System and method for automatically receiving geo-relevant information in a vehicle

What is claimed is: 1. A method for automatically presenting, in a vehicle, path-relevant information to a vehicle operator, the method comprising the acts of: recording, by an HTML5 web application executing on an onboard vehicle computer in a local web storage of the HTML5 web application, vehicle route data during vehicle travel; generating, by the HTML5 web application executing on the onboard vehicle computer, one or more route prediction models using the vehicle route data; predicting, by the HTML5 web application executing on the onboard vehicle computer, a vehicle route based on the one or more route prediction models; transmitting, by the HTML5 web application executing on the onboard vehicle computer, coordinate data corresponding to the predicted vehicle route to a backend server over a wireless network connection; wherein transmitting the coordinate data comprises transmitting, by the HTML5 web application, coordinate data corresponding to a portion of the predicted vehicle route to the backend server, wherein the portion corresponds to a non-destination; receiving, by the HTML5 web application executing on the onboard vehicle computer and in response to the transmitted coordinate data, path-relevant information from the backend server over the wireless network connection, wherein the path-relevant information includes information corresponding to at least one non-destination location along the predicted vehicle route; wherein receiving the path-relevant information comprises receiving, by the HTML5 web application and in response to the transmitted portion of the predicted vehicle route, path-relevant information corresponding to only the transmitted portion of the predicted vehicle route; and presenting at least a portion of the path-relevant information to the vehicle operator. 2. The method of claim 1 , wherein presenting comprising displaying the at least portion of the path-relevant information on a display screen of the vehicle. 3. The method of claim 1 , wherein the method is implemented automatically without input from the vehicle operator. 4. The method of claim 1 , wherein recording comprises recording, by the HTML5 web application executing on the onboard vehicle computer, current GPS coordinates, time of day and day of week information in the local web storage. 5. The method of claim 1 , wherein said recording comprises recording the vehicle route data on one of a continuous, periodic and movement basis. 6. The method of claim 1 , wherein predicting the vehicle route comprises predicting, by the HTML5 web application executing on the onboard vehicle computer, the vehicle route based on one or more algorithms that receive, as inputs, current and historical driving behavior data, and which output probability information corresponding to a most likely current route being traveled by the vehicle. 7. The method of claim 1 , wherein the path-relevant information comprises at least one of business locations, weather conditions, traffic conditions, safety information, street/road topologies, upcoming speed limit changes, points of interest, and naturally occurring physical structures. 8. The method of claim 1 , wherein the portion of the predicted vehicle route corresponds to a portion of the predicted vehicle route closest to a current position of the vehicle. 9. An onboard vehicle computer system of a vehicle comprising: a network interface; a user interface; a GPS transceiver; a processor coupled to the network interface, user interface and the GPS transceiver; and a memory coupled to the processor, the memory having an HTML5 web application that, when executed by the processor, causes the onboard vehicle computer system to: record, in a local web storage of the HTML5 web application, vehicle route data during vehicle travel, generate one or more route prediction models using the vehicle route data, predict a vehicle route based on the updated one or more route prediction models, transmit coordinate data corresponding to the predicted vehicle route to a backend server over a wireless network connection via the network interface, wherein transmit coordinate data corresponding to a portion of the predicted vehicle route to the backend server, wherein the portion corresponds to a non-destination, receive, in response to the transmitted coordinate data, path-relevant information from the backend server over the wireless network connection via the network interface, wherein the path-relevant information includes information corresponding to at least one non-destination location along the predicted vehicle route, wherein receive, in response to the transmitted portion of the predicted vehicle route, path-relevant information corresponding to only the transmitted portion of the predicted vehicle route, and present at least a portion of the path-relevant information to a vehicle operator. 10. The onboard vehicle computer system of claim 9 , wherein the HTML5 web application is to further cause the onboard vehicle computer system to present the at least portion of the path-relevant information using a display screen of the vehicle. 11. The onboard vehicle computer system of claim 9 , wherein the HTML5 web application is executed by the processor automatically without input from the vehicle operator. 12. The onboard vehicle computer system of claim 9 , wherein the vehicle route data comprises current GPS coordinates, time of day and day of week information. 13. The onboard vehicle computer system of claim 9 , wherein the HTML5 web application is executed by the processor in order to record said vehicle route data on one of a continuous, periodic and movement basis. 14. The onboard vehicle computer system of claim 9 , wherein the HTML5 web application is executed by the processor to predict the vehicle route based on one or more algorithms that receive, as inputs, current and historical driving behavior data, and which output probability information corresponding to a most likely current route being traveled by the vehicle. 15. The onboard vehicle computer system of claim 9 , wherein the path-relevant information comprises at least one of business locations, weather conditions, traffic conditions, safety information, street/road topologies, upcoming speed limit changes, points of interest, and naturally occurring physical structures. 16. The onboard vehicle computer system of claim 9 , wherein the portion of the predicted vehicle route corresponds to a portion of the predicted vehicle route closest to a current position of the vehicle. 17. A computer program product comprising: a processor storage medium having computer executable program code embodied therein to automatically present, in a vehicle, path-relevant information to a vehicle operator, the processor storage medium having an HTML5 web application to: record, in a local web storage of the HTML5 web application, vehicle route data during vehicle travel, generate one or more route prediction models using the vehicle route data, predict a vehicle route based on the updated one or more route prediction models, transmit coordinate data corresponding to the predicted vehicle route to a backend server over a wireless network connection, wherein transmit the coordinate data by transmitting coordinate data corresponding to a portion of the predicted vehicle route to the backend server, wherein the portion corresponds to a non-destination, receive, in response to the transmitted coordinate data, path-relevant information from the backend server over the wireless network connection, wherei