Farm vehicle autopilot with automatic calibration, tuning and diagnostics

What is claimed is: 1. A farm vehicle autopilot comprising: a global navigational satellite system (GNSS) sensor and an inertial measurement unit (IMU) sensor in communication with a microprocessor and memory, wherein the microprocessor and memory are configured to: (1) receive steering angle data from a steering angle sensor, (2) send steering angle commands to a steering angle actuator, and (3) perform automatic autopilot calibration by guiding a farm vehicle through a calibration maneuver and measuring vehicle response characteristics during the calibration maneuver with the GNSS and IMU sensors. 2. The farm vehicle autopilot of claim 1 wherein the microprocessor and memory are further configured to: (4) perform automatic tuning of autopilot settings. 3. The farm vehicle autopilot of claim 1 wherein the microprocessor and memory are further configured to: (4) perform automatic diagnostics of vehicle performance under autopilot control. 4. The farm vehicle autopilot of claim 3 wherein the automatic diagnostics include computing a performance grade to summarize calibration and/or tuning data. 5. The farm vehicle autopilot of claim 3 wherein the automatic diagnostics include reporting vehicle component abnormalities. 6. The farm vehicle autopilot of claim 3 wherein the automatic diagnostics are based on a fuzzy logic reasoner comprising degree-of-membership functions and fuzzy associative memory rules. 7. The farm vehicle autopilot of claim 3 wherein the automatic diagnostics are based on performance grading rules including weighted sums of vehicle characteristic data. 8. The farm vehicle autopilot of claim 3 further comprising an I/O component that permits the microprocessor and memory to communicate with a database, and wherein the microprocessor and memory are further configured to: (5) obtain vehicle characteristics from the database and send vehicle characteristics to the database. 9. The farm vehicle autopilot of claim 1 wherein the vehicle response characteristics include steering angle rate: dead zone, linear region or saturated region. 10. The farm vehicle autopilot of claim 1 wherein the vehicle response characteristics include steering angle: delay time, rise time, settling time, overshoot or steady-state error. 11. The farm vehicle autopilot of claim 1 wherein the microprocessor and memory are further configured to: (4) send vehicle speed commands to a vehicle speed actuator. 12. The farm vehicle autopilot of claim 1 wherein the calibration maneuver is completed within a pre-defined geographic area. 13. A method for farm vehicle autopilot calibration, tuning and diagnostics, the method comprising: a microprocessor and memory in a farm vehicle autopilot: receiving steering angle data from a steering angle sensor; sending steering angle commands to a steering angle actuator; guiding a farm vehicle through a calibration maneuver and measuring vehicle response characteristics during the calibration maneuver with GNSS and IMU sensors; tuning autopilot settings according to a tuning algorithm; computing a performance grade to summarize calibration and tuning data; reporting vehicle component abnormalities; and, sending vehicle characteristics to, or receiving vehicle characteristics from, a database. 14. The method of claim 13 , the sending or receiving performed via a cellular data network. 15. The method of claim 13 further comprising the microprocessor and memory sending vehicle speed commands to a vehicle speed actuator. 16. The method of claim 13 , the computing a performance grade comprising fuzzy logic operations.