INTRUSION-OBJECT DETECTION SYSTEM, METHOD OF DETECTING INTRUSION-OBJECT AND METHOD OF DETECTING MALFUNCTION

US 20100238029A1
Filed: 01/12/2006
Published: 09/23/2010
Est. Priority Date: 01/12/2006
Status: Active Grant

First Claim

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1-8. -8. (canceled)

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Abstract

A method determining a malfunction when a reception signal fluctuates at a receiver owing to malfunctions occurring on a leaky cable and its related devices. The method determines, among range bins correlating the reception signal with a distance from a feed end of a radio-wave radiation unit and a radio-wave reception unit, based on a correlation between a time-delay from a transmission time of a transmission signal until a reception time of the reception signal and a transmission path distance of the reception signal in the radio-wave radiation unit and the radio-wave reception unit, when, comparing the reception signal with the transmission signal with respect to the range bin corresponding to a far end, a level of amplitude reduction in the reception signal exceeds a predetermined ratio, that a malfunction is present in either the radio-wave radiation unit or radio-wave reception unit.

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18 Claims

1-8. -8. (canceled)

9. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end and the other end thereof as a far end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a malfunction distinguishing unit configured to determine that a malfunction is present in either said radio-wave radiation unit or said radio-wave reception unit, when, comparing the reception signal with the transmission signal for the range bins corresponding to the far end, a level of amplitude reduction in the reception signal exceeds a predetermined ratio.

10. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a malfunction-range measurement unit configured to determine, by determining, with respect to each of the range bins, a level of amplitude reduction in the reception signal compared with the transmission signal, and by detecting, out of the range bins in which the level of amplitude reduction exceeds a predetermined ratio, a range bin that corresponds to the nearest position to the feed end, that a malfunction is present in a position corresponding to said range bin related to either said radio-wave radiation unit or said radio-wave reception unit.

11. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a breakage detection unit configured to determine, when there exists a range bin among the range bins in which the amplitude of the reception signal is increased in comparison to the transmission signal, that breakage is present in a position corresponding to said range bin related to either said radio-wave radiation unit or said radio-wave reception unit.

12. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate a quadrature-detection result by performing quadrature detection on the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a crack detection unit configured to determine, in a case in which a time-series distribution of the reception signal in a plane coordinated by I-components and Q-components of the quadrature-detection result of the reception signal is classified, when the distribution is classified into a plurality of classes and there exists a range bin among the range bins in which the location of the reception signal moves astride the plurality of classes as time passes, that a crack is present in a position corresponding to said range bin related to either said radio-wave radiation unit or said radio-wave reception unit.

13. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate a quadrature-detection result by performing quadrature detection on the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a crack immediate-report unit configured to determine, when there exists a range bin in which a larger eigenvalue in eigenvalues of a covariance matrix of I-components and Q-components of the quadrature-detection result of the reception signal is greater than a first predetermined value, and a smaller eigenvalue in the eigenvalues, less than a second predetermined value, that a crack is present in a position corresponding to said range bin related to either said radio-wave radiation unit or said radio-wave reception unit.

14. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate a quadrature-detection result by performing quadrature detection on the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  an intrusion-object immediate-report unit configured to determine, when there exists a range bin in which a larger eigenvalue in eigenvalues of a covariance matrix of I-components and Q-components of the quadrature-detection result of the reception signal is greater than a first predetermined value, and a smaller eigenvalue in the eigenvalues, greater than a second predetermined value, that an intrusion-object is present in a position corresponding to said range bin related to either said radio-wave radiation unit or said radio-wave reception unit.

15. An intrusion-object detection system, comprising:
- a radio-wave radiation unit, in a cable form with one end thereof as a feed end and the other end thereof as a far end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a terminator configured to absorb the radio wave, connected to the far end of either said radio-wave radiation unit or said radio-wave reception unit;
  
  a reflector configured to reflect the radio wave connected to the far end of either said radio-wave radiation unit or said radio-wave reception unit to which said terminator is not connected;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a malfunction-information detection unit configured to determine that a malfunction is present in the unit to which said terminator is connected, out of said radio-wave radiation unit and said radio-wave reception unit, when the amplitude of the reception signal is larger than a predetermined value in the range bin corresponding to the far-end position.

