Litcius/Paper detail

Anticipatory analysis of AGV trajectory in a 5G network using machine learning

Alberto Mozó, Stanislav Vakaruk, J. Enrique Sierra‐García, Antonio Pastor

2023Journal of Intelligent Manufacturing11 citationsDOIOpen Access PDF

Abstract

Abstract A new generation of Automatic Guided Vehicles (AGV) virtualises their Programmable Logic Controller (PLC) in the cloud deploying 5G-based communication infrastructures to provide ultra-fast and reliable links between the AGV and its PLC. Stopping an AGV can result in a loss of tens of thousands of euros per minute and therefore, the use of machine learning techniques to anticipate AGV behavior seems to be appropriate. This work proposes the application of advanced deep neural networks to forecast AGV trajectory errors even if disturbances appear in the 5G network by capturing the packets of the PLC-AGV connection and not using any sensor in the user equipment (AGV or PLC), which facilitates the real-time deployment of the solution. To demonstrate the proposed solution, an industrial AGV and a virtualised PLC were deployed in a real 5G network. Furthermore, a set of advanced deep learning architectures was selected, and an extensive collection of experiments was designed to analyse the forecasting performance of each architecture. Additionally, we discuss the real-time issues that appeared during the execution of the best models in a 5G open laboratory, that provided a realistic deployment in a controlled scenario.

Topics & Concepts

Software deploymentAutomated guided vehicleReal-time computingTrajectoryComputer scienceNetwork packetCloud computingArtificial neural networkProgrammable logic controllerSet (abstract data type)Embedded systemSimulationControl engineeringEngineeringArtificial intelligenceComputer networkOperating systemProgramming languagePhysicsAstronomyBlockchain Technology Applications and SecurityEEG and Brain-Computer InterfacesElevator Systems and Control