Dock door automation systems and methods

What is claimed is: 1. An automated docking bay for servicing a truck trailer, the docking bay comprising: a programmable logic controller system configured to operate the docking bay; a plurality of sensors configured to detect an orientation of the truck trailer with respect to the docking bay; an outside lighting system configured to provide feedback to a truck driver during backing the truck trailer into the docking bay; a vehicle restraint system configured to fixate the truck trailer within the docking bay; an overhead door configured to open once the truck trailer is fixated by the vehicle restraint system; a dock leveler configured to deploy after the overhead door opens; and a human machine interface system in communication with the programmable logic controller system and the plurality of sensors. 2. The docking bay of claim 1 , wherein the plurality of sensors comprises: a first sensor and a second sensor to detect an angle and an offset of the truck trailer within the docking bay; a third sensor to detect a position of a tandem of the truck trailer; a fourth sensor to detect a distance between a wall of the docking bay and a rearmost portion of the truck trailer; and a fifth sensor to observe the status of an interior of the docking bay. 3. The docking bay of claim 2 , wherein the first sensor and the second sensor are laser distance sensors mounted to a side of the docking bay by way of a bracket. 4. The docking bay of claim 3 , wherein the third sensor is a laser distance sensor mounted to the docking bay by way of the bracket. 5. The docking bay of claim 2 , wherein the fourth sensor is an ultrasonic sensor that is recessed behind the vehicle restraint system. 6. The docking bay of claim 5 , wherein the vehicle restraint system engages the truck trailer after the truck trailer is properly positioned within the docking bay. 7. The docking bay of claim 6 , wherein the overhead door may be opened and the dock leveler may be deployed after the vehicle restraint system successfully engages the truck trailer. 8. The docking bay of claim 2 , wherein the fifth sensor is a vision sensor configured for recognition and assessment of objects in the interior of the docking bay. 9. The docking bay of claim 8 , wherein the fifth sensor is configured to detect obstructions located near or on the dock leveler during lifting and lowering of the overhead door. 10. The docking bay of claim 8 , wherein the fifth sensor is configured to determine whether the height of the truck trailer is proper based on communications with the programmable logic controller system. 11. The docking bay of claim 8 , wherein the fifth sensor is configured to detect the presence of improperly opened truck trailer doors. 12. The docking bay of claim 11 , wherein the dock leveler is deployed after the overhead door is opened and the truck trailer doors are detected to be properly opened. 13. The docking bay of claim 1 , wherein the human machine interface is configured to enable an authorized user to operate the docking bay based on information flow to and from the plurality of sensors. 14. The docking bay of claim 13 , wherein the human machine interface includes a touch screen configured to visually represent docking bay functions. 15. The docking bay of claim 14 , wherein the touch screen is configured to display docking bay status information based on data provided by the plurality of sensors. 16. The docking bay of claim 15 , wherein the human machine interface is configured to enable the authorized user to operate the docking bay by way of the touch screen according to the docking bay status information. 17. The docking bay of claim 16 , wherein the human machine interface is configured to enable the authorized user to switch the operation of the docking bay between an automation mode and a manual mode. 18. The docking bay of claim 16 , wherein the human machine interface is configured to provide an interface whereby calibration and testing tasks may be performed. 19. The docking bay of claim 16 , wherein the human machine interface is configured to display sensor raw data whereby calibration and testing tasks may be performed. 20. The docking bay of claim 1 , wherein the human machine interface is separate and distinct from the programmable logic controller system and the plurality of sensors.