Publications

In my research, I focus on problems in bioinformatics and computational biology. In the past, I have done research in the area of computational geometry, especially on problems motivated by applications in computer graphicsrobotics, and geographic information systems. In my Ph.D. thesis, I studied the problem of hidden-surface removal. Here is a list of my publications.

  1. ICoN: Integration using Co-attention across Biological Networks
    Nure Tasnina and T. M. Murali
    bioRxiv, in review, 2024.
  2. Current and future directions in network biology
    Marinka Zitnik, Michelle M. Li, Aydin Wells, Kimberly Glass, Deisy Morselli Gysi, Arjun Krishnan, T. M. Murali, Predrag Radivojac, Sushmita Roy, Anaïs Baudot, Serdar Bozdag, Danny Z. Chen, Lenore Cowen, Kapil Devkota, Anthony Gitter, Sara Gosline, Pengfei Gu, Pietro H. Guzzi, Heng Huang, Meng Jiang, Ziynet Nesibe Kesimoglu, Mehmet Koyuturk, Jian Ma, Alexander R. Pico, Nataša Pržulj, Teresa M. Przytycka, Benjamin J. Raphael, Anna Ritz, Roded Sharan, Yang Shen, Mona Singh, Donna K. Slonim, Hanghang Tong, Xinan Holly Yang, Byung-Jun Yoon, Haiyuan Yu, Tijana Milenković
    arXiv, in review, 2023.
  3. Comparative Transcriptomic and Phenotypic Analysis of Induced Pluripotent Stem Cell Hepatocyte-Like Cells and Primary Human Hepatocytes
    Neeti N Gandhi, Lauren Wills, Kyle Akers, Yiqi Su, Parker Niccum, T. M. Murali, Padmavathy Rajagopalan
    Cell and Tissue Research, in press, 2024
  4. Predictive Models of Long COVID
    Blessy Antony, Hannah Blau, Elena Casiraghi, Johanna J Loomba, Tiffany J Callahan, Bryan J Laraway, Kenneth J Wilkins, Corneliu C Antonescu, Giorgio Valentini, Andrew E Williams, Peter N Robinson, Justin T Reese, and T. M. Murali
    EBioMedicine, 96, 104777, 2023.
  5. Computational Construction of Toxicant Signaling Networks
    Jeffrey Law, Sophia Orbach, Bronson Weston, Peter Steele, Padmavathy Rajagopalan, and T. M. Murali
    Chemical Research in Toxicology, 36, 1267-1277, 2023.
  6. Generalisable long COVID subtypes: findings from the NIH N3C and RECOVER programmes
    Justin T. Reese, Hannah Blau, Elena Casiraghi, Timothy Bergquist, Johanna J. Loomba, Tiffany J. Callahan, Bryan Laraway, Corneliu Antonescu, Ben Coleman, Michael Gargano, Kenneth J. Wilkins, Luca Cappelletti, Tommaso Fontana, Nariman Ammar, Blessy Antony, T. M. Murali, J. Harry Caufield, Guy Karlebach, Julie A. McMurry, Andrew Williams, Richard Moffitt, Jineta Banerjee, Anthony E. Solomonides, Hannah Davis, Kristin Kostka, Giorgio Valentini, David Sahner, Christopher G. Chute, Charisse Madlock-Brown, Melissa A. Haendel, and Peter N. Robinson
    eBioMedicine, 87, 104413, 2023
  7. Integrating Multimodal Data through Interpretable Heterogeneous Ensembles
    Yan Chak Li, Linhua Wang, Jeffrey N. Law, T. M. Murali, and Gaurav Pandey
    Bioinformatics Advances, 2, vbac065, 2022
  8. Flud: a hybrid crowd-algorithm approach for visualizing biological networks  Presentation at ISMB 2019
    Aditya Bharadwaj, David Gwizdala, Yoonjin Kim, Kurt Luther, and T. M. Murali
    ACM Transactions of Computer-Human Interactions, 29, 1-53, 2022
  9. Interpretable Network Propagation with Application to Expanding the Repertoire of Human Proteins that Interact with SARS-CoV-2
    Jeffrey N. Law, Kyle Akers, Nure Tasnina, Catherine M. Della Santina, Shay Deutsch, Meghana Kshirsagar, Judith Klein-Seetharaman, Mark Crovella, Padmavathy Rajagopalan, Simon Kasif, and T. M. Murali
    GigaScience, 10, giab082, 2021
  10. Modeling and Analysis of the Macronutrient Signaling Network in Budding Yeast
    Amogh P. Jalihal, Pavel Kraikivski, T. M. Murali, John Tyson
    Molecular Biology of the Cell, 32, 2021
  11. Gene Regulatory Network Inference in Single-Cell Biology
    Kyle Akers and T. M. Murali
    Current Opinion in Systems Biology, 26, 87-97, 2021
  12. Protein sequence models for prediction and comparative analysis of the SARS-CoV-2−human interactome
    Meghana Kshirsagar, Nure Tasnina, Michael D. Ward, Jeffrey N. Law, T. M. Murali, Juan M. Lavista Ferres, Gregory R. Bowman, Judith Klein-Seetharaman
    Pacific Symposium on Biocomputing, 154-165`, 2021.
