Sparse time-variant impulse response estimation for vehicular channels using the c-LASSO

Thomas Blazek; Christoph F. Mecklenbräuker

doi:10.1109/PIMRC.2017.8292645

Sparse time-variant impulse response estimation for vehicular channels using the c-LASSO

Thomas Blazek, Christoph F. Mecklenbräuker

Publikation: Konferenzband/Beitrag in Buch/Bericht › Konferenzartikel › Begutachtung

Abstract

Vehicle-to-Vehicle channels pose large modeling challenges due to their time-varying nature and their large Doppler shifts. While new descriptions for the channel are being researched, many standardization bodies and hardware manufacturers still rely on the concept of a tapped delay line as channel description. In this paper, we rephrase the problem of estimating a tapped delay line with given number of taps as sparse array processing problem. We formulate the problem via the complex LASSO algorithm, and modify the cost function to only consider frequency regions of interest. We thus end up at a description that estimates a tapped delay line impulse response from channel sounder data in such a way that a given subspace of frequencies is optimally fitted. Our results show that this combination of subspace projection and LASSO optimization allow to estimate the desired channel of interest with high precision and provides large gains over conventional delay line estimation methods.

Originalsprache	Deutsch (Österreich)
Titel	2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)
Herausgeber (Verlag)	IEEE Computer Society
Seiten	1-5
Seitenumfang	5
ISBN (Print)	978-1-5386-3532-2
DOIs	https://doi.org/10.1109/PIMRC.2017.8292645
Publikationsstatus	Veröffentlicht - 13 Okt. 2017
Extern publiziert	Ja
Veranstaltung	2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) - Montreal, QC, Canada Dauer: 8 Okt. 2017 → 13 Okt. 2017

Konferenz

Konferenz	2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)
Zeitraum	8/10/17 → 13/10/17

Schlagwörter

Delay lines
Bandwidth
Frequency response
Estimation
Channel estimation
Frequency measurement
Delays

Zugriff auf Dokument

10.1109/PIMRC.2017.8292645

https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8292645

Andere Dateien und Links

https://ieeexplore.ieee.org/document/8292645/

Dieses zitieren

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title = "Sparse time-variant impulse response estimation for vehicular channels using the c-LASSO",

abstract = "Vehicle-to-Vehicle channels pose large modeling challenges due to their time-varying nature and their large Doppler shifts. While new descriptions for the channel are being researched, many standardization bodies and hardware manufacturers still rely on the concept of a tapped delay line as channel description. In this paper, we rephrase the problem of estimating a tapped delay line with given number of taps as sparse array processing problem. We formulate the problem via the complex LASSO algorithm, and modify the cost function to only consider frequency regions of interest. We thus end up at a description that estimates a tapped delay line impulse response from channel sounder data in such a way that a given subspace of frequencies is optimally fitted. Our results show that this combination of subspace projection and LASSO optimization allow to estimate the desired channel of interest with high precision and provides large gains over conventional delay line estimation methods.",

keywords = "Delay lines, Bandwidth, Frequency response, Estimation, Channel estimation, Frequency measurement, Delays",

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Blazek, T & Mecklenbräuker, CF 2017, Sparse time-variant impulse response estimation for vehicular channels using the c-LASSO. in 2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)., 8292645, IEEE Computer Society, S. 1-5, 2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC), 8/10/17. https://doi.org/10.1109/PIMRC.2017.8292645

Sparse time-variant impulse response estimation for vehicular channels using the c-LASSO. / Blazek, Thomas; Mecklenbräuker, Christoph F.
2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC). IEEE Computer Society, 2017. S. 1-5 8292645.

Publikation: Konferenzband/Beitrag in Buch/Bericht › Konferenzartikel › Begutachtung

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N2 - Vehicle-to-Vehicle channels pose large modeling challenges due to their time-varying nature and their large Doppler shifts. While new descriptions for the channel are being researched, many standardization bodies and hardware manufacturers still rely on the concept of a tapped delay line as channel description. In this paper, we rephrase the problem of estimating a tapped delay line with given number of taps as sparse array processing problem. We formulate the problem via the complex LASSO algorithm, and modify the cost function to only consider frequency regions of interest. We thus end up at a description that estimates a tapped delay line impulse response from channel sounder data in such a way that a given subspace of frequencies is optimally fitted. Our results show that this combination of subspace projection and LASSO optimization allow to estimate the desired channel of interest with high precision and provides large gains over conventional delay line estimation methods.

AB - Vehicle-to-Vehicle channels pose large modeling challenges due to their time-varying nature and their large Doppler shifts. While new descriptions for the channel are being researched, many standardization bodies and hardware manufacturers still rely on the concept of a tapped delay line as channel description. In this paper, we rephrase the problem of estimating a tapped delay line with given number of taps as sparse array processing problem. We formulate the problem via the complex LASSO algorithm, and modify the cost function to only consider frequency regions of interest. We thus end up at a description that estimates a tapped delay line impulse response from channel sounder data in such a way that a given subspace of frequencies is optimally fitted. Our results show that this combination of subspace projection and LASSO optimization allow to estimate the desired channel of interest with high precision and provides large gains over conventional delay line estimation methods.

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