Liver Pathology Simulation: Algorithm for Haptic Rendering and Force Maps for Palpation Assessment

Felix G. Hamza-Lup; Adrian Seitan; Dorin M Popovici; Crentuga M Bogdan

Liver Pathology Simulation: Algorithm for Haptic Rendering and Force Maps for Palpation Assessment

Felix G. Hamza-Lup, Adrian Seitan, Dorin M Popovici, Crentuga M Bogdan

Computer Science

Ovidius University of Constanţa

Research output: Contribution to conference › Presentation

Abstract

Pre-operatory gestures include tactile sampling of the mechanical properties of biological tissue for both histological and pathological considerations. Tactile properties used in conjunction with visual cues can provide useful feedback to the surgeon. Development of novel cost effective haptic-based simulators and their introduction in the minimally invasive surgery learning cycle can absorb the learning curve for your residents. Receiving pre-training in a core set of surgical skills can reduce skill acquisition time and risks. We present the integration of a real-time surface stiffness adjustment algorithm and a novel paradigm - force maps - in a visuo-haptic simulator module designed to train internal organs disease diagnostics through palpation.

Original language	American English
State	Published - Feb 21 2013
Event	Medicine Meets Virtual Reality 20 - Duration: Feb 21 2013 → …

Conference

Conference	Medicine Meets Virtual Reality 20
Period	02/21/13 → …

Disciplines

Computer Sciences
Physical Sciences and Mathematics
Medicine and Health Sciences

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file:///C:/Users/legol/AppData/Local/Temp/Hamza-Lup_MMVR2013.pdf

Cite this

@conference{d93ccb08510e46b1a53f5fab8e1d5c46,

title = "Liver Pathology Simulation: Algorithm for Haptic Rendering and Force Maps for Palpation Assessment",

abstract = " Pre-operatory gestures include tactile sampling of the mechanical properties of biological tissue for both histological and pathological considerations. Tactile properties used in conjunction with visual cues can provide useful feedback to the surgeon. Development of novel cost effective haptic-based simulators and their introduction in the minimally invasive surgery learning cycle can absorb the learning curve for your residents. Receiving pre-training in a core set of surgical skills can reduce skill acquisition time and risks. We present the integration of a real-time surface stiffness adjustment algorithm and a novel paradigm - force maps - in a visuo-haptic simulator module designed to train internal organs disease diagnostics through palpation.",

author = "Hamza-Lup, {Felix G.} and Adrian Seitan and Popovici, {Dorin M} and Bogdan, {Crentuga M}",

year = "2013",

month = feb,

day = "21",

language = "American English",

note = "Medicine Meets Virtual Reality 20 ; Conference date: 21-02-2013",

}

TY - CONF

T1 - Liver Pathology Simulation: Algorithm for Haptic Rendering and Force Maps for Palpation Assessment

AU - Hamza-Lup, Felix G.

AU - Seitan, Adrian

AU - Popovici, Dorin M

AU - Bogdan, Crentuga M

PY - 2013/2/21

Y1 - 2013/2/21

N2 - Pre-operatory gestures include tactile sampling of the mechanical properties of biological tissue for both histological and pathological considerations. Tactile properties used in conjunction with visual cues can provide useful feedback to the surgeon. Development of novel cost effective haptic-based simulators and their introduction in the minimally invasive surgery learning cycle can absorb the learning curve for your residents. Receiving pre-training in a core set of surgical skills can reduce skill acquisition time and risks. We present the integration of a real-time surface stiffness adjustment algorithm and a novel paradigm - force maps - in a visuo-haptic simulator module designed to train internal organs disease diagnostics through palpation.

AB - Pre-operatory gestures include tactile sampling of the mechanical properties of biological tissue for both histological and pathological considerations. Tactile properties used in conjunction with visual cues can provide useful feedback to the surgeon. Development of novel cost effective haptic-based simulators and their introduction in the minimally invasive surgery learning cycle can absorb the learning curve for your residents. Receiving pre-training in a core set of surgical skills can reduce skill acquisition time and risks. We present the integration of a real-time surface stiffness adjustment algorithm and a novel paradigm - force maps - in a visuo-haptic simulator module designed to train internal organs disease diagnostics through palpation.

UR - https://digitalcommons.georgiasouthern.edu/compsci-facpres/149

UR - https://digitalcommons.georgiasouthern.edu/compsci-facpres/91

UR - file:///C:/Users/legol/AppData/Local/Temp/Hamza-Lup_MMVR2013.pdf

M3 - Presentation

T2 - Medicine Meets Virtual Reality 20

Y2 - 21 February 2013

ER -

Liver Pathology Simulation: Algorithm for Haptic Rendering and Force Maps for Palpation Assessment

Abstract

Conference

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