VR simulated training for less invasive vascular intervention
Identifieur interne : 001196 ( PascalFrancis/Corpus ); précédent : 001195; suivant : 001197VR simulated training for less invasive vascular intervention
Auteurs : Y. Cai ; C. Chui ; X. Ye ; Y. Wang ; J. H. AndersonSource :
- Computers and Graphics (Pergamon) [ 0097-8493 ] ; 2003.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
This paper describes a computerized simulation system for less invasive vascular interventions using virtual-reality (VR)-based technology. A virtual human patient is constructed on top of the visible human data (VHD) incorporating in various vascular disease cases. Specially, the human vascular network is modeled for the use of catheterization simulation. Physical modeling technique is applied to model the interaction between the blood vessels and vascular catheterization devices. A haptic interface is integrated with the computer simulation system to provide tactile sensations to the user during the simulated catheterization procedures. The system can be used for training and pre-treatment planning of interventional vascular procedures. © 2003 Elsevier Science Ltd. All rights reserved.
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Pour connaître la documentation sur le format Inist Standard.
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Format Inist (serveur)
NO : | PASCAL 03-0152931 EI |
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ET : | VR simulated training for less invasive vascular intervention |
AU : | CAI (Y.); CHUI (C.); YE (X.); WANG (Y.); ANDERSON (J. H.) |
AF : | Sch. of Mech./Production Engineering Nanyang Technological University/Nanyang 639798/Singapour (1 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Computers and Graphics (Pergamon); ISSN 0097-8493; Coden COGRD2; Etats-Unis; Da. 2003; Vol. 27; No. 2; Pp. 215-221; Bibl. 17 Refs. |
LA : | Anglais |
EA : | This paper describes a computerized simulation system for less invasive vascular interventions using virtual-reality (VR)-based technology. A virtual human patient is constructed on top of the visible human data (VHD) incorporating in various vascular disease cases. Specially, the human vascular network is modeled for the use of catheterization simulation. Physical modeling technique is applied to model the interaction between the blood vessels and vascular catheterization devices. A haptic interface is integrated with the computer simulation system to provide tactile sensations to the user during the simulated catheterization procedures. The system can be used for training and pre-treatment planning of interventional vascular procedures. © 2003 Elsevier Science Ltd. All rights reserved. |
CC : | 001D02B; 001D03J03; 002B26O; 001A02; 001D02B12 |
FD : | Théorie; Interface haptique; Méthode médicale non invasive; Algorithme; Modèle mathématique; Simulation ordinateur; Réalité virtuelle |
ED : | Visible human data (VHD); Theory; Haptic interfaces; Noninvasive medical procedures; Algorithms; Mathematical models; Computer simulation; Virtual reality |
LO : | INIST-20191 |
ID : | 03-0152931 |
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Pascal:03-0152931Le document en format XML
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<front><div type="abstract" xml:lang="en">This paper describes a computerized simulation system for less invasive vascular interventions using virtual-reality (VR)-based technology. A virtual human patient is constructed on top of the visible human data (VHD) incorporating in various vascular disease cases. Specially, the human vascular network is modeled for the use of catheterization simulation. Physical modeling technique is applied to model the interaction between the blood vessels and vascular catheterization devices. A haptic interface is integrated with the computer simulation system to provide tactile sensations to the user during the simulated catheterization procedures. The system can be used for training and pre-treatment planning of interventional vascular procedures. © 2003 Elsevier Science Ltd. All rights reserved.</div>
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<ET>VR simulated training for less invasive vascular intervention</ET>
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<AF>Sch. of Mech./Production Engineering Nanyang Technological University/Nanyang 639798/Singapour (1 aut.)</AF>
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<EA>This paper describes a computerized simulation system for less invasive vascular interventions using virtual-reality (VR)-based technology. A virtual human patient is constructed on top of the visible human data (VHD) incorporating in various vascular disease cases. Specially, the human vascular network is modeled for the use of catheterization simulation. Physical modeling technique is applied to model the interaction between the blood vessels and vascular catheterization devices. A haptic interface is integrated with the computer simulation system to provide tactile sensations to the user during the simulated catheterization procedures. The system can be used for training and pre-treatment planning of interventional vascular procedures. © 2003 Elsevier Science Ltd. All rights reserved.</EA>
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