  13. Accurate and Efficient Gene Function Prediction using a Multi-Bacterial Network
    Jeffrey N. Law, Shiv D. Kale, and T. M. Murali
    Bioinformatics, 37, 800-806, 2021
  14. Genetic interactions derived from high-throughput phenotyping of 7,350 yeast cell cycle mutants
    Jenna E. Gallegos, Neil R. Adames, Mark F. Rogers, Pavel Kraikivski, Aubrey Ibele, Kevin Nurzynski-Loth, Eric Kudlow, T. M. Murali, John Tyson, and Jean Peccoud
    Systems Biology and Applications, a Nature Partner journal, 6, Article number 11, 2020
  15. Benchmarking algorithms for gene regulatory network inference from single-cell transcriptomic data  Talk at ISMB 2020
    Aditya Pratapa, Amogh P. Jalihal, Jeffrey N. Law, Aditya Bharadwaj, and T. M. Murali
    Nature Methods, 17, 147-154, 2020
  16. Hypergraph-based connectivity measures for signaling pathway topologies
    Nicholas Franzese, Adam R. Groce, T. M. Murali, and Anna Ritz
    PLoS Computational Biology, 15(10), e1007384, 2019
  17. Reconstructing Signaling Pathways Using Regular-Language Constrained Paths
    Mitchell J. Wagner, Aditya Pratapa, and T. M. Murali
    Bioinformatics 35(14), i624–i633, 2019. Special issue on 2019 International Conference on Intelligent Systems for Molecular Biology.
  18. Connectivity Measures for Signaling Pathway Topologies
    Nicholas Franzese, Adam Groce, T. M. Murali, and Anna Ritz, Great Lakes Bioinformatics Conference, 2019.
  19. Flud: a hybrid crowd-algorithm approach for visualizing biological networks
    Aditya Bharadwaj, David Gwizdala, Yoonjin Kim, Kurt Luther, and T. M. Murali
    Where is the Human? Bridging the Gap Between AI and HCI, CHI 2019 Workshop, 2019.
  20. Large-scale protein function prediction using heterogeneous ensembles
    Linhua Wang, Jeffrey Law, Shiv D. Kale, T. M. Murali, and Gaurav Pandey, F1000 Research, 7 (ISCB Comm J), 1577, 2018.
  21. Guest Editorial for the special section of papers presented at the 6th ACM Conference on Bioinformatics, Computational Biology, and Health Informatics
    T. M. Murali
    IEEE/ACM Transactions on Computational Biology and Bioinformatics, 15(4), 1036, 2018.
  22. Efficient Synthesis of Mutants Using Genetic Crosses    bioRxiv version with proofs
    Aditya Pratapa, Amogh Jalihal, S. S. Ravi, and T. M. Murali
    Proceedings of the 9th ACM Conference on Bioinformatics, Computational Biology, and Health Informatics, 53-62, 2018.
