X-ray inspection system for detecting explosives and other contraband

US 7,092,485 B2
Filed: 05/27/2003
Issued: 08/15/2006
Est. Priority Date: 05/27/2003
Status: Expired due to Term

First Claim

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1. A system for screening an interrogation volume within a baggage item for the presence of at least one contraband substance, the system comprising:

a. an x-ray source adapted to emit penetrating, polychromatic radiation;

b. a primary beam collimator adapted to limit the radiation emanating from said x-ray source to a primary fan beam that opens at a fan angle, circumscribes a primary beam direction, and is incident on said interrogation volume;

c. a dual-energy detection system, comprising at least a low-energy x-ray detector and a high-energy x-ray detector, each detector being positioned to intercept and detect radiation in said primary fan beam transmitted through said baggage item;

d. an energy-resolved x-ray detector for detecting radiation coherently scattered from said primary fan beam at a plurality of scattering angles by material within said interrogation volume, material in each portion of said interrogation volume producing scattered radiation detected at each of said plurality of scattering angles;

e. computer means operably associated with said dual-energy detection system and said energy-resolved x-ray detector, said computer means being adapted to;

i. determine an energy-dependent absorption correction from the output of said dual-energy detection system;

ii. produce an energy-resolved scattering spectrum for each of said scattering angles from the output of said energy-resolved x-ray detector;

iii. correct each of said energy-resolved scattering spectra using said energy-dependent absorption correction to produce a corrected spectrum for each of said scattering angles;

iv. combine said corrected spectra to produce a diffraction scattering pattern; and

v. compare said diffraction scattering pattern with the reference diffraction scattering pattern of at least one known contraband substance stored in said computer means to detect a match indicative of the presence of said known contraband substance in said interrogation volume; and

f. a signal means associated with said computer means, said signal means being activated in response to the detection of said match.

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Abstract

A baggage scanning system and method employ combined angular and energy dispersive x-ray scanning to detect the presence of a contraband substance within an interrogation volume of a baggage item. The interrogation volume is illuminated with penetrating, polychromatic x-rays in a primary fan beam from a source such as a tungsten-anode x-ray tube. An energy-dependent absorption correction is determined from measurement of the attenuation of the fan beam at a plurality of different energies. Radiation coherently scattered by substances in the interrogation volume is detected by an energy-resolved x-ray detector operated at a plurality of scattering angles to form a plurality of scattering spectra. Each scattering spectrum is corrected for energy-dependent absorption and the corrected spectra are combined to produce a scattering pattern. The experimental scattering pattern is compared with reference patterns that uniquely characterize known contraband substances. The system and method can locate and identify a wide variety of contraband substances in an accurate, reliable manner. The system provides for automated screening, with the result that vagaries of human performance are virtually eliminated. False alarms and the need for hand inspection are reduced and detection efficacy is increased.

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26 Claims

1. A system for screening an interrogation volume within a baggage item for the presence of at least one contraband substance, the system comprising:
- a. an x-ray source adapted to emit penetrating, polychromatic radiation;
  
  b. a primary beam collimator adapted to limit the radiation emanating from said x-ray source to a primary fan beam that opens at a fan angle, circumscribes a primary beam direction, and is incident on said interrogation volume;
  
  c. a dual-energy detection system, comprising at least a low-energy x-ray detector and a high-energy x-ray detector, each detector being positioned to intercept and detect radiation in said primary fan beam transmitted through said baggage item;
  
  d. an energy-resolved x-ray detector for detecting radiation coherently scattered from said primary fan beam at a plurality of scattering angles by material within said interrogation volume, material in each portion of said interrogation volume producing scattered radiation detected at each of said plurality of scattering angles;
  
  e. computer means operably associated with said dual-energy detection system and said energy-resolved x-ray detector, said computer means being adapted to;
  
  i. determine an energy-dependent absorption correction from the output of said dual-energy detection system;
  
  ii. produce an energy-resolved scattering spectrum for each of said scattering angles from the output of said energy-resolved x-ray detector;
  
  iii. correct each of said energy-resolved scattering spectra using said energy-dependent absorption correction to produce a corrected spectrum for each of said scattering angles;
  
  iv. combine said corrected spectra to produce a diffraction scattering pattern; and
  
  v. compare said diffraction scattering pattern with the reference diffraction scattering pattern of at least one known contraband substance stored in said computer means to detect a match indicative of the presence of said known contraband substance in said interrogation volume; and
  
