초록 ▼

A sensing device is described that is configured to be launched from an air vehicle for deployment on the ground. The sensing device includes at least one sensor, an inertial measurement unit (IMU), at least one flight control surface, a flight control unit configured to control a position of the fl

A sensing device is described that is configured to be launched from an air vehicle for deployment on the ground. The sensing device includes at least one sensor, an inertial measurement unit (IMU), at least one flight control surface, a flight control unit configured to control a position of the flight control surfaces, and a processing unit. The processing unit is coupled to the IMU and is configured to receive a desired trajectory from an external source and, upon launch of the sensing device, is further configured to determine an error between the desired trajectory and a current position as determined by the IMU. The processing unit is also configured to cause the flight control unit to adjust a position of the flight control surfaces to minimize the error.

대표청구항 ▼

What is claimed is: 1. A sensing device configured to be launched from an air vehicle for deployment on the ground, said sensing device comprising: an inertial measurement unit (IMU); at least one flight control surface; a flight control unit configured to control a position of said at least one fl

What is claimed is: 1. A sensing device configured to be launched from an air vehicle for deployment on the ground, said sensing device comprising: an inertial measurement unit (IMU); at least one flight control surface; a flight control unit configured to control a position of said at least one flight control surface; and a processing unit coupled to said IMU and configured to receive a desired trajectory from an external source, said processing unit, upon launch of said sensing device, configured to determine an error between the desired trajectory and a current position as determined by said IMU, said processing unit configured to cause said flight control unit to adjust a position of said at least one flight control surface to minimize the error. 2. A sensing device according to claim 1 wherein said IMU is initialized with a latitude, longitude, and altitude from a navigation system in the air vehicle. 3. A sensing device according to claim 1 wherein to determine an error between the desired trajectory and a current position said processing unit is configured to compare a latitude, longitude, and altitude from said IMU with a latitude, longitude, and altitude from the desired trajectory. 4. A sensing device according to claim 1 wherein said processing unit is configured to: determine a vertical error between an altitude from said IMU and a desired altitude within the desired trajectory; and determine a horizontal error between a latitude and longitude from said IMU and a desired latitude and longitude within the desired trajectory. 5. A sensing device according to claim 4 wherein the vertical error and the horizontal error are applied to said flight control unit. 6. A sensing device according to claim 1 wherein said flight control unit is configured to receive attitude data from said IMU. 7. A sensing device according to claim 6 wherein said flight control unit is configured to utilize the attitude data to adjust said at least one flight control surface to adjust an orientation of said sensing device. 8. A sensing device according to claim 1 further comprising: at least one sensor; and a transmitting device configured to transmit a status from said at least one sensor upon ground deployment of said sensing device. 9. A unit for initializing sensing devices for launch from an air vehicle, said unit comprising: an air vehicle release position estimation algorithm configured to calculate a desired position for launching the sensing devices from a received desired deployment position for each sensing device and a received current velocity, direction and position of the air vehicle; and a trajectory algorithm configured to output a trajectory to a sensing device, said trajectory algorithm configured to calculate the trajectory from the calculated position for launching the sensing devices and the current velocity, direction and position of the air vehicle. 10. A unit according to claim 9 wherein said trajectory algorithm is configured to determine a desired latitude and longitude for each of a series of altitudes for the sensing device. 11. A processing unit for a sensing device, the sensing device configured to be launched from an air vehicle for deployment on the ground, said unit configured to: receive a desired trajectory from an external source; configured to, upon launch of the sensing device, determine an error between the desired trajectory and a current position as determined by an inertial measurement unit within the sensing device; and cause adjustments to a position of one or more flight control surfaces of the sensing device to minimize the error between the desired trajectory and the current position. 12. A processing unit according to claim 11 wherein to determine an error between the desired trajectory and the current position, said processing unit is configured to compare a latitude, longitude, and altitude received from the inertial measurement unit with a latitude, longitude, and altitude from the desired trajectory. 13. A processing unit according to claim 11 configured to: determine a vertical error between an altitude from the inertial measurement unit and a desired altitude within the desired trajectory; and determine a horizontal error between a latitude and longitude from the inertial measurement unit and a desired latitude and longitude within the desired trajectory. 14. A processing unit according to claim 13 configured to apply the vertical error and the horizontal error to a flight control unit. 15. A method for deploying a sensing device from an air vehicle for deployment on the ground, said method comprising: configuring the sensing device for initialization with a desired trajectory and a current position; programming the sensing device to determine an error between the desired trajectory and a current position during its descent; and configuring the sensing device to adjust a position of one or more flight control surfaces of the sensing device to minimize the error. 16. A method according to claim 15 wherein configuring the sensing device for initialization comprises configuring the sensing device to receive a latitude, longitude, and altitude from a navigation system in the air vehicle. 17. A method according to claim 15 wherein programming the sensing device to determine an error between the desired trajectory and a current position comprises programming the sensing device to compare a latitude, longitude, and altitude from an inertial measurement unit within the sensing device with a latitude, longitude, and altitude from the desired trajectory. 18. A method according to claim 15 wherein determining an error between the desired trajectory and a current position comprises: determining a vertical error between an altitude from an inertial measurement unit within the sensing device and a desired altitude within the desired trajectory; and determining a horizontal error between a latitude and longitude from the inertial measurement unit and a desired latitude and longitude within the desired trajectory. 19. A method according to claim 18 wherein configuring the sensing device to adjust a position of one or more flight control surfaces comprises: configuring the sensing device to apply the vertical error and the horizontal error to a flight control unit; and configuring the flight control unit to adjust the flight control surfaces of the sensing device. 20. A method according to claim 15 further comprising configuring a flight control unit within the sensing device to receive attitude data from an inertial measurement unit within the sensing device. 21. A method according to claim 20 comprising configuring the flight control unit to utilize the attitude data to adjust the one or more flight control surfaces to adjust an orientation of the sensing device.