  23. Transcriptomic Analysis of Hepatic Cells in Multicellular Organotypic Liver Models
    Allison N. Tegge, Richard R. Rodrigues, Adam L. Larkin, Lucas Vu, T. M. Murali, and Padmavathy Rajagopalan
    Scientific Reports, 8, 11306, 2018.
  24. Automating the PathLinker app for Cytoscape
    Li Jun Huang, Jeffrey N. Law, and T. M. Murali
    F1000 Research, 7, 727, 2018
  25. CrossPlan: Systematic Planning of Genetic Crosses to Validate Mathematical Models
    Aditya Pratapa, Neil Adames, Pavel Kraikivski, John J. Tyson, Jean Peccoud, and T. M. Murali
    Bioinformatics, 34 (13), 2237-2244, 2018
  26. CrowdLayout: Crowdsourced Design and Evaluation of Biological Network Visualizations
    Divit P. Singh, Lee Lisle, T. M. Murali, and Kurt Luther
    2018 ACM Conference on Human Factors in Computing Systems (CHI’18), paper 232, 2018
  27. GraphSpace: Stimulating Interdisciplinary Collaborations in Network Biology
    Aditya Bharadwaj, Divit P. Singh, Anna Ritz, Allison N. Tegge, Christopher L. Poirel, Pavel Kraikivski, Neil Adames, Kurt Luther, Shiv D. Kale, Jean Peccoud, John J. Tyson, and T. M. Murali
    Bioinformatics, 13 (19), 3134-3136, 2017
  28. Pathway Analysis with Signaling Hypergraphs
    Anna Ritz, Brendan N. Avent, and T. M. Murali
    IEEE/ACM Transactions on Computational Biology and Bioinformatics, 14(5), 1042-1055, 2017.
  29. The PathLinker app: Connect the dots in protein interaction networks   Cytoscape app  Code
    Daniel P. Gil, Jeffrey N. Law, and T. M. Murali
    F1000 Research, 6, 58, 2017.
  30. XTalkDB: A Database of Signaling Pathway Crosstalk  XTalkDB
    Sarah Sam, Joelle Teel, Allison N. Tegge, Aditya Bharadwaj, and T. M. Murali
    Nucleic Acids Research, 45 (D1), D432-D439, 2016.
  31. Unstable Communities in Network Ensembles
    Ahsanur Rahman, Steve Jan, Hyunju Kim, B. Aditya Prakash, and T. M. Murali
    Proceedings of the 2016 SIAM International Conference on Data Mining, 504-512, 2016.
  32. Pathways on Demand: Automatic Reconstruction of Human Signaling Networks  Supplement  Software  Graphs on GraphSpace
    Anna Ritz, Christopher L. Poirel, Allison N. Tegge, Nicholas Sharp, Allison Powell, Kelsey Simmons, Shiv D. Kale, and T. M. Murali
    npj:Systems Biology and Applications, a Nature Partner Journal, 2, Article number 16002, 2016.
  33. From START to FINISH: Computational Analysis of Cell Cycle Control in Budding Yeast
    Pavel Kraikivski, Katherine C. Chen, Teeraphan Laomettachit, T. M. Murali, and John J. Tyson
    npj Systems Biology and Applications, a Nature Partner Journal, 1, Article number 15016, 2015.
  34. Mining Unstable Communities from Network Ensembles
    Ahsanur Rahman, Steve Jan, Hyunju Kim, B. Aditya Prakash, and T. M. Murali
    2015 IEEE International Conference on Data Mining Workshop (ICDMW), appeared in the 5th IEEE Workshop on Data Mining in Networks, 508-515, 2015.
  35. XTalk: a Path-Based Approach to Identifying Crosstalk between Signaling Pathways  Software  Graphs on GraphSpace
    Allison N. Tegge, Nicholas Sharp, and T. M. Murali
    Bioinformatics, 32(2), 242-251, 2015.
