Jogwheel device and powered feedback and caster effect for drive-by-wire jogwheel design

What is claimed is: 1. A drive-by-wire steering system for a power equipment machine, comprising: a steering interface system comprising: a steering interface configured to receive rotational input from a user; a steering interface position encoder configured to determine a control angular displacement of the steering interface relative to a center angle of the steering interface; a steering interface motor configured to rotate the steering interface; and a steering interface motor controller configured to control activation of the steering interface motor to apply one or more torques to the steering interface; a power steering system comprising: one or more steerable wheels; one or more steering position encoders configured to determine a wheel angular displacement of the one or more steerable wheels relative to a center angle of the one or more steerable wheels; one or more steering motors configured to turn the one or more steerable wheels; one or more steering motor controllers configured to control activation of the one or more steering motors to turn the one or more steerable wheels toward a target wheel angular displacement, wherein the target wheel angular displacement is the control angular displacement divided by a steering ratio, wherein the steering interface system and the power steering system communicate via a communication link, wherein the communication link is one of a wired communication link or a wireless communication link; and wherein, in response to the target wheel angular displacement exceeding a maximum wheel angle of the one or more steerable wheels, the steering interface position encoder is configured to redefine the center angle of the steering interface such that the control angular displacement becomes the maximum wheel angle multiplied by the steering ratio. 2. The drive-by-wire steering system of claim 1 , wherein the one or more torques comprise a first torque, wherein the first torque has a constant magnitude that is applied in opposition to the rotational input. 3. The drive-by-wire steering system of claim 1 , wherein the one or more torques comprise a second torque, wherein the second torque is applied in response to the target wheel angular displacement equaling or exceeding the maximum wheel angle. 4. The drive-by-wire steering system of claim 1 , wherein the one or more torques comprise a third torque, wherein the third torque is applied in response to a difference between the wheel angular displacement and the target wheel angular displacement exceeding a threshold. 5. The drive-by-wire steering system of claim 1 , wherein the one or more torques comprise a third torque, wherein the third torque is applied in response to the control angular displacement being non-zero and the power equipment machine being in motion. 6. The drive-by-wire steering system of claim 5 , further comprising one or more speed sensors configured to measure a ground speed of the power equipment machine, wherein a magnitude of the third torque depends on the ground speed of the power equipment machine. 7. The drive-by-wire steering system of claim 5 , wherein the magnitude of the third torque depends on a magnitude of the control angular displacement. 8. The drive-by-wire steering system of claim 1 , wherein the steering interface motor controller is configured to apply braking to the steering interface via the steering interface motor in response to the power equipment machine being in one of an autonomous mode or a semi-autonomous mode. 9. The drive-by-wire steering system of claim 1 , wherein, in response to the power equipment machine entering a manual mode from one of an autonomous mode or a semi-autonomous mode, the steering interface position encoder is configured to redefine the center angle of the steering interface such that the control angular displacement becomes the wheel angular displacement multiplied by the steering ratio. 10. The drive-by-wire steering system of claim 1 , wherein the communication link is a Controller Area Network (CAN) bus. 11. The drive-by-wire steering system of claim 1 , wherein the steering interface position encoder is configured to determine the control angular displacement based on a signal from a Hall effect sensor. 12. The drive-by-wire steering system of claim 1 , wherein the steering interface motor is configured to rotate the steering interface via a timing belt that couples the steering interface motor to the steering interface. 13. A steering interface system, comprising: a steering interface configured to receive rotational input from a user; a steering interface position encoder configured to determine a control angular displacement of the steering interface relative to a center angle of the steering interface; a steering interface motor configured to rotate the steering interface; a steering interface motor controller configured to control activation of the steering interface motor to apply one or more torques to the steering interface; and a communication interface configured to output first data that indicates the control angular displacement and receive second data that indicates a heading of a power equipment machine; wherein: the one or more torques comprise a maximum heading torque; and in response to a magnitude of the control angular displacement exceeding the product of a steering ratio and a maximum magnitude for the heading: the maximum heading torque is applied, and the steering interface position encoder is configured to redefine the center angle of the steering interface such that the control angular displacement becomes the product of the steering ratio and the maximum magnitude for the wheel angular displacement. 14. The steering interface system of claim 13 , wherein the one or more torques comprise a first torque, wherein the first torque has a constant magnitude that is applied in opposition to the rotational input. 15. The steering interface system of claim 13 , wherein the one or more torques comprise a third torque, wherein the third torque is applied in response to a difference between the heading and a target heading exceeding a threshold, wherein the target wheel angular displacement is the control angular displacement divided by a steering ratio. 16. The steering interface system of claim 13 , wherein the communication interface is further configured to receive third data that indicates a ground speed, wherein the one or more torques comprise a third torque, and wherein the third torque is applied in response to the control angular displacement being non-zero and the ground speed being non-zero. 17. The steering interface system of claim 16 , wherein a magnitude of the third torque depends on the ground speed. 18. The steering interface system of claim 16 , wherein the magnitude of the third torque depends on a magnitude of the control angular displacement. 19. The steering interface system of claim 13 , wherein the steering interface position encoder is configured to determine the control angular displacement based on a signal from a Hall effect sensor. 20. The steering interface system of claim 13 , wherein the steering interface motor is configured to rotate the steering interface via a timing belt that couples the steering interface motor to the steering interface. 21. A power equipment machine, comprising: a steering interface system comprising: a steering interface configured to receive rotational input from a user; a steering interface position encoder configured to determine