Retarding system and lock-up clutch engagement control

What is claimed is: 1. A method for controlling an engagement of a lock-up clutch (LUC) of a torque converter to assist with a motion of a machine, where the torque converter is operatively connected to a power source output shaft of a power source and a transmission input shaft of a transmission, and the LUC is operatively connected to the power source output shaft and the transmission input shaft, and has a LUC unlocked position where the power source output shaft and the transmission input shaft are free to rotate relative to each other and a LUC locked position where the power source output shaft and the transmission input shaft are locked for rotation together, the method comprising: detecting a pedal tap of a pedal, wherein the pedal tap is detected when the pedal is depressed from a position corresponding to a pedal displacement less than a first threshold displacement to a position corresponding to a pedal displacement greater than a second threshold displacement, and then released to a position corresponding to a pedal displacement less than the first threshold displacement within a threshold time duration; and causing the LUC to move to the LUC unlocked position if the pedal tap is detected. 2. The method of claim 1 further including determining if an integrated braking strategy is active or inactive, and override the integrated braking strategy, if the integrated braking strategy is active based on detection of the pedal tap. 3. The method of claim 2 , wherein the integrated braking strategy includes downshifting of the transmission by comparing a combination of a current machine speed and a pedal displacement to a transmission downshift schedule. 4. The method of claim 3 further including detecting a current gear ratio of the transmission and causing a downshifting of the transmission by comparing the combination of the current machine speed and the pedal displacement to the transmission downshift schedule for the current gear ratio. 5. The method of claim 1 , wherein the first threshold displacement of the pedal corresponds to a ten percent of a total displacement of the pedal. 6. The method of claim 1 , wherein the second threshold displacement of the pedal corresponds to a ninety percent of a total displacement of the pedal. 7. The method of claim 1 , wherein the threshold time duration is one second. 8. A machine comprising: a power source having a power source output shaft; a transmission having a transmission input shaft and a transmission output shaft; a torque converter operatively connected to the power source output shaft and the transmission input shaft; a lock-up clutch (LUC) operatively connected to the torque converter, the LUC having a LUC unlocked position where the power source output shaft and the transmission input shaft are free to rotate relative to each other and a LUC locked position where the power source output shaft and the transmission input shaft are locked for rotation together; a pedal; a pedal position sensor operatively connected to the pedal to detect displacement of the pedal; and a controller operatively connected to the LUC and the pedal position sensor, the controller configured to: detect a pedal tap of the pedal, wherein the pedal tap is detected when the pedal is depressed from a position corresponding to a pedal displacement less than a first threshold displacement to a position corresponding to a pedal displacement greater than a second threshold displacement, and then released to a position corresponding to a pedal displacement less than the first threshold displacement within a threshold time duration, and cause the LUC to move to the LUC unlocked position if the pedal tap is detected. 9. The machine of claim 8 , wherein the controller is further configured to determine if an integrated braking strategy is active or inactive, and override the integrated braking strategy, if the integrated braking strategy is active based on detection of the pedal tap. 10. The machine of claim 9 , wherein the integrated braking strategy includes downshifting of the transmission by comparing a combination of a current machine speed and a pedal displacement to a transmission downshift schedule. 11. The machine of claim 10 , wherein the controller is configured to detect a current gear ratio of the transmission and cause a downshifting of the transmission by comparing the combination of the current machine speed and the pedal displacement to the transmission downshift schedule for the current gear ratio of the transmission. 12. The machine of claim 8 , wherein the first threshold displacement of the pedal corresponds to a ten percent of a total displacement of the pedal. 13. The machine of claim 8 , wherein the second threshold displacement of the pedal corresponds to a ninety percent of a total displacement of the pedal. 14. The machine of claim 8 , wherein the threshold time duration is one second. 15. A retarding system for a machine having a power source with a power source output shaft, a transmission having a transmission input shaft, a torque converter operatively connected to the power source output shaft and the transmission input shaft, and a lock-up clutch (LUC) operatively connected to the power source output shaft and the transmission input shaft and having a LUC unlocked position where the power source output shaft and the transmission input shaft are free to rotate relative to each other and a LUC locked position where the power source output shaft and the transmission input shaft are locked for rotation together, the retarding system comprising: a pedal; a pedal position sensor operatively connected to the pedal to detect displacement of the pedal; and a controller operatively connected to the LUC and the pedal position sensor, the controller is configured to detect a pedal tap of the pedal, wherein the pedal tap is detected when the pedal is depressed from a position corresponding to a pedal displacement less than a first threshold displacement to a position corresponding to a pedal displacement greater than a second threshold displacement, and then released to a position corresponding to a pedal displacement less than the first threshold displacement within a threshold time duration, and cause the LUC to move to the LUC unlocked position if the pedal tap is detected. 16. The retarding system of claim 15 , wherein the controller is further configured to determine if an integrated braking strategy is active or inactive, and override the integrated braking strategy, if the integrated braking strategy is active based on detection of the pedal tap. 17. The retarding system of claim 16 , wherein the controller is configured to detect a current gear ratio of the transmission and cause a downshifting of the transmission by comparing a combination of a current machine speed and a pedal displacement to a transmission downshift schedule for the current gear ratio of the transmission when the integrated braking strategy is active. 18. The retarding system of claim 15 , wherein the first threshold displacement of the pedal corresponds to a ten percent of a total displacement of the pedal. 19. The retarding system of claim 15 , wherein the second threshold displacement of the pedal corresponds to a ninety percent of a total displacement of the pedal. 20. The retarding system of claim 15 , wherein the threshold time duration is one second.