Vehicle with automatically leanable wheels

What is claimed is: 1. A work vehicle including: a chassis having a moldboard rotatably mounted to the chassis by way of a grader circle; a traction device supporting the chassis on the ground, the traction device operable to lean relative to the chassis such that a wheel-lean angle is defined by the traction device; a sensor positioned to sense a vehicle parameter comprising a draft load exerted upon the chassis, a transverse inclination of the chassis, and a rotational position of the grader circle; a wheel-lean actuator coupled to the traction device to lean the traction device; and a control unit configured to receive and process a signal transmitted from the sensor to determine a desired wheel-lean angle, control the wheel-lean actuator based on the desired wheel-lean angle; and control a direction and magnitude of the wheel-lean angle based on a corresponding direction and magnitude of the rotational position of the grader circle with respect to a centered position, whereby the sensor indicates the draft load. 2. The work vehicle of claim 1 , further comprising: a wheel-lean angle sensor positioned to sense an indication of an actual wheel-lean angle; and the control unit configured to receive a signal transmitted by the wheel-lean angle sensor, the control unit further configured to determine a disparity between the desired wheel-lean angle and sensed actual wheel-lean angle, the control unit further configured to control the wheel-lean actuator to reduce the disparity when the disparity is above a threshold. 3. The work vehicle of claim 2 , wherein the control unit determines the disparity between the actual wheel-lean angle and the desired wheel-lean angle continuously. 4. The work vehicle of claim 1 , wherein the work vehicle comprises a motor grader having a moldboard rotatably mounted to the chassis via a grader circle, the sensor comprising a torque sensor configured to measure a torque transmitted to the grader circle from the moldboard, the control unit receiving the signal indicative of the measured torque and processing the signal to approximate the draft load based on the measured torque. 5. The work vehicle of claim 1 , wherein the work vehicle comprises a motor grader having a moldboard rotatably mounted to the chassis via a frame structure, the sensor comprising a strain gauge configured to measure a strain applied to the frame structure by the moldboard, the control unit receiving the signal indicative of the measured strain and processing the signal to approximate the draft load based on the measured strain. 6. The work vehicle of claim 1 , wherein the work vehicle comprises a motor grader having a moldboard rotatably mounted to the chassis via a grader circle, the sensor comprising a pressure transducer disposed within an actuation cylinder operably connected to the grader circle or the moldboard. 7. The work vehicle of claim 6 , wherein the actuation cylinder comprises at least one of: a tilt cylinder configured to change a pitch of the moldboard relative to the grader circle; a moldboard side-shift cylinder configured to laterally translate the moldboard along a longitudinal axis of the moldboard; a blade-lift cylinder configured to raise and lower the moldboard; or a circle side-shift cylinder configured to effect a side-shift of the grader circle and the moldboard. 8. The work vehicle of claim 1 , further comprising a turn sensor positioned to sense an articulation angle of the chassis or a steering angle of the traction device, the turn sensor operably connected to the control unit such that the control unit receives a turn signal indicative of whether the work vehicle is executing a turn, the control unit configured to automatically lean the traction device in response to the turn signal. 9. The work vehicle of claim 1 , further comprising a transport sensor positioned to sense at least one of: a speed of the work vehicle or a transmission status, wherein the transport sensor is operably connected to the control unit such that the control unit receives a transport signal indicative of whether the work vehicle is traveling at a threshold speed, wherein the control unit is configured to automatically lean the traction device to a set orientation in response to the transport signal. 10. The work vehicle of claim 1 , further comprising an engine operably coupled to the traction device to propel the chassis across the ground, whereby the traction device is driven. 11. A work vehicle including: a chassis; a moldboard rotatably mounted to the chassis by way of a grader circle; a traction device supporting the chassis on the ground, the traction device operable to lean away from a neutral orientation relative to the chassis such that a wheel-lean angle is defined by the traction device; a wheel-lean angle sensor positioned to sense an indication of an actual wheel-lean angle; a sensor positioned to sense a force exerted upon the moldboard and transferred to the chassis; a wheel-lean actuator coupled to the traction device to lean the traction device relative to the neutral orientation; and a control unit configured to receive a signal transmitted from the sensor and determine a desired wheel-lean angle, determine a disparity between the desired wheel-lean angle and sensed actual wheel-lean angle, control the wheel-lean actuator to reduce the disparity when the disparity is above a threshold, and control a direction and magnitude of the wheel-lean angle based on a corresponding direction and magnitude of the rotational position of the grader circle with respect to a centered position, whereby the sensor indicates the draft load. 12. The work vehicle of claim 11 , further comprising a second sensor positioned to sense a transverse inclination of the chassis, wherein the second sensor transmits a second signal indicative of the transverse inclination to the control unit, the control unit processing both the first and second signals to determine the desired wheel-lean angle. 13. The work vehicle of claim 11 , wherein the moldboard is rotatably mounted to the chassis via a grader circle, the sensor comprising a torque sensor configured to measure a torque transmitted to the grader circle from the moldboard, the control unit receiving the signal indicative of the measured torque and processing the signal to approximate a draft load on the work vehicle based on the measured torque. 14. The work vehicle of claim 11 , wherein the moldboard is rotatably mounted to the chassis via a frame structure, the sensor comprising a strain gauge configured to measure a strain applied to the frame structure by the moldboard, the control unit receiving the signal indicative of the measured strain and processing the signal to approximate a draft load on the work vehicle based on the measured strain. 15. The work vehicle of claim 11 , wherein the moldboard is rotatably mounted to the chassis via a grader circle, the sensor comprising a rotation sensor configured to measure a rotational position of the grader circle, the control unit receiving the signal indicative of the measured rotational position and processing the signal to control a direction and magnitude of the wheel-lean angle based on a corresponding direction and magnitude of the rotational position of the grader circle with respect to a centered position. 16. The work vehicle of claim 11 , further comprising a turn sensor positioned to sense an articulation angle of the chassis or a steering angle of the traction device, the turn sensor operably connected to the control unit such that the control unit receives a turn signal indicat