signal is affected by the dynamic range and noise floor of the measurement system used to sound the channel, which can cause measurement samples to be truncated or censored. If the information about the censored samples is not included in the estimation method, as in ordinary least squares estimation, it can result in biased estimation of both the pathloss exponent and the large scale fading. This can be solved by applying a Tobit maximum-likelihood estimator, which provides consistent estimates for the pathloss parameters. This letter provides in formation about the Tobit maximum-likelihood estimator and its asymptotic variance under certain conditions.

KW - Pathloss

KW - maximum-likelihood estimation

KW - ordinary least squares

KW - censored data

KW - truncated data

KW - vehicular communication.

U2 - 10.1109/LWC.2015.2463274

DO - 10.1109/LWC.2015.2463274

M3 - Article

SN - 2162-2345

VL - 4

SP - 569

EP - 572

JO - IEEE Wireless Communications Letters

JF - IEEE Wireless Communications Letters

IS - 5

ER -

Statistical Modeling and Estimation of Censored Pathloss Data

Abstract

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