Lift assembly for a work vehicle

What is claimed is: 1. A lift assembly for a work vehicle, the lift assembly comprising: a loader arm extending between a forward end and a rear end; a control arm extending between a first end and a second end, the first end being coupled to a chassis of the work vehicle at a first pivot point and the second end being coupled to the rear end of the loader arm at a second pivot point; a lift cylinder coupled between the loader arm and the chassis, the lift cylinder being coupled to the loader arm at a location between its forward and rear ends; a control cylinder extending between an upper end and a lower end, the upper end being coupled to the control arm and the lower end being coupled to the chassis at a third pivot point; wherein the first pivot point is located rearward of the second pivot point when the control cylinder is at a fully retracted position, wherein the upper end of the control cylinder is coupled to the loader arm at the second pivot point such that the control arm and the control cylinder are both coupled to the loader arm at a common pivot point. 2. The lift assembly of claim 1 , wherein a position of the second pivot point is adjusted when the control cylinder is retracted or extended. 3. The lift assembly of claim 1 , wherein the control cylinder is configured to be maintained at the fully retracted position or extended from the fully retracted position when the loader arm is initially raised from a lowermost position. 4. The lift assembly of claim 1 , wherein the lift cylinder is coupled to the chassis at a fourth pivot point, the fourth pivot point being positioned at a location vertically below and rearward of the third pivot point. 5. The lift assembly of claim 1 , wherein the third pivot point is located vertically above and forward of the first pivot point. 6. The lift assembly of claim 1 , further comprising a controller communicatively coupled to the lift cylinder and the control cylinder, the controller being configured to control an actuation of at least one the lift cylinder or the control cylinder such that a reference point defined on the loader arm is moved along a travel path defined within a travel area associated with the lift assembly. 7. The lift assembly of claim 6 , further comprising at least one position sensor communicatively coupled to the controller for monitoring a position of at least one of the loader arm or the control arm, the controller being configured to control the actuation of the at least one the lift cylinder or the control cylinder based on signals received from the at least one position sensor such that the reference point is moved along the travel path. 8. A lift assembly for a work vehicle, the lift assembly comprising: a loader arm extending between a forward end and a rear end; a control arm extending between a first end and a second end, the first end being coupled to a chassis of the work vehicle at a first pivot point and the second end being coupled to the rear end of the loader arm at a second pivot point; a lift cylinder coupled between the loader arm and the chassis, the lift cylinder being coupled to the loader arm at a location between its forward and rear ends; a control cylinder extending between an upper end and a lower end, the upper end being coupled to the control arm and the lower end being coupled to the chassis at a third pivot point; wherein the lift cylinder is coupled to the chassis at a fourth pivot point that is positioned both vertically below and rearward of the third pivot point; and wherein the control cylinder is configured to either be maintained at a fully retraced position or extended outwardly from the fully retracted position as the loader arm is initially being raised from a lowermost position. 9. The lift assembly of claim 8 , wherein the first pivot point is located rearward of and vertically below the second pivot point when the control cylinder is at a fully retracted position such that the control arm extends both vertically upward and forward from its first end to its second end when the control cylinder is at the fully retracted position. 10. The lift assembly of claim 8 , wherein the upper end of the control cylinder is coupled to the control arm at the second pivot point. 11. The lift assembly of claim 8 , wherein the third pivot point is located vertically above and forward of the first pivot point. 12. The lift assembly of claim 8 , further comprising a controller communicatively coupled to the lift cylinder and the control cylinder, the controller being configured to control an actuation of at least one the lift cylinder or the control cylinder such that a reference point defined on the loader arm is moved along a travel path defined within a travel area associated with the lift assembly. 13. The lift assembly of claim 12 , further comprising at least one position sensor communicatively coupled to the controller for monitoring a position of at least one of the loader arm or the control arm, the controller being configured to control the actuation of the at least one the lift cylinder or the control cylinder based on signals received from the at least one position sensor such that the reference point is moved along the travel path. 14. A method for controlling a lift assembly of a work vehicle, the lift assembly including a loader arm and a control arm, the control arm extending between a first end coupled to a chassis of the work vehicle at a first pivot point and a second end coupled to the loader arm at a second pivot point, receiving, with a computing device, an operator input associated with a selection of a desired travel path for the loader arm; receiving, with the computing device, at least one sensor measurement associated with a position of at least one of the loader arm or the control arm; controlling, with the computing device, an actuation of at least one of a lift cylinder or a control cylinder based on the at least one sensor measurement such that a reference point defined on the loader arm is raised or lowered along the desired travel path, the lift cylinder being coupled between the loader arm and the chassis, the control cylinder extending between an upper end coupled to the control arm and a lower end coupled to the chassis at a third pivot point; and wherein the upper end of the control cylinder is coupled to the loader arm at the second pivot point such that the control arm and the control cylinder are both coupled to the loader arm at a common pivot point. 15. The method of claim 14 , wherein controlling the actuation of the at least one the lift cylinder or the control cylinder based on the at least one sensor measurement comprises controlling the actuation of the control cylinder such that the control cylinder is maintained at a fully retracted position or is extended from the fully retracted position when the loader arm is initially raised from a lowermost position. 16. The method of claim 14 , wherein the desired travel path corresponds to a straight vertical path. 17. The method of claim 14 , wherein controlling the actuation of the at least one the lift cylinder or the control cylinder based on the at least one sensor measurement comprises controlling the actuation of the at least one the lift cylinder or the control cylinder such that a location of second pivot point is pivoted about the first pivot point.