Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument

Standard

Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument. / Bronnikov, Kirill; Dostovalov, Alexander; Wolf, Alexey и др.

Optical Sensors, Sensors 2021. The Optical Society, 2021. SM2A.3 (Optics InfoBase Conference Papers).

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференций › статья в сборнике материалов конференции › научная › Рецензирование

Harvard

Bronnikov, K, Dostovalov, A, Wolf, A & Babin, S 2021, Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument. в Optical Sensors, Sensors 2021., SM2A.3, Optics InfoBase Conference Papers, The Optical Society, Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021, Virtual, Online, Соединенные Штаты Америки, 19.07.2021.

APA

Bronnikov, K., Dostovalov, A., Wolf, A., & Babin, S. (2021). Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument. в Optical Sensors, Sensors 2021 [SM2A.3] (Optics InfoBase Conference Papers). The Optical Society.

Vancouver

Bronnikov K, Dostovalov A, Wolf A, Babin S. Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument. в Optical Sensors, Sensors 2021. The Optical Society. 2021. SM2A.3. (Optics InfoBase Conference Papers).

Author

Bronnikov, Kirill ; Dostovalov, Alexander ; Wolf, Alexey и др. / Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument. Optical Sensors, Sensors 2021. The Optical Society, 2021. (Optics InfoBase Conference Papers).

BibTeX

@inproceedings{f254a387d61c4478b49565f188a1ab37,

title = "Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument",

abstract = "Fiber-optic shape sensors based on 7-core optical fibers with twisted and straight cores were integrated into a flexible medical papillotome and the accuracy of shape reconstruction was analyzed for different fiber Bragg gratings spacing.",

author = "Kirill Bronnikov and Alexander Dostovalov and Alexey Wolf and Sergey Babin",

note = "Funding Information: For Sample #1, the shape reconstruction error is 0.1-0.2 mm in the case of shapes 1, 2, 3, where the deflection angle of the papillotome tip is less than 45°. With an increase in the deflection angle to 90°, an increase in the error value is observed up to 2.5 mm in the case of shape #4 and 4.8 mm in the case of shape #5 with a deflection angle of 125° (Fig. 1 a), which is associated with the limited spatial resolution of the sensor, determined by the distance between neighboring nodes. As can be seen from Table 1, in the case of Sample #2, the reconstruction error rises with an increase in the curvature of the bend, similarly to the situation with Sample #1, and amounts to 0.8 mm at the maximum deformation of the moving part of the papillotome (shape #6, 7). At the same time, this error decreases to 0.2 mm when the FBG is located in the area of maximum bending (shape #8, see Fig. 1). The deviation from the plane for all shapes for both samples did not exceed 0.4 mm. Thus, when comparing the characteristics of Sample #1 (FBG node interval – 15.4 mm) and Sample #2 (FBG node interval – 10 mm), it can be concluded that at small curvature values, the sensors have comparable recovery errors, while at the increasing curvature, Sample #2, due to the higher spatial resolution, allows reconstruction of the shape with less error (less than 1 mm over 80 mm total length). The authors acknowledge the financial support of the Russian Science Foundation (project No. 21-72-30024). Publisher Copyright: {\textcopyright} OSA 2021.; Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021 ; Conference date: 19-07-2021 Through 23-07-2021",

year = "2021",

language = "English",

series = "Optics InfoBase Conference Papers",

publisher = "The Optical Society",

booktitle = "Optical Sensors, Sensors 2021",

address = "United States",

}

RIS

TY - GEN

T1 - Influence of parameters of FBG array inscribed in a multicore optical fiber on the accuracy of shape reconstruction of a flexible medical instrument

AU - Bronnikov, Kirill

AU - Dostovalov, Alexander

AU - Wolf, Alexey

AU - Babin, Sergey

N1 - Funding Information: For Sample #1, the shape reconstruction error is 0.1-0.2 mm in the case of shapes 1, 2, 3, where the deflection angle of the papillotome tip is less than 45°. With an increase in the deflection angle to 90°, an increase in the error value is observed up to 2.5 mm in the case of shape #4 and 4.8 mm in the case of shape #5 with a deflection angle of 125° (Fig. 1 a), which is associated with the limited spatial resolution of the sensor, determined by the distance between neighboring nodes. As can be seen from Table 1, in the case of Sample #2, the reconstruction error rises with an increase in the curvature of the bend, similarly to the situation with Sample #1, and amounts to 0.8 mm at the maximum deformation of the moving part of the papillotome (shape #6, 7). At the same time, this error decreases to 0.2 mm when the FBG is located in the area of maximum bending (shape #8, see Fig. 1). The deviation from the plane for all shapes for both samples did not exceed 0.4 mm. Thus, when comparing the characteristics of Sample #1 (FBG node interval – 15.4 mm) and Sample #2 (FBG node interval – 10 mm), it can be concluded that at small curvature values, the sensors have comparable recovery errors, while at the increasing curvature, Sample #2, due to the higher spatial resolution, allows reconstruction of the shape with less error (less than 1 mm over 80 mm total length). The authors acknowledge the financial support of the Russian Science Foundation (project No. 21-72-30024). Publisher Copyright: © OSA 2021.

PY - 2021

Y1 - 2021

N2 - Fiber-optic shape sensors based on 7-core optical fibers with twisted and straight cores were integrated into a flexible medical papillotome and the accuracy of shape reconstruction was analyzed for different fiber Bragg gratings spacing.

AB - Fiber-optic shape sensors based on 7-core optical fibers with twisted and straight cores were integrated into a flexible medical papillotome and the accuracy of shape reconstruction was analyzed for different fiber Bragg gratings spacing.

UR - http://www.scopus.com/inward/record.url?scp=85120444632&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85120444632

T3 - Optics InfoBase Conference Papers

BT - Optical Sensors, Sensors 2021

PB - The Optical Society

T2 - Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021

Y2 - 19 July 2021 through 23 July 2021

ER -

ID: 34893253