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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 13 >Page 1300004 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 13, 1300004 (2022)
    Application of Optical Fiber Bragg Grating Sensor in Minimally Invasive Medical Treatment
    Hua Qi1, Yan Feng1、*, Hua Zhang1、**, and Huiqin Wang2
    Author Affiliations
  • 1Robotics Institute, Shanghai University of Engineering Science, Shanghai 201620, China
  • 2School of Mathematics, Physcis and Statistics, Shanghai University of Engineering Science, Shanghai 201620, China
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    DOI: 10.3788/LOP202259.1300004 Cite this Article Set citation alerts
    Hua Qi, Yan Feng, Hua Zhang, Huiqin Wang. Application of Optical Fiber Bragg Grating Sensor in Minimally Invasive Medical Treatment[J]. Laser & Optoelectronics Progress, 2022, 59(13): 1300004 Copy Citation Text show less
    Sensing schematic diagram of the FBG[14]
    Fig. 1. Sensing schematic diagram of the FBG[14]
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    FBG based force sensing microsurgical pliers for minimally invasive retinal surgery. (a) One-dimensional and two-dimensional structure[18]; (b) improved two-dimensional structure[19]; (c) three-dimensional structure[20]
    Fig. 2. FBG based force sensing microsurgical pliers for minimally invasive retinal surgery. (a) One-dimensional and two-dimensional structure[18]; (b) improved two-dimensional structure[19]; (c) three-dimensional structure[20]
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    FBG based electrically inductive micropliers used to peel the retina[21]
    Fig. 3. FBG based electrically inductive micropliers used to peel the retina[21]
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    Two-dimensional force sensing positioning hook based on FBG for artificial lens[22]
    Fig. 4. Two-dimensional force sensing positioning hook based on FBG for artificial lens[22]
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    FBG based sensor for radiofrequency cardiac ablation[23]
    Fig. 5. FBG based sensor for radiofrequency cardiac ablation[23]
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    FBG based three-dimensional force sensor for ablation surgery[24]
    Fig. 6. FBG based three-dimensional force sensor for ablation surgery[24]
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    FBG based three-dimensional force sensor for coronary intervention[25]
    Fig. 7. FBG based three-dimensional force sensor for coronary intervention[25]
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    Single FBG based three-dimensional force sensor[26]
    Fig. 8. Single FBG based three-dimensional force sensor[26]
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    FBG based one dimensional force sensor array[27]
    Fig. 9. FBG based one dimensional force sensor array[27]
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    FBG sensor based on the sarrus structure[28]
    Fig. 10. FBG sensor based on the sarrus structure[28]
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    Three-dimensional force sensing probe based on FBG[30]
    Fig. 11. Three-dimensional force sensing probe based on FBG[30]
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    Three-dimensional force sensing biopsy probe based on FBG[31-32]
    Fig. 12. Three-dimensional force sensing biopsy probe based on FBG[31-32]
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    Force sensing oblique needle based on FBG[33]
    Fig. 13. Force sensing oblique needle based on FBG[33]
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    Force sensing drainage needle with embedded FBG based on cross elastic beam structure[34]
    Fig. 14. Force sensing drainage needle with embedded FBG based on cross elastic beam structure[34]
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    Three-dimensional force and torque sensor based on FBG[35]
    Fig. 15. Three-dimensional force and torque sensor based on FBG[35]
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    Six-dimensional force and torque micro-sensor based on FBG[36]
    Fig. 16. Six-dimensional force and torque micro-sensor based on FBG[36]
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    One-dimensional remote force sensor based on FBG[37]
    Fig. 17. One-dimensional remote force sensor based on FBG[37]
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    A probe fixing the FBG to the outer surface of the capillary with epoxy adhesive[38]
    Fig. 18. A probe fixing the FBG to the outer surface of the capillary with epoxy adhesive[38]
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    Temperature sensing technology based on FBG[39]
    Fig. 19. Temperature sensing technology based on FBG[39]
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    Tumor ablation temperature monitoring system based on FBG[40]
    Fig. 20. Tumor ablation temperature monitoring system based on FBG[40]
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    Closed-loop temperature control system for liver tissue laser ablation based on FBG[41]
    Fig. 21. Closed-loop temperature control system for liver tissue laser ablation based on FBG[41]
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    A temperature monitoring system based on FBG thermal sensing[42]
    Fig. 22. A temperature monitoring system based on FBG thermal sensing[42]
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    Abstract
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    Hua Qi, Yan Feng, Hua Zhang, Huiqin Wang. Application of Optical Fiber Bragg Grating Sensor in Minimally Invasive Medical Treatment[J]. Laser & Optoelectronics Progress, 2022, 59(13): 1300004
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    Paper Information
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