Bit Error Probability for Asynchronous Channel Access in Feedback-Less MTC with FBMC-OQAM

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Maxim Penner
  • Martin Fuhrwerk
  • Jürgen Peissig

Research Organisations

External Research Organisations

  • RFMondial GmbH
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Details

Original languageEnglish
Title of host publication16th International Symposium on Wireless Communication Systems (ISWCS)
Subtitle of host publicationProceedings
PublisherInstitute of Electrical and Electronics Engineers Inc.
Pages522-526
Number of pages5
ISBN (electronic)9781728125275
ISBN (print)9781728125282
Publication statusPublished - 2019
Event16th International Symposium on Wireless Communication Systems, ISWCS 2019 - Oulu, Finland
Duration: 27 Aug 201930 Aug 2019

Publication series

NameProceedings of the International Symposium on Wireless Communication Systems
ISSN (Print)2154-0217
ISSN (electronic)2154-0225

Abstract

Machine-Type Communication (MTC) will play an essential role in 5G as well as other future mobile communication systems. Within the next ten years several billion devices will be interconnected worldwide. However, large numbers of participants lead to controlling overhead in centrally coordinated systems. For this reason, we research asynchronous communication with transmit-only devices in combination with FiLTEr Bank Multicarrier (FBMC), a highly adaptable modulation scheme. A key challenge of feedback-less networks are the unavoidable collisions between device signals. In this contribution, we derive a closed-form Bit Error Rate (BER) expression for colliding FBMC signals. The results are valid for any number of colliders, each sending its signal through separate correlated or uncorrelated doubly-selective channels. We show that the BER mainly depends on the amplitude ratio between the signals, while the relative time offset has little effect.

Keywords

    Asynchronous channel access, FBMC, Feedback-less networks, MTC, OQAM

ASJC Scopus subject areas

Cite this

Bit Error Probability for Asynchronous Channel Access in Feedback-Less MTC with FBMC-OQAM. / Penner, Maxim; Fuhrwerk, Martin; Peissig, Jürgen.
16th International Symposium on Wireless Communication Systems (ISWCS): Proceedings. Institute of Electrical and Electronics Engineers Inc., 2019. p. 522-526 8877183 (Proceedings of the International Symposium on Wireless Communication Systems).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Penner, M, Fuhrwerk, M & Peissig, J 2019, Bit Error Probability for Asynchronous Channel Access in Feedback-Less MTC with FBMC-OQAM. in 16th International Symposium on Wireless Communication Systems (ISWCS): Proceedings., 8877183, Proceedings of the International Symposium on Wireless Communication Systems, Institute of Electrical and Electronics Engineers Inc., pp. 522-526, 16th International Symposium on Wireless Communication Systems, ISWCS 2019, Oulu, Finland, 27 Aug 2019. https://doi.org/10.1109/ISWCS.2019.8877183
Penner, M., Fuhrwerk, M., & Peissig, J. (2019). Bit Error Probability for Asynchronous Channel Access in Feedback-Less MTC with FBMC-OQAM. In 16th International Symposium on Wireless Communication Systems (ISWCS): Proceedings (pp. 522-526). Article 8877183 (Proceedings of the International Symposium on Wireless Communication Systems). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ISWCS.2019.8877183
Penner M, Fuhrwerk M, Peissig J. Bit Error Probability for Asynchronous Channel Access in Feedback-Less MTC with FBMC-OQAM. In 16th International Symposium on Wireless Communication Systems (ISWCS): Proceedings. Institute of Electrical and Electronics Engineers Inc. 2019. p. 522-526. 8877183. (Proceedings of the International Symposium on Wireless Communication Systems). doi: 10.1109/ISWCS.2019.8877183
Penner, Maxim ; Fuhrwerk, Martin ; Peissig, Jürgen. / Bit Error Probability for Asynchronous Channel Access in Feedback-Less MTC with FBMC-OQAM. 16th International Symposium on Wireless Communication Systems (ISWCS): Proceedings. Institute of Electrical and Electronics Engineers Inc., 2019. pp. 522-526 (Proceedings of the International Symposium on Wireless Communication Systems).
Download
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abstract = "Machine-Type Communication (MTC) will play an essential role in 5G as well as other future mobile communication systems. Within the next ten years several billion devices will be interconnected worldwide. However, large numbers of participants lead to controlling overhead in centrally coordinated systems. For this reason, we research asynchronous communication with transmit-only devices in combination with FiLTEr Bank Multicarrier (FBMC), a highly adaptable modulation scheme. A key challenge of feedback-less networks are the unavoidable collisions between device signals. In this contribution, we derive a closed-form Bit Error Rate (BER) expression for colliding FBMC signals. The results are valid for any number of colliders, each sending its signal through separate correlated or uncorrelated doubly-selective channels. We show that the BER mainly depends on the amplitude ratio between the signals, while the relative time offset has little effect.",
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AU - Peissig, Jürgen

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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AB - Machine-Type Communication (MTC) will play an essential role in 5G as well as other future mobile communication systems. Within the next ten years several billion devices will be interconnected worldwide. However, large numbers of participants lead to controlling overhead in centrally coordinated systems. For this reason, we research asynchronous communication with transmit-only devices in combination with FiLTEr Bank Multicarrier (FBMC), a highly adaptable modulation scheme. A key challenge of feedback-less networks are the unavoidable collisions between device signals. In this contribution, we derive a closed-form Bit Error Rate (BER) expression for colliding FBMC signals. The results are valid for any number of colliders, each sending its signal through separate correlated or uncorrelated doubly-selective channels. We show that the BER mainly depends on the amplitude ratio between the signals, while the relative time offset has little effect.

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