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- Monique Düngen
- Robert Bosch GmbH , Stuttgart , Germany
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- Thomas Hansen
- Robert Bosch GmbH , Stuttgart , Germany
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- Ramona Croonenbroeck
- 14311 TU Dortmund University , Dortmund , Germany
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- Rüdiger Kays
- 14311 TU Dortmund University , Dortmund , Germany
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- Bernd Holfeld
- Fraunhofer HHI , Berlin , Germany
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- Dennis Wieruch
- Fraunhofer HHI , Berlin , Germany
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- Pablo Wilke Berenguer
- Fraunhofer HHI , Berlin , Germany
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- Volker Jungnickel
- Fraunhofer HHI , Berlin , Germany
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- Dimitri Block
- HS OWL-inIT , Lemgo , Germany
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- Uwe Meier
- HS OWL-inIT , Lemgo , Germany
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- Henrik Schulze
- FH Südwestfalen , Meschede , Germany
説明
<jats:title>Abstract</jats:title> <jats:p>The factories of the future will be highly digitalized in order to enable flexible and interconnected manufacturing processes. Especially wireless technologies will be beneficial for industrial automation. However, the high density of metallic objects is challenging for wireless systems due to multipath fading. In order to understand the signal propagation in industrial environments, this paper provides results from a number of channel measurement campaigns funded by the German research initiative “Reliable wireless communication in the industry”. We give an overview of different measurement scenarios covering visible light communication and radio communication below 6 GHz. We analyze large and small scale parameters as well as delay statistics of the wireless channels. Finally, we discuss the importance of the results for the definition of industrial channel models.</jats:p>
収録刊行物
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- at - Automatisierungstechnik
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at - Automatisierungstechnik 67 (1), 7-28, 2019-01-01
Walter de Gruyter GmbH
