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Controlling a system using an artificial neural network and artificial neural network training

Controlling a system using an artificial neural network and artificial neural network training
Controlling a system using an artificial neural network and artificial neural network training
Apparatus and method of training an artificial neural network, NN, useable as a controller for a system comprises obtaining input data representing a tapped delay line comprising a plurality of reference signals of the system and inputting the reference signals to a respective plurality of NNs that output a respective plurality of control signals. The plurality of NNs comprise a first NN and at least one further NN and weights and biases of the at least one further NN correspond to weights and biases of a current iteration of the first NN. The control signals are provided to a model that simulates the system and outputs a model signal. A system error signal is generated using the model signal, and a next iteration of the plurality of NNs is trained using training data comprising the obtained input data and the system error signal.
PCT/GB2024/050150
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Pike, Alexander
1cd3f629-7971-4b9c-9b4a-636df608bbe0

Cheer, Jordan and Pike, Alexander (Inventors) (2024) Controlling a system using an artificial neural network and artificial neural network training. PCT/GB2024/050150.

Record type: Patent

Abstract

Apparatus and method of training an artificial neural network, NN, useable as a controller for a system comprises obtaining input data representing a tapped delay line comprising a plurality of reference signals of the system and inputting the reference signals to a respective plurality of NNs that output a respective plurality of control signals. The plurality of NNs comprise a first NN and at least one further NN and weights and biases of the at least one further NN correspond to weights and biases of a current iteration of the first NN. The control signals are provided to a model that simulates the system and outputs a model signal. A system error signal is generated using the model signal, and a next iteration of the plurality of NNs is trained using training data comprising the obtained input data and the system error signal.

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Published date: 6 September 2024
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Identifiers

Local EPrints ID: 494691
URI: http://eprints.soton.ac.uk/id/eprint/494691
PURE UUID: dbe206be-2698-4869-8f1e-ef1caef84c66
ORCID for Jordan Cheer: ORCID iD orcid.org/0000-0002-0552-5506

Catalogue record

Date deposited: 14 Oct 2024 16:39
Last modified: 15 Oct 2024 01:43

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Contributors

Inventor: Jordan Cheer ORCID iD
Inventor: Alexander Pike

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