Rear steering control for a vehicle

What is claimed is: 1. A steering system for an agricultural vehicle having one or more steerable front wheels, one or more steerable rear wheels, and a steering input device configured to receive a manual steering input for the one or more steerable front wheels, the steering system comprising: a rear hydraulic steering device coupled to at least one of the one or more steerable rear wheels; a rear valve assembly configured to hydraulically control the rear hydraulic steering device in order to steer the at least one steerable rear wheel; and a controller configured to determine a rear steering command and provide the rear steering command to the rear valve assembly; wherein the rear valve assembly hydraulically controls the rear hydraulic steering device based upon, at least in part, the rear steering command from the controller; wherein, in a manual steering mode, the controller does not determine a rear steering command for the rear valve assembly such that the rear wheels are freely rotatable; wherein, in a rear steering assist mode, the controller determines the rear steering command based upon, at least in part, the manual steering input; and wherein, in an automated steering mode, the controller determines the rear steering command based upon, at least in part, a target path of the agricultural vehicle that is determined independently of the manual steering input. 2. The steering system of claim 1 , further comprising: a steering sensor in communication with the steering input device and the controller; wherein the steering sensor is configured to provide a steering input signal based upon, at least in part, the steering sensor detecting the manual steering input received at the steering input device; and wherein, in the rear steering assist mode, the controller determines the rear steering command based upon, at least in part, the steering input signal from the steering sensor. 3. The steering system of claim 1 , wherein, in the automated steering mode, the controller determines the rear steering command independently of any manual steering input received by the steering input device. 4. The steering system of claim 3 , wherein the automated steering mode is terminated based upon, at least in part, receiving the manual steering input at the steering input device. 5. The steering system of claim 1 , further comprising: a front hydraulic steering device coupled to at least one of the one or more steerable front wheels; and a front valve assembly configured to hydraulically control the front hydraulic steering device in order to steer the at least one steerable front wheel based upon, at least in part, a front steering command received by the front valve assembly from the controller; wherein, in the automated steering mode, the front valve assembly controls the front hydraulic steering device to automatically steer the at least one steerable front wheel based upon, at least in part, the front steering command, the front steering command being based upon, at least in part, the target path of the agricultural vehicle; and wherein, in the rear steering assist mode, the front hydraulic steering device steers the at least one steerable front wheel based upon, at least in part, the manual steering input. 6. The steering system of claim 5 , wherein the rear wheels are mounted to a rear-wheel support by casters to rotate independently of each other and the rear-wheel support. 7. The steering system of claim 1 , wherein one or more valves included in the rear valve assembly are adjustable in order to adjust the control of the rear hydraulic steering device by the rear valve assembly for a particular rear steering command from the controller and for a particular manual steering input at the steering input device; and wherein adjusting the control of the rear hydraulic steering device by the rear valve assembly changes a degree of steering of the at least one steerable rear wheel by the rear hydraulic steering device for the particular rear steering command and for the particular manual steering input. 8. The steering system of claim 1 , wherein the rear hydraulic steering device includes a dual-path hydraulic system and wherein the steering of the at least one steerable rear wheel is controlled, at least in part, by the rear valve assembly controlling hydraulic flow to the dual-path hydraulic system. 9. The steering system of claim 8 , wherein the rear hydraulic steering device is coupled to first and second steerable rear wheels, respectively, with first and second pistons of the dual-path hydraulic system; wherein the rear valve assembly controls steering of the first steerable rear wheel by controlling hydraulic flow to the first piston; and wherein the rear valve assembly controls steering of the second steerable rear wheel by controlling hydraulic flow to the second piston. 10. The steering system of claim 1 , wherein the rear valve assembly receives pressurized hydraulic fluid from a pump; and wherein the rear valve assembly includes: first and second pilot valves configured to receive the rear steering command from the controller; first and second main spool valves arranged in parallel between the pump and the rear hydraulic steering device, wherein the first and second main spool valves are controlled by the first and second pilot valves, respectively; and a blocker valve disposed between the pump and the first and second main spool valves, wherein the blocker valve is configured to block flow from the pump to the first and second main spool valves in order to disable the rear valve assembly. 11. A steering method for an agricultural vehicle having one or more steerable front wheels, one or more steerable rear wheels, a steering input device configured to receive a manual steering input for the one or more steerable front wheels, a rear hydraulic steering device coupled to at least one of the one or more steerable rear wheels, a rear valve assembly configured to hydraulically control the rear hydraulic steering device in order to steer the at least one steerable rear wheel, and a controller, the steering method comprising: determining, in at least one mode, a rear steering command by a controller; providing, in at least one mode, the rear steering command to the rear valve assembly; and hydraulically controlling, in at least one mode, the rear hydraulic steering device with the rear valve assembly based upon, at least in part, the rear steering command from the controller; wherein, in a manual steering mode, the controller does not determine a rear steering command for the rear valve assembly such that the rear wheels are freely rotatable; wherein, in a rear steering assist mode, the rear steering command is determined based upon, at least in part, the manual steering input; and wherein, in an automated steering mode, the rear steering command is determined based upon, at least in part, a target path of the agricultural vehicle that is determined independently of the manual steering input. 12. The steering method of claim 11 , wherein the agricultural vehicle further includes a steering sensor in communication with the steering input device and the controller; and further comprising providing a steering input signal based upon, at least in part, the steering sensor detecting the manual steering input received at the steering input device; wherein, in the rear steering assist mode, the rear steering command is determined based upon, at least in part, the steering input signal from the steering sensor. 13. The steering method of claim 11 , wherein in the automated steering mode, the rear steering command is determined in