Methods and apparatus for radio network scanning using geo-tagged information from wireless client devices of heterogeneous wide area networks

What is claimed is: 1. A method comprising: receiving roaming connectivity information at a server, the roaming connectivity information for a plurality of wide area networks collected by a plurality of mobile devices, when the plurality of mobile devices are roaming, independently of the plurality of wide area networks; relating the roaming connectivity information to the plurality of wide area networks and to a plurality of geographic locations to create a network information database; receiving location prediction information from a specific mobile device, the location prediction information indicating a predicted location of the specific mobile device at a certain time; generating a list of candidate wide area networks to serve as roaming networks for the specific mobile device based on the predicted location and the roaming connectivity information; and sending a preferred roaming list to the specific mobile device, the preferred roaming list including the list of candidate wide area networks. 2. The method of claim 1 , wherein receiving the roaming connectivity information at the server comprises: receiving the roaming connectivity information over an Internet Protocol connection from each of the plurality of mobile devices at the server. 3. The method of claim 1 , further comprising: prioritizing the list of candidate wide area networks of the preferred roaming list. 4. The method of claim 3 , wherein prioritizing the list of candidate wide area networks of the preferred roaming list, comprises: receiving mobile device state information or user preferences from the specific mobile device; and prioritizing the list of candidate wide area networks based on the mobile device state information or the user preferences. 5. The method of claim 3 , wherein prioritizing the list of candidate wide area networks of the preferred roaming list, comprises: determining that a physical layer or data layer connectivity in a given geographic location for the specific mobile device is below an acceptable criteria based on the roaming connectivity information; and prioritizing the list of candidate wide area networks based on the physical layer or data layer connectivity provided at the given geographic location. 6. The method of claim 3 , further comprising: predicting data usage requirements at a given time and at a given geographic location for the specific mobile device; and prioritizing the list of candidate wide area networks based on the prediction of the data usage requirements. 7. The method of claim 1 , further comprising: generating the list of candidate wide area networks to serve as the roaming networks for the specific mobile device in response to a request message from the specific mobile device. 8. The method of claim 1 , further comprising: sending the preferred roaming list to the specific mobile device in response to a request message from the specific mobile device. 9. A method of claim 1 , further comprising: receiving a request message from the specific mobile device requesting the preferred roaming list for a given geographic location; sending roaming information update requests to the plurality of mobile devices located in the given geographic location related to the request message; rating access capabilities for a plurality of candidate wireless networks based on the received roaming information updates collected by the plurality of mobile devices when the plurality of mobile devices are roaming; and sending the preferred roaming list to the specific mobile device listing the plurality of candidate wireless networks along with an access capability indication for each of the plurality of candidate wireless networks. 10. A server comprising: a network transceiver, operative to provide a connection to the Internet; a roaming network connectivity database operative to store network statistics and roaming network connectivity information; and at least one processor, operatively coupled to the network transceiver and to the roaming network connectivity database, the at least one processor operative to: collect the roaming network connectivity information for a plurality of wide area networks from a plurality of mobile devices, the roaming network connectivity information for the plurality of wide area networks collected by the plurality of mobile devices, when the plurality of mobile devices are roaming, independently of the plurality of wide area networks via the Internet; receive the roaming network connectivity information and relate the roaming network connectivity information to the plurality of wide area networks and to a plurality of geographic locations to create the roaming network connectivity database; receive location prediction information from a specific mobile device, the location prediction information indicating a predicted location of the specific mobile device at a certain time; generate a list of candidate wide area networks to serve as roaming networks for the specific mobile device based on the predicted location and the roaming network connectivity information; and send a preferred roaming list to the specific mobile device, the preferred roaming list including the list of candidate wide area networks. 11. The server of claim 10 , wherein the at least one processor is operative to receive the roaming network connectivity information by receiving the roaming network connectivity information over an Internet Protocol connection from each of the plurality of mobile devices. 12. The server of claim 10 , wherein the at least one processor is further operative to: prioritize the list of candidate wide area networks of the preferred roaming list. 13. The server of claim 12 , wherein the at least one processor is further operative to prioritize the list of candidate wide area networks of the preferred roaming list, by: receiving mobile device state information or user preferences from the specific mobile device; and prioritizing the list of candidate wide area networks based on the mobile device state information or the user preferences. 14. The server of claim 12 , wherein the at least one processor is further operative to prioritize the list of candidate wide area networks of the preferred roaming list, by: determining that a physical layer or data layer connectivity in a given geographic location for the specific mobile device is below an acceptable criteria based on the roaming network connectivity information; and prioritizing the list of candidate wide area networks based on the physical layer or data layer connectivity provided at the given geographic location. 15. The server of claim 12 , wherein the at least one processor is further operative to: predict data usage requirements at a given time and at a given geographic location for the specific mobile device; and prioritize the list of candidate wide area networks based on the prediction of the data usage requirements. 16. The server of claim 10 , wherein the at least one processor is further operative to: generate the list of candidate wide area networks to serve as the roaming networks for the specific mobile device in response to a request message from the specific mobile device. 17. The server of claim 10 , wherein the at least one processor is further operative to: send the preferred roaming list to the specific mobile device in response to a request message from the specific mobile device. 18. The server of claim 10 , wherein the at least one processor is further operative to: receive a request message from the