Most Popular Papers

Much work has already been done with this end in mind; however, given the high degree of complexity associated with a large system such as this, there is opportunity for improvements in modeling capability. The FAA system for assessing Aviation’s Global Emissions (SAGE) is a well-established model for the creation of global inventories of aviation fuel use and emissions. The first is the way in which the specific fuel consumption (SFC) is calculated. Previous to this study, SFC was calculated through the methods put forward in EUROCONTROL’s Base of Aircraft Data (BADA). The results of this analysis provide insight into not only the benefits of RVSM, but also the effects of these model improvements and the efficacy of the different efficiency metrics used.
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Reduce Vertical Separation Minimum; System for Assessing Aviation’s Global Emissions; Base of Aircraft Data; Specific Fuel Consumption; Enhanced Traffic Management System

Robert C. Nelson, Flight stability and automatic control, second ed. (McGrew, 1989).

Alpen, M., Frick, K., and Horn, J., Nonlinear modeling and position control of an industrial quad rotor with on-board attitude control," IEEE International Conference on Control and Automation, dec. 2009, pp. 2329 -2334.

Kim, J., Kang, M., and Park, S., " Accurate Modeling and Robust Hovering Control for a Quad rotor VTOL Aircraft" , Journal of Intelligent and Robotic Systems, Vol. 57, No. 1, 2010, pp. 9-26.

Gurdan, D., Stumpf, J., Achtelik, M., Doth, K. M., Hirzinger, G., and Rus, D., " Energy-e_cient Autonomous Four-rotor Flying Robot Controlled at 1 kHz," IEEE International Conference on Robotics and Automation (ICRA), 2007, pp. 361-366.

Huang, H., Hofmann, G., Waslander, S., and Tomlin, C., "Aerodynamics and control of autonomous quadrotor helicopters in aggressive maneuvering," IEEE International Conference on Robotics and Automation (ICRA), May 2009, pp. 3277 -3282.

Azouz N., Bestaoui Y. and Lematre O., "Dynamic analysis of airships with small deformations", 3rd IEEE Workshop on Robot Motion and Control,Bukowy-Dworek, Nov. 2002, pp. 209–215.

Bouabdallah,Samir. Design and control quad rotors with application to autonomous flying 2007

Lupashin, S., Schollig, A., Sherback, M., and D'Andrea, R., "A simple learning strategy for high-speed quadro-copter multi-ips," IEEE International Conference on Robotics and Automation (ICRA), IEEE, 2010, pp. 1642-1648.

Michael, N., Mellinger, D., Lindsey, Q., and Kumar, V., " The GRASP Multiple Micro-UAV Testbed," IEEE Robotics & Automation Magazine, Vol. 17, No. 3, 2010, pp. 56-65.

Gillula, J., Huang, H., Vitus, M., and Tomlin, C., " Design of guaranteed safe maneuvers using reachable sets: Autonomous quadrotor aerobatics in theory and practice," IEEE International Conference on Robotics and Automation (ICRA), 2010, pp. 649-1654.

Mellinger, D., Michael, N., and Kumar, V., Trajectory generation and control for precise aggressive maneuvers with quadrotors," Int. Symposium on Experimental Robotics, 2010.

Mellinger, D. and Kumar, V., "Minimum Snap Trajectory Generation and Control for Quadrotors," IEEE International Conference on Robotics and Automation (ICRA), 2011.

Hehn, M. and D'Andrea, R., "Quadrocopter Trajectory Generation and Control," World Congress, Vol. 18, 2011, pp. 1485-1491.

Hyondong Oh, Dae-Yeon Won, Sung-Sik Huh, David Hyunchul Shim and Min-Jea Tahk, Experimental Framework for Controller Design of a Rotorcraft Unmanned Aerial Vehicle Using Multi-Camera System, Int’l J. of Aeronautical & Space Sci. 11(2), 69–79 (2010).

Cook M. V., Lipscombe J. M. and Goineau F., "Analysis of the stability modes of the non-rigid airship", Aeronautical Journal, 2000, pp. 279–289.

Furutani E. and Araki M., "Robust stability of state-predictive and Smith control systems for plants with a pure delay", international Journal of Robust and Nonlinear Control, Vol. 8, No. 18, pp. 907–919, 1998.

Fuller A. T., "In the large stability of relay and saturation control systems with linear controllers", Int. J. Control, 10(4):457–480, 1969.

Frazzoli E., Dahlen M. and Feron E., "Trajectory tracking control design for autonomous helicopters using a back stepping algorithm:", Proceedings of the American Control Conference ACC’00, pp. 4102–4107, June 28–30, 2000, Chicago, Illinois.

Castillo P., Dzul A. and Lozano R., "Real-time stabilization and tracking of a four rotor mini rotorcraft", IEEE Transactions on ontrol Systems Technology, Vol. 12, No. 4, pp. 510–516, July 2004.

Brockett R. W.,"Asymptotic stability and feedback stabilization", in Differential Geometric Control Theory, eds: R.W. Brockett, R. S. Millman, H.J. Sussmann, Birkhauser, Boston, 1983, pp. 181–191.