Faculty Research Interests
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Faculty
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Summary of Research Interests
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| James H. Andrews | software engineering, testing and verification, "log file" analysis, programming languages |
| John L. Barron | measurement and interpretation of optical flow, analysis of Doppler radar imagery |
| Michael A. Bauer | distributed systems, systems and application management, resource management in distributed and grid systems, software engineering |
| Steven Beauchemin | computer vision, applied mathematics, robotics, image processing |
| Yuri Boykov | computer vision, medical imaging, algorithms |
| Mark Daley | natural computing, computational and mathematical modelling of biological systems, theoretical computer science, high performance computing for biology and mathematics, molecular evolution, algorithmics of music and the visual arts |
| Mahmoud El-Sakka | image compression and encoding, digital image enhancement, medical imaging, image security, clustering and pattern recognition, digital authentication, computer aided diagnostic |
| Irene Gargantini | representation of data for visualization, modelling techniques, volume rendering, hierarchical representation of data, foveal visualization |
| Lucian Ilie | strings (combinatorics, mathematical properties), string algorithms, bioinformatics |
| Helmut Jügensen | formal languages, automata, codes and information transmission systems |
| Lila Kari | theory of computation, formal languages, DNA computing, discrete mathematics |
| Mike Katchabaw | computing environment design and implementation, distributed systems, networking, operating systems and software engineering |
| Charles Ling | machine learning, cognitive modeling, data mining |
| Hanan Lutfiyya | software engineering, distributed systems, fault tolerance |
| Bin Ma | bioinformatics, algorithm design |
| Nazim Madhavji | requirements engineering, software architectures, software quality, software evolution and feedback, software processes, empirical studies |
| Marc Moreno Maza | computer algebra, efficient algorithms and complexity, algebraic geometry, programming languages, distributed computing, applications of computer algebra, software engineering |
| Robert E. Mercer | artificial intelligence, expert systems, natural language, information retrieval, computer animation, artifical neural networks |
| Areski Nait Abdallah | reasoning within contexts |
| Sylvia Osborn | role based models in database security, data models and query langauges for object-oriented databases |
| Mark Perry | interrelationship between law, policy and computer technologies, intellectual property rights |
| Eric Schost | computer algebra, polynomial system solving, polynomial and power series arithmetic |
| Kamran Sedig | design of mindtools, interactive cognitive tools, human-computer interaction design, visualization tools, learning and knowledge technologies |
| Roberto Solis-Oba | efficient algorithms for combinatorial optimization, sequential vs. parallel algorithms, randomization |
| Olga Veksler | computer vision |
| Stephen M. Watt | computer algebra, programming languages and compilers, pen-based computing and handwriting recognition |
| Robert E. Webber | voxel representations for moving objects, computer graphics efficiency, visual programming languages, virtual reality, lexical semantics, aesthetic-knowledge representation, field-programmable gate arrays |
| Kaizhong Zhang | parallel and sequential algorithms, computational molecular biology, databases, image processing |
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