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Numerical methods of optimisation --- Probability theory --- Stochastic processes --- Planning (firm) --- Mathematical control systems --- Artificial intelligence. Robotics. Simulation. Graphics --- procescontrole --- stochastische analyse --- Control theory. --- Mathematical optimatization. --- Stochastic processes. --- Théorie de la commande --- Processus stochastiques --- 681.5 --- Automatic control engineering. Control systems, techniques, equipment. Cybernetic and automation technology --- 681.5 Automatic control engineering. Control systems, techniques, equipment. Cybernetic and automation technology --- Théorie de la commande --- Control theory --- Mathematical optimization --- Random processes --- Probabilities --- Optimization (Mathematics) --- Optimization techniques --- Optimization theory --- Systems optimization --- Mathematical analysis --- Maxima and minima --- Operations research --- Simulation methods --- System analysis --- Dynamics --- Machine theory --- Mathematical optimization.

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Flight Dynamics takes a new approach to the science and mathematics of aircraft flight, unifying principles of aeronautics with contemporary systems analysis. While presenting traditional material that is critical to understanding aircraft motions, it does so in the context of modern computational tools and multivariable methods. Robert Stengel devotes particular attention to models and techniques that are appropriate for analysis, simulation, evaluation of flying qualities, and control system design. He establishes bridges to classical analysis and results, and explores new territory that was treated only inferentially in earlier books. This book combines a highly accessible style of presentation with contents that will appeal to graduate students and to professionals already familiar with basic flight dynamics. Dynamic analysis has changed dramatically in recent decades, with the introduction of powerful personal computers and scientific programming languages. Analysis programs have become so pervasive that it can be assumed that all students and practicing engineers working on aircraft flight dynamics have access to them. Therefore, this book presents the principles, derivations, and equations of flight dynamics with frequent reference to MATLAB functions and examples. By using common notation and not assuming a strong background in aeronautics, Flight Dynamics will engage a wide variety of readers. Introductions to aerodynamics, propulsion, structures, flying qualities, flight control, and the atmospheric and gravitational environment accompany the development of the aircraft's dynamic equations.

Aerodynamics. --- Flight. --- Airplanes --- Performance of airplanes --- Flying --- Locomotion --- Aeronautics --- Aerodynamics, Subsonic --- Streamlining --- Subsonic aerodynamics --- Dynamics --- Fluid dynamics --- Gas dynamics --- Pneumatics --- Wind tunnels --- Performance. --- Aerodynamics

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"Flight Dynamics, first published in 2004, took a new approach to the science and mathematics of aircraft flight, unifying principles of aeronautics with contemporary systems analysis. While presenting traditional material that is critical to understanding aircraft motions, it does so in the context of modern computational tools and multivariable methods. Robert Stengel devotes particular attention to models and techniques that are appropriate for analysis, simulation, evaluation of flying qualities, and control system design. He establishes bridges to classical analysis and results, and explores new territory that was treated only inferentially in earlier books. The second edition will provide updates that cover new developments in aviation. Substantive changes include the addition of examples that relate to contemporary aircraft types, such as uninhabited air vehicles (UAVs), electrically powered airplanes, blended wing-body configurations, supersonic and hypersonic cruisers, and sub-orbital aerospace planes"--

Aerodynamics. --- Flight. --- Airplanes --- Performance.

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