Apparatus and method for controlling an attachment coupler for a work vehicle

What is claimed is: 1. A work vehicle comprising: a frame; at least one ground engaging device coupled to the frame and configured to support the frame above a surface; a boom assembly coupled to the frame, the boom assembly configured to move from a frame contact position to a raised position; at least one boom actuator coupled to the boom assembly and configured to move the boom assembly; an attachment coupler coupled to the boom assembly, the attachment coupler configured to move from a lower position to an upper position; at least one attachment coupler actuator coupled to the attachment coupler and configured to move the attachment coupler; an attachment coupled to the attachment coupler; an attachment actuator coupled to the attachment and configured to rotate the attachment relative to the attachment coupler; a boom sensor configured to generate a boom signal indicative of a position of the boom assembly; an attachment coupler sensor configured to generate an attachment signal indicative of a position of the attachment coupler; an operator input device configured for receiving an operator input in at least one of a first mode and a second mode; an electronic data processor communicatively coupled to the boom actuator, the attachment coupler actuator, the attachment actuator, the boom sensor, the attachment coupler sensor, and the operator input device, the electronic data processor configured to receive the boom signal, the attachment signal, and the operator input; and a computer readable storage medium comprising machine readable instructions; wherein the operator input in the first mode comprises at least one of a tilt forward command, a tilt rearward command, a rotate right command, or a rotate left command, and the operator input in the second mode comprises at least one of a boom lower command, a boom raise command, the tilt forward command, or the tilt rearward command, and the machine readable instructions, when executed by the electronic data processor, cause the electronic data processor to: receive the operator input and, in the first mode, for the tilt forward command, command the boom actuator to move the boom assembly to the frame contact position and then command the attachment coupler actuator to move the attachment coupler to a predetermined lower position while preventing the attachment coupler from moving to the lower position, for the tilt rearward command, command the attachment coupler actuator to move the attachment coupler to a predetermined upper position while preventing the attachment coupler from moving to the upper position and then command the boom actuator to move the boom assembly to the raised position, for the rotate right command, command the attachment actuator to rotate the attachment coupler towards the right, for the rotate left command, command the attachment actuator to rotate the attachment coupler towards the left and, in the second mode, for the boom lower command, command the boom actuator to move the boom assembly lower, for the boom raise command, command the boom actuator to move the boom assembly higher, for the tilt forward command, command the attachment coupler actuator to tilt the attachment coupler forward, and for the tilt rearward command, command the attachment coupler actuator to tilt the attachment coupler rearward. 2. The work vehicle of claim 1 , wherein the work vehicle is a compact track loader, the attachment is a dozer blade, and the first mode is a dozer control mode. 3. The work vehicle of claim 1 , wherein the boom actuator is at least one of a hydraulic cylinder or an electric actuator and the attachment coupler actuator is at least one of a hydraulic cylinder or an electric actuator. 4. The work vehicle of claim 1 , further comprising a mode selection device communicatively coupled to the operator input device and configured to switch between the first mode and the second mode. 5. The work vehicle of claim 1 , wherein the operator input device is a joystick and in the first mode the joystick is manipulated forward for the tilt forward command, manipulated rearward for the tilt rearward command, manipulated right for the rotate right command, and manipulated left for the rotate left command, and in the second mode the joystick is manipulated forward for the boom lower command, manipulated rearward for the boom raise command, manipulated right for the tilt forward command, and manipulated left for the tilt rearward command. 6. The work vehicle of claim 1 , wherein at the predetermined lower position, a cutting edge of the attachment is at a desired cutting edge position. 7. The work vehicle of claim 1 , wherein at the predetermined upper position, a cutting edge of the attachment is at a desired material pushing position. 8. The work vehicle of claim 1 , wherein an angle of a cutting edge of the attachment relative to the frame is maintained from the predetermined lower position to the predetermined upper position. 9. The work vehicle of claim 1 , wherein the electronic data processor is configured to turn off an automatic blade control mode when the boom assembly is not in the frame contact position. 10. The work vehicle of claim 1 , further comprising an automatic blade control mode. 11. A method for controlling the operation of an attachment coupler coupled to a boom assembly of a work vehicle, the method comprising: providing an electronic data processor communicatively coupled to a boom actuator configured to move the boom assembly, an attachment coupler actuator configured to move the attachment coupler, and an attachment actuator coupled to an attachment, which is coupled to the attachment coupler, and configured to rotate the attachment relative to the attachment coupler; generating a boom signal indicative of a position of the boom assembly with a boom sensor; generating an attachment signal indicative of a position of the attachment coupler with an attachment coupler sensor; receiving an operator input from an operator input device configured for receiving the operator input in at least one mode, the operator input in a first mode comprises at least one of a tilt forward command, a tilt rearward command, a rotate right command, or a rotate left command, and the operator input in a second mode comprises at least one of a boom lower command, a boom raise command, the tilt forward command, or the tilt rearward command; receiving the boom signal, the attachment signal, and the operator input with the electronic data processor; and providing a computer readable storage medium comprising machine readable instructions; wherein the machine readable instructions, when executed by the electronic data processor, cause the electronic data processor to receive the operator input and, in the first mode, for the tilt forward command, command the boom actuator to move the boom assembly to the frame contact position and then command the attachment coupler actuator to move the attachment coupler to a predetermined lower position while preventing the attachment coupler from moving to the lower position, for the tilt rearward command, command the attachment coupler actuator to move the attachment coupler to a predetermined upper position while preventing the attachment coupler from moving to the upper position and then command the boom actuator to move the boom assembly to the raised position, for the rotate right command, command the attachment actuator to rotate the attachment coupler towards the right, for the rotate left command, command the attachment actuator to rotate the attachment coupler towards the left and, in the second mode, for the boom lower command, command the boom actuator to move the boom assembly lowe