Bioelectrical nanosensors

Prosthesis interface appliance perspectives

Nikita Vladimirovich Turushev, Michael Georgievich Grigoriev, D. Avdeeva

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

One of the modern science problems is finding ways of improving lost movement restoration methods such as developing new and enhancing current prosthetic devices and its components. There are many ways of solving this problem. During the research the overview of electrophysiological interfaces types, their market requirement and main product designers is performed. In this paper presented method of prosthetic interface improving due to developed nanotechnology based sensors. Developed sensors characteristic improves quality of control signal and allow creating enhanced bioelectric human-machine interface possesses high sensitivity and fast response time. In paper described future interface prototype work and conceptual schema of control system. In conclusion perspectives of interface and its components appliance are analyzed.

Original languageEnglish
Title of host publication2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014
PublisherScience and Engineering Institute
Publication statusPublished - 2014
Event4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014 - Dubai, United Arab Emirates
Duration: 22 Aug 201423 Aug 2014

Other

Other4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014
CountryUnited Arab Emirates
CityDubai
Period22.8.1423.8.14

Fingerprint

Nanosensors
Prosthetics
Sensors
Nanotechnology
Restoration
Control systems
Prostheses and Implants

Keywords

  • Biointerface
  • Electromyography
  • Electrophysiological nanosensors
  • Limb prosthetics
  • Medical devices
  • Nanomaterials

ASJC Scopus subject areas

  • Computer Science(all)
  • Engineering(all)

Cite this

Turushev, NV., Grigoriev, MG., & Avdeeva, D. (2014). Bioelectrical nanosensors: Prosthesis interface appliance perspectives. In 2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014 Science and Engineering Institute.

Bioelectrical nanosensors : Prosthesis interface appliance perspectives. / Turushev, Nikita Vladimirovich; Grigoriev, Michael Georgievich; Avdeeva, D.

2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014. Science and Engineering Institute, 2014.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Turushev, NV, Grigoriev, MG & Avdeeva, D 2014, Bioelectrical nanosensors: Prosthesis interface appliance perspectives. in 2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014. Science and Engineering Institute, 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014, Dubai, United Arab Emirates, 22.8.14.
Turushev NV, Grigoriev MG, Avdeeva D. Bioelectrical nanosensors: Prosthesis interface appliance perspectives. In 2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014. Science and Engineering Institute. 2014
Turushev, Nikita Vladimirovich ; Grigoriev, Michael Georgievich ; Avdeeva, D. / Bioelectrical nanosensors : Prosthesis interface appliance perspectives. 2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014. Science and Engineering Institute, 2014.
@inproceedings{c2a258dba8304e33b8996b77db01a8d1,
title = "Bioelectrical nanosensors: Prosthesis interface appliance perspectives",
abstract = "One of the modern science problems is finding ways of improving lost movement restoration methods such as developing new and enhancing current prosthetic devices and its components. There are many ways of solving this problem. During the research the overview of electrophysiological interfaces types, their market requirement and main product designers is performed. In this paper presented method of prosthetic interface improving due to developed nanotechnology based sensors. Developed sensors characteristic improves quality of control signal and allow creating enhanced bioelectric human-machine interface possesses high sensitivity and fast response time. In paper described future interface prototype work and conceptual schema of control system. In conclusion perspectives of interface and its components appliance are analyzed.",
keywords = "Biointerface, Electromyography, Electrophysiological nanosensors, Limb prosthetics, Medical devices, Nanomaterials",
author = "Nikita Vladimirovich Turushev and Michael Georgievich Grigoriev and D. Avdeeva",
year = "2014",
language = "English",
booktitle = "2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014",
publisher = "Science and Engineering Institute",

}

TY - GEN

T1 - Bioelectrical nanosensors

T2 - Prosthesis interface appliance perspectives

AU - Turushev, Nikita Vladimirovich

AU - Grigoriev, Michael Georgievich

AU - Avdeeva, D.

PY - 2014

Y1 - 2014

N2 - One of the modern science problems is finding ways of improving lost movement restoration methods such as developing new and enhancing current prosthetic devices and its components. There are many ways of solving this problem. During the research the overview of electrophysiological interfaces types, their market requirement and main product designers is performed. In this paper presented method of prosthetic interface improving due to developed nanotechnology based sensors. Developed sensors characteristic improves quality of control signal and allow creating enhanced bioelectric human-machine interface possesses high sensitivity and fast response time. In paper described future interface prototype work and conceptual schema of control system. In conclusion perspectives of interface and its components appliance are analyzed.

AB - One of the modern science problems is finding ways of improving lost movement restoration methods such as developing new and enhancing current prosthetic devices and its components. There are many ways of solving this problem. During the research the overview of electrophysiological interfaces types, their market requirement and main product designers is performed. In this paper presented method of prosthetic interface improving due to developed nanotechnology based sensors. Developed sensors characteristic improves quality of control signal and allow creating enhanced bioelectric human-machine interface possesses high sensitivity and fast response time. In paper described future interface prototype work and conceptual schema of control system. In conclusion perspectives of interface and its components appliance are analyzed.

KW - Biointerface

KW - Electromyography

KW - Electrophysiological nanosensors

KW - Limb prosthetics

KW - Medical devices

KW - Nanomaterials

UR - http://www.scopus.com/inward/record.url?scp=84924939913&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84924939913&partnerID=8YFLogxK

M3 - Conference contribution

BT - 2014 the 4th International Workshop on Computer Science and Engineering - Summer, WCSE 2014

PB - Science and Engineering Institute

ER -