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

What is claimed is: 1. A mobile access point (MAP) 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 fixed hotspot access network (FHAN) comprising a plurality of FHAN access points that are at fixed locations; and a second network comprising a mobile hotspot access network (MHAN) comprising a plurality of MHAN access points that are mobile; and automatically, without direct user interaction, self-configure the MAP to operate in one of a plurality of modes based, at least in part, on communication latency and/or on priority of a communication, wherein the plurality of modes comprises: a first mode in which the MAP and a second node communicate through at least each of the first and second networks; and a second mode in which the MAP and the second node communicate through at most one of the first and second networks. 2. The mobile access point (MAP) of claim 1 , wherein the at least one module is operable to automatically self-configure the MAP in real time as communication network conditions change. 3. The mobile access point (MAP) of claim 2 , wherein the at least one module is operable to automatically self-configure the MAP in real time based, at least in part, on movement of the MAP. 4. The mobile access point (MAP) of claim 1 , wherein: the fixed hotspot access network (FHAN) comprises a first plurality of private fixed access points that are not directly available to the public, and a second plurality of public fixed access points that are directly available to the public; and the at least one module is operable to identify a mode of the plurality of modes in which to operate the MAP based, at least in part, on which of the first and second pluralities of fixed access points comprises a fixed access point that is available for communicating. 5. The mobile access point (MAP) of claim 1 , wherein: the mobile hotspot access network (MHAN) comprises a first plurality of mobile access points corresponding to a first vehicle fleet and a second plurality of mobile access points corresponding to a second vehicle fleet distinct from the first vehicle fleet; and the at least one module is operable to identify a mode of the plurality of modes in which to operate the MAP based, at least in part, on which of the first and second pluralities of mobile access points comprises a mobile access point that is available for communicating. 6. The mobile access point (MAP) of claim 1 , wherein the MHAN access points of the mobile hotspot access network (MHAN) are operable to communicate directly with each other. 7. The mobile access point (MAP) of claim 1 , wherein the MHAN access points are operable to communicate directly with each other and to communicate directly with FHAN access points utilizing a same communication protocol. 8. The mobile access point (MAP) of claim 1 , wherein the second node comprises a server. 9. A mobile access point (MAP) 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 fixed hotspot access network (FHAN) comprising a plurality of FHAN access points, different from cellular network base stations, that are at fixed locations; and a second network comprising a mobile hotspot access network (MHAN) comprising a plurality of MHAN access points that are mobile and operable to selectively communicate directly with each other and directly with the first network, wherein the MAP is configurable to operate in a plurality of modes comprising: a first mode in which the MAP communicates with a second node through at least each of the first and second networks; and a second mode in which the MAP communicates with the second node through at most one of the first and second networks. 10. The mobile access point (MAP) of claim 9 , wherein the at least one module is operable to automatically self-configure the MAP, without direct user interaction, to operate in one of the plurality of modes based, at least in part, on communication latency. 11. The mobile access point (MAP) of claim 9 , wherein the at least one module is operable to automatically self-configure the MAP, without direct user interaction, to operate in one of the plurality of modes based, at least in part, on priority of a communication. 12. The mobile access point (MAP) of claim 9 , wherein the MHAN access points are operable to communicate directly with each other and to communicate directly with FHAN access points utilizing a same communication protocol. 13. The mobile access point (MAP) of claim 9 , wherein: the fixed hotspot access network (FHAN) comprises a first plurality of private fixed access points that are not directly available to the public, and a second plurality of public fixed access points that are directly available to the public; and the at least one module is operable to identify a mode of the plurality of modes in which to operate the MAP based, at least in part, on which of the first and second pluralities of fixed access points comprises a fixed access point that is available for communicating. 14. The mobile access point (MAP) of claim 9 , wherein: the mobile hotspot access network (MHAN) comprises a first plurality of mobile access points corresponding to a first vehicle fleet and a second plurality of mobile access points corresponding to a second vehicle fleet distinct from the first vehicle fleet; and the at least one module is operable to identify a mode of the plurality of modes in which to operate the MAP based, at least in part, on which of the first and second pluralities of mobile access points comprises a mobile access point that is available for communicating. 15. The mobile access point (MAP) of claim 9 , wherein the second node comprises a server. 16. A mobile access point (MAP) 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 at least one of a backbone provider network and/or a local infrastructure network; a second network comprising a fixed hotspot access network (FHAN) of a vehicle communication network, the FHAN comprising a plurality of FHAN access points that are at fixed locations; and a third network comprising a mobile hotspot access network (MHAN) of the vehicle communication network, the MHAN comprising a plurality of MHAN access points that are mobile; wherein the communication system is configurable to operate in a plurality of modes comprising: a first mode in which the MAP communicates with a second node through at least each of the first, second, and third networks; and a second mode in which the MAP communicates with the second node through at most two of the first, second, and third networks, wherein the at least one module is operable to automatically, without direct user interaction, self-configure the MAP to operate in one of the plurality of modes based, at least in part, on communication latency and/or on priority of a communication. 17. The mobile access point (MAP) of claim 16 , wherein the at least one module is operable to automatically, without direct user interaction, self-configure the MAP to operate in one of the plurality of modes based, at least in part, on priority of a communication. 18. The mobile access point (MAP) of claim 16 , wherein in at least one mode of the plu