Conference Proceedings–Raghu Raghavan

  • [59] J. H. Sampson, D. A. Reardon, A.H.Friedman, H.S. Friedman, J.M.Provenzale, D. D. Bigner, M. Brady, R. Raghavan, C. Pedain, G. Archer, D. Lally-Batts,A. Grahn, T. Cohen, J. L. Dul, D. Croteau, and R. K. Puri. Convection-enhanced delivery of IL13-PE38QQR in malignant glioma: effect of catheter placement on drug distribution. Proceedings of the American Association of Neurosurgeons, 2004.
  • [58] F. Weber, E. Bauer, M. Brady, R. Raghavan, A. Hartlep, and C. Pedain. Assessing drug disposition in convection enhanced drug delivery using Gadolinium DTPA and computerized modeling. Proceedings of the Society of Neurooncology, 2003.
  • [57] Z. Ram, Y. Mardor, T. Jonas, M. Brady, R. Raghavan, C. Pedain, and P. Tanner. Preliminary assessment of a model for prediction of convection-enhanced delivery. Proceedings of the American Association of Neurosurgeons, 2003.
  • [56] R. Raghavan, N. Konyer, G. Stanisz, M. Brady, and M. Bronskill. Magnetic resonance veri.cation of intra-parenchymal infusions. Proceedings of the International Society of magnetic resonance in medicine, 2003.
  • [55] P. Tanner, F. W. Kreth, R. Goldbrunner, M. Holtmannspotter, R. Raghavan, M. Brady, C. Pedain, and J. C. Tonn. MR basierter Simulationsalgoithmus zur konvektions-gestutzten intratumoralen Pharmakotherapie. DGNC Neuroonkologie, 2002.
  • [54] Zvi Ram, Zvi Lidar, Raphael Pfeffer, Yiftach Roth, Tali Jonas, Dvora Nass, Martin Brady, Raghu Raghavan, Christoph Pedain, Philipp Tanner, and Yael Mardor. Convection-enhanced taxol delivery for treatment of recurrent glioblastoma; radiological/clinical experience and applications for treatment optimization. Proceedings of the annual meeting of the Israel society of oncology and radiotherapy, to be published, 2003.
  • [53] N. B. Conyer, G. Stanisz, M. Brady, M. J. Bronskill, and R. Raghavan. Magnetic resonance tracking of intra-parenchymal infusions. magnetic resonance in medicine, 2003.
  • [52] Zvi Ram, Zvi Lidar, Raphael Pfeffer, Yiftach Roth, Tali Jonas, Dvora Nass, Martin Brady, Raghu Raghavan, Christoph Pedain, Philipp Tanner, and Yael Mardor. Convection-enhanced taxol delivery for treatment of recurrent glioblastoma; radiological/clinical experience and applications for treatment optimization. Proceedings of the annual meeting of the Israel society of oncology and radiotherapy, to be published, 2003.
  • [51] Zvi Ram, Yael Mardor, Tali Jonas, Martin Brady, Raghu Raghavan, Christoph Pedain, and Philipp Tanner. Preliminary assessment of a model for predicting convection-enhanced delivery. Proceedings of the American Association of Neurosurgery, to be published, 2003.
  • [50] N. B. Conyer, G. Stanisz, M. Brady, M. J. Bronskill, and R. Raghavan. Magnetic resonance tracking of intra-parenchymal infusions. Biomedical Research Opportunities Workshop, to be published, 2003.
  • [49] N. B. Conyer, R. Viswanathan, R. Raghavan, G. Mills, M. Brady, and M. J. Bronskill. Improved RF coils for internal imaging. Proceedings of the First IEEE International Symposium on Biomedical Imaging, pages WP–125, 2002.
  • [48] N. B. Conyer, R. Viswanathan, R. Raghavan, G. Mills, M. Brady, and M. J. Bronskill. Improved Interstitial and Intravascular RF coils. Proceedings of the Tenth ISMRM meeting, page 2262, 2002.
