Warehousing system, self-driving system and method of positioning a self-driving system

The invention claimed is: 1. A warehousing system, comprising: a storage rack disposed in a warehouse, the storage rack extends in a direction and defines an aisle along the storage rack; a first ground marking arranged on a ground surface of the aisle, the first ground marking comprising machine-readable characteristics representing a warehouse location identification number (ID), the machine-readable characteristics comprising: one or more horizontal lines parallelly arranged at equal intervals, wherein the total number of the one or more horizontal lines corresponding to a first information of the warehouse location ID; and one or more vertical lines parallelly arranged at equal intervals, wherein the total number of the vertical lines corresponding to a second information of the warehouse location ID that is different from the first information, wherein the machine-readable characteristics are recognizable by one or more cameras of a self-driving system, and the self-driving system is operable to determine its position on a predetermined map of the warehouse based on the warehouse location ID, and the predeteimined map is installed in a controller of the self-driving system. 2. The warehousing system of claim 1 , further comprising: a second ground marking arranged on and along the ground surface of the the aisle, wherein the second ground marking is recognizable by the one or more cameras, and the second ground marking comprises a first line section having an arbitrary number of alternating stripes distributed at first equal intervals, and wherein the self-driving system is operable to determine its position on the map based on the first equal intervals and a travel distance of the self-driving system from a reference point. 3. The warehousing system of claim 2 , wherein the second ground marking further comprises a second line section having an arbitrary number of alternating stripes distributed at second equal intervals that are different from the first equal intervals. 4. The warehousing system of claim 3 , wherein the first equal intervals have a first value representing an estimate distance of the self-driving system from the first line section to the reference point, and the second equal intervals have a second value representing an estimate distance of the self-driving system from the second line section to the reference point. 5. The warehousing system of claim 3 , wherein the first equal intervals representing a first speed limit for the self-driving system to travel on the ground surface, and wherein the second equal intervals representing a second speed limit for the self-driving system to travel on the ground surface, and the first speed limit is different from the second speed limit. 6. The warehousing system of claim 3 , wherein the first equal intervals representing a first priority of way for the self-driving system to cross intersections, and wherein the second equal intervals representing a second priority of way for the self-driving system to cross intersections, and the first priority of way is higher than the second priority of way. 7. The warehousing system of claim 3 , wherein the first equal intervals representing a first safety distance needed between the self-driving system and a first storage rack adjacent to the first line section, and wherein the second equal intervals representing a second safety distance needed between the self-driving system and the first storage rack adjacent to the second line section, and the first safety distance is different from the second safety distance. 8. The warehousing system of claim 7 , further comprising: a third ground marking arranged on and along the ground surface of the the aisle, wherein the third ground marking comprises a dashed line distributed along a second storage rack, and the second storage rack is disposed adjacent to the third ground marking and opposing the first storage rack; and a fourth ground marking arranged on and along the ground surface of the the aisle, wherein the fourth ground marking comprises a first solid line disposed at a first distance from the second storage rack, and wherein the third ground marking and the fourth ground marking are arranged to represent different warehouse location identification numbers. 9. The warehousing system of claim 8 , wherein the fourth ground marking further comprises: a second solid line disposed at a second distance from the second storage rack, and the first distance is greater than the second distance, wherein an area between the third ground marking and the first solid line of the fourth ground marking represents a parking area for the self-driving system, and wherein an area between the second ground marking and the fourth ground marking represents a working area for the self-driving system. 10. The warehousing system of claim 8 , further comprising: a machine-readable label disposed within the warehouse, wherein the machine-readable label is a QR code, a barcode, or an optical label, and the machine-readable label is recognizable by the one or more cameras of the self-driving system to identify location of the self-driving system on the predetell lined map of the warehouse. 11. A warehousing system for use with a self-driving system, comprising: a storage rack disposed in a warehouse, wherein the storage rack extends in a direction and defines an aisle along the storage rack; a first ground marking arranged on a ground surface of the aisle, the first ground marking comprising machine-readable characteristics representing a warehouse location identification number (ID), the machine-readable characteristics comprising: one or more horizontal lines parallelly arranged, wherein the total number of the one or more horizontal lines corresponding to a first information of the warehouse location ID; and one or more vertical lines parallelly arranged, wherein the total number of the vertical lines corresponding to a second information of the warehouse location ID that is different from the first information; and a self-driving system, comprising: one or more cameras configured to recognize the machine-readable characteristics; a controller operable to: project a field of view from the one or more cameras onto the ground surface of the aisle; determine a location of the self-driving system on a predetermined map of the warehouse based on the first ground marking appeared in the field of view, and the predetermined map is installed in the controller of the self-driving system; and navigate the self-driving system from a determined location to a destination. 12. The warehousing system of claim 11 , wherein the one or more horizontal lines and one or more vertical lines are parallelly arranged at equal intervals. 13. The warehousing system of claim 11 , wherein the self-driving system further comprises: a mobile base; a plate disposed over the mobile base; and a first frame coupling the plate to the mobile base. 14. The warehousing system of claim 13 , wherein the one or more cameras comprises: a first camera disposed at a first length side of the plate, the first camera being oriented such that an optical axis of the first camera intersecting the ground surface having the field of view projected from the first camera; and a second camera disposed at a second length side of the plate, the second camera being oriented such that an optical axis of the second camera intersecting the ground surface having the field of view projected from the second camera. 15. The warehousing system of claim 14 , wherein the one or more cameras further comprises: a third camer