Magnetic anomaly surveillance system using spherical trilateration

US 8,575,929 B1
Filed: 06/20/2011
Issued: 11/05/2013
Est. Priority Date: 06/20/2011
Status: Active Grant

First Claim

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1. A magnetic anomaly surveillance system, comprising:

a plurality of triaxial magnetometer (TM) sensors with each of said TM sensors having X,Y,Z magnetic sensing axes, said TM sensors arranged in an array with respective ones of said X,Y,Z magnetic sensing axes being mutually parallel to one another in said array, each of said TM sensors at a known location in a coordinate system;

a processor coupled to each of said TM sensors forgenerating a scalar magnitude of a magnetic anomaly field measured at each of said TM sensors, wherein each said scalar magnitude is indicative of a spherical radius centered at said known location associated with a corresponding one of said TM sensors,generating a comparison between each said scalar magnitude and a threshold value, anddetermining at least one magnetic anomaly location in said coordinate system via a spherical trilateration process that uses each said spherical radius and each said scalar magnitude associated with selected ones of said TM sensors for which said threshold value is exceeded; and

at least one output device coupled to said processor for outputting data indicative of said at least one magnetic anomaly location.

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Abstract

A magnetic anomaly surveillance system includes triaxial magnetometer (TM) sensors arranged at known locations in an array. A processor coupled to the TM sensors generates a scalar magnitude of a magnetic anomaly field measured at each of the TM sensors. The scalar magnitude is indicative of a spherical radius centered at the known location associated with a corresponding one of the TM sensors. The processor also generates a comparison between each scalar magnitude and a threshold value. The processor then determines at least one magnetic anomaly location in the coordinate system via a spherical trilateration process that uses each spherical radius and each scalar magnitude associated with selected ones of the TM sensors for which the threshold value is exceeded. One or more output devices coupled to the processor output data indicative of the one or more magnetic anomaly locations.

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24 Claims

1. A magnetic anomaly surveillance system, comprising:
- a plurality of triaxial magnetometer (TM) sensors with each of said TM sensors having X,Y,Z magnetic sensing axes, said TM sensors arranged in an array with respective ones of said X,Y,Z magnetic sensing axes being mutually parallel to one another in said array, each of said TM sensors at a known location in a coordinate system;
  
  a processor coupled to each of said TM sensors forgenerating a scalar magnitude of a magnetic anomaly field measured at each of said TM sensors, wherein each said scalar magnitude is indicative of a spherical radius centered at said known location associated with a corresponding one of said TM sensors,generating a comparison between each said scalar magnitude and a threshold value, anddetermining at least one magnetic anomaly location in said coordinate system via a spherical trilateration process that uses each said spherical radius and each said scalar magnitude associated with selected ones of said TM sensors for which said threshold value is exceeded; and
  
  at least one output device coupled to said processor for outputting data indicative of said at least one magnetic anomaly location.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A magnetic anomaly surveillance system as in claim 1, wherein said processor further determines a magnetic dipole moment at said at least one magnetic anomaly location, and wherein said magnetic dipole moment is included in said data.
  - 3. A magnetic anomaly surveillance system as in claim 1, wherein said array is one-dimensional, and wherein said plurality of TM sensors comprises at least two TM sensors.
  - 4. A magnetic anomaly surveillance system as in claim 1, wherein said array is two-dimensional, and wherein said processor determines said at least one magnetic anomaly location in said coordinate system only when said selected ones of said TM sensors for which said threshold value is exceeded comprises at least three of said TM sensors.
  - 5. A magnetic anomaly surveillance system as in claim 4, wherein highest values of said scalar magnitude are associated with said at least three of said TM sensors.
  - 6. A magnetic anomaly surveillance system as in claim 1, wherein said array is three-dimensional, and wherein said processor determines said at least one magnetic anomaly location in said coordinate system only when said selected ones of said TM sensors for which said threshold value is exceeded comprises at least four of said TM sensors.
  - 7. A magnetic anomaly surveillance system as in claim 6, wherein highest values of said scalar magnitude are associated with said at least four of said TM sensors.
  - 8. A magnetic anomaly surveillance system as in claim 1, wherein said processor further generates a differential quantity for pairs of said TM sensors, each said differential quantity defined by a difference between said scalar magnitude for each of said TM sensors associated with one of said pairs wherein, when each said differential quantity is approximately zero, said processor does not determine said at least one magnetic anomaly location via said spherical trilateration process when said threshold value is exceeded.
  - 9. A magnetic anomaly surveillance system as in claim 1, further comprising a Global Positioning System (GPS) receiver at each said known location and coupled to said processor, each said GPS receiver generating data indicative of said known location associated therewith.

