Control plate-based control actuation system

What is claimed: 1. A control plate-based control actuation system for steering a moving object, comprising: a control plate having at least four fin linkages for connecting at least four fins to the control plate; and three actuators configured to move the control plate to produce movement in two or more of the at least four fins; wherein the three actuators work to either push/pull or tilt the control plate control deflections of the two or more of the at least four fins, and wherein the three actuators work together to either push/pull or tilt the control plate according to a three-dimensional planar equation a(x−P x )+b(y −P y )+c(z −P z )=0. 2. The control plate-based control actuation system according to claim 1 , wherein the three actuators are linear actuators. 3. The control plate-based control actuation system according to claim 1 , wherein the control actuation system is in a tail section of the moving object. 4. The control plate-based control actuation system according to claim 1 , wherein the control actuation system is in a mid-body section of the moving object. 5. The control plate-based control actuation system according to claim 1 , further comprising a guidance system for controlling the control plate-based control actuation system to steer the moving object toward a target. 6. The control plate-based control actuation system according to claim 1 , wherein combinations of pitch, yaw, and roll inputs are combined in an actuator mapping and generate pitch, yaw, and roll commands. 7. The control plate-based control actuation system according to claim 1 , wherein the control plate defines a plane and is connected to the four control surfaces via right angle linkage. 8. A control plate-based control actuation system for steering a moving object, comprising: a control plate having at least four fin linkages for connecting at least four fins to the control plate; and three actuators configured to move the control plate to produce movement in two or more of the at least four fins; a guidance system for controlling the control plate-based control actuation system to steer the moving object toward a target; wherein a first actuator is configured to push or pull the control plate to move all fins simultaneously to create a roll moment in the moving object; wherein a second actuator is configured to push or pull the control plate to move a first pair of fins located opposite one another on the control plate to create a pitch moment in the moving object; and wherein a third actuator is configured to push or pull the control plate to move a second pair of fins located opposite one another on the control plate to create a yaw moment in the moving object. 9. The control plate-based control actuation system according to claim 8 , wherein the control actuation system is in a tail section of the moving object. 10. The control plate-based control actuation system according to claim 8 , wherein the control actuation system is in a mid-body section of the moving object. 11. The control plate-based control actuation system according to claim 8 , wherein the first actuator, second actuator, and third actuator are linear actuators. 12. A method of steering a moving object, comprising: providing a control plate-based control actuation system on the moving object, the control plate-based control actuation system comprising: a control plate having at least four fin linkages for connecting at least four fins to the control plate; and three actuators configured to move the control plate to produce movement in two or more of the at least four fins; pushing or pulling the control plate, via a first actuator, to move all fins simultaneously to create a roll moment in the moving object; pushing or pulling the control plate, via a second actuator, to move a first pair of fins located opposite one another on the control plate to create a pitch moment in the moving object; and pushing or pulling the control plate, via a third actuator, to move a second pair of fins located opposite one another on the control plate to create a yaw moment in the moving object; wherein the three actuators work together to either push/pull or tilt the control plate to control deflections of the two or more of the at least four fins. 13. The method according to claim 12 , further comprising controlling the control plate-based control actuation system, via a guidance system, to steer the moving object toward a target. 14. The method according to claim 12 , wherein the control actuation system is in a tail section of a round. 15. The method according to claim 12 , wherein the control actuation system is in a mid-body section of the moving object. 16. The method according to claim 12 , further comprising controlling the control plate-based control actuation system, via a guidance system, to steer the moving object toward a target.