Self-propelled agricultural machine with dual driving modes

At least the following is claimed: 1. A windrower machine operable in two steering modes selectable by an operator of the machine, the dual steering modes being a dual-path steering mode and a tailwheel steering mode, the two steering modes being mutually exclusive, the machine comprising: a chassis; an engine mounted on the chassis; plural drive wheels coupled to the chassis; a ground drive system comprising plural wheel motors and plural hydraulic wheel propel pumps coupled to a respective one of the plural drive wheels, the hydraulic wheel propel pumps being powered by the engine and each wheel motor being powered by its respective hydraulic wheel propel pump; plural tailwheel caster assemblies coupled to opposing sides of the chassis, each tailwheel caster assembly comprising: a tailwheel caster; a sensor; a steering cylinder configured to operably control a steering position of the tailwheel caster when in the tailwheel steering mode; a user interface comprising a steering wheel and a forward-neutral-reverse (FNR) lever operable to control the ground drive system, the FNR lever having a forward position, a neutral position and a reverse position; and a controller configured to selectably operate the ground drive system in the dual path steering mode and in the tailwheel steering mode: wherein in the dual-path steering mode, the ground drive system selectively drives the plural drive wheels in the same direction and also selectively drives the plural drive wheels in the opposite direction of rotation relative to each other depending on the position of the steering wheel and FNR lever, and the position of tailwheel casters are not controlled by the steering cylinders but are permitted unconstrained rotation, and wherein in the tailwheel steering mode, the ground drive system drives the plural drive wheels only in the same direction of rotation with the controller sending a signal so that the plural drive wheels are incapable of counter rotation in the tailwheel steering mode and the steering cylinder provides controlled and limited steer-rotation of the tailwheel caster based in part on tailwheel caster steer position information received from the sensor. 2. The machine of claim 1 , wherein the controller is configured to cause the steering cylinder to control and limit steer-rotation of the tailwheel caster when in the tailwheel steering mode based in part on a target turning radius. 3. The machine of claim 1 , wherein in the dual-path steering mode and when the FNR lever is in the neutral position, rotation of the steering wheel causes the ground drive system to turn the machine in a zero radius turn such that the drive wheels are driven in opposite directions, and wherein when in the tailwheel steering mode and the FNR lever is in the neutral position, rotation of the steering wheel causes the ground drive system to steer the angle of the tailwheel casters and does not result in rotation of the drive wheels such that the machine does not turn in a zero radius turn. 4. The windrower of claim 1 , further comprising a sensor operably coupled to the tailwheel caster, the sensor detecting a steering position of the tailwheel caster. 5. The windrower of claim 4 , further comprising: a steering cylinder coupled to the tailwheel caster; and wherein the controller is configured to receive a signal from the sensor and, based on the signal and a target turning radius, adjust a steer position of the tailwheel caster by causing adjustment of the steering cylinder.