Portable air defense ground based launch detection system
First Claim
1. A method for protecting aircraft from being attacked by a missile which is launched in proximity to a flight path at an airport comprising the steps of:
- (a) detecting the launch of said missile which is targeted at said aircraft traveling along the flight path at said airport;
(b) monitoring said missile as said missile travels towards a targeted aircraft on an intercept path with said targeted aircraft;
(c) generating sensor video of the launch and flight of said missile as said missile travels towards the targeted aircraft on said intercept path, wherein a plurality of electro-optical sensors forming a grid are positioned in proximity to said flight path to generate said sensor video;
(d) processing said sensor video utilizing a plurality of digital computers, one of said digital computers being associated with and connected to one of said plurality electro-optical sensors to receive and process said sensor video generated by said electro-optical sensor;
(e) comparing pixels within said sensor video to determine which of said pixels exceed an intensity threshold and then finding a centroid for groups of adjacent pixels which exceed said intensity threshold, said centroid for each of said groups of adjacent pixels being representative of current position coordinates for said missile on said intercept path;
(f) generating sight line data for each of said plurality of electro-optical sensors, said sight line data being generated by processing said centroid for each of said groups of adjacent pixels, said sign line data generated for each of said plurality of electro-optical sensors representing sight lines between said missile and each of said plurality of electro-optical sensors as said missile travels along said intercept path;
(g) broadcasting said sight line data over said grid to each of said digital computers within said grid;
(h) processing said sight line data to determine when one of said sight lines intersects with another of said sight lines for a pair of electro-optical sensors having overlapping field of views wherein said digital computers within said grid process said sight line data to find each intersection of sight lines of said electro-optical sensors having overlapping field of views;
(i) generating three dimensional X,Y,Z coordinates of a point along the intercept path of said missile whenever one of said sight lines intersects with another of said sight lines for said pair of electro-optical sensors having overlapping field of views and an observation time for said three dimensional x,y,z coordinates wherein each of said digital computers within said grid generate said three dimensional X,Y,Z coordinates;
(j) transmitting said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to a central processor;
(k) correlating said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to generate a velocity vector which discriminates missile trajectory from infrared emissions in proximity to said missile; and
(l) identifying which of said aircraft on the flight path at said airport are target aircraft of said missile.
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Abstract
A ground based launch detection system consisting of a sensor grid of electro-optical sensors for detecting the launch of a threat missile which targets commercial aircraft in proximity to a commercial airport or airfield. The electro-optical sensors are configured in a wireless network which broadcast threat lines to neighboring sensors with overlapping field of views. When a threat missile is verified, threat data is sent to a centrally located processing facility which determines which aircraft in the vicinity are targets and send a dispense countermeasure signal to the aircraft.
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Citations
20 Claims
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1. A method for protecting aircraft from being attacked by a missile which is launched in proximity to a flight path at an airport comprising the steps of:
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(a) detecting the launch of said missile which is targeted at said aircraft traveling along the flight path at said airport; (b) monitoring said missile as said missile travels towards a targeted aircraft on an intercept path with said targeted aircraft; (c) generating sensor video of the launch and flight of said missile as said missile travels towards the targeted aircraft on said intercept path, wherein a plurality of electro-optical sensors forming a grid are positioned in proximity to said flight path to generate said sensor video; (d) processing said sensor video utilizing a plurality of digital computers, one of said digital computers being associated with and connected to one of said plurality electro-optical sensors to receive and process said sensor video generated by said electro-optical sensor; (e) comparing pixels within said sensor video to determine which of said pixels exceed an intensity threshold and then finding a centroid for groups of adjacent pixels which exceed said intensity threshold, said centroid for each of said groups of adjacent pixels being representative of current position coordinates for said missile on said intercept path; (f) generating sight line data for each of said plurality of electro-optical sensors, said sight line data being generated by processing said centroid for each of said groups of adjacent pixels, said sign line data generated for each of said plurality of electro-optical sensors representing sight lines between said missile and each of said plurality of electro-optical sensors as said missile travels along said intercept path; (g) broadcasting said sight line data over said grid to each of said digital computers within said grid; (h) processing said sight line data to determine when one of said sight lines intersects with another of said sight lines for a pair of electro-optical sensors having overlapping field of views wherein said digital computers within said grid process said sight line data to find each intersection of sight lines of said electro-optical sensors having overlapping field of views; (i) generating three dimensional X,Y,Z coordinates of a point along the intercept path of said missile whenever one of said sight lines intersects with another of said sight lines for said pair of electro-optical sensors having overlapping field of views and an observation time for said three dimensional x,y,z coordinates wherein each of said digital computers within said grid generate said three dimensional X,Y,Z coordinates; (j) transmitting said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to a central processor; (k) correlating said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to generate a velocity vector which discriminates missile trajectory from infrared emissions in proximity to said missile; and (l) identifying which of said aircraft on the flight path at said airport are target aircraft of said missile. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for protecting aircraft from being attacked by a missile which is launched in proximity to a flight path at an airport comprising the steps of:
