Storage and retrieval system rover interface

What is claimed is: 1. A method of operating an automated storage and retrieval system having more than one storage levels and at least one autonomous rover, the method comprising: providing at least one rover entry or exit station, the at least one rover entry or exit station being in communication with at least one storage level of the more than one storage levels; and effecting, with a controller, insertion or removal of the at least one autonomous rover via the at least one rover entry or exit station to at least one of introduce and remove the at least one autonomous rover at a predetermined storage level, and effecting, with the controller, at least one of rover load balancing and work load balancing between at least one storage levels and another of the more than one storage levels so as to balance a work load in the automated storage and retrieval system. 2. The method of claim 1 , wherein the at least one autonomous rover is introduced into the predetermined storage level from one or more of the another one of the more than one storage levels, and outside of the automated storage and retrieval system. 3. The method of claim 1 , wherein the at least one autonomous rover is removed from the predetermined storage level and transferred with the at least one rover entry or exit station to the another one of the more than one storage levels or transferred with the at least one rover entry or exit station outside of the automated storage and retrieval system, where transfer of the at least one autonomous rover with the at least one rover entry or exit station is decoupled from case unit input and output from the storage and retrieval system. 4. An automated storage and retrieval system having more than one storage levels and at least one autonomous rover, the system comprising at least one rover entry or exit station, the at least one rover entry or exit station being in communication with at least one storage level of the more than one storage levels; and a controller configured to: insert or remove an idle autonomous rover of the at least one autonomous rover via the at least one rover entry or exit station to at least one of introduce and remove the idle autonomous rover at the at least one storage level, and the controller is configured to effect at least one of introduce and removal of the idle autonomous rover; and moving autonomous rovers independent of and non-interfering with other of the at least one autonomous rover at a predetermined storage level upon a respective introduction and removal of each autonomous rover at the predetermined storage level. 5. The automated storage and retrieval system of claim 4 , wherein the idle autonomous rover is introduced into the predetermined storage level from one or more of another one of the multiple storage levels, and outside of the automated storage and retrieval system. 6. The automated storage and retrieval system of claim 4 , wherein the idle autonomous rover is removed from the predetermined storage level and transferred with the at least one rover entry or exit station to another one of the multiple storage levels or transferred with the at least one rover entry or exit station outside of the automated storage and retrieval system, where transfer of the idle autonomous rover with the at least one rover entry or exit station is decoupled from case unit input and output from the storage and retrieval system. 7. A method of operating an automated storage and retrieval system having more than one storage levels and at least one autonomous rover, the method comprising: providing at least one rover entry or exit station, the at least one rover entry or exit station being in communication with at least one storage level of the more than one storage levels; and effecting, with a controller: inserting or removing of an idle autonomous rover of the at least one autonomous rover via the at least one rover entry or exit station to at least one of introduce and remove the idle autonomous rover at the at least one storage level, and effecting at least one of introduce and remove of the idle autonomous rover; and moving autonomous rovers independent of and non-interfering with other of the at least one autonomous rover at a predetermined storage level upon a respective introduction and removal of each autonomous rover at the predetermined storage level. 8. The method of claim 7 , wherein the idle autonomous rover is introduced into the predetermined storage level from one or more of another one of the multiple storage levels, and outside of the automated storage and retrieval system. 9. The method of claim 7 , wherein the idle autonomous rover is removed from the predetermined storage level and transferred with the at least one rover entry or exit station to another one of the multiple storage levels or transferred with the at least one rover entry or exit station outside of the automated storage and retrieval system, where transfer of the idle autonomous rover with the at least one rover entry or exit station is decoupled from case unit input and output from the storage and retrieval system. 10. An automatic registration system for autonomous rovers, the automatic registration system comprising: a rover space having a global reference frame; at least one registration station disposed at predetermined locations within the rover space, the at least one registration station being configured to communicate with each of the autonomous rovers to at least receive rover identification information; and a controller in communication with the at least one registration station, the controller being configured to receive the at least rover identification information from the at least one registration station and wherein the at least one registration station is configured to effect autonomous rover location determination enabling a cold start substantially anywhere within the rover space, where the controller effects induction of the autonomous rover into the rover space independent of and non-interfering with other of the autonomous rovers. 11. The automatic registration system of claim 10 , wherein the controller, based on the rover identification information, registers a corresponding autonomous rover as being at a predetermined location within the rover space corresponding from the at least one registration station. 12. The automatic registration system of claim 10 , wherein the rover space is a multilevel storage structure and the global reference frame is a three dimensional reference frame of the multilevel storage structure. 13. The automatic registration system of claim 10 , further comprising: at least one rover transfer station configured to physically insert or remove the at least one autonomous rover to and from the rover space where the physical insertion or removal of the at least one autonomous rover to and from the rover space is decoupled from case unit input and output. 14. The automatic registration system of claim 13 , wherein each of the at least one rover transfer station includes a respective registration station, the registration station being further configured to send location information corresponding to a location of the at least one rover with respect to the global reference frame. 15. The automatic registration system of claim 10 , wherein a location of each of the at least one registration station within the rover space is mapped within the global reference frame. 16. The automatic registration system of claim 10 , wherein the at least one registration station is configured to one or more of effect updating a location