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Improved system identification using artificial neural networks and analysis of individual differences in responses of an identified neuron

Improved system identification using artificial neural networks and analysis of individual differences in responses of an identified neuron
Improved system identification using artificial neural networks and analysis of individual differences in responses of an identified neuron
We analyse the effectiveness of Artificial Neural Networks (ANNs) as a modelling tool for motor neuron responses. We used ANNs to model the synaptic responses of an identified motor neuron, the fast extensor motor neuron, of the desert locust in response to displacement of a sensory organ, the femoral chordotonal organ, which monitors movements of the tibia relative to the femur of the leg. The aim of the study was threefold: first to determine the potential value of ANNs as tools to model and investigate neural networks, second to understand the generalisation properties of ANNs across individuals and to different input signals and third, to understand individual differences in responses of an identified neuron. A metaheuristic algorithm was developed to design the ANN architectures. The performance of the models generated by the ANNs was compared with those generated through previous mathematical models of the same neuron. The results suggests that ANNs are significantly better than LNL and Wiener models in predicting specific neural responses to Gaussian White Noise, but not significantly different when tested with sinusoidal inputs. They are also able to predict responses of the same neuron in different individuals irrespective of which animal was used to develop the model, although notable differences between some individuals were evident.
FETi, locust, motor neuron, electrophysiology
University of Southampton
Costalago Meruelo, Alicia
7525af96-0dfd-46f6-b3f6-52c07b73f55b
Newland, Philip
7a018c0e-37ba-40f5-bbf6-49ab0f299dbb
Simpson, David
53674880-f381-4cc9-8505-6a97eeac3c2a
Costalago Meruelo, Alicia
7525af96-0dfd-46f6-b3f6-52c07b73f55b
Newland, Philip
7a018c0e-37ba-40f5-bbf6-49ab0f299dbb
Simpson, David
53674880-f381-4cc9-8505-6a97eeac3c2a

Costalago Meruelo, Alicia and Newland, Philip (2015) Improved system identification using artificial neural networks and analysis of individual differences in responses of an identified neuron. University of Southampton doi:10.5258/SOTON/385038 [Dataset]

Record type: Dataset

Abstract

We analyse the effectiveness of Artificial Neural Networks (ANNs) as a modelling tool for motor neuron responses. We used ANNs to model the synaptic responses of an identified motor neuron, the fast extensor motor neuron, of the desert locust in response to displacement of a sensory organ, the femoral chordotonal organ, which monitors movements of the tibia relative to the femur of the leg. The aim of the study was threefold: first to determine the potential value of ANNs as tools to model and investigate neural networks, second to understand the generalisation properties of ANNs across individuals and to different input signals and third, to understand individual differences in responses of an identified neuron. A metaheuristic algorithm was developed to design the ANN architectures. The performance of the models generated by the ANNs was compared with those generated through previous mathematical models of the same neuron. The results suggests that ANNs are significantly better than LNL and Wiener models in predicting specific neural responses to Gaussian White Noise, but not significantly different when tested with sinusoidal inputs. They are also able to predict responses of the same neuron in different individuals irrespective of which animal was used to develop the model, although notable differences between some individuals were evident.

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More information

Published date: 2015
Related URLs:
Keywords: FETi, locust, motor neuron, electrophysiology
Organisations: Electronics & Computer Science, Biomedicine, Faculty of Natural and Environmental Sciences, Signal Processing & Control Grp
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 385038
URI: http://eprints.soton.ac.uk/id/eprint/385038
DOI: doi:10.5258/SOTON/385038
PURE UUID: 57422a77-f12c-4b94-92b4-8b3dcec61dc8
ORCID for Philip Newland: ORCID iD orcid.org/0000-0003-4124-8507
ORCID for David Simpson: ORCID iD orcid.org/0000-0001-9072-5088

Catalogue record

Date deposited: 14 Dec 2015 16:56
Last modified: 05 Nov 2023 02:39

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Contributors

Creator: Alicia Costalago Meruelo
Creator: Philip Newland ORCID iD
Research team head: David Simpson ORCID iD

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