journal IEEE Systems Journal.

Robotized Tele-Echography

An Assisting Visibility Tool to Support Expert Diagnostic

  • Tracking
  • US imaging
  • Visual servoing

This paper presents a robotized tele-echography system that offers sonographers a solution to perform in real-time a diagnosis on remotely located patients.

Q1 IF: 4.8
Authors
Affiliations

Alexandre Krupa

Lagadic Team, Inria Rennes–Bretagne Atlantique, IRISA

David Folio 

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

Cyril Novales

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

Pierre Vieyres

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

Tao Li

Lagadic Team, Inria Rennes–Bretagne Atlantique, IRISA

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

Published

Abstract

This paper presents a robotized tele-echography system with an assisting visibility mode that helps the medical expert diagnosis. This autonomous mode is based on a multitask control approach that maintains the visibility of an anatomic element of interest while the medical expert tele-operates a 2D ultrasound probe held by a 4-DoF robot. The main task is used to automatically maintain several visual constraints that guarantee an intersection between the US image plane and the organ of interest. A secondary task allows the medical expert to manually apply the probe motion through the tele-operation mode. The main advantage of this approach is to give to the clinician the control of all the degrees of freedom of the probe to examine the patient while automatically preserving the visibility of the organ of interest when required. Experimental results, performed on a phantom and human abdomen, demonstrate the efficiency of the visibility assistance task.

Keywords: Robotized tele-echography, ultrasound-based, visual servoing, visibility constraints.

Acknowledgment

This work is supported by the ANR PROSIT project of the French National Research Agency (ANR-08-CORD-017) and the S2E2 cluster.

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Citation

BibTeX citation:
@article{krupa2016,
  author = {Krupa, Alexandre and Folio, David and Novales, Cyril and
    Vieyres, Pierre and Li, Tao},
  publisher = {IEEE},
  title = {Robotized {Tele-Echography}},
  journal = {IEEE Systems Journal},
  volume = {10},
  number = {3},
  pages = {974-983},
  date = {2016-09-01},
  url = {https://dfolio.fr/publications/articles/2016taoISJ.html},
  doi = {10.1109/JSYST.2014.2314773},
  issn = {1932-8184},
  langid = {en},
  abstract = {This paper presents a robotized tele-echography system
    with an assisting visibility mode that helps the medical expert
    diagnosis. This autonomous mode is based on a multitask control
    approach that maintains the visibility of an anatomic element of
    interest while the medical expert tele-operates a 2D ultrasound
    probe held by a 4-DoF robot. The main task is used to automatically
    maintain several visual constraints that guarantee an intersection
    between the US image plane and the organ of interest. A secondary
    task allows the medical expert to manually apply the probe motion
    through the tele-operation mode. The main advantage of this approach
    is to give to the clinician the control of all the degrees of
    freedom of the probe to examine the patient while automatically
    preserving the visibility of the organ of interest when required.
    Experimental results, performed on a phantom and human abdomen,
    demonstrate the efficiency of the visibility assistance task.}
}
For attribution, please cite this work as:
Krupa A., Folio D., Novales C., Vieyres P., and Li T., “Robotized Tele-Echography,” IEEE Syst. J., vol. 10, pp. 974–983, September 2016. [Online]. Available: https://dfolio.fr/publications/articles/2016taoISJ.html