  36. Experimental validation of an integrated model of the budding yeast START transition  Summary on Atlas of Science
    Neil R. Adames, P. Logan Schuck, Katherine C. Chen, T. M. Murali, John J. Tyson, and Jean Peccoud
    In press, Molecular Biology of the Cell, special issue on Quantitative Biology, 26(22), 3966-3984, 2015.
  37. Pathway Analysis with Signaling Hypergraphs  Poster
    Anna Ritz and T. M. Murali
    Proceedings of the 5th ACM Conference on Bioinformatics, Computational Biology, and Health Informatics, 249-258, 2014.
  38. Signaling Hypergraphs
    Anna Ritz, Allison Tegge, Hyunju Kim, Christopher L. Poirel, and T. M. Murali
    Trends in Biotechnology, 32(7), 356-362, 2014.
  39. Reverse Engineering Molecular Hypergraphs
    Ahsanur Rahman, Christopher L. Poirel, David J. Badger, Craig Estep, and T. M. Murali
    IEEE/ACM Transactions on Computational Biology and Bioinformatics, 10(5), 1113-1124, 2013. (Full version of the conference publication.)
  40. Designing a Multi-cellular Organotypic 3D Liver Model with a Detachable, Nanoscale Polymeric Space of Disse
    Adam L. Larkin, Richard R. Rodrigues, T. M. Murali, and Padmavathy Rajagopalan
    Tissue Engineering Part C: Methods, 19(11), 875-884, 2013.
  41. Computational approaches for discovery of common immunomodulators in fungal infections: towards broad-spectrum immunotherapeutic interventions
    Yared H Kidane, Christopher Lawrence, and T. M. Murali
    BMC Microbiology, 13, 224, 2013.
  42. Summarizing cellular responses as biological process networks
    Christopher D. Lasher, Padma Rajagopalan, and T. M. Murali
    BMC Systems Biology, 7, 68, 2013.
  43. Systems Biology Characterization of Engineered Tissues
    Padmavathy Rajagopalan, Simon Kasif, and T. M. Murali
    Annual Reviews of Biomedical Engineering, 15, 55-70, 2013.
  44. Top-Down Network Analysis to Drive Bottom-Up Modeling of Physiological Processes  Supplementary website  Graphs on GraphSpace
    Christopher L. Poirel, Richard R. Rodrigues, Katherine C. Chen, John J. Tyson, and T. M. Murali
    Journal of Computational Biology, 20(5), 409-418, 2013, special issue on the 5th Annual RECOMB Conference on Regulatory and Systems Genomics, with DREAM Challenges.
  45. The Landscape of Host Transcriptional Response Programs Commonly Perturbed by Bacterial Pathogens:Towards Host-Oriented Broad-Spectrum Drug Targets  Supplementary website
    Yared H. Kidane, Christopher Lawrence, and T. M. Murali
    PLoS One, 8(3), e58553, 2013
  46. Reconciling Differential Gene Expression Data with Molecular Interaction Networks
    Christopher L. Poirel, Ahsanur Rahman, Richard R. Rodrigues, Arjun Krishnan, Jacqueline R. Addesa, and T. M. Murali.
    Bioinformatics, 29(5), 622-629, 2013.
