Stabilization system for a mining machine

We claim: 1. A mining machine including: a frame; a cutting head supported for movement on the frame; an actuator for stabilizing the frame relative to a mine surface, the actuator coupled to the frame and including an end extendable in a first direction to engage the mine surface; and a control system configured to operate the actuator, the control system configured to retract the actuator, for a predetermined amount of time, from a position at which at least one indicator of the force between the actuator and the mine surface satisfies a specified range, and extend the actuator for the predetermined amount of time plus an additional amount of time. 2. The mining machine of claim 1 , wherein the actuator is a first actuator and the mine surface is a first mine surface, the mining machine further comprising a second actuator for stabilizing the frame relative to a second mine surface, the second actuator being coupled to the frame and including an end extendable in a second direction to engage the second mine surface, wherein the control system is configured to operate the second actuator, the control system configured to retract the second actuator, for a predetermined amount of time, from a position at which at least one indicator of the force between the second actuator and the second mine surface satisfies a specified range, and extend the second actuator for the predetermined amount of time plus an additional amount of time. 3. The mining machine of claim 1 , further comprising a headboard coupled to the end of the actuator and configured to engage the mine surface. 4. The mining machine of claim 3 , wherein the headboard is pivotably coupled to the end of the actuator by a ball-in-socket joint. 5. The mining machine of claim 3 , wherein the headboard includes a substantially triangular profile. 6. The mining machine of claim 1 , further comprising a spacer positioned between the end of the actuator and the mine surface. 7. The mining machine of claim 1 , wherein the actuator includes a hydraulic cylinder, and the at least one indicator of force between the actuator and the mine surface is a hydraulic pressure within the hydraulic cylinder. 8. The mining machine of claim 7 , further comprising a directional control valve for controlling fluid flow into and away from the actuator in order to extend and retract the actuator. 9. The mining machine of claim 1 , wherein the cutting head includes at least one oscillating cutting disc supported for eccentric movement. 10. The mining machine of claim 1 , further comprising at least one of a pressure transducer detecting the at least one indicator of the force between the first actuator and the mine surface, and a displacement transducer detecting a position of the first actuator. 11. A control system for operating at least one stabilization member to engage a support surface, the control system comprising: a sensor configured to detect at least one indicator of a force exerted between an end of the stabilization member and the support surface; and a controller in communication with the sensor, the controller configured to retract the stabilization member, for a predetermined amount of time, from a position at which the at least one indicator of the force between the stabilization member and the support surface satisfies a specified range, the controller further configured to extend the stabilization member for the predetermined amount of time plus an additional amount of time. 12. The control system of claim 11 , wherein the control system is configured to operate a second stabilization member to engage a second support surface, the control system configured to retract the second stabilization member, for a predetermined amount of time, from a position at which at least one indicator of the force between the second stabilization member and the second support surface satisfies a specified range, the controller further configured to extend the second stabilization for the predetermined amount of time plus an additional amount of time. 13. The control system of claim 11 , wherein the control system is configured to operate a second stabilization member to engage the support surface, the control system configured to retract the second stabilization member, for the predetermined amount of time, from a position at which at least one indicator of the force between the second stabilization member and the second support surface satisfies a specified range, the controller further configured to extend the first stabilization member and the second stabilization member for the predetermined amount of time plus an additional amount of time. 14. The control system of claim 11 , wherein the stabilization member includes a hydraulic cylinder, and the at least one indicator of force between the stabilization member and the support surface is a hydraulic pressure within the hydraulic cylinder. 15. The control system of claim 14 , further comprising a directional control valve for controlling fluid flow into and away from the stabilization member in order to extend and retract the stabilization member. 16. The control system of claim 11 , further comprising at least one of a pressure transducer detecting the at least one indicator of the force between the stabilization member and the support surface, and a displacement transducer detecting a position of the stabilization member.