Methods and computer program products for detecting fallen containers

That which is claimed: 1. A method of controlling loading systems having a conveyor that merges into a rotating wheel, comprising: transmitting at least one lower optical signal across a travel path of elongated containers at a height that is below a medial portion of upright container, the at least one lower optical signal including a first optical signal that projects across a receiving pocket of a rotating wheel at a load position, the wheel having a plurality of circumferentially spaced apart receiving pockets, each pocket configured to receive one upright container at the load position; concurrently transmitting at least one upper optical signal at a height that is above the at least one lower optical signal, the at least one upper optical signal configured to cross a cap portion of an upright container in the receiving pocket at the load position; electronically detecting fallen containers or blockages proximate and in a receiving pocket of the wheel at the load position based on data associated with the optical signals; automatically controlling a drive system associated with the wheel so that the wheel does not rotate if a fallen container is detected in the pocket of the wheel at the load position; and reversing or stopping the conveyor if a bridge of abutting containers is detected proximate the wheel based on data associated with at least one of the optical signals. 2. The method of claim 1 , wherein the transmitting at least one lower optical signal is carried out by concurrently transmitting first and second lower optical signals across the travel path of the elongated containers so that the second optical signal is closely spaced to but does not intersect the first optical signal and is upstream of the rotating wheel. 3. The method of claim 1 , further comprising electronically monitoring the at least one upper sensor after a fallen container fault is identified based on data from the at least one lower sensor to assess whether a container enters a receiving pocket of the wheel, then generating a fallen container notification only if an upright container has not entered the receiving pocket at the load position within about 0.5-5 seconds after a fallen container is detected based on data from the at least one lower sensor. 4. A computer program product for controlling a container transport and/or loading device, the computer program product comprising: a non-transitory computer readable storage medium having computer readable program code embodied in the medium, the computer-readable program code comprising: computer readable program code configured to monitor at least one lower optical signal including a first lower optical signal transmitted across a travel path of elongated containers at a height that is below a medial portion of upright container so that the first lower optical signal projects across a receiving pocket of a rotating wheel at a load position, the wheel having a plurality of circumferentially spaced apart receiving pockets, each pocket configured to receive one upright container at the load position; computer readable program code configured to monitor at least one upper optical signal that is transmitted at a height that is above the first lower optical signal, the upper optical signal configured to cross a cap portion of an upright container in the receiving pocket at the load position; computer readable program code configured to identify fallen containers and/or blockages proximate and in the receiving pocket of the wheel at the load position based on data associated with the upper and lower optical signals; computer readable program code configured to control a drive system associated with the wheel so that the wheel does not rotate if a fallen container is identified as being in a pocket of the wheel; and computer readable program code configured to reverse or stop a conveyor that moves containers toward the rotating wheel if a bridge of abutting containers is detected proximate the wheel based on data associated with at least one of the upper and lower optical signals. 5. The computer program product of claim 4 , wherein the computer readable program code that monitors the at least one lower optical signal is configured to monitor a second lower optical signal that is transmitted across the travel path of the elongated containers so that the second lower optical signal is closely spaced to, but does not intersect, the first lower optical signal and resides upstream of the rotating wheel. 6. The computer program product of claim 4 , further comprising computer readable program code configured to monitor the at least one upper sensor after a fallen container fault is identified based on data from the at least one lower sensor to assess whether a container enters a receiving pocket of the wheel, then generate a fallen container notification only if an upright container has not entered the receiving pocket at the load position within about 0.5-5 seconds after a fallen container is detected based on data from the at least one lower sensor.