The disclosed system, device and method for targeting and measurement of stationary target locations in addition to prediction of moving target positions for given weapon intercept times generally includes: a target location system (TLS) configured with a computing device, a GPS receiver, mapping so
The disclosed system, device and method for targeting and measurement of stationary target locations in addition to prediction of moving target positions for given weapon intercept times generally includes: a target location system (TLS) configured with a computing device, a GPS receiver, mapping software, calibration software and digital filtering software. Disclosed features and specifications may be variously controlled, adapted or otherwise optionally modified to improve target acquisition and engagement. Exemplary embodiments of the present invention generally provide for improved accuracy of range finders, magnetometers and inclinometers as well as for improved prediction of moving target positions.
대표청구항▼
We claim: 1. A real-time targeting system, said system comprising: a computing device, said computing device configured with at least one of a user interface and a display; a GPS receiver; and a data link; said computing device configured to: reduce Target Location System angular measurement error;
We claim: 1. A real-time targeting system, said system comprising: a computing device, said computing device configured with at least one of a user interface and a display; a GPS receiver; and a data link; said computing device configured to: reduce Target Location System angular measurement error; and execute at least one of target filtering software, target position prediction software, target position computation software, mapping software, and data link modem software. 2. The targeting system of claim 1, wherein at least one of said user interface and said display comprises a touch-screen. 3. The targeting system of claim 1, wherein said GPS receiver comprises at least one of a differential GPS receiver, a substantially integrated receiver, and a substantially external receiver. 4. The targeting system of claim 1, wherein said computing device is configured to receive digital target location measurement data via at least one of a cable and said data link. 5. The targeting system of claim 1, wherein said data link comprises a wireless data transmission. 6. The targeting system of claim 1, wherein said computing device is configured to host said software and to display at least one of a map and a pop-up window for interactive use by the operator. 7. The targeting system of claim 1, wherein said data link is configured to utilize a radio frequency data link having sufficient bandwidth to at least one of transmit targeting data and receive missile data. 8. The targeting system of claim 1, further comprising at least one of a magnetometer, an inclinometer, and an inertial measurement instrument for measuring at least one of azimuth and inclination. 9. The targeting system of claim 1, further comprising at least one optical element for at least one of focusing and aiming for at least one of nighttime operation and daytime operation of said targeting system. 10. The targeting system of claim 1, wherein at least one of said target filtering software and target position prediction software is configured to utilize target location system data to determine at least one of estimate moving target velocity and predict target position at a predetermined future time. 11. The targeting system of claim 1, wherein said target position computation software is configured to utilize at least one of target location system range, azimuth and inclination data and real-time targeting system GPS position data to compute target position coordinates. 12. The targeting system of claim 1, wherein said mapping software is configured to utilize control image base map data for at least one of display and extracting coordinates of selected points on a real-time targeting system display. 13. The targeting system of claim 1, wherein said data link modem software is configured to at least one of send and receive messages via a real-time targeting system data link to at least one of a weapon and another targeting system. 14. A method for real-time targeting, said method comprising the steps of: providing a computing device having at least one of a user interface and a display; providing a GPS receiver; providing a data link; and configuring said computing device to: reduce Target Location System angular measurement error; and execute at least one of target filtering software, target position prediction software, target position computation software, mapping software, and data link modem software. 15. The targeting method of claim 14, further comprising the step of configuring said computing device to receive digital target location measurement data via at least one of a cable and said data link. 16. The targeting method of claim 14, further comprising the step of configuring said data link to utilize a radio frequency data link having sufficient bandwidth to at least one of transmit targeting data and receive missile data. 17. The targeting method of claim 14, further comprising the step of providing at least one of a magnetometer, an inclinometer, an inertial measurement instrument for measuring at least one of azimuth and inclination, and at least one optical element for at least one of focusing and aiming. 18. The targeting method of claim 14, further comprising the step of configuring at least one of said target filtering software and target position prediction software to utilize target location system data to determine at least one of estimate moving target velocity and predict target position at a predetermined future time. 19. The targeting method of claim 14, further comprising the step of configuring said target position computation software to utilize at least one of target location system range, azimuth and inclination data and real-time targeting system GPS position data to compute target position coordinates. 20. The targeting method of claim 14, further comprising the step of configuring said mapping software to utilize control image base map data for at least one of display and extracting coordinates of selected points on a real-time targeting system display. 21. The targeting method of claim 14, further comprising the step of configuring said data link modem software to at least one of send and receive messages via a real-time targeting system data link to at least one of a weapon and another targeting system. 22. A computing device for real-time targeting, said device comprising: at least one of a user interface, a touch-screen and a display; at least one of a GPS receiver and a differential GPS receiver; and at least one of a data link, a cable and a wireless data link; said computing device configured to: reduce Target Location System angular measurement error; and execute at least one of target filtering software, target position prediction software, target position computation software, mapping software, and data link modem software; said computing device configured to display at least one of a map and a pop-up window for interactive use by an operator; said data link configured to utilize a radio frequency data link having sufficient bandwidth to at least one of transmit targeting data and receive missile data; said computing device configured to at least one of receive and process at least one of azimuth and inclination data from at least one of a magnetometer, an inclinometer, and an inertial measurement instrument.
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이 특허에 인용된 특허 (16)
Nowakowski Michael V. (Los Angeles CA), Autonomous precision weapon delivery using synthetic array radar.
Ratkovic, Joseph A.; Fersht, Samuel N.; Curby, Robert D.; Brockstein, Allan J.; Hsu, David Y., Projectile guidance with accelerometers and a GPS receiver.
Paulsen, Lee M.; Michaels, Donald L.; Thompson, Robert J.; Cook, Michael J.; Mather, John C., Low profile, conformal global positioning system array for artillery.
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