Machine stability detection and control

What is claimed is: 1. A mobile work machine comprising: a frame; a set of ground engaging elements movably supported b the frame and driven by a power source to drive movement of the mobile work machine; a moveable element movably supported by the frame to move relative to the frame; an actuator coupled to the moveable element to controllably drive movement of the moveable element; a control system that generates an actuator control signal, indicative of a commanded movement of the actuator, and provides the actuator control signal to the actuator to control the actuator to perform the commanded movement; a terrain identifier configured to identify a characteristic of terrain in a geographic area around the periphery of the mobile work machine; and a stability system, coupled to the control system, that determines whether the commanded movement will result in an unstable state of the mobile work machine based on the identified characteristic of the terrain in the geographic area around the periphery of the mobile work machine and, if so, generates a restriction signal, restricting the commanded movement to avoid the unstable state. 2. The mobile work machine of claim 1 , wherein the stability system comprises: a terrain detector configured to generate a map defining a plurality of grid sections that correspond to geographic locations in the geographic area around the periphery of the mobile work machine, based on a terrain signal generated by the terrain identifier indicative of the identified terrain. 3. The mobile work machine of claim 2 , wherein the stability system comprises: a machine configuration detector configured to detect a machine configuration in which the mobile machine is likely to be configured if positioned at a given one of the geographic locations. 4. The mobile work machine of claim 3 , wherein the machine configuration detector detects a likely load on the mobile work machine, based on the detected machine configuration. 5. The mobile work machine of claim 4 , wherein the stability system comprises: stability detection logic, configured to detect a center of gravity of the mobile work machine at the given geographic location, based on the likely load and the identified characteristic of the terrain. 6. The mobile work machine of claim 5 , wherein the stability detection logic detects the unstable state of the mobile work machine by determining whether the center of gravity of the mobile work machine is within a threshold area bounded by the ground engaging elements. 7. The mobile work machine of claim 6 , wherein the stability system comprises: a dynamic stability controller that receives art indication from the stability detection logic, indicative of a determination that the center of gravity is not within the threshold area, and automatically restricts generation of the actuator control signal, based on the indication. 8. The mobile work machine of claim 7 , wherein the dynamic stability controller generates the restriction signal to restrict the commanded movement and prevent configuration of the mobile work machine in the machine configuration to avoid the unstable state. 9. The mobile work machine of claim 8 , wherein the dynamic stability controller comprises: a model-look up component that generates a weighted value and assigns the weighted value to the commanded movement, wherein the weighted value is indicative of a degree of deviation, of the center of gravity from the threshold area, attributed to the commanded movement. 10. The mobile work machine of claim 5 , wherein the stability detection logic identities a slope at a particular grid point in the map corresponding to the given geographic location, based on the terrain signal, and detects the center of gravity of the mobile work machine by detecting a likely elevation of at least one of the ground engaging elements relative to the frame, based on the slope. 11. The mobile work machine of claim 10 , wherein the stability detection logic detects the center of gravity based on the likely load on the mobile work machine relative to the likely elevation, of the at least one ground engaging element. 12. A method of controlling a mobile machine comprising; generating a control signal, indicative of a commanded operation of a controllable subsystem, to the controllable subsystem of the mobile machine to control the controllable subsystem to perform the commanded operation; identifying, with a terrain identifier of the mobile machine, a characteristic of terrain in a geographic area around the periphery of the mobile machine; and determining whether the commanded operation will result in an unstable state of the mobile machine based on the identified characteristic of the terrain in the geographic area around the periphery of the mobile machine and, if so, generating a restriction signal that restricts the commanded operation to avoid the unstable state. 13. The method of claim 12 , wherein the controllable subsystem is a steering subsystem that controls the heading of the mobile machine and the commanded operation comprises a commanded turning angle of the steering subsystem. 14. The method of claim 13 , wherein the restriction signal restricts the angle at which the steering subsystem can turn the mobile machine. 15. The method of claim 12 , wherein the controllable subsystem is a propulsion subsystem that drives movement of the mobile machine and the commanded operation comprises a commanded speed of the propulsion subsystem. 16. The method of claim 15 , wherein the restriction signal restricts the speed at which the propulsion system can drive movement of the mobile machine. 17. The method of claim 12 , wherein the controllable subsystem is an actuator subsystem having an actuator that drives movement of a movable element movably mounted to the machine to position the movable element relative to the machine and the commanded operation comprises a commanded movement of the actuator to position the movable element. 18. The method of claim 17 , wherein the restriction signal restricts the movement of the actuator to restrict the position of the movable element to stay within a range of positions. 19. The method of claim 12 , wherein the restriction signal prevents the controllable subsystem from performing the commanded operation indicated by the control signal. 20. A mobile work machine, comprising; a frame; a ground engaging element movably supported by the frame and driven by a power source to drive movement of the mobile work machine; a movable element movably supported by the frame to move relative to the frame; an actuator coupled to the movable element to controllably drive movement of the movable element; and a stability control system that identifies a characteristic of terrain in a geographic area around the periphery of the mobile work machine and determines if a commanded action of the actuator will result in an unstable state of the mobile work machine, based on the identified characteristic of the terrain in the geographic area around the periphery of the mobile work machine.