Autonomous controls for a robotic carton unloader

What is claimed is: 1. A robotic carton unloader for unloading a carton pile resting on a floor, comprising: a mobile body movable across the floor; a conveyor system mounted on the mobile body to convey unloaded cartons thereon; and a robotic arm assembly comprising: right and left lower arms pivotally attached at a lower end respectively to the mobile body on opposing lateral sides of the conveyor system passing there between to rotate about a lower arm axis that is perpendicular to a longitudinal axis of the conveyor system; an upper arm assembly having a rear end pivotally attached at an upper end respectively of the right and left lower arms to pivotally rotate about an upper arm axis that is perpendicular to the longitudinal axis of the conveyor system and parallel to the lower arm axis; and a manipulator head attached to a front end of the upper arm assembly, the manipulator head engages at least one carton at a time from a carton pile resting on a floor for movement to the conveyor system, wherein the pivotal movement of the right and left lower arms maintains the upper arm axis at a height that enables the at least one carton to be conveyed by the conveyor system without being impeded by the robotic arm assembly. 2. The robotic carton unloader of claim 1 , further comprising a lift attached between the mobile body and a front portion of the conveyor system, the lift moves the front portion of the conveyor system relative to the floor to reduce spacing underneath the at least one carton during movement from the carton pile to the conveyor system. 3. The robotic carton unloader of claim 2 , wherein the lift further comprises: a telescoping beam attached between the mobile body and the front portion of the conveyor system; a drive member of the lift that actuates to extend and retract the telescoping beam and having a failure mode that allows the telescoping beam to retract; and a locking boom mechanism responsive to the failure mode of the drive member to at least slow a rate of retraction of the telescoping beam. 4. The robotic carton unloader of claim 3 , wherein: the drive member comprises a belt drive having the failure mode of a broken belt; and the locking boom mechanism comprising a stored energy source released by the broken belt to actuate a lock between two blocks of the telescoping beam. 5. The robotic carton unloader of claim 2 , wherein: the lift having a telescoping beam that is pivotally attached to the front portion of the conveyor system for rotation about a front axis that is transverse to the longitudinal axis of the conveyor system and parallel to the lower and upper arm axes; a drive member of the lift that actuates to extend and retract the telescoping beam; a pivot actuator attached between the telescoping beam and the front portion of the conveying system; and the robotic carton unloader further comprises a controller in communication with the pivot actuator, the drive member, and the robotic arm assembly, the controller executes instructions to position a vertical height and pitch of the front portion of the conveyor system to parallel the manipulator head. 6. The robotic carton unloader of claim 5 , wherein the controller positions the front portion of the conveyor system to retract cartons received thereon onto the rear portion of the conveyor system between engagements and movements of at least one carton by the manipulator head. 7. The robotic carton unloader of claim 5 , further comprising a transition carton guiding structure between the front portion and a rear portion of the conveyor system that adjusts in length and pitch in response to movement of the lift and that conveys cartons from the front portion to the rear portion. 8. The robotic carton unloader of claim 1 , wherein the upper arm assembly comprises: a rotatable gantry having the rear ends pivotally attached at the upper arm axis to the left and right lower arms and having a lateral guide at an extended end; and an end arm proximally attached for lateral movement to the lateral guide of the rotatable gantry and distally attached to the manipulator head. 9. The robotic carton unloader of claim 1 , wherein the manipulator head comprises at least one vacuum manipulator, the robotic carton unloader further comprising a pneumatic system to selectively perform a sequence of operations of (i) engaging the at least one carton with suction; (ii) disengaging the at least one carton by removing the suction; and (iii) clearing debris from the at least one vacuum manipulator by directing compressed air through the at least one vacuum manipulator. 10. The robotic carton tanloader of claim 1 , further comprising: a vision system that detects the at least one carton in the carton pile; a pneumatic system that selectively couples a source of vacuum and a source of compressed air to the at least one vacuum manipulator of the manipulator head to engage and release the at least one carton; a pressure sensor in pneumatic communication with the pneumatic system to detect a pressure indication associated with the, at least one vacuum manipulator; and a controller in communication with the vision system, the pneumatic system and the pressure sensor, the controller executes instructions to selectively clear debris from the at least one vacuum manipulator by: receiving an image of the carton pile; detecting the at least one carton in the carton pile from the image; positioning the manipulator head to engage the at least one carton with the at least one vacuum manipulator; causing the pneumatic system o couple the source of vacuum to the at least one vacuum manipulator; moving the robotic arm assembly to position the at least one carton on the conveyor system; disengaging the at least one carton by causing the pneumatic system to decouple the source of vacuum from the at least one vacuum manipulator; moving the robotic arm assembly away from the at least one carton to enable conveying of the at least one carton by the conveyor system; determining that the at least one vacuum manipulator is clogged with debris; and clearing debris from the at least one vacuum manipulator by directing the pneumatic system to couple the source of compressed air to the at least one vacuum manipulator. 11. The robotic carton unloader of claim 10 , wherein the controller determines that the at least one vacuum manipulator is clogged with debris by: reimaging the carton pile; and detecting that the at least one carton remains on the carton pile after a previous attempt to engage and move to the conveyor system. 12. The robotic carton unloader of claim 10 , wherein the controller determines that the at least one vacuum manipulator is clogged with debris by detecting that the pressure indication is consistent with a blocked at least one vacuum manipulator with the manipulator head positioned away from the at least one carton. 13. The robotic carton unloader of claim 1 , further comprising: a vision system that obtains an image of any objects proximate to the mobile body; a controller that executes instructions to position a selected one of the robotic arm assembly and the mobile body, the controller in communication with the vision system to: determine whether an object is proximate to the mobile body that can be damaged by movement of the selected one of the robotic arm assembly and the mobile body; in response to determining that the object is proximate to the mobile body that can be damaged, prevent the movement of the selected one of the robotic arm assembly and the mobile body. 14. The robotic carton unloader of claim 13 , further