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| Rakesh
Mullick Project Leader Clinical Apps & CAD EMail: rmullick@mail.com Tel: +91-80-8412050 Fax: +91-80-8412111 |
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Mullick, Rakesh:Research
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| Research Projects | ||
| @ NIH, Diag. Radiology Dept., Clinical Center | ||
| Real-time Volume Rendering Incorporated Real-time volume rendering Hardware/Software solutions from Mitsubishi RTViz (vg500) for use in clinical visualization applications. | ||
| Confocal Volume Rendering Developed a paradigm for fast segmentation-free visualization of internal structures in 3D data. Confocal Volume Rendering (CVR) is based on depth-dependent modification of the opacity of voxels during the compositing stage of the core volume rendering process. | ||
| PlugIn Architectures Design and development of the plug-in paradigm for image analysis and visualization software. Custom developed plugins for image segmentation, vessel extraction from MRA data, and landmarking for use in ongoing research protocols. | ||
| NIH Image Processing Special Interest Group (Visualization) Design and support of the Medical Image Visualization Software Resource. | ||
| WASHCAS Design and support of the Washington Metropolitan Computer-Assisted Surgery special interest group web site. | ||
| PACS/RIS Design and support of the NIH Imaging Sciences Program (ISP) PACS/RIS Web site. | ||
| @ CieMed, Centre for information -enhanced Medicine, National University of Singapore | ||
| etdips Exploratory 2D/3D Image Processing System for volume rendering and animation of vast 3D datasets. | ||
| Anatomy Visualization A comprehensive project to completely segment and volume visualize the multimodal Visible Human™ male and female datasets. | ||
| Interactive Human Anatomy Atlas An interactive labeled version of the Visible Human™ male and female dataset in a Java Application was developed. This atlas is based on the complete manual segmentation of the VHD cyro-section data. | ||
| daVinci This project modeled the physics of tubes like catheters moving in blood vessels, integrated in an environment for pretreatment planning and device design. | ||
| Embryo Development A comprehensive study of the growth process of the human embryo. The aim was to completely label and visualize the developmental anatomy of the human embryo. | ||
| CellMate This project, a collaboration with Intel, offers interactive computational modeling of cell structures to create a virtual cell mechanics model within a Reach-In interface. | ||
| Microscopy Visualization A project dedicated to visualization of microscopic data of various types, and image analysis of such data for diagnostic applications as well as in understanding biological processes. | ||
| @ GVU, Graphics, Visualization & Usability Center, Georgia Institute of Technolgy | ||
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DISHA Determination of Ideal Short-axis of the Heart Automatically. Orientation determination of 3D objects from 3D data as applied to Cardiac SPECT imagery. Ported onto custom software, in a project funded by GE Medical Systems and available commercially as part of GE's CEqual protocol (Auto Reformat option) on Genie™ (Product # H2600LA). Genie is a registered trademark of the GE Corporation |
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| PERFEX™ Knowledge Based Interpretation of Myocardial SPECT Imagery (demo). | ||
| Profile | Publications |