Method and apparatus for monitoring multiple points on a vibrating structure
First Claim
1. Apparatus for monitoring a vibrating structure comprising:
- a plurality of motion sensors adapted for mounting in spaced relation at corresponding points along the structure, each of the plurality of sensors producing an analog raw data signal indicative of motion at the corresponding point;
a plurality of anti-aliasing filters, each of the plurality of filters having an input and an output, the input of each filter being connected to a corresponding motion sensor, the raw data signal from each motion sensor being filtered by the corresponding anti-aliasing filter to produce a filtered analog data signal at the filter output by removing substantially all frequency components of the raw data signal above a selected cutoff frequency, fco ;
an analog multiplexer having a multiplexer output, an address input and a plurality of data input channels having addresses, each of the plurality of data input channels being connected to a corresponding output from an anti-aliasing filter, the filtered analog data signal from each of the plurality of data input channels being passed to the multiplexer output when the corresponding address of each data input channel is applied to the address input to produce an analog multiplexed data signal;
a channel address clock having an output connected to the address input of the analog multiplexer, the channel address clock being adapted to repeatedly generate a sequence of channel addresses to scan the data input channels at the multiplexer corresponding to the addresses in the sequence, the sequence of channel addresses being repeated at a frequency of at least twice the selected cutoff frequency, fco ;
an analog-to-digital converter having an input connected to the output of the analog multiplexer and an output, the converter producing a multiplexed digital data signal at the output of the analog-to-digital converter corresponding to the analog multiplexed data signal at the input of the analog-to-digital converter; and
storage means connected to the analog-to-digital converter for storing digital data from the multiplexed digital data signal.
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Abstract
An apparatus for monitoring a vibrating structure, such as a bridge, uses multiple motion sensors spaced along the structure, each of which produces an analog raw data signal which is then filtered in anti-aliasing filters to remove substantially all frequency components of the signal above a selected cutoff frequency, fco. The filter outputs are connected to addressed inputs of an analog multiplexer which then multiplexes the signals in response to a channel address clock which repeatedly generates a sequence of channel addresses to scan the data input channels at the multiplexer corresponding to the addresses in the sequence. The complete sequence of addresses is repeated at a frequency of at least twice the cutoff frequency to obtain substantially simultaneous samples from the sensors so that data from different sensors may be correlated. The multiplexed signal is then converted to digital form and stored. The apparatus preferably also includes a fast Fourier transform processor to convert the data to the frequency domain and a means for calculating the response mode shapes for the structure from the frequency domain data.
72 Citations
10 Claims
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1. Apparatus for monitoring a vibrating structure comprising:
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a plurality of motion sensors adapted for mounting in spaced relation at corresponding points along the structure, each of the plurality of sensors producing an analog raw data signal indicative of motion at the corresponding point; a plurality of anti-aliasing filters, each of the plurality of filters having an input and an output, the input of each filter being connected to a corresponding motion sensor, the raw data signal from each motion sensor being filtered by the corresponding anti-aliasing filter to produce a filtered analog data signal at the filter output by removing substantially all frequency components of the raw data signal above a selected cutoff frequency, fco ; an analog multiplexer having a multiplexer output, an address input and a plurality of data input channels having addresses, each of the plurality of data input channels being connected to a corresponding output from an anti-aliasing filter, the filtered analog data signal from each of the plurality of data input channels being passed to the multiplexer output when the corresponding address of each data input channel is applied to the address input to produce an analog multiplexed data signal; a channel address clock having an output connected to the address input of the analog multiplexer, the channel address clock being adapted to repeatedly generate a sequence of channel addresses to scan the data input channels at the multiplexer corresponding to the addresses in the sequence, the sequence of channel addresses being repeated at a frequency of at least twice the selected cutoff frequency, fco ; an analog-to-digital converter having an input connected to the output of the analog multiplexer and an output, the converter producing a multiplexed digital data signal at the output of the analog-to-digital converter corresponding to the analog multiplexed data signal at the input of the analog-to-digital converter; and storage means connected to the analog-to-digital converter for storing digital data from the multiplexed digital data signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. Apparatus for monitoring a vibrating bridge structure with traffic-induced vibrations comprising:
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at least n motion sensors, where the quantity n is greater than one, adapted for mounting in spaced relation at corresponding points along a vibrating portion of the structure, each of the at least n motion sensors producing an analog output raw data signal indicative of motion of the structure at the corresponding point on the structure; at least n anti-aliasing filters, each of the at least n anti-aliasing filters having an input and an output, the input of each filter being connected to a corresponding motion sensor, the raw data signal from each motion sensor being filtered by the corresponding anti-aliasing filter to produce a filtered analog data signal at the filter output by removing substantially all frequency components of the raw data signal above a selected cutoff frequency, fco ; means for repeatedly scanning the outputs of the at least n anti-aliasing filters during a sampling period, the scanning means scanning successive outputs of the anti-aliasing filters at a scanning frequency, fscan, where fscan meets the criteria;
space="preserve" listing-type="equation">f.sub.scan ≧
2.n.f.sub.co ;means for generating a digital value corresponding to the filtered analog data signal present at the output of each filter when the output of each filter is scanned; means for storing the digital value from each scanned output in an array; means for calculating a first vibration mode shape from a first array corresponding to a first sampling period and a second mode shape from a second array corresponding to a second sampling period; and means for comparing the first and second mode shapes to determine whether the shapes have changed by more than a predetermined amount.
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9. Method of monitoring a vibrating structure comprising:
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mounting at least n motion sensors in spaced relation at corresponding points along a vibrating portion of the structure, where the quantity n is greater than one, each sensor producing an analog output raw data signal indicative of motion at the corresponding point on the structure; filtering the analog output raw data signals from the n motion sensors with n corresponding anti-aliasing filters having n corresponding filter outputs by removing substantially all frequency components of the raw data signal above a selected cutoff frequency, fco, to produce a filtered analog data signal for each sensor at the filter output of each corresponding filter; scanning the filter outputs of the anti-aliasing filters such that successive filter outputs are scanned at a frequency of fscan where fscan is at least two times the quantity n times the selected cutoff frequency, fco ; converting the scanned analog data signals to digital data with an analog-to-digital converter; and storing the digital data. - View Dependent Claims (10)
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Specification