Abstract
The main goal of minimally invasive surgery robotic systems is to mimic open surgery and to overcome the drawbacks of minimally invasive surgery (MIS) such as limited dexterity, fulcrum effect, difficult hand eye coordination, etc. Therefore, some of the key requirements for surgical robots with focus on surgeon interface are dexterity and degrees of freedom similar to open surgery, intuitive control of instruments, alignment of the surgeon’s eyes and hands over the area of interest, etc.
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EPFL, Deliverable 6.1: Report on operator interface specifications, SAFROS Project Deliverable
Intuitive surgical. http://www.intuitivesurgical.com/
Beck, L., Wolter, M., Mungard, N.F., Vohn, R., Staedtgen, M., Kuhlen, T., Sturm, W.: Evaluation of spatial processing in virtual reality using functional magnetic resonance imaging (FMRI). Cyberpsychol. Behav. Soc. Netw. 13(2), 211–215 (2010)
Hoffman, D.M., Girshick, A.R., Akeley, K., Banks, M.S.: Vergence-accommodation conflicts hinder visual performance and cause visual fatigue. J. Vis. 8(3), 33 (2008)
Swan, J.E., Jones, A., Kolstad, E., Livingston, M.A., Smallman, H.S.: Egocentric depth judgments in optical, see-through augmented reality. Vis. Comput. Graph. IEEE Trans. 13(3), 429–442 (2007)
Naceri, A., Chellali, R., Dionnet, F., Toma, S.: Depth perception within virtual environments: comparison between two display technologies. Int. J. Adv. Intell. Syst. 3(1–2), 51–64 (2010)
Gruber, H.E.: The relation of perceived size to perceived distance. Am. J. Psychol. 411–426 (1954)
Berryhill, M.E., Fendrich, R., Olson, I.R.: Impaired distance perception and size constancy following bilateral occipitoparietal damage. Exp. Brain Res. 194(3), 381–393 (2009)
Armbrüster, C., Wolter, M., Kuhlen, T., Spijkers, W., Fimm, B.: Depth perception in virtual reality: distance estimations in peri-and extrapersonal space. Cyberpsychol. Behav. 11(1), 9–15 (2008)
Sengül, A., Barsi, A., Ribeiro, D., Bleuler, H.: Role of holographic displays and stereovision displays in patient safety and robotic surgery. In: Intelligent Autonomous Systems, vol. 12, pp. 143–154. Springer, Berlin (2013)
Maravita, A., Iriki, A.: Tools for the body (schema). Trends Cogn. Sci. 8(2), 79–86 (2004)
Holmes, N.P.: Does tool use extend peripersonal space? a review and re-analysis. Exp. Brain Res. 218(2), 273–282 (2012)
Sengül, A., Van Elk, M., Rognini, G., Aspell, J.E., Bleuler, H., Blanke, O.: Extending the body to virtual tools using a robotic surgical interface: evidence from the crossmodal congruency task. PLoS One 7(12), e49473 (2012)
Jay, C., Glencross, M., Hubbold, R.: Modeling the effects of delayed haptic and visual feedback in a collaborative virtual environment. ACM Trans. Comput. Hum. Interact. (TOCHI) 14(2), 8 (2007)
Sengul, A., Rivest, F., Van Elk, M., Blanke, O., Bleuler, H.: Visual and force feedback time-delays change telepresence: quantitative evidence from crossmodal congruecy task. In: World Haptics Conference (WHC) 2013, pp. 577–582. IEEE (2013)
Holmes, N.P., Calvert, G.A., Spence, C.: Extending or projecting peripersonal space with tools? multisensory interactions highlight only the distal and proximal ends of tools. Neurosci. Lett. 372(1), 62–67 (2004)
Maravita, A., Clarke, K., Husain, M., Driver, J.: Active tool use with the contralesional hand can reduce cross-modal extinction of touch on that hand. Neurocase 8(6), 411–416 (2002)
Gharagozloo, F., Najam, F.: Robotic Surgery. McGraw-Hill Medical (2009)
Shore, D.I., Barnes, M.E., Spence, C.: Temporal aspects of the visuotactile congruency effect. Neurosci. Lett. 392(1), 96–100 (2006)
Pavani, F., Spence, C., Driver, J.: Visual capture of touch: out-of-the-body experiences with rubber gloves. Psychol. Sci. 11(5), 353–359 (2000)
Maravita, A., Spence, C., Kennett, S., Driver, J.: Tool-use changes multimodal spatial interactions between vision and touch in normal humans. Cognition 83(2), B25–B34 (2002)
Sengül, A., Rognini, G., van Elk, M., Aspell, J.E., Bleuler, H., Blanke, O.: Force feedback facilitates multisensory integration during robotic tool use. Exp. Brain Res. 227(4), 497–507 (2013)
Bassolino, M., Serino, A., Ubaldi, S., Làdavas, E.: Everyday use of the computer mouse extends peripersonal space representation. Neuropsychologia 48(3), 803–811 (2010)
Sengül, A.: Cognitive neuroscience based design guidelines for surgical robotics, Ph.D. dissertation (2013)
Vaucher, J., Bleuler, H.: Lifeguard for robotic surgery assistance ligra: an interactive platform centralizing information and control in robotic surgery. In: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual Conference, vol. 2013, pp. 4759–4762 (2012)
Vaucher, J., Bleuler, H., Oleari, E., Morandi, A., Verga, M., Sanna, A.: New horizons for patient safety: ligra (life guard for robotic surgery assistance), an interactive platform centralizing information and control robotic surgery operating rooms. In: 2013 IEEE International Conference on Healthcare Informatics (ICHI), pp. 361–366. IEEE (2013)
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Grespan, L., Fiorini, P., Colucci, G. (2019). Operator Interfaces for Safe Robotic Surgery. In: The Route to Patient Safety in Robotic Surgery. Springer Tracts in Advanced Robotics, vol 126. Springer, Cham. https://doi.org/10.1007/978-3-030-03020-9_10
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