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Research Publications • • • • • • • Chebyshev series Lagrange’s implicit function theorem Quasilinearization Boundary value problems Numerical quadrature General problem of three bodies Principle of least interaction action Research Publications • Back correction methods • Onboard orbit determination • Transformations of equations • Local truncation errors • Methods with variable step-size • Minimization with nonlinear constraints Research Publications •AI languages and applications •Fault isolation in real-time expert systems •Graphical interfaces for expert systems •Windowing systems - X •Blackboard systems for fault diagnosis Current Research Interests • • • • • • Artificial intelligence Knowledge-based systems Machine learning Real-time expert systems Computer graphics Numerical methods Artificial Intelligence • Fuzzy logic • Production systems • AI languages • Knowledge representation • Search techniques • Reasoning under uncertainty • Computer vision Knowledge-based Systems • Graphics interfaces • CLIPS (forward chaining) • Prolog (backward chaining) • Real-time knowledge-based systems • Knowledge acquisition Machine Learning • Decision trees • Markov models • Bayesian networks • Neural networks • Parameter estimation • Multinomial models • Data mining applications Computer Graphics • Hidden surface elimination • Quadtrees and octrees • Linear octrees • Graphical user interfaces • Human-computer interaction • Human factors Numerical Methods • Numerical quadrature • Numerical differentiation • Numerical solution of ordinary differential equations – Stable multistep methods – Explicit Runge-Kutta methods • Parallel computation and grid computing Research Themes • Unification / understanding of problem solving methods • Developing novel approaches • Using analogies with other fields • Focusing on central or core problem first • Efficiency / reliability of methods • Application to real-world problems Lessons Learned • Focus on the distinctive characteristics of techniques or methods, then unify • Keep things in perspective • Discuss your ideas with others • Question every assumption – Ask why and/or why not • Save ideas for future study • Plan ahead Master’s Thesis • Ponder • Be certain it’s what you want to do • Discuss with faculty with common interests and expertise in the area • Identify supervising faculty member • Do an independent study first – Fine tune your research interests – Identify a potential thesis committee – Develop a thesis proposal with their input Master’s Thesis (cont’d) • Once proposal is approved – Meet with committee to discuss further your topic and your approach to it – Meet regularly with your thesis advisor and committee members while conducting the research – Draft chapters and submit to advisor and committee as you develop your thesis – Final completion of thesis and presentation