10. A magnetic anomaly surveillance system, comprising:
- a plurality of time-synchronized, magnetic field sensing nodes arranged in an array with respective ones of X,Y,Z magnetic sensing axes of each of said nodes being mutually parallel to one another in said array, each of said TM nodes at a known location in a coordinate system with one said known location serving as a reference location in said coordinate system;
  
  a processor coupled to each of said nodes forgenerating a scalar magnitude of a magnetic anomaly field measured at each of said nodes, wherein each said scalar magnitude is indicative of a spherical radius centered at said known location associated with a corresponding one of said nodes,generating a comparison between each said scalar magnitude and a threshold value, anddetermining at least one magnetic anomaly location in said coordinate system relative to said reference location via a spherical trilateration process that uses each said spherical radius and each said scalar magnitude associated with selected ones of said nodes for which said threshold value is exceeded,determining a magnetic dipole moment at said at least one magnetic anomaly location; and
  
  at least one output device coupled to said processor for outputting data indicative of said at least one magnetic anomaly location and said magnetic dipole moment.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
- - 11. A magnetic anomaly surveillance system as in claim 10, wherein said array is one-dimensional, and wherein said plurality of nodes comprises at least two nodes.
  - 12. A magnetic anomaly surveillance system as in claim 10, wherein said array is two-dimensional, and wherein said processor determines said at least one magnetic anomaly location in said coordinate system only when said selected ones of said nodes for which said threshold value is exceeded comprises at least three of said nodes.
  - 13. A magnetic anomaly surveillance system as in claim 12, wherein highest values of said scalar magnitude are associated with said at least three of said nodes.
  - 14. A magnetic anomaly surveillance system as in claim 10, wherein said array is three-dimensional, and wherein said processor determines said at least one magnetic anomaly location in said coordinate system only when said selected ones of said nodes for which said threshold value is exceeded comprises at least four of said nodes.
  - 15. A magnetic anomaly surveillance system as in claim 14, wherein highest values of said scalar magnitude are associated with said at least four of said nodes.
  - 16. A magnetic anomaly surveillance system as in claim 10, wherein said processor further generates a differential quantity for pairs of said nodes, each said differential quantity defined by a difference between said scalar magnitude for each of said nodes associated with one of said pairs wherein, when each said differential quantity is approximately zero, said processor does not determine said at least one magnetic anomaly location via said spherical trilateration process when said threshold value is exceeded.
  - 17. A magnetic anomaly surveillance system as in claim 10, further comprising a Global Positioning System (GPS) receiver at each said known location and coupled to said processor.

18. A magnetic anomaly surveillance system, comprising:
- a plurality of triaxial magnetometer (TM) sensors with each of said TM sensors having X,Y,Z magnetic sensing axes, said TM sensors arranged in an array with respective ones of said X,Y,Z magnetic sensing axes being mutually parallel to one another in said array, each of said TM sensors at a known location in a coordinate system;
  
  a processor coupled to each of said TM sensors forgenerating a scalar magnitude of a magnetic anomaly field measured at each of said TM sensors, wherein each said scalar magnitude is indicative of a spherical radius centered at said known location associated with a corresponding one of said TM sensors,generating a comparison between each said scalar magnitude and a threshold value,generating a differential quantity for pairs of said TM sensors, each said differential quantity defined by a difference between said scalar magnitude for each of said TM sensors associated with one of said pairs,determining at least one magnetic anomaly location in said coordinate system via a spherical trilateration process that uses each said spherical radius and each said scalar magnitude associated with selected ones of said TM sensors for which said threshold value is exceeded, wherein, when each said differential quantity is approximately zero, said processor does not determine said at least one magnetic anomaly location via said spherical trilateration process when said threshold value is exceeded, anddetermining a magnetic dipole moment at said at least one magnetic anomaly location; and
  
  at least one output device coupled to said processor for outputting data indicative of said at least one magnetic anomaly location and said magnetic dipole moment.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. A magnetic anomaly surveillance system as in claim 18, wherein said array is one-dimensional, and wherein said plurality of TM sensors comprises at least two TM sensors.
  - 20. A magnetic anomaly surveillance system as in claim 18, wherein said array is two-dimensional, and wherein said processor determines said at least one magnetic anomaly location in said coordinate system only when said selected ones of said TM sensors for which said threshold value is exceeded comprises at least three of said TM sensors.
  - 21. A magnetic anomaly surveillance system as in claim 20, wherein highest values of said scalar magnitude are associated with said at least three of said TM sensors.
  - 22. A magnetic anomaly surveillance system as in claim 18, wherein said array is three-dimensional, and wherein said processor determines said at least one magnetic anomaly location in said coordinate system only when said selected ones of said TM sensors for which said threshold value is exceeded comprises at least four of said TM sensors.
  - 23. A magnetic anomaly surveillance system as in claim 22, wherein highest values of said scalar magnitude are associated with said at least four of said TM sensors.
  - 24. A magnetic anomaly surveillance system as in claim 18, further comprising a Global Positioning System (GPS) receiver at each said known location and coupled to said processor, each said GPS receiver generating data indicative of said known location associated therewith.

Specification

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Litigation Campaign Assessment

Current Assignee
U.S. Government As Represented By The Seceretary Of The Navy
Original Assignee
the united states of america as represented by the secretary of the navy
Inventors
Wiegert, Roy F.
Primary Examiner(s)
Vazquez, Arleen M
Assistant Examiner(s)
LE, SON T

Application Number

US13/135,327
Time in Patent Office

869 Days
Field of Search

324/244, 324/260, 324246-247, 324210-213, 324/326, 324/345
US Class Current

324/245
CPC Class Codes

G01R 33/0206 Three-component magnetometers

G01R 33/028 Electrodynamic magnetometers

Magnetic anomaly surveillance system using spherical trilateration

First Claim

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Abstract

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24 Claims

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Magnetic anomaly surveillance system using spherical trilateration

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

24 Claims

Specification

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Solutions

Use Cases

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