Recapture of remotely-tracked command guided vehicle into the tracker's field-of-view

I claim: 1. A method of recapture of a remotely tracked command guided vehicle within a tracker's field-of-view (FOV), the vehicle including a plurality of actuators configured to perform maneuvers in first and second mutually orthogonal directions, the method comprising: upon loss of a valid track of the vehicle, a) holding a last actuator command as a nominal actuator command that maneuvers the vehicle on a straight-line path from a last known position of the vehicle towards the tracker's FOV; b) generating a delta actuator command including an orthogonal component orthogonal to the straight-line path as a next sample of a time-based alternating signal; c) summing the nominal actuator command and the delta actuator command to generate a total actuator command; d) transmitting the total actuator command from the remote tracker to the vehicle to control the plurality of actuators to command guide the vehicle to maneuver in the first and second orthogonal directions back and forth across the straight-line path to increase an area of vehicle motion relative to the tracker's FOV; and repeating steps (a) through (d) until the vehicle re-enters the tracker's FOV and valid track is re-established or track is lost. 2. The method of claim 1 , wherein the time-based alternating signal increases in amplitude with time. 3. The method of claim 1 , wherein generating the orthogonal component further comprises adding a bias term to the time-based alternating signal to shape the area of vehicle motion. 4. The method of claim 3 , wherein the bias term includes a constant, ramp or exponential function of time. 5. The method of claim 1 , wherein generating the delta actuator command further includes generating an inline component inline with the straight-line path to control the rate of motion of the vehicle along the straight-line path. 6. The method of claim 5 , wherein the inline component includes a constant, ramp or exponential function of time. 7. The method of claim 5 , wherein generating the delta actuator command comprises generating initial inline and orthogonal components in a tracker coordinate system and using an angle of the straight-line path in the tracker coordinate system to transform the initial inline and orthogonal component into the inline and orthogonal components in a projectile coordinate system. 8. The method of claim 7 , wherein the inline and orthogonal components in the projectile coordinate system are defined by combinations of azimuth and elevation components that move the vehicle in the first and second orthogonal directions. 9. The method of claim 1 , wherein the delta actuator command is a function of at least one of an elapsed time of travel, a range to a target, range from launcher, a vehicle velocity, the straight-line path and an elapsed time since the last valid track. 10. The method of claim 1 , wherein the vehicle is a land, air, sea or space based vehicle. 11. The method of claim 1 , wherein the actuators comprise aerodynamic control surfaces, thrusters or propellers. 12. The method of claim 1 , wherein the commands are transmitted over a wire, WIFI, radio, laser, optical or infrared link to the vehicle. 13. The method of claim 1 , wherein the commands transmitted to the vehicle are analog, digital or bang-bang. 14. The method of claim 1 , wherein the remote tracking uses optical, infrared, radar or sonar sensing to determine vehicle position in the FOV. 15. A method of recapture of an remotely tracked missile within a tracker's field-of-view (FOV), the missile including a plurality of actuators configured to perform maneuvers in first and second mutually orthogonal directions, the method comprising: upon loss of a valid track of the missile, (a) holding a last actuator command as a nominal actuator command in a projectile coordinate system that maneuvers the missile on a straight-line path from a last known position of the missile towards the tracker's FOV; (b) generating a delta actuator command including an orthogonal component orthogonal to the straight-line path as a next sample of a time-based alternating signal and an inline component inline with the straight-line path; (c) using an angle of the straight-line path in the tracker coordinate system to transform the delta actuator command into a projectile coordinate system, (d) summing the nominal actuator command and the delta actuator command in the projectile coordinate system to generate a total actuator command; (e) transmitting the total actuator command from the remote tracker to the missile to control the plurality of actuators to command guide the missile to maneuver in the first and second orthogonal directions back and forth across the straight-line path to increase an area of missile motion relative to the tracker's FOV; and repeating steps (a) through (e) until the missile re-enters the tracker's FOV and valid track is re-established or track is lost. 16. A remotely tracked command guided missile system, comprising: a missile including a motor and a plurality of actuators configured to maneuver the missile in first and second mutually orthogonal directions in a projectile coordinate system; and a missile launcher comprising, a platform for launching the missile, a sight for placement of cross-hairs on a target; a sensor having a tracker field of view (FOV) that includes the cross-hairs; a communication link between the missile launcher and the missile; a guidance computer including a signal processor coupled to the sensor and configured to set a track valid flag if the missile is detected in the FOV and to generate a measured missile position in the FOV, a first summing node configured to form a difference of the measured missile position and a desired missile position in the FOV as an error signal, a controller configured to generate a new nominal actuator command based on the error signal if the track valid flag is true and hold a last valid nominal actuator command to place the missile on a straight-line path from a last known position of the missile towards the desired missile position in the FOV if the track valid flag is false; a recapture module implemented by the signal processor configured to generate a delta actuator command including an orthogonal component orthogonal to the straight-line path as a next sample of a time-based alternating signal; and a second summing node configured to sum the nominal actuator command and the delta actuator command to form a total actuator command; and a transmitter configured to transmit the total actuator command from the missile launcher over the communication link to the missile in flight to the control surface actuator to control the plurality of actuators to command guide the missile to maneuver in the first and second orthogonal directions back and forth across the straight-line path to increase an area of missile motion relative to the tracker's FOV until the signal processor determines that the missile re-enters the tracker's FOV and valid track is re-established setting the track valid flag to true or track is lost setting the track valid flag to false. 17. The remotely tracked command guided missile system of claim 16 , wherein the time-based alternating signal increases in amplitude with time. 18. The remotely tracked command guided missile system of claim 16 , wherein the orthogonal component further includes a bias term to shape the area of missile motion. 19. The remotely tracked command guided missile system of claim 16 , wherein the delta actuator command f