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(a) detecting the launch of said missile which is targeted at said aircraft traveling along the flight path at said airport; (b) monitoring said missile as said missile travels towards a targeted aircraft on an intercept path with said targeted aircraft; (c) generating sensor video of the launch and flight of said missile as said missile travels towards the targeted aircraft on said intercept path, wherein a plurality of electro-optical sensors forming a grid are positioned in proximity to said flight path to generate said sensor video; (d) processing said sensor video utilizing a plurality of digital computers, one of said digital computers being associated with and connected to one of said plurality electro-optical sensors to receive and process said sensor video generated by said electro-optical sensor; (e) comparing pixels within said sensor video to determine which of said pixels exceed an intensity threshold and then finding a centroid for groups of adjacent pixels which exceed said intensity threshold, said centroid for each of said groups of adjacent pixels being representative of current position coordinates for said missile on said intercept path; (f) generating sight line data for each of said plurality of electro-optical sensors, said sight line data being generated by processing said centroid for each of said groups of adjacent pixels, said sign line data generated for each of said plurality of electro-optical sensors representing sight lines between said missile and each of said plurality of electro-optical sensors as said missile travels along said intercept path; (g) broadcasting said sight line data over said grid to each of said digital computers within said grid; (h) processing said sight line data to determine when one of said sight lines intersects with another of said sight lines for a pair of electro-optical sensors having overlapping field of views wherein said digital computers within said grid process said sight line data to find each intersection of sight lines of said electro-optical sensors having overlapping field of views; (i) generating three dimensional X,Y,Z coordinates of a point along the intercept path of said missile whenever one of said sight lines intersects with another of said sight lines for said pair of electro-optical sensors having overlapping field of views and an observation time for said three dimensional x,y,z coordinates wherein each of said digital computers within said grid generate said three dimensional X,Y,Z coordinates; (j) transmitting said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to a central processor; (k) correlating said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to generate a velocity vector which discriminates missile trajectory from infrared emissions in proximity to said missile; (l) identifying which of said aircraft on the flight path at said airport are target aircraft of said missile; and (m) sending a dispense countermeasure signal to said target aircraft, wherein said target aircraft upon receiving said dispense countermeasure signal releases a countermeasure comprising an infrared flare to deceive said missile and re-route said missile from said flight path. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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20. A method for protecting aircraft from being attacked by a missile which is launched in proximity to a flight path at an airport comprising the steps of:
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(a) detecting the launch of said missile which is targeted at said aircraft traveling along the flight path at said airport; (b) monitoring said missile as said missile travels towards a targeted aircraft on an intercept path with said targeted aircraft; (c) generating sensor video of the launch and flight of said missile as said missile travels towards the targeted aircraft on said intercept path, wherein a plurality of electro-optical sensors forming a grid are positioned in proximity to said flight path to generate said sensor video, one half of said electro-optical sensors within said grid are positioned on one side of said flight path equidistant from one another, and the other half of said electro-optical sensors within said grid are positioned on the opposite side of said flight path equidistant from one another, said electro-optical sensors adjacent to one another having said overlapping field of views; (d) processing said sensor video utilizing a plurality of digital computers, one of said digital computers being associated with and connected to one of said plurality electro-optical sensors to receive and process said sensor video generated by said electro-optical sensor; (e) comparing pixels within said sensor video to determine which of said pixels exceed an intensity threshold and then finding a centroid for groups of adjacent pixels which exceed said intensity threshold, said centroid for each of said groups of adjacent pixels being representative of current position coordinates for said missile on said intercept path; (f) generating sight line data for each of said plurality of electro-optical sensors, said sight line data being generated by processing said centroid for each of said groups of adjacent pixels, said sign line data generated for each of said plurality of electro-optical sensors representing sight lines between said missile and each of said plurality of electro-optical sensors as said missile travels along said intercept path; (g) broadcasting said sight line data over said grid to each of said digital computers within said grid; (h) processing said sight line data to determine when one of said sight lines intersects with another of said sight lines for a pair of electro-optical sensors having overlapping field of views wherein said digital computers within said grid process said sight line data to find each intersection of sight lines of said electro-optical sensors having overlapping field of views; (i) generating three dimensional X,Y,Z coordinates of a point along the intercept path of said missile whenever one of said sight lines intersects with another of said sight lines for said pair of electro-optical sensors having overlapping field of views and an observation time for said three dimensional x,y,z coordinates wherein each of said digital computers within said grid generate said three dimensional X,Y,Z coordinates; (j) transmitting said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to a central processor; (k) correlating said three dimensional X,Y,Z coordinates generated by each of said digital computers within said grid to generate a velocity vector which discriminates missile trajectory from infrared emissions in proximity to said missile, wherein a Kalman filter generates said velocity vector which discriminates said missile trajectory from said infrared emissions in proximity to said missile; (l) identifying which of said aircraft on the flight path at said airport are target aircraft of said missile; and (m) sending a dispense countermeasure signal to said target aircraft, wherein said target aircraft upon receiving said dispense countermeasure signal releases a countermeasure comprising an infrared flare to deceive said missile and re-route said missile from said flight path.
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Specification