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Castillo-Rivera, S.; Tomas-Rodriguez, M. (2016)
Publisher: Elsevier
Languages: English
Types: Article
Subjects: TL
This work describes a model developed to analyze the aerodynamic loads on a helicopter model on conventional configuration implemented with VehicleSim, a multibody software specialized in modelling mechanical systems composed by rigid bodies. The rotors are articulated and the main rotor implementation takes into account flap, lag and feather degrees of freedom for each of the equispaced blades as well as their dynamic couplings. This article presents an aerodynamic model that allows to simulate hover, climb, descent and forward flight as well as trajectories under the action of several aerodynamics loads. The aerodynamic model has been built up using blade element theory. All the dynamics, aerodynamic forces and control action are embedded in a single code, being this an advantage as the compilation time is greatly reduced. The software used in this work, VehicleSim does not need external connection to other software. This new tool may be used to develop robust control methods. The nonlinear equations of the system which can be very complex, are obtained, in particular, this article presents the equations for flap and lag degrees of freedom in hover flight. The control approach used in here consists of PID controllers (proportional, integral, derivative), which allow to use VehicleSim command exclusively to simulate several helicopter flight conditions. The results obtained are shown to agree with the expected behaviour.
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • [4] Peters DA, Karunamoorthy S, Cao WM. Finite State Induced Flow Models. Part I: Two-Dimensional Thin Airfoil. Journal of Aircraft. 1995;32(2):313- 22. DOI:10.2514/3.46718.
    • [5] Peters DA, He CJ. Finite State Induced Flow Models. Part II: Three-Dimensional Rotor Disk. Journal of Aircraft. 1995;32(2):323-33. DOI:10.2514/3.46719.
    • [19] Carrillo-Ahumada J, Reynoso-Meza G, Garca-Nieto S, Sanchis J, GarcaAlvarado MA. Tuning of Pareto-Optimal Robust Controllers for Multivariable Systems. Application on Helicopter of Two-Degrees-of-Freedom. RIAI Revista Iberoamericana de Automatica e Informatica Industrial. 2015; 12(2):177-88. ISSN: 1697-7912.
    • [20] Antequera N, Santos M, De la Cruz JM. A Helicopter Control Based on Eigenstructure Assignment. Emerging Technologies and Factory Automation. 2006. ETFA'06. IEEE Conference on IEEE, 2006.
    • [22] Marichal GN, Tomas-Rodriguez M, Hernandez A, Castillo-Rivera S, Campoy, P. Vibration Reduction for Vision System on Board UAV Using a Neuro-Fuzzy Controller. Journal of Vibration and Control. 2013; 20(15):2243-53. DOI: 10.1177/1077546313479632.
    • [32] Sissingh G. Contribution of the Aerodynamics of Rotating-Wing Aircraft. NACA TM 921,1939.
    • [33] Bailey FJ, Jr. A Simpli ed Theoretical Method of Determining the Characteristics of a Lifting Rotor in Forward Flight. NACA Rep. 716, 1941.
    • [34] Bramwell ARS, Done G, Balmford D. Bramwell's Helicopter Dynamics. Butterworth-Heinemann; 2001.
    • [35] Mechanical Simulation Corporation. VehicleSim Solver Programs Reference Manual. Mechanical Simulation. http://www.carsim.com; 1997-2008 [accessed 10.03.16].
    • [36] Mechanical Simulation Corporation. VehicleSim Browser Reference Manual for BikeSim, CarSim, and TruckSim. Mechanical Simulation. http://www.carsim.com; 1997-2008 [accessed 10.03.16].
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