Autonomous transport vehicle charging system

What is claimed is: 1. A method comprising: providing at least one autonomous transport vehicle; providing at least one transfer station having an allocated and unallocated state where in the allocated state the at least one transfer station allows transfer of items from and to the at least one autonomous transport vehicle; providing at least one charging station on each pick floor level of a storage and retrieval system, each of the at least one charging station being located at a respective one of the at least one transfer station; providing at least one power supply configured to supply power to the at least one charging station; communicating, with a controller in communication with at least one of the at least one charging station or the at least one autonomous transport vehicle, information related to a transfer of items between a predetermined at least one transfer station and a predetermined one of the at least one autonomous transport vehicle; and with the controller, applying power from the at least one power supply to the at least one charging station for charging the at least one autonomous transport vehicle located at the at least one transfer station, wherein the controller supplies power to the at least one charging station for charging the predetermined one of the at least one autonomous transport vehicle corresponding to the transfer of items with the predetermined one of the at least one autonomous transport vehicle transferring the items at the predetermined at least one transfer station with the predetermined at least one transfer station in the allocated state and communicating with another of the at least one autonomous transport vehicle and identifying an unallocated time period with the predetermined at least one transfer station in the unallocated state for charging the other one of the at least one autonomous transport vehicle at the at least one charging station of the predetermined at least one transfer station in the unallocated state. 2. The method of claim 1 , further comprising: providing at least one vertical lift within the storage and retrieval system; providing at least one pick floor level having storage locations, at least one vestibule and a transfer deck connecting the storage locations with the at least one vestibule, each of the at least one vestibule having at least one of the at least one transfer station providing access to a respective one of the at least one vertical lift; and controlling operations, with the controller, of at least one of the at least one vertical lift and operations of at least one charging station located in vestibules associated with the respective vertical lift. 3. The method of claim 2 , further comprising controlling, with a level controller connected to each pick floor level, storage and retrieval operations of a respective level, and linking, with the level controller, operations of the at least one vertical lift with associated charging stations such that access to the at least one vertical lift is prevented when one or more of the associated charging stations is inoperable. 4. The method of claim 2 , wherein the at least one power supply is commonly connected to charging stations of vertically adjacent ones of the at least one pick floor level. 5. The method of claim 4 , wherein the charging stations are commonly connected to the at least one power supply comprising a two by two array of charging stations where a first two of the charging stations in the array are located on a first pick floor level and a second two of the charging stations in the array are located on a second pick floor level, the first two of the charging stations and the second two of the charging stations being vertically stacked one above the other. 6. The method of claim 2 , further comprising providing each vestibule with at least two charging stations and arranging the at least two charging stations on a common linear path. 7. The method of claim 2 , further comprising providing the transfer deck with an array of autonomous transport vehicle travel paths, the array including longitudinal travel paths providing access to the storage locations and the at least one vestibule and transverse travel paths providing shunts between the longitudinal travel paths. 8. The method of claim 2 , further comprising reserving, with the controller, one or more of the at least one charging station for allowing one of the at least one autonomous transport vehicle access to the one or more of the at least one charging station. 9. The method of claim 2 , further comprising re-routing, with the controller, one of the at least one autonomous transport vehicle destined for a charging station at a first vestibule to a charging station at another vestibule when the charging station at the first vestibule is inoperable. 10. The method of claim 2 , wherein in the unallocated state the at least one transfer station does not allow the transfer of items from and to the at least one autonomous transport vehicle. 11. The method of claim 2 , wherein the other of the at least one autonomous transport vehicle traverses from a position on a transfer deck or in a picking aisle to the predetermined at least one transfer station along at least one shunt path between the position on the transfer deck or in the picking aisle and the predetermined at least one transfer station and, wherein the other of the at least one autonomous transport vehicle enters the at least one vestibule from the at least one shunt path. 12. The method of claim 1 , wherein the other of the at least one autonomous transport vehicle traverses from a position on a transfer deck or in a picking aisle to the predetermined at least one transfer station along at least one shunt path between the position on the transfer deck or in the picking aisle and the predetermined at least one transfer station. 13. The method of claim 12 , wherein the other of the at least one autonomous transport vehicle is in an idle state at the position on the transfer deck or in the picking aisle. 14. A warehouse storage and retrieval system comprising at least one autonomous transport vehicle; at least one transfer station having an allocated and unallocated state where in the allocated state the at least one transfer station allows transfer of items from and to the at least one autonomous transport vehicle; at least one charging station disposed on each pick floor level of the warehouse storage and retrieval system, each of the at least one charging station being located at a respective one of the at least one transfer station; at least one power supply configured to supply power to the at least one charging station; and a controller communication with at least one of the at least one charging station or the at least one autonomous transport vehicle, where the controller is configured to communicate information related to a transfer of items between a predetermined at least one transfer station and a predetermined one of the at least one autonomous transport vehicle, apply power from the at least one power supply to the at least one charging station for charging the at least one autonomous transport vehicle located at the at least one transfer station, wherein the controller supplies power to the at least one charging station for charging the predetermined one of the at least one autonomous transport vehicle corresponding to the transfer of items with the predetermined one of the at least one autonomous transport vehicle transferring the items at the predetermined at least one transfer station with the predetermined at least one transfer station in the allocated state, and commun