  • [47] N. Conyer, N. J. Lobaugh, G. Sela, R. Raghavan, G. Mills, M. Brady, R. Viswanathan, W. K. Sootsman, and M. J. Bronskill. Interstitial RF coil incorporating multiple microcatheters. Proceedings of the ISMRM-ESMRMB joint annual meeting, page 2170, 2001.
  • [46] M. Brady, R. Raghavan, S. R. Ranjan, and R. Viswanathan. Multiscale mechanics in structural biology (Abstract only). Fourth Annual Hilton Head Workshop on Computational Modeling in Biological Systems, page 62, 2000.
  • [45] M. Brady, K. Jung, W. Lawton, R. Mullick, H.T. Nguyen, T. Poston, R. Raghavan, S. R. Ranjan, K. Schulz, S. Venkataraman, R. Viswanathan, Y. Yu, and G. Zhu. Interactive haptic modeling of tensegrities and network structures . Siggraph ’99 Technical Sketch and Creative Applications, page 252, 1999.
  • [44] S. Meiyappan, R. Raghavan, R. Viswanathan, and Y. Yu. Proteinmorphosis: a mechanical model for protein conformational changes. Proceedings of the Paci.c Symposium on Biocomputing, ed. R. Altman et. al., 2:341–353, 1999.
  • [43] James C. Anderson and Raghu Raghavan. A Vascular Catheterization Simulator for Training and Treatment Planning. Proceedings of the Society of Computer Assisted Radiology, 11, Supp. 1:120–123, 1998.
  • [42] Raghu Raghavan, Timothy Poston, and Rakesh Mullick. Biomedical image computing, medical simulators, and Image-guided therapies. Proceedings of the 9’th International Conference on Biomedical Engineerin, pages 68–71, 1997.
  • [41] R. Viswanathan, T. Poston, R. Raghavan, and Y. Yu. Robot Tentacles: dynamics and control of robot arms. Proceedings of the IEEE International Symposium on Control Theory and Applications, pages 480–484, 1997.
  • [40] Raghu Raghavan. Old Mathematics and New Appications: System Modeling and Control in Biomedicine and Pattern Analysis. Proceedings of the IEEE International Symposium on Control Theory and Applications, pages 137–145, 1997.
  • [39] Y. Y. Cai, Y. P. Wang, C. K. Chui, R. Viswanathan, and R. Raghavan. Integration of Geometric and Physical Modeling in realtime Medical Simulation. Proceedings of the 4th International Conference on Computer Integrated Manufacturing, Singapore, 1997.
  • [38] Y. Y. Cai, R. Viswanathan, Y. P. Wang, C. K. Chui, and R. Raghavan. Simulation of catheter-guidewire interaction for catheterization by arc parametrization. Fourth International Conference on Control, Automation, Robotics, and Vision, pages 2466– 2470, 1996.
  • [37] J. A. Anderson, R. Raghavan, W. R. Brody, C. J. Kriz, Y. P. Wang, Y. Y. Cai, R. Viswanathan, and C. K. Chui. daVinci: A vascular catheterization and interventional radiology-based training and patient pretreatment planning simulator. Journal of Vascular and Interventional Radiology JVIR, 7, Part 2:373, 1996.
  • [36] R. Mullick, H. T. Nguyen, Y. P. Wang, J. K. Raphel, and R. Raghavan. Overview of Visible HumanTM based applications at CIeMed. Proceedings of the First Visible Human Project Conference, Bethesda, Maryland, pages 119–120, 1996.
  • [35] C. K. Chui, H. T. Nguyen, Y. P. Wang, R. Mullick, and R. Raghavan. Potential .eld of Vascular anatomy for real-time computation of catheter navigation. Proceedings of the First Visible Human Project Conference, Bethesda, Maryland, pages 113–114, 1996.
  • [34] Y. P. Wang, C. K. Chui, Y. Y. Cai, R. Raghavan, and R. Viswanathan. Potential .eld supported contact calculations in FEA of catheters. Proceedings of the International Congress of Applied and Theoretical Mechanics, Kyoto, KS4-04:596, 1996.
