Weapon location by acoustic-optic sensor fusion
DCFirst Claim
1. A weapon localization system adapted to determine the location of weapon fire, said system comprising:
- acoustical detection and direction sensing means for detecting energy of a first frequency originating from said weapon fire, and for transmitting a first set of data describing direction to said weapon fire and time of detection of said energy of a first frequency; and
optical detection and direction sensing means for detecting and sensing direction to energy of a second frequency originating from said weapon fire, and for transmitting a second set of data describing said direction to said weapon fire and time of detection of said energy of a second frequency; and
radio frequency detection means for detecting energy of a third frequency originating from said weapon fire, and for transmitting a third set of data describing said time of detection of said energy of a third frequency; and
a first processing means coupled to said acoustical detection and direction sensing means, and said optical detection and direction sensing means, for receiving said first set of data, and said second set of data, and for determining whether said direction described by said first set of data match said direction described by said second set of data and for generating a signal output if said match occurs; and
a second processing means coupled to said optical detection and direction sensing means, and said radio frequency detection means, for receiving said second set of data and said third set of data, and for determining whether said time of detection described by said second set of data match said time of detection described by said third set of data and for generating a signal output if said match occurs.
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Abstract
An weapon localization system for determining the location of hostile weapon fire. In one embodiment, the weapon localization system includes acoustical detection means for detecting energy of a first frequency originating from said hostile weapon fire; and for transmitting a first set of data describing the location of said hostile weapon fire; optical detection means for detecting energy of a second frequency originating from said hostile weapon fire, and for transmitting a second set of data describing the location of said hostile weapon fire; and processing means coupled to said acoustical and said optical detection means for receiving said first and said second set of data and for determining whether said location of said first set of data match said location of second set of data and for generating a signal output if said match occurs.
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Citations
28 Claims
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1. A weapon localization system adapted to determine the location of weapon fire, said system comprising:
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acoustical detection and direction sensing means for detecting energy of a first frequency originating from said weapon fire, and for transmitting a first set of data describing direction to said weapon fire and time of detection of said energy of a first frequency; and
optical detection and direction sensing means for detecting and sensing direction to energy of a second frequency originating from said weapon fire, and for transmitting a second set of data describing said direction to said weapon fire and time of detection of said energy of a second frequency; and
radio frequency detection means for detecting energy of a third frequency originating from said weapon fire, and for transmitting a third set of data describing said time of detection of said energy of a third frequency; and
a first processing means coupled to said acoustical detection and direction sensing means, and said optical detection and direction sensing means, for receiving said first set of data, and said second set of data, and for determining whether said direction described by said first set of data match said direction described by said second set of data and for generating a signal output if said match occurs; and
a second processing means coupled to said optical detection and direction sensing means, and said radio frequency detection means, for receiving said second set of data and said third set of data, and for determining whether said time of detection described by said second set of data match said time of detection described by said third set of data and for generating a signal output if said match occurs. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
(a) Sensing optical energy generated from said weapon fire;
(b) Sensing acoustical energy generated from said weapon fire;
(c) Determining a first time at which said optical energy was sensed;
(d) Determining a second time at which said acoustical energy was sensed;
(e) Determining a difference between said first and said second times; and
(f) Calculating said range by use of difference between said first and said second times.
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11. A method for determining the distance from the weapon localization system of claim 1 to location of said weapon fire were the initial direction to said weapon is unknown, said method comprising the steps of:
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(a) Sensing radio frequency energy generated from said weapon fire;
(b) Sensing acoustical energy generated from said weapon fire;
(c) Determining a first time at which said radio frequency energy was sensed;
(d) Determining a second time at which said acoustical energy was sensed;
(e) Determining a difference between said first and said second times; and
(f) Calculating said range by use of difference between said first and said second times.
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12. The weapon localization system of claim 1 wherein said optical detection and direction sensing means comprises optical imaging transducer means and optical reflection means that are fixed in relative physical positions such that said energy of a second frequency originating from said weapon fire and incident on said optical reflection means from any horizontal direction and any elevation angle between 90 degrees above a horizontal plane and 10 degrees below said horizontal plane is sensed by said optical imaging transducer means and forms an image on said optical imaging transducer means at a location that uniquely corresponds to the direction to said weapon fire;
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a third processing means coupled to said optical imaging transducer means adapted to receive a fourth set of data from said optical imaging transducer means and determine direction to said weapon fire and for transmitting a fifth set of data describing said time of detection of said energy of a second frequency and said direction to said weapon fire.
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13. The weapon localization system of claim 12 wherein said optical reflection means comprises a reflector with the shape of a cone.
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14. The weapon localization system of claim 12 wherein said optical reflection means comprises a reflector with the shape of a hyperboloid.
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15. The weapon localization system of claim 1 wherein said optical detection and direction sensing means comprises optical imaging transducer means and an optical refraction means that are fixed in relative physical positions such that said energy of a second frequency originating from said weapon fire and incident on said optical refraction means from any horizontal direction and any elevation angle between 90 degrees above a horizontal plane and 10 degrees below said horizontal plane is sensed by said optical imaging transducer means and forms an image on said optical imaging transducer means at a location that uniquely corresponds to the direction to said weapon fire;
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a fourth processing means coupled to said optical imaging transducer means adapted to receive a sixth set of data from said optical imaging transducer means and determine direction to said weapon fire and for transmitting a seventh set of data describing said direction to said weapon fire and time of detection of said energy of a second frequency.
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16. The weapon localization system of claim 1 wherein said optical refraction means comprises a wide angle lens.
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17. The weapon localization system of claim 12 wherein said optical refraction means comprises a reflector with the shape of a parabaloid.
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18. The weapon localization system of claim 12 wherein said optical optical imaging transducer means comprises an ultraviolet imaging camera.
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19. The weapon localization system of claim 12 wherein said optical imaging transducer means comprises an infrared imaging camera.
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20. The weapon localization system of claim 12 wherein said optical imaging transducer means comprises a visual imaging camera.
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21. The weapon localization system of claim 1 wherein said weapon localization system comprises a top attack localization system.
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22. The weapon localization system of claim 1 wherein said weapon localization system comprises a sniper localization system.
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23. A weapon localization system as in claim 1 comprising an acoustic receiver;
- an optical receiver;
a radio frequency receiver;
a processor coupled to each of said receivers; and
an information display.
- an optical receiver;
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24. A weapon localization system as in claim 1 comprising one or more acoustic receivers;
- one or more optical receivers;
one or more radio frequency receivers;
a processor coupled to each of said receivers; and
an information display.
- one or more optical receivers;
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25. A weapon localization system as in claim 1 comprising an acoustic receiver;
- one or more optical receivers;
a processor coupled to each of said receivers; and
an information display.
- one or more optical receivers;
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26. A weapon localization system as in claim 1 comprising one or more acoustic receivers;
- one or more radio frequency receivers;
a processor coupled to each of said receivers; and
an information display.
- one or more radio frequency receivers;
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27. A weapon localization system as in claim 1 comprising one or more optical receivers;
- one or more radio frequency receivers;
a processor coupled to each of said receivers; and
an information display.
- one or more radio frequency receivers;
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28. A weapon localization system as in claim 1 comprising one or more optical receivers;
- one or more radio frequency receivers;
a processor coupled to each of said receivers; and
an information display.
- one or more radio frequency receivers;
Specification