  f. a signal means associated with said computer means, said signal means being activated in response to the detection of said match.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A system as recited by claim 1, further comprising a display monitor and wherein said computer means is further adapted to assemble a transmission image of at least a portion of said baggage item using data generated by said dual-energy detection system and to display said transmission image on said display monitor.
  - 3. A system as recited by claim 2, wherein said display monitor is adapted to display a mapping indicative of the locations in said baggage item at which a contraband substance has been detected.
  - 4. A system as recited by claim 3, wherein said mapping is a false color mapping superimposed on said transmission image.
  - 5. A system as recited by claim 1, wherein said energy-resolved x-ray detector is selected from the group consisting of Ge, CdTe, and CdZnTe detectors.
  - 6. A system as recited by claim 5, wherein said energy-resolved x-ray detector is one of a CdTe or CdZnTe detector.
  - 7. A system as recited by claim 1, wherein said energy-resolved x-ray detector is a two-dimensional, energy and position-resolved detector.
  - 8. A system as recited by claim 1, comprising a plurality of energy-resolved x-ray detectors, each disposed at a separate scattering angle.
  - 9. A system as recited by claim 1, further comprising motion means for relatively moving said baggage item and said fan beam, whereby said penetrating radiation is incident on an extended interrogation zone.
  - 10. A system as recited by claim 9, wherein said motion means comprises a conveyor belt for moving said baggage item.
  - 11. A system as recited by claim 1, further comprising a focusing collimator adapted to intercept said coherently scattered radiation and pass said radiation to said energy-resolved x-ray detector.

12. A method for scanning an interrogation volume within a baggage item to signal the presence of at least one contraband substance, comprising the steps of:
- a. illuminating said interrogation volume with a primary fan beam of penetrating, polychromatic radiation, said fan beam opening at a fan angle and circumscribing a primary beam direction;
  
  b. determining an energy-dependent absorption correction for radiation transmitted through said interrogation volume using dual-energy detection;
  
  c. detecting, at a plurality of scattering angles, radiation coherently scattered by material within said interrogation volume to produce an energy-resolved scattering spectrum for each of said scattering angles, said detecting comprising use of at least one energy-resolved x-ray detector and material in each portion of said interrogation volume producing scattered radiation detected at each of said plurality of scattering angles;
  
  d. correcting each of said scattering spectra for absorption using said energy-dependent absorption correction to produce a corrected spectrum for each of said scattering angles;
  
  e. combining said corrected spectra to produce a diffraction scattering pattern;
  
  f. comparing said diffraction scattering pattern with at least one reference diffraction scattering pattern of a known contraband substance to detect a match indicative of the presence of said known contraband substance in said interrogation volume; and
  
  g. activating a signal means in response to the detection of said match.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
- - 13. A method as recited by claim 12, said determination of said energy-dependent absorption correction comprises measuring the attenuation of said primary fan beam by said baggage item at a plurality of energies.
  - 14. A method as recited by claim 13, said determination of said energy-dependent absorption correction further comprising the steps of:
    - a. determining the reference attenuation of a plurality of reference samples of known reference average atomic number and reference thickness;
      
      b. interpolating an average sample atomic number and average thickness representative of said interrogation volume from a comparison of said measured attenuation with said reference attention of said reference samples; and
      
      c. calculating the energy dependent absorption of material having said average sample atomic number and average thickness.
  - 15. A method as recited by claim 13, further comprising the steps of assembling a transmission image of at least a portion of said baggage item using said dual energy detection and displaying said transmission image on a display monitor.
  - 16. A method as recited by claim 15, wherein visual indication of said match is superimposed on said transmission image.
  - 17. A method as recited by claim 15, wherein said interrogation volume is selected using said transmission image.
  - 18. A method as recited by claim 12, wherein substantially all the volume of said baggage item is scanned.
  - 19. A method as recited by claim 12, wherein said detector is selected from the group consisting of Ge, CdTe, and CdZnTe detectors.
  - 20. A method as recited by claim 19, wherein said detector is one of a CdTe and CdZnTe detector.
  - 21. A method as recited by claim 12, wherein said detector is a two-dimensional, energy and position-resolved detector.
  - 22. A method as recited by claim 12, wherein detecting step is accomplished with a plurality of said energy-resolved detectors, each disposed at a separate scattering angle.
  - 23. A method as recited by claim 12, wherein said scanning is carried out by a computer program operably stored in a computer.
  - 24. A method as recited by claim 12, wherein said penetrating, polychromatic radiation is produced by an x-ray tube.
  - 25. A method as recited by claim 24, wherein said x-ray tube comprises a tungsten anode and operates at a potential of at least about 160 kV.
  - 26. A method as recited by claim 12, wherein said detecting step comprises use of a focusing collimator adapted to intercept said coherently scattered radiation and pass said radiation to said at least one energy-resolved x-ray detector.

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Current Assignee
Control Screening LLC
Original Assignee
Control Screening LLC
Inventors
Kravis, Scott D.
Primary Examiner(s)
Glick, Edward J.
Assistant Examiner(s)
Artman, Thomas R.

Application Number

US10/444,492
Publication Number

US 20060140340A1
Time in Patent Office

1,176 Days
Field of Search

378/57, 378/86, 378 88- 90
US Class Current

378/57
CPC Class Codes

G01N 23/20   by using diffraction of the...

G01V 5/222   measuring scattered radiation

G01V 5/224   Multiple energy techniques ...

X-ray inspection system for detecting explosives and other contraband

First Claim

1 Assignment

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Abstract

Citations

26 Claims

Specification

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X-ray inspection system for detecting explosives and other contraband

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

26 Claims

Specification

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Solutions

Use Cases

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