Column based electric assist marine power steering

Having thus described the invention, it is claimed: 1. A system for controlling a marine vessel comprising: an electrical power steering unit coupled to a mechanical control system, the mechanical control system including a steering wheel connected by a shaft to a mechanical cable assembly, the mechanical cable assembly including a steering cable and configured to be actuated by the steering wheel to control a steering mechanism of the marine vessel, the electrical power steering unit including an electric motor configured to apply a torque to the mechanical cable assembly; and a processor configured to control the electrical power steering unit to provide at least one of steering assist and control of the marine vessel, wherein the processor is configured to control the motor to apply an amount of torque to the steering mechanism based on selected end of travel positions, and the processor is configured to re-calibrate the selected end of travel positions based on a number of key cycles being equal to or greater than a threshold number. 2. The system of claim 1 , wherein the electrical power steering unit is a column electrical power steering (CEPS) unit. 3. The system of claim 1 , wherein the electrical power steering unit is disposed within a marine steering column mounting area, and disposed between the steering wheel and a connection to the mechanical cable. 4. The system of claim 1 , wherein the electrical power steering unit includes a mechanical gear assembly having an input adapter configured to engage the shaft connected to the steering wheel. 5. The system of claim 1 , wherein the processor is configured to monitor a steering wheel angle and a steering wheel torque, and detect at least one of: a number of steering wheel angle cycles, wherein each steering wheel angle cycle is detected based on the steering wheel being positioned to a first steering wheel angle in a first direction relative to a zero position, followed by the steering wheel being positioned to a second steering wheel angle in a second direction relative to the zero position, the second direction opposite to the first direction, the first steering wheel angle and the second steering wheel angle being equal to or greater than a respective threshold angle; a number of torque cycles, wherein each torque cycle is detected based on a steering wheel torque being applied in the first direction, followed by the steering wheel torque being applied in the second direction, the steering wheel torque in the first direction being equal to or greater than a first torque threshold, the steering wheel torque in the second direction being equal to or greater than a second torque threshold; and a number of following angle cycles, wherein each following angle cycle is detected based on the steering wheel being turned in the first direction by at least a threshold amount to an angular position, followed by the steering wheel being turned in the second direction from the angular position by at least the threshold amount. 6. The system of claim 5 , wherein the processor is configured to notify an operator based on at least one of the number of steering wheel cycles, the number of torque cycles and the number of following angle cycles exceeding one or more respective threshold numbers indicative of cable wear. 7. The system of claim 1 , the threshold number selected based on wear characteristics of the cable. 8. The system of claim 1 , wherein the processor is configured to receive rotational position information from a torque and/or position sensor, and autonomously generate a motor torque command to the motor to apply a selected amount of torque to return the steering wheel to a center position. 9. The system of claim 6 , wherein the processor is configured to generate the motor torque command to apply torque based on the rotational position of the steering wheel relative to a mechanical end stop. 10. The system of claim 1 , wherein the processor is configured to generate a motor torque command to the motor to apply a selected amount of torque to assist an operator, the selected amount of torque based on a speed of the marine vessel. 11. A method of controlling a marine vessel, the method comprising: receiving sensor data from a sensor at a processor, the sensor data including at least one of a rotational position of a steering wheel and a torque applied by the steering wheel, the steering wheel connected by a shaft to a mechanical cable assembly, the mechanical cable assembly including a steering cable and configured to be actuated by the steering wheel to control a steering mechanism of the marine vessel; generating a motor torque command to an electrical power steering unit coupled to at least the mechanical cable, the electrical power steering unit including an electric motor configured to apply a torque to the mechanical cable assembly; providing at least one of steering assist and control of the marine vessel by the electric motor in response to the motor torque command; and controlling the motor to apply an amount of torque to the steering mechanism based on selected end of travel positions, and re-calibrating the selected end of travel positions based on a number of key cycles being equal to or greater than a threshold number. 12. The method of claim 11 , wherein the electrical power steering unit is a column electrical power steering (CEPS) unit. 13. The method of claim 11 , wherein the electrical power steering unit is disposed within a marine steering column mounting area, and disposed between the steering wheel and a connection to the mechanical cable. 14. The method of claim 11 , wherein the electrical power steering unit includes a mechanical gear assembly having an input adapter configured to engage the shaft connected to the steering wheel. 15. The method of claim 11 , further comprising monitoring a steering wheel angle and a steering wheel torque, and detecting at least one of: a number of steering wheel angle cycles, wherein each steering wheel angle cycle is detected based on the steering wheel being positioned to a first steering wheel angle in a first direction relative to a zero position, followed by the steering wheel being positioned to a second steering wheel angle in a second direction relative to the zero position, the second direction opposite to the first direction, the first steering wheel angle and the second steering wheel angle being equal to or greater than a respective threshold angle; a number of torque cycles, wherein each torque cycle is detected based on a steering wheel torque being applied in the first direction, followed by the steering wheel torque being applied in the second direction, the steering wheel torque in the first direction being equal to or greater than a first torque threshold, the steering wheel torque in the second direction being equal to or greater than a second torque threshold; and a number of following angle cycles, wherein each following angle cycle is detected based on the steering wheel being turned in the first direction by at least a threshold amount to an angular position, followed by the steering wheel being turned in the second direction from the angular position by at least the threshold amount. 16. The method of claim 15 , further comprising notifying an operator based on at least one of the number of steering wheel cycles, the number of torque cycles and the number of following angle cycles exceeding one or more respective threshold numbers indicative of cable wear. 17. The method of claim 11 , the threshold number selected based on wear characteri