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Daniel Guggenheim School of Aerospace Engineering
Daniel Guggenheim School of Aerospace Engineering
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ItemAlgorithms for Economically and Environmentally Efficient Terminal Area Transition Metering(Georgia Institute of Technology, 2009-07-28) Clarke, John-Paul B. ; Ren, Liling ; Tino, Clayton ; Lowther, Marcus
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ItemAlgorithms for Economically and Environmentally Efficient En Route Conflict Resolution(Georgia Institute of Technology, 2009-07-28) Vela, Adan ; Clarke, John-Paul B. ; Singhose, William E. ; Solak, Senay
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ItemAlgorithms for Economically and Environmentally Efficient Surface Movement(Georgia Institute of Technology, 2009-07-28) Clarke, John-Paul B.
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ItemPreliminary Altitude and Fuel Analysis for KATL CDA(Georgia Institute of Technology, 2008-11-17) Nagle, Gaurav ; Brooks, James ; Clarke, John-Paul B.
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ItemController Managed Spacing Study(Georgia Institute of Technology, 2008-11) Palmer, Everett ; Callantine, Todd J. ; Prevot, Thomas ; Mercer, Joey ; Williams, David H. ; Clarke, John-Paul B.
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ItemApproaches to TFM in the presence of uncertainty(Georgia Institute of Technology, 2008-09-30) Clarke, John-Paul B. ; Johnson, Ellis L. ; Singhose, William ; Solak, Senay ; Poage, JamesThe objective of this study was to support NASA milestone AS.1.4.05, which includes the development of probabilistic and stochastic methods for TFM to address uncertainties in weather predictions.
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ItemSimulating Air Traffic Blockage due to Convective Weather Conditions(Georgia Institute of Technology, 2007-12-11) Ren, Liling ; Chang, Dawei ; Solak, Senay ; Clarke, John-Paul B. ; Barnes, Earl R. ; Johnson, Ellis L.A Monte Carlo methodology is proposed for simulating air traffic blockage patterns under the impact of convective weather. The simulation utilizes probabilistic convective weather forecasts such as those produced by the 1-6 hour National Convective Weather Forecast. A matrix of random numbers is fed to the simulation process to obtain an instantiation of traffic blockage maps. Gaussian smoothing with varying Full Width at Half Maximum across the grid is employed to model the varying spatial correlation between cells. Special Cellular Automata techniques are employed to model the evolvement, i.e. the trend, growth, and dissipation of convection, between consecutive time intervals. Model parameters are obtained from analyzing historical convective weather data. A software tool is also developed to implement the simulation methodology. The simulation methodology thus provides a means to improve the utilization of short term probabilistic convective weather forecast products, and to improve air traffic efficiency in the large.
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ItemATL 1.5 Metering Scheme(Georgia Institute of Technology, 2007-12-06) Clarke, John-Paul B.
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ItemFlight Demonstration of the Separation Analysis Methodology for Continuous Descent Arrival(Georgia Institute of Technology, 2007-12-05) Ren, Liling ; Clarke, John-Paul B.
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ItemMEFISTO - Modeling of Environmental Factors in Surface/Terminal Traffic Optimization(Georgia Institute of Technology, 2007-12) Thompson, Terry ; Clarke, John-Paul B. ; Sherry, Lance