System and method of geo-locating mobile apparatus

The invention claimed is: 1. A mobile apparatus operable to communicate with a central location, the mobile apparatus comprising: a chassis; a communications module; and a controller including a processor and memory, the processor programmed to perform instructions stored in the memory, the instructions including defining an offline perimeter surrounding the chassis, wherein the offline perimeter is defined when the mobile apparatus is disconnected from the central location, locating a chassis position in relation to the offline perimeter, determining whether the chassis position is outside the offline perimeter, and upon the determination, establishing communication between the mobile apparatus and the central location over a network via the communication module and defining an online perimeter around the chassis after establishing communication to enable tracking of the chassis relative to the online perimeter, the online perimeter having a larger area than the offline perimeter, receiving an indication via the network that the chassis is located outside the online perimeter, and transmitting a signal reflecting a location of the mobile apparatus outside of the online perimeter upon receiving the indication. 2. The mobile apparatus of claim 1 , wherein the offline perimeter is defined by a mathematical function. 3. The mobile apparatus of claim 2 , wherein the online perimeter is defined by one of a global positioning system, a cellular network, and a radio communication network. 4. The mobile apparatus of claim 1 , wherein the signal is a notification that the chassis is located outside the online perimeter. 5. The mobile apparatus of claim 1 , wherein the signal deactivates the mobile apparatus. 6. The mobile apparatus of claim 1 , wherein the mobile apparatus is a floor cleaning machine. 7. A method of geo-locating a mobile apparatus including a chassis, the method comprising: defining an offline perimeter surrounding the chassis, wherein the offline perimeter is defined when the mobile apparatus is disconnected from a central location; monitoring the position of the chassis in relation to the offline perimeter; determining that the chassis is located outside the offline perimeter, and upon the determination, establishing communication between the mobile apparatus and the central location over a network and defining an online perimeter surrounding the chassis to enable tracking of the chassis relative to the online perimeter, the online perimeter having a larger area than the offline perimeter, monitoring the position of the chassis in relation to the online perimeter, determining that the chassis is located outside of the online perimeter, and transmitting a signal that the chassis is located outside of the online perimeter, wherein the signal indicates a location of the mobile apparatus outside of the online perimeter. 8. The method of claim 7 , wherein the offline perimeter is defined by a mathematical function. 9. The method of claim 7 , wherein the online perimeter is defined by one of a global positioning system, a cellular network, and a radio communication network. 10. The method of claim 7 , further comprising notifying one or both of a server and an end user that the chassis is located outside the online perimeter. 11. The method of claim 7 , further comprising deactivating the mobile apparatus based upon determining that the chassis is located outside of the online perimeter. 12. A geo-location system for determining a location of a mobile apparatus, the system comprising: a mobile apparatus having a mobile communications module; a central location including a network communications module and a positioning module; and a controller including a processor and memory, the processor operable to perform instructions stored in the memory to define an offline perimeter surrounding the mobile apparatus, wherein the offline perimeter is defined when the mobile apparatus is disconnected from the central location, locate a position of the mobile apparatus in relation to the offline perimeter, determine whether the position is outside the offline perimeter, and upon the determination, communicate with the network communications module via the mobile communications module and define an online perimeter around the mobile apparatus to enable tracking of the mobile apparatus relative to the online perimeter, the online perimeter having a larger area than the offline perimeter, receive an indication from the central location that the mobile apparatus is located outside the online perimeter, and transmit a signal upon receiving the indication, wherein the signal is an indication of a location of the mobile apparatus outside of the online perimeter. 13. The system of claim 12 , wherein the offline perimeter is defined by a mathematical function. 14. The system of claim 12 , wherein the online perimeter is defined by one of a global positioning system, a cellular network, and a radio communication network. 15. The system of claim 12 , wherein the signal is a notification that the mobile apparatus is located outside the online perimeter. 16. The system of claim 12 , wherein the signal deactivates the mobile apparatus.