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Automation of EEG Data Processing with HPC Community Cloud. / Gorodnichev, Maxim A.; Nalepova, Elizaveta D.; Merkulova, Ekaterina A. et al.

24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023. IEEE Computer Society, 2023. p. 1320-1323 (International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM; Vol. 2023-June).

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Gorodnichev, MA, Nalepova, ED, Merkulova, EA, Rudych, PD & Savostyanov, AN 2023, Automation of EEG Data Processing with HPC Community Cloud. in 24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023. International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM, vol. 2023-June, IEEE Computer Society, pp. 1320-1323. https://doi.org/10.1109/EDM58354.2023.10225226

APA

Gorodnichev, M. A., Nalepova, E. D., Merkulova, E. A., Rudych, P. D., & Savostyanov, A. N. (2023). Automation of EEG Data Processing with HPC Community Cloud. In 24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023 (pp. 1320-1323). (International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM; Vol. 2023-June). IEEE Computer Society. https://doi.org/10.1109/EDM58354.2023.10225226

Vancouver

Gorodnichev MA, Nalepova ED, Merkulova EA, Rudych PD, Savostyanov AN. Automation of EEG Data Processing with HPC Community Cloud. In 24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023. IEEE Computer Society. 2023. p. 1320-1323. (International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM). doi: 10.1109/EDM58354.2023.10225226

Author

Gorodnichev, Maxim A. ; Nalepova, Elizaveta D. ; Merkulova, Ekaterina A. et al. / Automation of EEG Data Processing with HPC Community Cloud. 24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023. IEEE Computer Society, 2023. pp. 1320-1323 (International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM).

BibTeX

@inproceedings{1923016079404f08a33a2d5321c99db4,
title = "Automation of EEG Data Processing with HPC Community Cloud",
abstract = "We study and further develop an approach based on the computational models formalism to automation of data processing pipelines in a specific application domain-neurophysiology. A computational model is a formal specification of a set of variables (in a mathematical sense) of an application domain and a set of operations with their input and output variables. If values of some variables are given, the operations that have these variables as inputs can compute values of their output variables, these variables serve as inputs for other operations and, thus, some subset of variables can obtain their values. This way, all possible/meaningful computational scenarios in the domain can be defined and algorithms (scenarios) for particular computational problems can be automatically derived by forward chaining. In this work, we apply the approach to building a framework for managing data and computations in neurophysiology. Brain studies produce large amounts of data such as electroencephalograms, functional magnetic tomography images, questionnaires, and results of other medical tests. There is a need for systematic management of these data, specification of data processing pipelines, implementing these pipelines on high performance computing systems, representing the process of computing and the results with a graphic user interface. We build a sample computational model to represent a limited set of scenarios that can be reused and further extended in a regular way by adding more variables and operations, propose a framework for management of data and computations, automation of building graphical user interfaces. A prototype implementation of the framework based on the developed computation model is a practical output of this work.",
keywords = "cloud, data processing pipelines, high performance computing, neurophysiology data, research automation",
author = "Gorodnichev, {Maxim A.} and Nalepova, {Elizaveta D.} and Merkulova, {Ekaterina A.} and Rudych, {Pavel D.} and Savostyanov, {Alexander N.}",
note = "The study was supported by the Russian Science Foundation (RSF) No 22-25-00735. Публикация для корректировки.",
year = "2023",
doi = "10.1109/EDM58354.2023.10225226",
language = "English",
isbn = "9798350336870",
series = "International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM",
publisher = "IEEE Computer Society",
pages = "1320--1323",
booktitle = "24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023",
address = "United States",

}

RIS

TY - GEN

T1 - Automation of EEG Data Processing with HPC Community Cloud

AU - Gorodnichev, Maxim A.

AU - Nalepova, Elizaveta D.

AU - Merkulova, Ekaterina A.

AU - Rudych, Pavel D.

AU - Savostyanov, Alexander N.

N1 - The study was supported by the Russian Science Foundation (RSF) No 22-25-00735. Публикация для корректировки.

PY - 2023

Y1 - 2023

N2 - We study and further develop an approach based on the computational models formalism to automation of data processing pipelines in a specific application domain-neurophysiology. A computational model is a formal specification of a set of variables (in a mathematical sense) of an application domain and a set of operations with their input and output variables. If values of some variables are given, the operations that have these variables as inputs can compute values of their output variables, these variables serve as inputs for other operations and, thus, some subset of variables can obtain their values. This way, all possible/meaningful computational scenarios in the domain can be defined and algorithms (scenarios) for particular computational problems can be automatically derived by forward chaining. In this work, we apply the approach to building a framework for managing data and computations in neurophysiology. Brain studies produce large amounts of data such as electroencephalograms, functional magnetic tomography images, questionnaires, and results of other medical tests. There is a need for systematic management of these data, specification of data processing pipelines, implementing these pipelines on high performance computing systems, representing the process of computing and the results with a graphic user interface. We build a sample computational model to represent a limited set of scenarios that can be reused and further extended in a regular way by adding more variables and operations, propose a framework for management of data and computations, automation of building graphical user interfaces. A prototype implementation of the framework based on the developed computation model is a practical output of this work.

AB - We study and further develop an approach based on the computational models formalism to automation of data processing pipelines in a specific application domain-neurophysiology. A computational model is a formal specification of a set of variables (in a mathematical sense) of an application domain and a set of operations with their input and output variables. If values of some variables are given, the operations that have these variables as inputs can compute values of their output variables, these variables serve as inputs for other operations and, thus, some subset of variables can obtain their values. This way, all possible/meaningful computational scenarios in the domain can be defined and algorithms (scenarios) for particular computational problems can be automatically derived by forward chaining. In this work, we apply the approach to building a framework for managing data and computations in neurophysiology. Brain studies produce large amounts of data such as electroencephalograms, functional magnetic tomography images, questionnaires, and results of other medical tests. There is a need for systematic management of these data, specification of data processing pipelines, implementing these pipelines on high performance computing systems, representing the process of computing and the results with a graphic user interface. We build a sample computational model to represent a limited set of scenarios that can be reused and further extended in a regular way by adding more variables and operations, propose a framework for management of data and computations, automation of building graphical user interfaces. A prototype implementation of the framework based on the developed computation model is a practical output of this work.

KW - cloud

KW - data processing pipelines

KW - high performance computing

KW - neurophysiology data

KW - research automation

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85172014468&origin=inward&txGid=cd1c70c27784fd964f4839eb5272752e

UR - https://www.mendeley.com/catalogue/f83a103a-b1ee-3851-acf6-563c9e0fa9fa/

U2 - 10.1109/EDM58354.2023.10225226

DO - 10.1109/EDM58354.2023.10225226

M3 - Conference contribution

SN - 9798350336870

T3 - International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices, EDM

SP - 1320

EP - 1323

BT - 24th IEEE International Conference of Young Professionals in Electron Devices and Materials, EDM 2023; Novosibirsk; Russian Federation; 29 June 2023 до 3 July 2023

PB - IEEE Computer Society

ER -

ID: 59175483