  47. Reverse Engineering Molecular Hypergraphs  Supplementary website
    Ahsanur Rahman, Christopher L. Poirel, David J. Badger, and T. M. Murali
    Proceedings of ACM Conference on Bioinformatics, Computational Biology, and Biomedicine 2012, 68-75, October 7-10, 2012, Orlando FL
    Winner of the best paper award
  48. Guest Editor’s Introduction: Computationally Driven Experimental Biology
    T. M. Murali
    Computer, 45(3), 22-23, 2012
  49. Network-Based Functional Enrichment  Supplementary website
    Christopher L. Poirel, Clifford Conley Owens III, and T. M. Murali
    BMC Bioinformatics, 12(Suppl 13), S14, 2011, part of the supplement on the 10th International Conference on Bioinformatics
  50. Network-Based Prediction and Analysis of HIV Dependency Factors
    T. M. Murali, Matthew D. Dyer, David Badger, Brett M. Tyler, and Michael G. Katze
    PLoS Computational Biology, 7(9), e1002164, 2011
    Please also see the coverage at ProteoMonitor
  51. Sensitive Detection of Pathway Perturbations in Cancers
    Corban G. Rivera, Brett M. Tyler, and T. M. Murali
    BMC Bioinformatics, 13(Suppl 3), S9, 2012, part of the supplement on the ACM Conference on Bioinformatics, Computational Biology and Biomedicine 2011
  52. Supervised Prediction and Learning of Physical Interactions between Human and HIV Proteins
    Matthew D. Dyer, T. M. Murali, and Bruno W. Sobral
    Infection, Genetics, and Evolution, 11, 917-923, 2011
  53. Discovering Networks of Perturbed Biological Processes in Hepatocyte Cultures
    Christopher D. Lasher, Padma Rajagopalan, and T. M. Murali
    PLoS One, 6(1), e15247, 2011
  54. A Comparative Study of Genome Wide Transcriptional Profiles of Primary Hepatocytes in Collagen Sandwich and Monolayer Cultures  Supplementary website
    Yeonhee Kim, Christopher D. Lasher, Logan M. Milford, T. M. Murali, and Padmavathy Rajagopalan
    Tissue Engineering Part C Methods, 16(6), 1449-1460, 2010
  55. Cellular Response Networks
    Christopher D. Lasher, Christopher L. Poirel, and T. M. Murali
    Invited chapter in The Problem Solving Handbook for Computational Biology and Bioinformatics, edited by Lenwood S. Heath and Naren Ramakrishnan, 233-250, Springer-Verlag, 2010
  56. The human-bacterial pathogen protein interaction networks of Bacillus anthracisFrancisella tularensis, and Yersinia pestis
    Matthew D. Dyer, Chris Neff, Max Dufford, Corban G. Rivera, Donna Shattuck, Josep Bassaganya-Riera, T. M. Murali, and Bruno W. Sobral
    PLoS One, 5(8), e12089, 2010
  57. Computational Systems Biology
    T. M. Murali and Srinivas Aluru
    Invited chapter in Algorithms and Theory of Computation Handbook, second edition, edited by Mikhail J. Atallah and Marina Blanton, Chapter 32, CRC Press, 2009.
  58. Finding Conserved Protein Interaction Modules using GraphHopper     Slides
    Corban G. Rivera and T. M. Murali
    Proceedings of the 1st International Conference on Bioinformatics and Computational Biology (BICoB), volume 5462 of Lecture Notes in Computer Science, 67-78, 2009
  59. Capturing Truthiness: Mining Truth Tables in Binary Datasets
    Clifford Conley Owens III, T. M. Murali, and Naren Ramakrishnan
    24th Annual ACM Symposium on Applied Computing, 1467-1474, 2009
  60. PIG: The Pathogen Interaction Gateway  The PIG website
    Tim Driscoll, Matthew D. Dyer, T. M. Murali, and Bruno W. Sobral
    Nucleic Acids Research, 37(Database issue), D647-D650, 2009.
  61. Network Legos: Building Blocks of Cellular Wiring Diagrams
    T. M. Murali and Corban G. Rivera
    Journal of Computational Biology, 15(7), 829-844, 2008.
  62. Atomic level computational identification of ligand migration pathways between solvent and heme iron in myoglobin
    Jory Z. Ruscio, Deept Kumar, Maulik Shukla, Michael G. Prisant, T. M. Murali and Alexey Onufriev
    Proceedings of the National Academy of Sciences, 105(27) 27, 9204-9209, 2008.   
  63. Compositional Mining of Multi-relational Biological Datasets
    Ying Jin, T. M. Murali, and Naren Ramakrishnan
    ACM Transactions on Knowledge Discovery from Data, 2(1), 1-35, 2008
  64. The Landscape of Human Proteins Interacting with Viruses and Other Pathogens
    Matthew D. Dyer, T. M. Murali, and Bruno W. Sobral
    PLoS Pathogens, 4(2), e32, 2008
  65. Expression Divergence of Tandemly Arrayed Genes in Human and Mouse
    Valia Shoja, T. M. Murali, and Liqing Zhang
    Comparative and Functional Genomics, 2007, article ID 60964, 2007.