  • [33] S. Fang, R. Raghavan, and J. T. Richtsmeier. Volume Morphing methods for landmark based 3D image deformation. Proceedings of SPIE, Medical Imaging, 2710:404– 415, 1996.
  • [32] J. T. Richtsmeier, J. Ohman, C. vanderKolk, B. Carson, P. Pang, S. Fang, R. Raghavan, D. Hauser, and S. Lele. 3D growth analysis and visualization in craniosynostosis. Proceedings of the American Cleft Palate Craniofacial Association meeting, San Diego, April, 1996.
  • [31] Craig R. Dufresne, Raghu Raghavan, Shiaofen Fang, Pingli Pang, and Joan T. Richtsmeier. Computerized dynamical skeletal modeling for craniofacial surgical planning: new tools to predict growth following surgery. International Congress of Craniofacial Surgery, 1995.
  • [30] R. N. Bryan, C. Davatzikos, M. Vaillant, J. L. Prince, S. Letovsky, R. Raghavan, W. L. Nowinski, G. Salamon, N. Murayama, and O. Levrier. Creation of population-based atlases with a brain image database (BRAID). Proceedings First International Conference on functional Mapping of the Human Brain, 1:72, 1995.
  • [29] W. L. Nowinski, A. Fang, B. T. Nguyen, and R. Raghavan. Three-dimensional electronic brain atlas of human cerebral deep structures. Proceedings XIVth International Conference on Information Processing in Medicine IPMI ’95, pages 51–62, 1995.
  • [28] W. L. Nowinski, A. Fang, B. T. Nguyen, R. Raghavan, R. N. Bryan, and J. Miller. A multiple-atlas neuroimaging system. 7th Asian and Oceanic Cogress of Radiology AOCR ’95, 1995.
  • [27] R. N. Bryan, W. L. Nowinski, A. Fang, B. T. Nguyen, R. Raghavan, J. Miller, H. L. Lim, and J. Raphel. Talairach-Tournoux/Schaltenbrand-Wahren based electronic brain atlas system. Lecture Notes in Computer Science (Proceedings of the First International Conference on Computer Vision, Virtual Reality and Robotics in Medicine, CVRMed ’95), 905:257 – 261, 1995.
  • [26] R. Raghavan. Bottom-up Design: from Cellular Automata to Pattern Recognition. Workshop on Parallel computing by Cellular Automata Arrays PARCELLA, pages 51–62, 1994.
  • [25] C. K. Chui, S. Jain, and R. Raghavan. Topology Independent Models for Parallel Computation. Workshop on Parallel computing by Cellular Automata Arrays PARCELLA, pages 119–129, 1994.
  • [24] W. L. Nowinski, R.Raghavan,C.P.Yu, W.S. Fok, P. Pillay,and S. K. Tan. Computer Systems for Neuro-Cranio-and Orthopedic Surgeries. Hand-book of the 18th International Congress of Radiology ICR’94, 1994.
  • [23] C.K. Chui, S. Jain, H.T. Nguyen, R. Raghavan, M.K. Sridhar, U. Sridhar, and R. Srinivasan. High Performance ComputingResearchinthe InstituteofSystems Science in Singapore. TCPP Newsletter, 2, no. 2:3–4, 1994.
  • [22] C. K. Chui, S. Jain, H.T. Nguyen, and R. Raghavan. Research Activities in Accelerated Computing and theory Program (ACT Program). Journal of High-Performance computing, 1:50–57, 1994.
  • [21] P. A. Heng, L. H. Ngoh, B. Nguyen, W. Nowinski, R. Raghavan, and C. P. Yu. An ATM-based Multimedia Medical Imaging System. Workshop on Multimedia in Medical Education, Anaheim, California, 1993.
  • [20] R. Raghavan. Computational Learning Theory. SPIE Conference on the Science of Artificial Neural Networks, 1710:2–17, 1992.
  • [19] R. Raghavan. Dynamics, Learning and Control: A Case Study, Intelligent Engineering Systems through Artificial Neural Networks. ASME,edited byC.H. Dagli and S. R. T. Kumara and Y.C.Shin, pages 119–125, 1991.
