Multi-mode fixed access point for utilization in a communication network of moving things, for example including autonomous vehicles

What is claimed is: 1. A fixed access point (FAP) comprising: at least one module comprising a processing circuit and memory and being operable to, at least: communicate in a communication network comprising: a first network comprising a backbone provider network and/or a local infrastructure network; and a second network comprising a fixed hotspot access network (FHAN) comprising a plurality of FHAN access points that are at fixed locations; and automatically, without direct user interaction, self-configure the FAP to operate in one of a plurality of modes, wherein the plurality of modes comprises: a first mode in which the FAP communicates with a second node through at least each of the first and second networks serially; and a second mode in which the FAP communicates with the second node through at most one of the first and second networks; and wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on communication latency. 2. The fixed access point (FAP) of claim 1 , wherein the first network is higher than the second network in a network hierarchy. 3. The fixed access point (FAP) of claim 1 , wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on priority of a communication. 4. The fixed access point (FAP) of claim 1 , wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on cost of a communication. 5. The fixed access point (FAP) of claim 1 , wherein the FHAN access points are different from cellular base stations. 6. The fixed access point (FAP) of claim 1 , wherein the at least one module is operable to communicate directly with each of the plurality of FHAN access points. 7. The fixed access point (FAP) of claim 1 , wherein the at least one module is operable to communicate directly with each of the plurality of FHAN access points via a wireless communication link. 8. The fixed access point (FAP) of claim 1 , wherein the FAP is operable to communicate directly with the plurality of FHAN access points and with a mobile hotspot access network MHAN utilizing a same communication protocol. 9. The fixed access point (FAP) of claim 1 , wherein the second node comprises an Internet server. 10. A fixed access point (FAP) comprising: at least one module comprising a processing circuit and memory and being operable to, at least: communicate in a communication network comprising: a first network comprising a backbone provider network and/or a local infrastructure network; and a second network comprising a fixed hotspot access network (FHAN) comprising a plurality of FHAN access points, different from cellular network base stations, that are at fixed locations; and wherein the FAP is configurable to operate in a plurality of modes comprising: a first mode in which the FAP communicates with a second node through at least each of the first and second networks; and a second mode in which the FAP communicates with the second node through at most one of the first and second networks; and wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on communication latency. 11. The fixed access point (FAP) of claim 10 , wherein the first network is higher than the second network in a network hierarchy. 12. The fixed access point (FAP) of claim 10 , wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on priority of a communication. 13. The fixed access point (FAP) of claim 10 , wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on cost of a communication. 14. The fixed access point (FAP) of claim 10 , wherein the at least one module is operable to communicate directly with each of the plurality of FHAN access points. 15. The fixed access point (FAP) of claim 10 , wherein: the first network comprises a first plurality of private nodes that are not directly available to the public, and a second plurality of public nodes that are directly available to the public; and the communication system is operable to identify a mode of the plurality of modes in which to operate based, at least in part, on availability of at least one of the first and second pluralities of nodes. 16. The fixed access point (FAP) of claim 10 , wherein the at least one module is operable to communicate directly with each of the plurality of FHAN access points via a wireless communication link. 17. The fixed access point (FAP) of claim 10 , wherein the FAP is operable to communicate directly with the plurality of FHAN access points and with a mobile hotspot access network (MHAN) utilizing a same communication protocol. 18. The fixed access point (FAP) of claim 10 , wherein the second node comprises an Internet server. 19. A fixed access point (FAP) comprising: at least one module comprising a processing circuit and memory and being operable to, at least: communicate in a communication network comprising: a first network comprising a backbone provider network and/or a local infrastructure network; and a second network comprising a fixed hotspot access network (FHAN) comprising a plurality of FHAN access points that are at fixed locations; and automatically, without direct user interaction, self-configure the FAP to operate in one of a plurality of modes, wherein the plurality of modes comprises: a first mode in which the FAP communicates with a second node through at least each of the first and second networks serially; and a second mode in which the FAP communicates with the second node through at most one of the first and second networks; and wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on priority of a communication. 20. The fixed access point (FAP) of claim 19 , wherein the first network is higher than the second network in a network hierarchy. 21. The fixed access point (FAP) of claim 19 , wherein the at least one module is operable to automatically self-configure the FAP to operate in one of the plurality of modes based, at least in part, on cost of a communication. 22. The fixed access point (FAP) of claim 19 , wherein the FHAN access points are different from cellular base stations. 23. The fixed access point (FAP) of claim 19 , wherein the at least one module is operable to communicate directly with each of the plurality of FHAN access points. 24. The fixed access point (FAP) of claim 19 , wherein the at least one module is operable to communicate directly with each of the plurality of FHAN access points via a wireless communication link. 25. The fixed access point (FAP) of claim 19 , wherein the FAP is operable to communicate directly with the plurality of FHAN access points and with a mobile hotspot access network MHAN utilizing a same communication protocol. 26. The fixed access point (FAP) of claim 19 , wherein the second node comprises an Internet server. 27. A fixed access point