  66. Computational Prediction of Host-Pathogen Protein-Protein Interactions     Website     Slides (17 MB)
    Matthew D. Dyer, T. M. Murali and Bruno W. Sobral
    Bioinformatics, 23(13), i159-i166, issue on Proceedings of the 15th Annual International Conference on Intelligent Systems for Molecular Biology (ISMB), 2007
  67. Network Legos: Building Blocks of Cellular Wiring Diagrams      Slides of RECOMB talkSlides of longer (1 hour) talk
    T. M. Murali and Corban G. Rivera
    Proceedings of the Eleventh Annual International Conference on Research in Computational Molecular Biology (RECOMB), volume 4453 of Lecture Notes in Computer Science, 47-61, 2007
  68. The Art of Gene Function Prediction     Website
    T. M. Murali, Chang-Jiun Wu, and Simon Kasif
    Nature Biotechnology, 24, 1474–1475, 2006
  69. Automatic Layout and Visualisation of Biclusters     Website
    Gregory A. Grothaus, Adeel Mufti, and T. M. Murali
    Algorithms for Molecular Biology, 1, 15, 2006
  70. Response Diversity of Arabidopsis thaliana Ecotypes in Elevated [CO2] in the Field
    Pinghua Li, Allan Sioson, Shrinivasrao Mane, Alexander Ulanov, Gregory Grothaus, Lenwood Heath, T. M. Murali, Hans Bohnert, and Ruth Grene
    Plant Molecular Biology, 62, 593–609, 2006
  71. Automatic Layout and Visualisation of Biclusters     Website
    Gregory A. Grothaus, Adeel Mufti, and T. M. Murali
    In Proceedings of the 6th SIGKDD Workshop on Data Mining in Biology, 23–30, 2006
  72. VIRGO: Computational Prediction of Gene Functions     The VIRGO web server
    Naveed Massjouni, Corban Rivera, and T. M. Murali
    Nucleic Acids Research, Web server issue, 4, W340-W344, 2006
  73. XcisClique: Analysis of Regulatory Bicliques     Website
    Amrita Pati, Cecilia Vasquez-Robinet, Lenwood S. Heath, Ruth Grene, and T. M. Murali
    BMC Bioinformatics, 7, 218, 2006
  74. Gene Expression Module Discovery Using Gibbs Sampling
    Chang-Jiun Wu, Yutao Fu, T. M. Murali, and Simon Kasif
    Genome Informatics, 15, 239–248, 2004
  75. Whole Genome Annotation using Evidence Integration in Functional Linkage NetworksWebsite
    Ulas Karaoz, T. M. Murali, Stan Letovsky, Yu Zheng, Chunming Ding, Charles R. Cantor, and Simon Kasif
    Proceedings of the National Academy of Sciences, 101, 2888–2893, 2004.
  76. RankGene: Identification of Diagnostic Genes Based on Expression Data
    Yang Su, T. M. Murali, Vladimir Pavlovic, Michael Schaffer, and Simon Kasif,
    Bioinformatics, 19, 2003, 1578-1579.
  77. Extracting Conserved Gene Expression Motifs from Gene Expression Data
    T. M. Murali and Simon Kasif
    In Proceedings of the Pacific Symposium on Biocomputing, 77–88, 2003
  78. A Monte-Carlo Algorithm for Fast Projective Clustering
    Magda ProcopiucMichael JonesPankaj Agarwal, and T. M. Murali
    In Proceedings of the 2002 International Conference on Management of Data, 418–427, 2002
  79. New Similarity Measures between Polylines with Applications to Morphing and Polygon Sweeping
    Alon Efrat, Leonidas J. Guibas, Sariel Har-Peled, Joseph S. B. Mitchell, and T. M. Murali,
    Discrete and Computational Geometry, 28, 2002, 535–569
    This paper combines the results of Morphing between Polylines and Sweeping Simple Polygons with a Chain of Guards.
