Closed loop control system for blade sharpening

What is claimed is: 1 . A controller for use in controlling a blade sharpening system that includes at least one grinding wheel operable to sharpen a blade, the controller comprising: a memory device; and a processor communicatively coupled to the memory device, the processor configured to: control the at least one grinding wheel to move into contact with the blade, while the blade is being rotated, to impart rotational movement to the at least one grinding wheel; receive signals from at least one sensor, the at least one sensor operable to monitor rotation of the at least one grinding wheel; and adjust a position of the at least one grinding wheel relative to the blade based on the received signals, wherein to adjust the position of the least one grinding wheel, the processor is configured to: count a number of rotations of the at least one grinding wheel based on the received signals; and retract the at least one grinding wheel from the blade when the counted number of rotations reaches a grind cycle rotation count. 2 . The controller set forth in claim 1 , wherein to adjust the position of the at least one grinding wheel, the processor is configured to: determine, based on the received signals, a rotational speed of the at least one grinding wheel; and compare the determined rotational speed to a target rotational speed. 3 . The controller set forth in claim 1 , wherein to adjust the position of the at least one grinding wheel, the processor is configured to adjust the position of the at least one grinding wheel to maintain a substantially constant applied pressure on the blade by the at least one grinding wheel. 4 . The controller set forth in claim 1 , wherein to adjust the position of the at least one grinding wheel, the processor is configured to control an electronic regulator to adjust an amount of air pressure applied to a fluidic muscle that controls the position of the at least one grinding wheel. 5 . The controller set forth in claim 1 , wherein to receive signals from the at least one sensor, the processor is configured to: receive signals from a first sensor operable to monitor rotation of a first grinding wheel that sharpens a first surface of the blade; and receive signals from a second sensor operable to monitor rotation of a second grinding wheel that sharpens a second, opposite surface of the blade. 6 . The controller set forth in claim 1 , wherein to receive signals from the at least one sensor, the processor is configured to receive signals from at least one metal detector operable to detect at least one sensor flag that rotates with the at least one grinding wheel. 7 . A controller for use in controlling a blade sharpening system that includes at least one grinding wheel operable to sharpen a blade, the controller comprising: a memory device; and a processor communicatively coupled to the memory device, the processor configured to: receive signals from at least one sensor, the at least one sensor operable to monitor rotation of the at least one grinding wheel; and adjust a position of the at least one grinding wheel relative to the blade based on the received signals, wherein to adjust the position of the at least one grinding wheel, the processor is configured to: position the at least one grinding wheel proximate the blade without contacting the blade; advance the at least one grinding wheel towards the blade; count a number of rotations of the at least one grinding wheel based on the received signals; and retract the at least one grinding wheel from the blade when the counted number of rotations reaches a grind cycle target rotation count. 8 . The control system set forth in claim 7 , wherein to adjust the position of the at least one grinding wheel, the processor is configured to: determine, based on the received signals, a rotational speed of the at least one grinding wheel; and compare the determined rotational speed to a target rotational speed. 9 . The control system set forth in claim 7 , wherein to adjust the position of the at least one grinding wheel, the processor is configured to adjust the position of the at least one grinding wheel to maintain a substantially constant applied pressure on the blade by the at least one grinding wheel. 10 . The control system set forth in claim 7 , wherein to adjust the position of the at least one grinding wheel, the processor is configured to control an electronic regulator to adjust an amount of air pressure applied to a fluidic muscle that controls the position of the at least one grinding wheel. 11 . The control system set forth in claim 7 , wherein to receive signals from the at least one sensor, the processor is configured to: receive signals from a first sensor operable to monitor rotation of a first grinding wheel that sharpens a first surface of the blade; and receive signals from a second sensor operable to monitor rotation of a second grinding wheel that sharpens a second, opposite surface of the blade. 12 . The control system set forth in claim 7 , wherein to receive signals from the at least one sensor, the processor is configured to receive signals from at least one metal detector operable to detect at least one sensor flag that rotates with the at least one grinding wheel.