学位论文详细信息
Open Platform for Limit Protection with Carefree Maneuver Applications
Digital;Control;Object;Open;Fuzzy;Neural;Haptic;Alert;Limit;Cockpit
Jeram, Geoffrey James Joseph ; Aerospace Engineering
University:Georgia Institute of Technology
Department:Aerospace Engineering
关键词: Digital;    Control;    Object;    Open;    Fuzzy;    Neural;    Haptic;    Alert;    Limit;    Cockpit;   
Others  :  https://smartech.gatech.edu/bitstream/1853/4933/1/Jeram_Geoffrey_J_200412_phd_Figure_19.mov
美国|英语
来源: SMARTech Repository
PDF
【 摘 要 】

This Open Platform for Limit Protection guides the open design of maneuver limit protection systems in general, and manned, rotorcraft, aerospace applications in particular.The platform uses three stages of limit protection modules:limit cue creation, limit cue arbitration, and control system interface.A common set of limit cue modules provides commands that can include constraints, alerts, transfer functions, and friction.An arbitration module selects the best limit protection cues and distributes them to the most appropriate control path interface.This platform adopts a holistic approach to limit protection whereby it considers all potential interface points, including the pilots visual, aural, and tactile displays; and automatic command restraint shaping for autonomous limit protection.For each functional module, this thesis guides the control system designer through the design choices and information interfaces among the modules.Limit cue module design choices include type of prediction, prediction mechanism, method of critical control calculation, and type of limit cue.Special consideration is given to the nature of the limit, particularly the level of knowledge about it, and the ramifications for limit protection design, especially with respect to intelligent control methods such as fuzzy inference systems and neural networks.The Open Platform for Limit Protection reduces the effort required for initial limit protection design by defining a practical structure that still allows considerable design freedom.The platform reduces lifecycle effort through its open engineering systems approach of decoupled, modular design and standardized information interfaces.Using the Open Platform for Limit Protection, a carefree maneuver system is designed that addresses:main rotor blade stall as a steady-state limit; hub moment as a transient structural limit; and pilot induced oscillation as a controllability limit.The limit cue modules in this system make use of static neural networks, adaptive neural networks, and fuzzy inference systems to predict these limits.Visual (heads up display) and tactile (force-feedback) limit cues are employed.The carefree maneuver system is demonstrated in manned simulation using a General Helicopter (GENHEL) math model of the UH-60 Black Hawk, a projected, 53 degree field of view for the pilot, and a two-axis, active sidestick for cyclic control.

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