  80. Morphing between Polylines
    Alon EfratLeonidas J. GuibasSariel Har-Peled, and T. M. Murali
    In Proceedings of the 12th Annual ACM-SIAM Symposium on Discrete Algorithms, 680–689, 2001
  81. Sweeping Simple Polygons with a Chain of Guards
    Alon EfratLeonidas J. GuibasSariel Har-PeledDavid C. LinJoseph S. B. Mitchell, and T. M. Murali
    In Proceedings of the 11th Annual ACM-SIAM Symposium on Discrete Algorithms, 927–936, 2000
  82. Cylindrical Static and Kinetic Binary Space Partitions
    Pankaj K. AgarwalLeonidas J. GuibasT. M. Murali, and Jeffrey Scott Vitter
    Computational Geometry: Theory and Applications, 16, 2000, 103–127
  83. Binary Space Partitions for Fat Rectangles
    Pankaj K. Agarwal, Edward F. Grove, T. M. Murali, and Jeffrey Scott Vitter
    SIAM Journal on Computing, 29, 1422–1448, 2000
  84. Planning Robot Motion Strategies for Efficient Model Construction
    Hector Hugo Gonzalez-BanosAlon EfratJean-Claude LatombeEric Mao, and T. M. Murali
    In Proceedings of the 9th International Symposium of Robotics Research, 1999, 345–352
  85. The Object Complexity Model for Hidden-Surface Removal
    Edward F. Grove, T. M. Murali. and Jeffrey Scott Vitter
    International Journal of Computational Geometry and Applications, 9, 207-217, 1999
  86. Constructing Binary Space Partitions for Orthogonal Rectangles in Practice
    T. M. MuraliPankaj K. Agarwal, and Jeffrey Scott Vitter
    In Proceedings of the 6th Annual European Symposium on Algorithms, 211–222, 1998
  87. Efficient Hidden-Surface Removal in Theory and in Practice
    Ph. D. Thesis, Department of Computer Science, Brown University, June 1998
  88. I/O-Efficient Algorithms for Contour Line Extraction and Planar Graph Blocking
    Pankaj K. AgarwalLars ArgeT. M. MuraliKasturi R. Varadarajan, and Jeffrey Scott Vitter
    In Proceedings of the 9th Annual ACM-SIAM Symposium on Discrete Algorithms, 211–222, 1998
  89. Cylindrical Static and Kinetic Binary Space Partitions
    Pankaj K. AgarwalLeonidas J. GuibasT. M. Murali, and Jeffrey Scott Vitter
    Proceedings of the 13th Annual ACM Symposium on Computational Geometry, 39-48, 1997
  90. Practical Techniques for Constructing Binary Space Partitions for Orthogonal Rectangles
    Pankaj K. AgarwalT. M. Murali, and Jeffrey Scott Vitter
    In Proceedings of the 13th Annual ACM Symposium on Computational Geometry, 382–384, 1997
  91. Consistent Solid and Boundary Representations from Arbitrary Polygonal Data
    T. M. Murali and Thomas A. Funkhouser
    In Proceedings of the 1997 Symposium on Interactive 3D Graphics, Providence, Rhode Island, April 1997
    Since the size of this paper is more than 21MB when uncompressed, you can download it in three forms:
    1. The full paper (a little more than 21Mb when uncompressed),
    2. The paper without the colour page (200 Kb when uncompressed), or
    3. The colour page (nearly 21Mb when uncompressed).
  92. Binary Space Partitions for Fat Rectangles
    Pankaj K. Agarwal, Edward F. Grove, T. M. Murali, and Jeffrey Scott Vitter
    Proceedings of the 37th IEEE Annual Symposium on Foundations of Computer Science, 482-491, 1996
  93. The Object Complexity Model for Hidden-Surface Removal
    Edward F. Grove, T. M. Murali. and Jeffrey Scott Vitter
    Proceedings of the Seventh Canadian Conference on Computational Geometry, 273-278, 1995