Dynamic Packet Duplication for Industrial URLLC

The fifth-generation (5G) network is presented as one of the main options for Industry 4.0 connectivity. To comply with critical messages, 5G offers the Ultra-Reliable and Low latency Communications (URLLC) service category with a millisecond end-to-end delay and reduced probability of failure. Ther...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2022-01, Vol.22 (2), p.587
Main Authors: Segura, David, Khatib, Emil J, Barco, Raquel
Format: Article
Language:English
Subjects:
5G mobile communication
Adaptation
Algorithms
Analysis
Artificial intelligence
Business metrics
Communication
Computer Communication Networks
Connectivity
Cost reduction
Data transmission
Factories
Flexibility
Industry
Industry 4.0
Internet of Things
Machine Learning
multi-connectivity
Network latency
prediction
Prediction models
Probability
Reproduction (copying)
URLLC
Wide area networks
Wireless networks
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Summary:The fifth-generation (5G) network is presented as one of the main options for Industry 4.0 connectivity. To comply with critical messages, 5G offers the Ultra-Reliable and Low latency Communications (URLLC) service category with a millisecond end-to-end delay and reduced probability of failure. There are several approaches to achieve these requirements; however, these come at a cost in terms of redundancy, particularly the solutions based on multi-connectivity, such as Packet Duplication (PD). Specifically, this paper proposes a Machine Learning (ML) method to predict whether PD is required at a specific data transmission to successfully send a URLLC message. This paper is focused on reducing the resource usage with respect to pure static PD. The concept was evaluated on a 5G simulator, comparing between single connection, static PD and PD with the proposed prediction model. The evaluation results show that the prediction model reduced the number of packets sent with PD by 81% while maintaining the same level of latency as a static PD technique, which derives from a more efficient usage of the network resources.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22020587