Method and apparatus for intelligent active and semi-active vibration control
First Claim
1. The method of controlling and attenuating vibration or noise in a structure, such as an automotive vehicle, where the vibration is induced by vibration excitation sources, comprisingproviding a plurality of sensors for extracting signals related to vibration and/or acoustic noise from the structure and its environs,providing a plurality of actuators for applying attenuating noise and/or vibration to the structure,providing a microprocessor having inputs from the sensors and outputs to the actuators,operating the microprocessor with an optimal control algorithm based on minimum variance,then operating the microprocessor using an intelligent control algorithm,the microprocessor then generating an output signal and applying such signal to the actuators which will minimize and/or filter the vibration or noise introduced to the structure.
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Abstract
A generalized minimum variance type of control operates on combined optimal and self-tuning control theorems, and is applicable to the design of active, semi-active, and hybrid vibration control systems. The system operates in a multiple-input/multiple- output manner, so when both noise and vibration are important, e.g. interior of a vehicle, the resulting nulling signal will be based on diminishing both vibrations and noise. The system operates by directly nulling primary vibrations in an active mode, and/or by developing a variable bandwidth mechanical filter, in a semi-active mode, and applying nulling signals accordingly to the vibration source. Artificial intelligence is incorporated into the system to learn on-line the dynamics of the system, e.g. vehicle modal parameters, without reprogramming or tuning the system. Software resident in memory includes a first program a modal extraction of vibration and/or noise from the sensors, to perform a minimum variance calculation based on recorded past performance and on fuzzy logic compensation. Output signals generated and applied to actuators minimize and/or filter the vibration or noise.
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Citations
10 Claims
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1. The method of controlling and attenuating vibration or noise in a structure, such as an automotive vehicle, where the vibration is induced by vibration excitation sources, comprising
providing a plurality of sensors for extracting signals related to vibration and/or acoustic noise from the structure and its environs, providing a plurality of actuators for applying attenuating noise and/or vibration to the structure, providing a microprocessor having inputs from the sensors and outputs to the actuators, operating the microprocessor with an optimal control algorithm based on minimum variance, then operating the microprocessor using an intelligent control algorithm, the microprocessor then generating an output signal and applying such signal to the actuators which will minimize and/or filter the vibration or noise introduced to the structure. - View Dependent Claims (2, 3, 4)
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3. The method of claim 1 wherein the intelligence control step is performed according to the algorithm ##EQU9## where T is the learning sample, and α
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1 and α
2 are learning gains.
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1 and α
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4. The method of claim 1 wherein the parameter optimization algorithm is ##EQU10## where T is the learning sample, and α
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1 and α
2 are learning gains, and
space="preserve" listing-type="equation">u(i)=u(i-T)+β
.sub.1 y(i-1)+β
.sub.2 [y(i-1)-y(i-2)]where β
1 and β
2 are fuzzy compensator gains.
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1 and α
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5. The method of controlling and attenuating vibration or noise induced into an automotive vehicle, comprising
providing sensors for extracting signals related to vibration and/or acoustic noise from the structure and its environs and actuators for applying attenuating noise and/or vibration to the structure, providing a microprocessor having inputs from the sensors and outputs to the actuators, and operating the microprocessor cyclically according to an optimal control algorithm based on minimum variance, then an intelligence control algorithm, and then a parameter optimization algorithm, the microprocessor then generating and applying at least one signal to the actuators which will minimize and/or filter the vibration or noise introduced to the vehicle.
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6. A system for controlling and attenuating vibration and/or noise in a structure where the vibration is induced by vibration excitation sources and the noise may result directly or indirectly from the vibrations sources, comprising
a plurality of sensors attached to different parts of the structure for extracting signals related to vibration and/or acoustic noise from the structure and its environs, a plurality of actuators attached to vibration and/or noise sources on the structure for and capable of applying attenuating noise and/or vibration to such sources, a microprocessor having inputs from said sensors and outputs to said actuators, said microprocessor also having a memory for storage of control programs to be operated by said microprocessor, and a plurality of programs in said memory for use by said microprocessor, said programs including b) an optimal control program based on a minimum variance algorithm, c) a program based on an intelligent control algorithm using stored past performance information, and d) a fourth program based on a fuzzy logic algorithm, the microprocessor running said programs and then generating one or more control signals and applying such signals to said actuators to minimize and/or filter the vibration or noise introduced to the structure.
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7. A system for controlling and attenuating vibration and/or noise in a structure, where the vibration is induced by vibration excitation sources internal and external of the structure and the noise may result directly or indirectly from the vibrations sources, comprising
sensors attached to parts of the structure for extracting signals related to vibration and/or acoustic noise from the structure and its environs, actuators attached to vibration and/or noise sources on the structure for applying attenuating noise and/or vibration to such sources, a microprocessor having inputs from said sensors and outputs to said actuators, said microprocessor also having a memory for storage of control programs to be operated by said microprocessor, said programs including an optimal control program based on a minimum variance algorithm and also stored in said memory, a program based on an intelligent control algorithm using stored past performance information and also stored in said memory, and a program based on a fuzzy logic algorithm and also stored in said memory, the microprocessor running said programs and then generating one or more control signals and applying such signals to said actuators to minimize and/or filter the vibration or noise according to its effect on components of the structure.
Specification