16. An intrusion-object detection system, comprising:
- a radio-wave radiation unit in a cable form with one end thereof as a feed end and the other end thereof as a far end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a terminator configured to absorb the radio wave, connected to the far end of either said radio-wave radiation unit or said radio-wave reception unit;
  
  a reflector configured to reflect the radio wave connected to the far end of either said radio-wave radiation unit or said radio-wave reception unit to which said terminator is not connected;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a malfunction-position detection unit configured to detect, when there exists a range bin, corresponding to a position on the opposite side of the feed end with respect to the far end, in which the amplitude of the reception signal is larger than a predetermined value, by obtaining the distance X from the position corresponding to said range bin to the far end, that a malfunction is present in the unit to which said terminator is connected, out of said radio-wave radiation unit and said radio-wave reception unit, and for defining a position of the malfunction based on the distance X and the length of said radio-wave radiation unit and said radio-wave reception unit.

17. An intrusion-object detection system, comprising:
- a radio-wave radiation unit in a cable form with one end thereof as a feed end and the other end thereof as a far end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a terminator configured to absorb the radio wave, provided for each of said radio-wave radiation unit and said radio-wave reception unit;
  
  a reflector configured to reflect the radio wave, provided for each of said radio-wave radiation unit and said radio-wave reception unit;
  
  a changeover unit provided for each of said radio-wave radiation unit and said radio-wave reception unit, configured to select either said terminator or said reflector, to connect the same to said corresponding radio-wave radiation unit and radio-wave reception unit each;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a malfunction-information detection unit configured to determine that a malfunction is present in the unit to which said terminator is connected, out of said radio-wave radiation unit and said radio-wave reception unit, when the amplitude of the reception signal is larger than a predetermined value in the range bin corresponding to the far-end position.

18. An intrusion-object detection system, comprising:
- a radio-wave radiation unit in a cable form with one end thereof as a feed end and the other end thereof as a far end, configured to radiate as a radio wave, a transmission signal on which a spread spectrum signal is superimposed being fed into said radio-wave radiation unit from the feed end;
  
  a radio-wave reception unit configured to receive the radio wave, in a cable form, placed approximately in parallel with said radio-wave radiation unit;
  
  a terminator configured to absorb the radio wave, provided for each of said radio-wave radiation unit and said radio-wave reception unit;
  
  a reflector configured to reflect the radio wave, provided for each of said radio-wave radiation unit and said radio-wave reception unit;
  
  a changeover unit provided for each of said radio-wave radiation unit and said radio-wave reception unit, configured to select either said terminator or said reflector, to connect the same to said corresponding radio-wave radiation unit and radio-wave reception unit each;
  
  a signal reception unit configured to receive the transmission signal as a reception signal, connected to an end, on the feed-end side, of said radio-wave reception unit;
  
  a signal demodulation unit configured to define the reception signal so as to calculate the amplitude of the reception signal with respect to range bins each correlated with a distance from a position of the feed end, on said radio-wave radiation unit and said radio-wave reception unit, based on a correlation between a time-delay from transmission time of the transmission signal until reception time of the reception signal and the distance along a transmission path according to route'"'"'s positions on said radio-wave radiation unit and said radio-wave reception unit in the transmission path through which the transmission signal passes after its transmission until reception as the reception signal, by comparing a code sequence of a spread spectrum signal extracted from the reception signal with a code sequence of a spread spectrum signal in the transmission signal; and
  
  a malfunction-position detection unit configured to determine, when there exists a range bin, corresponding to a position on the opposite side of the feed end with respect to the far end, in which the amplitude of the reception signal is larger than a predetermined value, by obtaining the distance X from the position corresponding to said range bin to the far end, that a malfunction is present in the unit to which said terminator is connected, out of said radio-wave radiation unit and said radio-wave reception unit, and for defining a position of the malfunction based on the distance X and the length of said radio-wave radiation unit and said radio-wave reception unit.

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Current Assignee
Mitsubishi Electric Corporation
Original Assignee
Mitsubishi Electric Corporation
Inventors
Hirai, Takashi, Aizawa, Syuji, Miyake, Noriyuki, Inomata, Kenji

Granted Patent

US 7,994,912 B2
Time in Patent Office

Days
Field of Search
US Class Current

340/552
CPC Class Codes

G08B 13/2497 using transmission lines, e...

G08B 29/26 by updating and storing ref...

INTRUSION-OBJECT DETECTION SYSTEM, METHOD OF DETECTING INTRUSION-OBJECT AND METHOD OF DETECTING MALFUNCTION

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Abstract

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INTRUSION-OBJECT DETECTION SYSTEM, METHOD OF DETECTING INTRUSION-OBJECT AND METHOD OF DETECTING MALFUNCTION

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

12 Citations

18 Claims

Specification

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Solutions

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