A network model for evaluating MIMO backscatter systems considering mutual coupling

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

Autorschaft

  • Eckhard Denicke
  • Bernd Geck

Organisationseinheiten

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Details

OriginalspracheEnglisch
Titel des Sammelwerks8th German Microwave Conference, GeMiC 2014
Herausgeber (Verlag)VDE Verlag GmbH
ISBN (elektronisch)9783800735853
PublikationsstatusVeröffentlicht - 2019
Veranstaltung8th German Microwave Conference, GeMiC 2014 - Aachen, Deutschland
Dauer: 10 März 201412 März 2014

Publikationsreihe

Name8th German Microwave Conference, GeMiC 2014

Abstract

In this contribution a simulation framework for investigating arbitrary M × L × N MIMO backscatter systems in terms of their communication capabilities is presented. The framework is implemented as a network model, based on various cascaded scattering parameter blocks representing the different parts of the dyadic communication link, i.e. the channel, the RFID reader transmit (TX) and receive (RX) antennas, the tag antennas as well as the TX/RX load impedances and the tag signaling matrix. The antenna mutual coupling at all three arrays is considered. With the model on the one hand e.g. the spatial multiplexing backscatter data transmission between tag and reader can be assessed in terms of the symbol error ratio. On the other hand theoretical figures of merit like the capacity of the transmission link can be investigated by determining the effective channel matrices for the forward and reverse link including the coupled antennas.

ASJC Scopus Sachgebiete

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A network model for evaluating MIMO backscatter systems considering mutual coupling. / Denicke, Eckhard; Geck, Bernd.
8th German Microwave Conference, GeMiC 2014. VDE Verlag GmbH, 2019. (8th German Microwave Conference, GeMiC 2014).

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

Denicke, E & Geck, B 2019, A network model for evaluating MIMO backscatter systems considering mutual coupling. in 8th German Microwave Conference, GeMiC 2014. 8th German Microwave Conference, GeMiC 2014, VDE Verlag GmbH, 8th German Microwave Conference, GeMiC 2014, Aachen, Deutschland, 10 März 2014.
Denicke, E., & Geck, B. (2019). A network model for evaluating MIMO backscatter systems considering mutual coupling. In 8th German Microwave Conference, GeMiC 2014 (8th German Microwave Conference, GeMiC 2014). VDE Verlag GmbH.
Denicke E, Geck B. A network model for evaluating MIMO backscatter systems considering mutual coupling. in 8th German Microwave Conference, GeMiC 2014. VDE Verlag GmbH. 2019. (8th German Microwave Conference, GeMiC 2014).
Denicke, Eckhard ; Geck, Bernd. / A network model for evaluating MIMO backscatter systems considering mutual coupling. 8th German Microwave Conference, GeMiC 2014. VDE Verlag GmbH, 2019. (8th German Microwave Conference, GeMiC 2014).
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abstract = "In this contribution a simulation framework for investigating arbitrary M × L × N MIMO backscatter systems in terms of their communication capabilities is presented. The framework is implemented as a network model, based on various cascaded scattering parameter blocks representing the different parts of the dyadic communication link, i.e. the channel, the RFID reader transmit (TX) and receive (RX) antennas, the tag antennas as well as the TX/RX load impedances and the tag signaling matrix. The antenna mutual coupling at all three arrays is considered. With the model on the one hand e.g. the spatial multiplexing backscatter data transmission between tag and reader can be assessed in terms of the symbol error ratio. On the other hand theoretical figures of merit like the capacity of the transmission link can be investigated by determining the effective channel matrices for the forward and reverse link including the coupled antennas.",
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T1 - A network model for evaluating MIMO backscatter systems considering mutual coupling

AU - Denicke, Eckhard

AU - Geck, Bernd

N1 - Funding Information: This work was supported by Deutsche Forschungsgemein-schaft, Grant GE 1667/3-1.

PY - 2019

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N2 - In this contribution a simulation framework for investigating arbitrary M × L × N MIMO backscatter systems in terms of their communication capabilities is presented. The framework is implemented as a network model, based on various cascaded scattering parameter blocks representing the different parts of the dyadic communication link, i.e. the channel, the RFID reader transmit (TX) and receive (RX) antennas, the tag antennas as well as the TX/RX load impedances and the tag signaling matrix. The antenna mutual coupling at all three arrays is considered. With the model on the one hand e.g. the spatial multiplexing backscatter data transmission between tag and reader can be assessed in terms of the symbol error ratio. On the other hand theoretical figures of merit like the capacity of the transmission link can be investigated by determining the effective channel matrices for the forward and reverse link including the coupled antennas.

AB - In this contribution a simulation framework for investigating arbitrary M × L × N MIMO backscatter systems in terms of their communication capabilities is presented. The framework is implemented as a network model, based on various cascaded scattering parameter blocks representing the different parts of the dyadic communication link, i.e. the channel, the RFID reader transmit (TX) and receive (RX) antennas, the tag antennas as well as the TX/RX load impedances and the tag signaling matrix. The antenna mutual coupling at all three arrays is considered. With the model on the one hand e.g. the spatial multiplexing backscatter data transmission between tag and reader can be assessed in terms of the symbol error ratio. On the other hand theoretical figures of merit like the capacity of the transmission link can be investigated by determining the effective channel matrices for the forward and reverse link including the coupled antennas.

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KW - MIMO

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