  • [18] R. Raghavan. Dynamics, Learning and Control in a Cellular Automata Network. SPIE Conference on Applications of Artificial Neural Networks, 1469:89–101, 1991.
  • [17] R. Raghavan. Linear Programming for Learning in Neural Networks. SPIE Conference on Image Understanding and the Man-Machine Interface, 1472:139–148, 1991.
  • [16] R. Raghavan and W. R. Lawton. The Algebra of Image Transformations. Proceedings of the SPIE, Image Algebra and Morphological Image Processing, 1350:455–466, 1990.
  • [15] R. Raghavan, F. W. Adams Jr., and H. T. Nguyen. Target Recognition in Parallel Networks. Proceedings of SPIE , Applications of Artificial Neural Networks, 1294:94– 109, 1990.
  • [14] O. Farotimi and R. Raghavan. Learning in a Recognition Network. Proceedings of the IEEE/INNS International Joint Conference on Neural Networks, 3:217–224, 1990.
  • [13] R. Raghavan, K. K. Jung, and H. T. Nguyen. Fine Grain Parallel Processors in Real-Time Applications. Proceedings of IEEE Tenth International Conference on Pattern Recognition, 2:324–331, 1990.
  • [12] K.K. Jung, H.T. Nguyen, and R. Raghavan. Massively Parallel Processors in Real Time Applications. Proceedings of SPIE, Parallel Architectures for Image Processing, 1246:107–119, 1990.
  • [11] R. Raghavan, Jr. F. W. Adams, H. T. Nguyen, and J. Slawny. Image Recognition and Learning in Parallel Networks. Proceedings of SPIE, Nonlinear Image Processing, 1247:258–273, 1990.
  • [10] H. T. Nguyen, K. K. Jung, and R. Raghavan. Fast Parallel Algorithms: From Images to Level Sets and Labels. Proceedings of SPIE, Parallel Architectures for Image Processing, 1246:107–119, 1990.
  • [9] M. Brady, R. Raghavan, and J. Slawny. Probabilistic Cellular Automata in Pattern Recognition. Proceedings of the International Joint Conference on Neural Networks, 1:177–182, 1989.
  • [8] M. Brady, R. Raghavan, and J. Slawny. Statistical Mechanics and Pattern Recognition: A New Feedback Technique. Proceedings of the SPIE, 1099:89–99, 1989.
  • [7] M. Brady, R. Raghavan, and J. Slawny. Gradient Descent Fails to Separate. Proceedings of the IEEE Second International Conference on Neural Networks, 1:649–656, 1988.
  • [6] W. Holsztynski and R. Raghavan. The Distributed Macro Controller for GSIMD Arrays. Concurrent Computations : Algorithms, Architecture and Technology, pages 689–696, 1988.
  • [5] H. T. Nguyen, R. Raghavan, C. H. Ting, and H. S. Truong. High Density Parallel Processing. Proceedings of 7th Rochester Conference on Advanced Architectures, 1987.
  • [4] R. Raghavan, W. Holsztynski, P. Mancuso, C.H. Ting, and P. Wong. Parallelizations: Old Transformations and a New Parallel Processing System. VLSI Signal Processing II, IEEE Press, S.Y. Kung, R.E. Owen, and J.G. Nash, eds, pages 165–176, 1986.
  • [3] R. Raghavan. Processing on Geometric Single Instruction Multiple Data Machines. Proceedings of the IEE Colloquium on Parallel Processors, London, 1986.
  • [2] K. S. Miller, R. Raghavan, and M. M. Rochwarger. Invariance Methods in Signal Processing. Proceedings of the 9th Strategic Space Symposium (Advanced Research Project Agency, page 272, 1984.
  • [1] R. Raghavan and D.L. Huber. Spin Dynamics in Uniaxial Ferromagnets. Proceedings of the American Institute of Physics (AIP) Conference on Magnetism, Philadelphia, 1975.
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