Door and light curtain control system for depalletization systems and methods

What is claimed is: 1. A depalletization system comprising: multiple workstations, each workstation configured to receive a respective pallet of items; an output conveyor extending along the multiple workstations, the output conveyor configured to receive and transport individual items from the pallet of items; a depalletization robot including an end effector, the depalletization robot configured to travel along the multiple workstations such that the pallet of items in each of the workstations is accessible by the end effector, wherein the end effector is configured to simultaneously releasably couple with multiple items of the pallet of items, and wherein at least two of the multiple items have differing top surface elevations; a control system in electrical communication with the depalletization robot; multiple doors, wherein each workstation of the multiple workstations is separated from the depalletization robot by a respective door of the multiple doors; and multiple light curtains, wherein worker access to each workstation of the multiple workstations is via a respective light curtain of the multiple light curtains, wherein the control system is programmed and operable to: actuate the depalletization robot to move from a first workstation of the multiple workstations to a second workstation of the multiple workstations; actuate the depalletization robot to engage with and remove a top layer of items from a pallet in the second workstation to thereby expose a second layer of items on the pallet, wherein, in response to an input to the control system from a light curtain associated with the second workstation, the control system is configured to cause a stop to all motion of the depalletization robot while at least a portion of the depalletization robot is within the second workstation; actuate the depalletization robot to transfer the top layer of items to a conveyor; actuate the depalletization robot to engage with the second layer of items and to transfer the second layer of items to the conveyor, wherein the transfer of the second layer of items to the conveyor empties the pallet of items; in response to the pallet being emptied of items, actuate the depalletization robot to move from the second workstation to a different workstation of the multiple workstations; and after the depalletization robot has moved from the second workstation to the different workstation, actuate a door to close between the depalletization robot and the second workstation. 2. The depalletization system of claim 1 , wherein the end effector includes multiple suction cups configured to simultaneously releasably couple with the multiple items. 3. The depalletization system of claim 2 , wherein the multiple suction cups have individual spring suspensions. 4. The depalletization system of claim 1 , wherein the multiple items are an entire layer of the items from the pallet of items. 5. The depalletization system of claim 1 , wherein adjacent workstations of the multiple workstations are separated by a respective partition. 6. The depalletization system of claim 5 , wherein the partitions are fencing, rails, light curtains, or walls. 7. The depalletization system of claim 1 , wherein opening and closing of each door of the multiple doors is controlled by the control system. 8. The depalletization system of claim 7 , wherein the control system controls a first door of the multiple doors to be open while the depalletization robot is accessing the first depalletization workstation of the multiple workstations and all other doors of the multiple doors to be closed while the depalletization robot is accessing the first depalletization workstation of the multiple workstations. 9. The depalletization system of claim 1 , further comprising a respective vision system associated with each workstation of the multiple workstations and in communication with the control system, wherein the vision systems and control system are configured to determine positions of a highest level of items on the pallet of items in each workstation and to determine positional coordinates and an orientation of the items. 10. A method for depalletization comprising: actuating, by a control system of a depalletization system, a robot of the depalletization system that is configured to traverse between multiple depalletization workstations, wherein the actuating causes the robot to move from a first depalletization workstation of the multiple depalletization workstations to a second depalletization workstation of the multiple depalletization workstations; actuating, by the control system, the robot to engage with and remove a top layer of items from a pallet in the second depalletization workstation to thereby expose a second layer of items on the pallet, wherein, in response to an input to the control system from a light curtain associated with the second depalletization workstation, the control system is configured to cause a stop to all motion of the robot while at least a portion of the robot is within the second depalletization workstation; actuating, by the control system, the robot to transfer the top layer of items to a conveyor; actuating, by the control system, the robot to engage with the second layer of items and to transfer the second layer of items to the conveyor, wherein the transfer of the second layer of items to the conveyor empties the pallet of items, and in response to the pallet being emptied of items, actuating, by the control system, the robot to move from the second depalletization workstation to a different depalletization workstation of the multiple depalletization workstations; and after the robot has moved from the second depalletization workstation to the different depalletization workstation, actuating, by the control system, a door to close between the robot and the second depalletization workstation. 11. The method of claim 10 , wherein the top layer of items includes items with top surfaces that are at differing elevations.