초록 ▼

Determining adjustments to decrease vibrations caused by rotating blades from a plurality of rotors includes determining a first plurality of adjustment normalization values for a plurality of possible adjustments of blades of a first one of the plurality of rotors, where the first plurality of adju

Determining adjustments to decrease vibrations caused by rotating blades from a plurality of rotors includes determining a first plurality of adjustment normalization values for a plurality of possible adjustments of blades of a first one of the plurality of rotors, where the first plurality of adjustment normalization values normalizes different types of adjustments having different units, determining a second plurality of adjustment normalization values for a plurality of possible adjustments of blades of a second one of the plurality of rotors, where the second plurality of adjustment normalization values normalizes different types of adjustments having different units and where, for a particular adjustment type, an adjustment normalization value of the first plurality of adjustment normalization values is independent of a corresponding adjustment normalization value of the second plurality of adjustment normalization values for the particular adjustment type, providing coefficient of vibration data that corresponds to effects on vibration caused by adjustments to the blades, receiving a plurality of vibration values corresponding to vibrations caused by the blades, applying the coefficient of vibration data and the first and second plurality of adjustment normalization values to the vibration values to provide a set of total normalized vibration values corresponding to sets of possible adjustments to be applied to the blades, and selecting a set of adjustments having a total normalized vibration value less than a predetermined value and corresponding to a lower total amount of adjustment than other sets of adjustments having a total normalized vibration value less than the predetermined value. The predetermined value may correspond to an expected value of all errors.

대표청구항 ▼

The invention claimed is: 1. A method of determining adjustments of blades to decrease vibrations caused by rotating the blades from a plurality of rotors, comprising: determining a first plurality of adjustment normalization values for a plurality of possible adjustments of blades of a first one o

