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Complex Measurement Systems in Medicine : from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems. / Wasserman, E. L.; Kartashev, N. K.; Roudnitsky, S. B.; Zhvalevsky, O. V.

в: Information technology in industry, Том 6, № 2, 2018, стр. 25-30.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Wasserman, EL, Kartashev, NK, Roudnitsky, SB & Zhvalevsky, OV 2018, 'Complex Measurement Systems in Medicine: from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems', Information technology in industry, Том. 6, № 2, стр. 25-30.

APA

Wasserman, E. L., Kartashev, N. K., Roudnitsky, S. B., & Zhvalevsky, O. V. (2018). Complex Measurement Systems in Medicine: from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems. Information technology in industry, 6(2), 25-30.

Vancouver

Wasserman EL, Kartashev NK, Roudnitsky SB, Zhvalevsky OV. Complex Measurement Systems in Medicine: from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems. Information technology in industry. 2018;6(2):25-30.

Author

Wasserman, E. L. ; Kartashev, N. K. ; Roudnitsky, S. B. ; Zhvalevsky, O. V. / Complex Measurement Systems in Medicine : from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems. в: Information technology in industry. 2018 ; Том 6, № 2. стр. 25-30.

BibTeX

@article{d0294e8a2aaa44debd54e772e44b7c16,
title = "Complex Measurement Systems in Medicine: from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems",
abstract = "Design problems of flexible computer systems for physiological researches are discussed. The widespread case of employing of commercial medical devices as parts of the resulting computer system is analyzed. To overcome most of the arising difficulties, we propose using of the universal synchronizing device and the modular script-based software. The prospects of such computer systems are outlined as an evolution of them into cyber-physical systems with on-demand plugging in of required hardware modules.",
keywords = "cyber-physical systems, integration, aggregation, medical systems, synchronization, COMBINING EEG, EPILEPSY, DESIGN, FMRI",
author = "Wasserman, {E. L.} and Kartashev, {N. K.} and Roudnitsky, {S. B.} and Zhvalevsky, {O. V.}",
note = "Wasserman Е.L., Кartashev N.К., Roudnitsky S.B., Zhvalevsky О.V. Complex measurement systems in medicine: from synchronized monotask measuring instruments to cyber-physical systems. // Information technology in industry – 2018. – Vol. 6, N. 2. – P. 26-31 ISSN: 2203-1731 (Online), 2204-0595 (Print)",
year = "2018",
language = "Английский",
volume = "6",
pages = "25--30",
journal = "Information technology in industry",
issn = "2204-0595",
publisher = "La Trobe University",
number = "2",

}

RIS

TY - JOUR

T1 - Complex Measurement Systems in Medicine

T2 - from Synchronized Monotask Measuring Instruments to Cyber-Physical Systems

AU - Wasserman, E. L.

AU - Kartashev, N. K.

AU - Roudnitsky, S. B.

AU - Zhvalevsky, O. V.

N1 - Wasserman Е.L., Кartashev N.К., Roudnitsky S.B., Zhvalevsky О.V. Complex measurement systems in medicine: from synchronized monotask measuring instruments to cyber-physical systems. // Information technology in industry – 2018. – Vol. 6, N. 2. – P. 26-31 ISSN: 2203-1731 (Online), 2204-0595 (Print)

PY - 2018

Y1 - 2018

N2 - Design problems of flexible computer systems for physiological researches are discussed. The widespread case of employing of commercial medical devices as parts of the resulting computer system is analyzed. To overcome most of the arising difficulties, we propose using of the universal synchronizing device and the modular script-based software. The prospects of such computer systems are outlined as an evolution of them into cyber-physical systems with on-demand plugging in of required hardware modules.

AB - Design problems of flexible computer systems for physiological researches are discussed. The widespread case of employing of commercial medical devices as parts of the resulting computer system is analyzed. To overcome most of the arising difficulties, we propose using of the universal synchronizing device and the modular script-based software. The prospects of such computer systems are outlined as an evolution of them into cyber-physical systems with on-demand plugging in of required hardware modules.

KW - cyber-physical systems

KW - integration

KW - aggregation

KW - medical systems

KW - synchronization

KW - COMBINING EEG

KW - EPILEPSY

KW - DESIGN

KW - FMRI

M3 - статья

VL - 6

SP - 25

EP - 30

JO - Information technology in industry

JF - Information technology in industry

SN - 2204-0595

IS - 2

ER -

ID: 34787337