System and method for vibration control in a rotorcraft using an adaptive reference model algorithm

摘要

The adaptive reference model algorithm uses a gain scheduling feature combined with a customized Least-Squares routine as an adaptive method for adjusting feedback control so as to account for variations in Transfer Function (G), thereby optimizing the effectiveness of the Active Vibration Control (AVC) System. The Least-Squares routine identifies the transfer function in a background process without interruption of closed loop vibration control. This identification approach is accomplished without intentional interrogation of the AVC actuators and without intentional vibration level changes. For this adaptive control logic, the dynamic relationship between AVC actuators and AVC sensors is represented by a mathematical model of Transfer Function (G). The mathematical model of Transfer Function (G) is continuously updated by the Least-Squares routine. A feedback gain (H) is computed from the mathematical model of Transfer Function (G), and the feedback gain (H) is updated each time the mathematical model of Transfer Function (G) is updated.

主权项

1. A method for controlling vibration in a rotorcraft, comprising:
measuring a fuselage vibration in the rotorcraft with a sensor, the fuselage vibration originating from a propulsion system of the rotorcraft; determining an actuator command signal with an adaptive reference model algorithm, wherein the determining of the actuator command signal with the adaptive reference model algorithm comprises one or more iterations of:
continuously identifying a transfer function reference model with a least-squares routine, the transfer function reference model representing a predicted relationship between the sensor and the vibration control actuator;computing a feedback control gain from the transfer function reference model in a closed loop; andupdating the feedback control gain each time a true transfer function is newly identified;wherein the continuously identifying of the transfer function reference model with the least-squares routine occurs in a background process without interruption of the determining of the actuator command signal; and commanding a vibration control actuator with the actuator command signal so as to impart a cancelling vibration in a manner that at least partially cancels the vibrations originating from the propulsion system; wherein the closed loop includes a gain schedule database, the gain schedule database being available for providing data to the transfer function reference model during times of rapid transfer function changes, and wherein the least squares routine is configured to identify the transfer function reference model during times of slow changes to the true transfer function without needing information from the gain schedule database.