The invention claimed is: 1. A method of determining adjustments of blades to decrease vibrations caused by rotating the blades from a plurality of rotors, comprising: determining a first plurality of adjustment normalization values for a plurality of possible adjustments of blades of a first one of the plurality of rotors, wherein the first plurality of adjustment normalization values normalizes different types of adjustments having different units; determining a second plurality of adjustment normalization values for a plurality of possible adjustments of blades of a second one of the plurality of rotors, wherein the second plurality of adjustment normalization values normalizes different types of adjustments having different units and wherein, for a particular adjustment type, an adjustment normalization value of the first plurality of adjustment normalization values is independent of a corresponding adjustment normalization value of the second plurality of adjustment normalization values for the particular adjustment type; providing coefficient of vibration data that corresponds to effects on vibration caused by adjustments to the blades; receiving a plurality of vibration values corresponding to vibrations caused by the blades; applying the coefficient of vibration data and the first and second plurality of adjustment normalization values to the vibration values to provide a set of total normalized vibration values corresponding to sets of possible adjustments to be applied to the blades; and selecting a set of adjustments to be applied to the blades, the selected set of adjustments having a total normalized vibration value less than a predetermined value and corresponding to a lower total amount of adjustment than other sets of adjustments having a total normalized vibration value less than the predetermined value. 2. A method, according to claim 1, wherein the predetermined value corresponds to an expected value of all errors. 3. A method, according to claim 1, further comprising: performing an FFT on the vibration data, wherein the data indicating effects on vibration is provided in the frequency domain and wherein applying the coefficient of vibration data and the first and second plurality of adjustment normalization values to the vibration values is performed in the frequency domain. 4. A method, according to claim 3, wherein the vibration values, the coefficient of vibration data, the first plurality of adjustment normalization values, the second plurality of adjustment normalization values, and the adjustments are all matrixes and wherein the vibration values include a first matrix, u, corresponding to measured vibrations and a second matrix, v, corresponding to desired vibrations. 5. A method, according to claim 4, wherein selecting a set of adjustments includes solving for possible values for the adjustments using the equation: description="In-line Formulae" end="lead"v=u+X��a description="In-line Formulae" end="tail" where a represents the adjustment and X represents the coefficient of vibration data. 6. A method, according to claim 5, wherein solving for possible values of the adjustments includes replacing X with Q��R, where QT��Q equals the identity matrix, I, and R is an upper triangular matrix and wherein solving for possible values of the adjustments includes evaluating |QTu+R��a|. 7. A method, according to claim 6, wherein a is determined using a numeric technique to find a local minimum for aT��(WF��E)��a subject to a constraint that |QT��u+R��a| is less than the predetermined value, wherein E is a diagonal matrix having elements corresponding to a predetermined scaling amount for each type of adjustment and wherein WF is a weight factor matrix. 8. A method, according to claim 7, further comprising: determining said local minima using a Newton-Raphson technique. 9. A method, according to claim 1, wherein a first portion of said plurality of vibration values correspond to a first flight condition, a second portion of said plurality of vibration values correspond to a second flight condition different from the first flight condition. 10. A method, according to claim 1, wherein said plurality of vibration values correspond to a flight condition of a helicopter selected from the group consisting of: being on the ground, hovering, operating within a predetermined speed range, and operating at a predetermined speed. 11. A computer-readable medium storing computer software that determines adjustments of blades to decrease vibrations caused by rotating the blades from a plurality of rotors, the computer-readable medium comprising: data storage media containing a first plurality of adjustment normalization values for a plurality of possible adjustments of blades of a first one of the plurality of rotors, wherein the first plurality of adjustment normalization values normalize different types of adjustments having different units; data storage media containing a second plurality of adjustment normalization values for a plurality of possible adjustments of blades of a second one of the plurality of rotors, wherein the second plurality of adjustment normalization values normalize different types of adjustments having different units and wherein, for a particular adjustment type, an adjustment normalization value of the first plurality of adjustment normalization values is independent of a corresponding adjustment normalization value of the second plurality of adjustment normalization values for the particular adjustment type; data storage media containing coefficient of vibration data that corresponds to effects on vibration caused by adjustments to the blades; wherein the computer software includes: executable code that receives a plurality of vibration values corresponding to vibrations caused by the blades; executable code that applies the coefficient of vibration data and the first and second plurality of adjustment normalization values to the vibration values to provide a set of total normalized vibration values corresponding to sets of possible adjustments to be applied to the blades; and executable code that selects a set of adjustments to be applied to the blades, the selected set of adjustments having a total normalized vibration value less than a predetermined value and corresponding to a lower amount of adjustment than other sets of adjustments having a total normalized vibration value less than the predetermined value. 12. The computer-readable medium, according to claim 11, wherein the predetermined value corresponds to an expected value of all errors. 13. The computer-readable medium, according to claim 11, further comprising: executable code that performs an FFT on the vibration data, wherein the data indicating effects on vibration is provided in the frequency domain and wherein applying the coefficient of vibration data and the first and second plurality of adjustment normalization values to the vibration values is performed in the frequency domain. 14. The computer-readable medium, according to claim 13, wherein the vibration values, the coefficient of vibration data, the first plurality of adjustment normalization values, the second plurality of adjustment normalization values, and the adjustments are all matrixes and wherein the vibration values include a first matrix, u, corresponding to measured vibrations and a second matrix, v, corresponding to desired vibrations. 15. The computer-readable medium, according to claim 14, wherein executable code that selects a set of adjustments solves for possible values for the adjustments using the equation: description="In-line Formulae" end="lead"v=u+X��a description="In-line Formulae" end="tail" where a represents the adjustment and X represents the coefficient of vibration data. 16. The computer-readable medium, according to claim 15, wherein solving for possible values of the adjustments includes replacing X with Q��R, where QT��Q equals the identity matrix, I, and R is an upper triangular matrix and wherein solving for possible values of the adjustments includes evaluating |QT��u+R��a|. 17. The computer-readable medium, according to claim 16, wherein a is determined using a numeric technique to find a local minimum for aT��(WF��E)��a subject to a constraint that |QT��u+R��a| is less than the predetermined value, wherein E is a diagonal matrix having elements corresponding to a predetermined scaling amount for each type of adjustment and wherein WF is a weight factor matrix. 18. The computer-readable medium, according to claim 17, further comprising: executable code that determines said local minima using a Newton-Raphson technique. 19. A system that determines adjustments to decrease vibrations caused by rotating blades from a plurality of rotors, comprising: a plurality of accelerometers that provide a plurality of vibration values corresponding to vibrations caused by the blades; and a main processing unit, coupled to the accelerometers, having a memory with a first plurality of adjustment normalization values for a plurality of possible adjustments of blades of a first one of the plurality of rotors, wherein the first plurality of adjustment normalization values normalizes different types of adjustments having different units, the memory also having a second plurality of adjustment normalization values for a plurality of possible adjustments of blades of a second one of the plurality of rotors, wherein the second plurality of adjustment normalization values normalizes different types of adjustments having different units and wherein, for a particular adjustment type, an adjustment normalization value of the first plurality of adjustment normalization values is independent of a corresponding adjustment normalization value of the second plurality of adjustment normalization values for the particular adjustment type, the memory also having coefficient of vibration data that corresponds to effects on vibration caused by adjustments to the blades, the main processing unit also having executable code that applies the coefficient of vibration data and the first and second plurality of adjustment normalization values to the vibration values to provide a set of total normalized vibration values corresponding to sets of possible adjustments to be applied to the blades and executable code that selects a set of adjustments having a total normalized vibration value less than a predetermined value and corresponding to a lower total amount of adjustment than other sets of adjustments having a total normalized vibration value less than the predetermined value. 20. A system, according to claim 19, wherein the main processing unit includes an output that provides data to at least one of: a storage card and a display.