Modular architecture for fare collection systems

What is claimed is: 1. A portable fare collection device having modular architecture, comprising: a plurality of modules comprising: a display module configured to control inputs and outputs of a display of the portable fare collection device; a fare media reader module configured to send and receive data from a fare media and to process fare transactions conducted using the fare media as payment; and an external communications module configured for communication of external data with one or more remote devices; at least one controller configured to control operation of one or more of the modules; and a carrier board comprising: a plurality of mountings with which to communicatively couple each of the plurality of modules with the at least one controller; a common communications interface coupled between the plurality of mountings and the at least one controller such that each of the plurality of modules is communicatively coupled with the at least one controller; and a plurality of translation elements coupled between each of the plurality of modules and the at least one controller such that information communicated from each of the plurality of modules to the at least one controller via the common communications interface passes through at least one of the one or more translation elements, wherein the one or more translation elements are configured to translate a native communications protocol of a corresponding module to a single communications protocol such that exchanging a first component for a second component of a single module only requires reprogramming one of the plurality of translation elements without the need to reprogram the remaining translation elements corresponding to other modules that were not exchanged. 2. The portable fare collection device having modular architecture of claim 1 , wherein: the at least one controller comprises a separate controller for each of the plurality of modules. 3. The portable fare collection device having modular architecture of claim 1 , wherein: the at least one controller comprises a plurality of controllers, each of the plurality of controllers being configured to control operation of at least one distinct module. 4. The portable fare collection device having modular architecture of claim 1 , wherein: the single communications protocol comprises Ethernet. 5. The portable fare collection device having modular architecture of claim 1 , further comprising: a global positioning satellite (GPS) module. 6. The portable fare collection device having modular architecture of claim 1 , wherein: the fare reader module comprises a contactless card interface configured to communicate with one or both of Type A and Type B contactless smart cards. 7. The portable fare collection device having modular architecture of claim 1 , wherein: the external communications module comprises one or more of wireless and wired communications interfaces. 8. The portable fare collection device having modular architecture of claim 1 , wherein: each of the plurality of modules comprises several sub-modules, each sub-module within a module having a related functionality such that a number of interfaces of the at least one controller are minimized. 9. The portable fare collection device having modular architecture of claim 1 , wherein: the plurality of mountings comprise at least one more mounting than current modules to support an additional module. 10. The portable fare collection device having modular architecture of claim 1 , wherein: the plurality of translation elements comprise a TCP/IP stack. 11. A method for manufacturing a portable fare device having modular architecture, the method comprising: coupling a display module configured to control inputs and outputs of a display of the portable fare collection device to a common communications interface of a carrier board of a portable fare device; coupling a fare media reader module configured to send and receive data from a fare media and to process fare transactions conducted using the fare media as payment to the common communications interface; coupling an external communications module configured for communication of external data with one or more remote devices to the common communications interface; and coupling at least one controller to the common communications interface such that the at least one controller controls operation of at least one of a plurality of modules; wherein the common communications interface comprises a single communications protocol; wherein the portable fare device comprises a plurality of translation elements coupled between each of the plurality of modules and the at least one controller such that information communicated from each of the plurality of modules to the at least one controller via the common communications interface passes through at least one of the one or more translation elements, wherein the one or more translation elements are configured to translate a native communications protocol of a corresponding module to a single communications protocol such that exchanging a first component for a second component of a single module only requires reprogramming one of the plurality of translation elements without the need to reprogram the remaining translation elements corresponding to other modules that were not exchanged. 12. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: the at least one controller comprises a separate controller for each of the plurality of modules. 13. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: the at least one controller comprises a plurality of controllers, each of the plurality of controllers being configured to control operation of at least one distinct module. 14. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: the single communications protocol comprises Ethernet. 15. The method for manufacturing a portable fare device having modular architecture of claim 11 , further comprising: communicatively coupling a global positioning satellite (GPS) module to the common communications interface. 16. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: the fare reader module comprises a contactless card interface configured to communicate with one or both of Type A and Type B contactless smart cards. 17. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: the external communications module comprises one or more of wireless and wired communications interfaces. 18. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: each of the plurality of modules comprises several sub-modules, each sub-module within a module having a related functionality such that a number of interfaces of the at least one controller are minimized. 19. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein the portable fare device further comprises: a plurality of mountings with which to communicatively couple each of the plurality of modules with the at least one controller. 20. The method for manufacturing a portable fare device having modular architecture of claim 11 , wherein: the plurality of translation elements comprise a TCP/IP stack.