Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Maxim Penner
  • Martin Fuhrwerk
  • Jurgen Peissig

Organisationseinheiten

Externe Organisationen

  • RFMondial GmbH
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des Sammelwerks2019 International Conference on Wireless and Mobile Computing, Networking and Communications
UntertitelProceedings
Seiten155-160
Seitenumfang6
ISBN (elektronisch)9781728133164
PublikationsstatusVeröffentlicht - 2019
Veranstaltung15th International Conference on Wireless and Mobile Computing, Networking and Communications, WiMob 2019 - Barcelona, Spanien
Dauer: 21 Okt. 201923 Okt. 2019

Publikationsreihe

NameInternational Conference on Wireless and Mobile Computing, Networking and Communications
ISSN (Print)2160-4886
ISSN (elektronisch)2160-4894

Abstract

Due to ever-increasing data rates in wireless communications and simultaneously increasing number of users, centrally coordinated systems suffer from large controlling overhead. This fact will become even more dramatic in the future as Machine-Type Communication (MTC) is expected to connect several billion devices worldwide. In this paper, we research asynchronous systems with transmit-only devices and therefore without controlling and feedback from the base station. In such feedback-less networks, signal collisions are inevitable and pose a major challenge for system design. We derive a closed-form solution for the Bit Error Probability (BEP) of multiple colliding signals modulated with Filter Bank Multicarrier (FBMC), a scheme well suited for MTC since it enables parallel channel access for multiple devices. The system presented utilizes scattered pilot-based channel estimation for equalization with auxiliary pilots. We compare the BEP with equalization based on perfect channel knowledge. The results are valid for any numbers of colliding FBMC signals over a broad range of channel configurations.

ASJC Scopus Sachgebiete

Zitieren

Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM. / Penner, Maxim; Fuhrwerk, Martin; Peissig, Jurgen.
2019 International Conference on Wireless and Mobile Computing, Networking and Communications: Proceedings. 2019. S. 155-160 (International Conference on Wireless and Mobile Computing, Networking and Communications).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Penner, M, Fuhrwerk, M & Peissig, J 2019, Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM. in 2019 International Conference on Wireless and Mobile Computing, Networking and Communications: Proceedings. International Conference on Wireless and Mobile Computing, Networking and Communications, S. 155-160, 15th International Conference on Wireless and Mobile Computing, Networking and Communications, WiMob 2019, Barcelona, Spanien, 21 Okt. 2019. https://doi.org/10.1109/WiMOB.2019.8923330
Penner, M., Fuhrwerk, M., & Peissig, J. (2019). Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM. In 2019 International Conference on Wireless and Mobile Computing, Networking and Communications: Proceedings (S. 155-160). (International Conference on Wireless and Mobile Computing, Networking and Communications). https://doi.org/10.1109/WiMOB.2019.8923330
Penner M, Fuhrwerk M, Peissig J. Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM. in 2019 International Conference on Wireless and Mobile Computing, Networking and Communications: Proceedings. 2019. S. 155-160. (International Conference on Wireless and Mobile Computing, Networking and Communications). doi: 10.1109/WiMOB.2019.8923330
Penner, Maxim ; Fuhrwerk, Martin ; Peissig, Jurgen. / Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM. 2019 International Conference on Wireless and Mobile Computing, Networking and Communications: Proceedings. 2019. S. 155-160 (International Conference on Wireless and Mobile Computing, Networking and Communications).
Download
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title = "Bit Error Probability for Asynchronous Channel Access in Feedback-Less MFC with Scattered Pilot-Based FBMC-OQAM",
abstract = "Due to ever-increasing data rates in wireless communications and simultaneously increasing number of users, centrally coordinated systems suffer from large controlling overhead. This fact will become even more dramatic in the future as Machine-Type Communication (MTC) is expected to connect several billion devices worldwide. In this paper, we research asynchronous systems with transmit-only devices and therefore without controlling and feedback from the base station. In such feedback-less networks, signal collisions are inevitable and pose a major challenge for system design. We derive a closed-form solution for the Bit Error Probability (BEP) of multiple colliding signals modulated with Filter Bank Multicarrier (FBMC), a scheme well suited for MTC since it enables parallel channel access for multiple devices. The system presented utilizes scattered pilot-based channel estimation for equalization with auxiliary pilots. We compare the BEP with equalization based on perfect channel knowledge. The results are valid for any numbers of colliding FBMC signals over a broad range of channel configurations.",
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AU - Fuhrwerk, Martin

AU - Peissig, Jurgen

N1 - Funding information: The work on this publication was funded by the German Research Foundation (Deutsche Forschungsgemeinschaft) as part of the project FeelMaTyC (Feedback-less Machine-Type Communication). This support is gratefully acknowledged.

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N2 - Due to ever-increasing data rates in wireless communications and simultaneously increasing number of users, centrally coordinated systems suffer from large controlling overhead. This fact will become even more dramatic in the future as Machine-Type Communication (MTC) is expected to connect several billion devices worldwide. In this paper, we research asynchronous systems with transmit-only devices and therefore without controlling and feedback from the base station. In such feedback-less networks, signal collisions are inevitable and pose a major challenge for system design. We derive a closed-form solution for the Bit Error Probability (BEP) of multiple colliding signals modulated with Filter Bank Multicarrier (FBMC), a scheme well suited for MTC since it enables parallel channel access for multiple devices. The system presented utilizes scattered pilot-based channel estimation for equalization with auxiliary pilots. We compare the BEP with equalization based on perfect channel knowledge. The results are valid for any numbers of colliding FBMC signals over a broad range of channel configurations.

AB - Due to ever-increasing data rates in wireless communications and simultaneously increasing number of users, centrally coordinated systems suffer from large controlling overhead. This fact will become even more dramatic in the future as Machine-Type Communication (MTC) is expected to connect several billion devices worldwide. In this paper, we research asynchronous systems with transmit-only devices and therefore without controlling and feedback from the base station. In such feedback-less networks, signal collisions are inevitable and pose a major challenge for system design. We derive a closed-form solution for the Bit Error Probability (BEP) of multiple colliding signals modulated with Filter Bank Multicarrier (FBMC), a scheme well suited for MTC since it enables parallel channel access for multiple devices. The system presented utilizes scattered pilot-based channel estimation for equalization with auxiliary pilots. We compare the BEP with equalization based on perfect channel knowledge. The results are valid for any numbers of colliding FBMC signals over a broad range of channel configurations.

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