Geo-fencing in a building automation system

What is claimed is: 1. A method comprising: storing information pertaining to a geo-fence associated with a user of a mobile device, wherein the geo-fence defines a boundary around a fixed location; storing a previous geo-fence state of the mobile device based on a previous location of the mobile device, wherein the previous geo-fence state is identified as an inside geo-fence state when the previous location of the mobile device is determined to be inside of the boundary around the fixed location and an outside geo-fence state when the previous location of the mobile device is determined to be outside of the boundary around the fixed location; identifying an anticipated time period for the mobile device crossing the geo-fence; soliciting a current location of the mobile device more frequently during the anticipated time period than prior to and after the anticipated time period; identifying the current location of the mobile device based on a signal received from the mobile device in response to the soliciting; determining a current geo-fence state of the mobile device based on the current location of the mobile device, wherein the current geo-fence state is identified as the inside geo-fence state when the current location of the mobile device is determined to be inside of the boundary around the fixed location and the outside geo-fence state when the current location of the mobile device is determined to be outside of the boundary around the fixed location; comparing the current geo-fence state with the previous geo-fence state; when the current geo-fence state fails to match the previous geo-fence state, transmitting a new command to a building controller at the fixed location; and when the current geo-fence state matches the previous geo-fence state, refraining from transmitting the new command to the building controller. 2. The method of claim 1 further comprising: associating the mobile device and the fixed location. 3. The method of claim 1 wherein the new command is associated with the current geo-fence state. 4. The method of claim 3 wherein the new command is an away command when the current geo-fence state is determined to be the outside geo-fence state. 5. The method of claim 4 wherein the building controller is an HVAC controller, and wherein the away command instructs the HVAC controller to change to an energy saving set point. 6. The method of claim 3 wherein the new command is a home command when the current geo-fence state is determined to be the inside geo-fence state. 7. The method of claim 6 wherein the building controller is an HVAC controller, and wherein the home command instructs the HVAC controller to change to a comfort set point. 8. The method of claim 1 further comprising: responsive to failing to receive the signal from the mobile device for a predetermined period of time, resoliciting the current location of the mobile device. 9. The method of claim 1 further comprising: periodically soliciting the current location of the mobile device. 10. A method comprising: storing information pertaining to a geo-fence associated with a user of a mobile device, wherein the geo-fence defines a boundary around a fixed location; storing a previous geo-fence state of the mobile device based on a previous location of the mobile device, wherein the previous geo-fence state is identified as an inside geo-fence state when the previous location of the mobile device is determined to be inside of the boundary around the fixed location and an outside geo-fence state when the previous location of the mobile device is determined to be outside of the boundary around the fixed location; identifying an anticipated time period for the mobile device crossing the geo-fence; soliciting a current location of the mobile device with a higher accuracy level during the anticipated time period than prior to and after the anticipated time period; identifying the current location of the mobile device based on a signal received from the mobile device in response to the soliciting; determining a current geo-fence state of the mobile device based on the current location of the mobile device, wherein the current geo-fence state is identified as the inside geo-fence state when the current location of the mobile device is determined to be inside of the boundary around the fixed location and the outside geo-fence state when the current location of the mobile device is determined to be outside of the boundary around the fixed location; comparing the current geo-fence state with the previous geo-fence state; when the current geo-fence state fails to match the previous geo-fence state, transmitting a new command to a building controller at the fixed location; and when the current geo-fence state matches the previous geo-fence state, refraining from transmitting the new command to the building controller. 11. The method of claim 10 further comprising: instructing the mobile device to turn on GPS functionality and include a GPS location of the mobile device in the signal during the anticipated time period. 12. The method of claim 10 further comprising: instructing the mobile device to determine the current geo-fence state and transmit the current geo-fence state during the anticipated time period. 13. A building automation server comprising: a transceiver; and a controller, wherein the controller stores information pertaining to a geo-fence associated with a user of a mobile device in a database, wherein the geo-fence state defines a boundary around a fixed location, wherein the controller stores a previous geo-fence state of the mobile device based on a previous location of the mobile device, wherein the previous geo-fence state of the mobile device is identified as an inside geo-fence state when the previous location of the mobile device is determined to be inside of the boundary around the fixed location and an outside geo-fence state when the previous location of the mobile device is determined to be outside of the boundary around the fixed location, wherein the controller identifies an anticipated time period for the mobile device crossing the geo-fence, wherein the controller solicits a current location of the mobile device more frequently during the anticipated time period than prior to and after the anticipated time period, wherein the controller identifies the current location of the mobile device based on a signal the transceiver receives from the mobile device in response to soliciting the current location of the mobile device, wherein the controller determines a current geo-fence state of the mobile device based on the current location of the mobile device, wherein the current geo-fence state of the mobile device is identified as the inside geo-fence state when the current location of the mobile device is determined to be inside of the boundary around the fixed location and the outside geo-fence state when the current location of the mobile device is determined to be outside of the boundary around the fixed location, wherein the controller compares the current geo-fence state with the previous geo-fence state, wherein, when the current geo-fence state fails to match the previous geo-fence state, the controller instructs the transceiver to transmit a new command to a building controller at the fixed location, and wherein, when the current geo-fence state matches the previous geo-fence state, the controller refrains from instructing the transceiver to transmit the new command to the building controller. 14. The building automation server of claim 13 wherein the controller associates the mob