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Disambiguation of "Deo, Dhanannjay"

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Characterization of Anisotropy in Viscoelastic Properties of Intra-abdominal Soft Tissues.

, , , and . MMVR, volume 142 of Studies in Health Technology and Informatics, page 77-81. IOS Press, (2009)

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Parasnath Deo

Maria Deoudi

Fiorenza Deon

Deo Barume

Hans-Joachim Deobald

 

Other publications of authors with the same name

A Machine Learning-Based Scalable Approach For Real-Time Surgery Simulation., and . MMVR, volume 142 of Studies in Health Technology and Informatics, page 71-76. IOS Press, (2009)Physics-based stereoscopic suturing simulation with force feedback and continuous multipoint interactions for training on the da Vinci ®surgical system., , and . MMVR, volume 125 of Studies in Health Technology and Informatics, page 115-120. IOS Press, (2007)A Physics-Driven Neural Networks-Based Simulation System (PhyNNeSS) for Multimodal Interactive Virtual Environments Involving Nonlinear Deformable Objects., , , and . Presence Teleoperators Virtual Environ., 20 (4): 289-308 (2011)A Scalable Intermediate Representation for Remote Interaction with Soft Tissues., , and . MMVR, volume 125 of Studies in Health Technology and Informatics, page 112-114. IOS Press, (2007)Hybrid Network Architecture for Interactive Multi-User Surgical Simulator with Scalable Deformable Models., , and . MMVR, volume 142 of Studies in Health Technology and Informatics, page 292-294. IOS Press, (2009)Mesh Processing for Computerized Facial Anthropometry., and . J. Comput. Inf. Sci. Eng., (2010)Towards physics-based interactive simulation of electrocautery procedures using PhysX., , , , and . HAPTICS, page 515-518. IEEE Computer Society, (2010)Characterization of Anisotropy in Viscoelastic Properties of Intra-abdominal Soft Tissues., , , and . MMVR, volume 142 of Studies in Health Technology and Informatics, page 77-81. IOS Press, (2009)PhyNeSS: A Physics-driven Neural Networks-based Surgery Simulation system with force feedback., and . WHC, page 30-34. IEEE Computer Society, (2009)A higher order polynomial reproducing radial basis function neural network (HOPR-RBFN) for real-time interactive simulations of nonlinear deformable bodies with haptic feedback., and . HAPTICS, page 527-530. IEEE Computer Society, (2010)