Modelling and Control of Mini-Flying Machines is an exposition of models developed to assist in the motion control of various types of mini-aircraft: • Planar Vertical Take-off and Landing aircraft; • helicopters; • quadrotor mini-rotorcraft; • other fixed-wing aircraft; • blimps. For each of these it propounds: • detailed models derived from Euler-Lagrange methods; • appropriate nonlinear control strategies and convergence properties; • real-time experimental comparisons of the performance of control algorithms; • review of the principal sensors, on-board electronics, real-time architecture and communications systems for mini-flying machine control, including discussion of their performance; • detailed explanation of the use of the Kalman filter to flying machine localization. To researchers and students in nonlinear control and its applicationsModelling and Control of Mini-Flying Machines provides valuable insights to the application of real-time nonlinear techniques in an always challenging area.
Rogelio Lozano has worked in worked at a number of institutions with a high reputation for control engineering - the University of Newcastle in Australia, Nasa's Langley Research Center and now as CNRS Research Director at the University of Compiègne. He is a very experienced author in the control field being an associate editor of bothAutomaticaand. He is the co-author of 3 previous titles for Springer all of them in theCommunications and Control Engineering series: Landau, I.D., Lozano, R. and M'Saad, M.Adaptive Control (1997) 3-540-76187-X Lozano, R., Brogliato, B., Egeland, O. and Maschke, B.Dissipative Systems Analysis and Control (1999) 1-85233-285-9 Fantoni, I. and Lozano, R.Non-linear Control for Underactuated Mechanical Systems (2001) 1-85233-423-1 |
