Single-wire sensor/actuator network for structure health monitoring
First Claim
1. A structural health monitoring system, comprising:
- a first plurality of sensors and a second plurality of sensors, each configured to be spatially distributed along a structure and to transmit electrical signals upon detecting stress waves within the structure;
wherein each sensor of the first plurality of sensors is placed in electrical communication with each other sensor of the first plurality of sensors, and each sensor of the second plurality of sensors is placed in electrical communication with each other sensor of the second plurality of sensors;
wherein each sensor of the first plurality of sensors is placed in electrical parallel with each other sensor of the first plurality of sensors; and
wherein each sensor of the second plurality of sensors is placed in electrical series with each other sensor of the second plurality of sensors.
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Accused Products
Abstract
A sensor/actuator network configured with a number of electrically-interconnected elements. More specifically, the sensors/actuators are each placed in electrical communication with the same transmission line. Various embodiments of such networks employ sensors/actuators connected in electrical series and in electrical parallel. Networks having these configurations, when placed upon a structure, are capable of detecting and/or transmitting stress waves within the structure so as to detect the presence of an impact, or actively query the structure. Advantageously, as these networks employ a single transmission line, they utilize fewer wires than current sensor/actuator networks, thus making them easier to install and maintain. They can also be configured as flexible layers, allowing for further ease of installation and maintenance.
78 Citations
3 Claims
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1. A structural health monitoring system, comprising:
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a first plurality of sensors and a second plurality of sensors, each configured to be spatially distributed along a structure and to transmit electrical signals upon detecting stress waves within the structure; wherein each sensor of the first plurality of sensors is placed in electrical communication with each other sensor of the first plurality of sensors, and each sensor of the second plurality of sensors is placed in electrical communication with each other sensor of the second plurality of sensors; wherein each sensor of the first plurality of sensors is placed in electrical parallel with each other sensor of the first plurality of sensors; and wherein each sensor of the second plurality of sensors is placed in electrical series with each other sensor of the second plurality of sensors.
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2. A structural health monitoring system, comprising:
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a first plurality of sensors electrically interconnected along a first electrical transmission line, the plurality of sensors configured to be spatially distributed along a structure, and to transmit electrical signals along the first electrical transmission line upon detecting stress waves within the structure; wherein each sensor of the first plurality of sensors is placed in electrical parallel along the first electrical transmission line; and a second plurality of sensors configured to be spatially distributed along the structure and electrically interconnected along a second electrical transmission line, each sensor of the second plurality of sensors placed in electrical series along the second electrical transmission line.
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3. A structural health monitoring system, comprising:
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a plurality of sensors electrically interconnected along a single electrical transmission line, the plurality of sensors configured to be spatially distributed along a structure, and to transmit electrical signals alone the electrical transmission line upon detecting stress waves within the structure; and a frequency filter in electrical communication with the transmission line and the plurality of sensors, the frequency filter configured to identify a dominant frequency of the electrical signals so as to facilitate the detection of an impact upon the structure; wherein the frequency filter is a band pass filter configured to pass frequencies of the electrical signals in at least one frequency range, wherein the at least one frequency range is from approximately 10-40 Hz, 40-70 Hz, 70-100 Hz, 100-130 Hz, 130-160 Hz, and 160-190 Hz.
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Specification