Method and apparatus for identifying battery pack types

What is claimed is: 1. A vehicle comprising: (i) a battery pack comprising: battery cells; battery cell sensors, each of the battery cell sensors corresponding to and in communication with one of the battery cells, to: measure attributes of each of the battery cells; and generate battery cell sensor signals for each of the battery cells based on the measured attributes; connecting wires, each connecting wire being in communication with (a) one or more of the battery cells, or (b) one or more of the battery cell sensors to transmit the battery cell sensor signals; and a connection module comprising a plurality of active connection module pins, each of the active connection module pins being in electrical communication with at least one of the plurality of connecting wires; (ii) a port configured to interface with the connection module, the port comprising a plurality of port pins configured to respectively engage with the plurality of active connection module pins and thereby receive the battery cell sensor signals from the connecting wires via the port pins; and (iii) processor(s) configured to: receive the battery cell sensor signals via the port pins; determine an arrangement of the active connection module pins based on the battery cell sensor signals; load a database that relates arrangements of active connection module pins to battery pack identification information; determine, by looking up the determined arrangement of the active connection module pins in the database, identification information corresponding to the battery pack; select an operational strategy for the vehicle based on the determined identification information of the battery pack; and implement the selected operational strategy on the vehicle. 2. The vehicle of claim 1 , wherein a total number of the port pins exceeds a total number of the active connection module pins such that when the port interfaces with the connection module, at least one of the port pins fails to engage with any of the active connection module pins. 3. The vehicle of claim 2 , wherein the processor(s) are configured to: determine the arrangement of active connection module pins based on determining a location of the at least one of the port pins that has failed to engage with any of the active connection module pins. 4. The vehicle of claim 1 , wherein the loaded database comprises a plurality of entries, each entry relating one possible arrangement of active connection module pins to one set of battery pack identification information. 5. The vehicle of claim 4 , wherein the set of battery pack identification information of each entry includes at least one of a battery type, a battery make, a battery model, and a battery manufacturer. 6. The vehicle of claim 4 , wherein each entry relates one possible arrangement of (a) active connection module pins and (b) missing or inactive connection module pins to one set of possible attributes of the battery pack. 7. The vehicle of claim 6 , wherein, for each entry: a sum of (a) a total number of active connection module pins and (b) a total number of missing or inactive connection module pins equals a total number of the plurality of port pins; and the total number of missing or inactive connection module pins is at least one. 8. The vehicle of claim 7 , wherein the sum is the same for each entry. 9. The vehicle of claim 1 , wherein the database is loaded from a plurality of databases. 10. The vehicle of claim 2 , wherein the total number of port pins exceeds the total number of the active connection module pins by at least two. 11. The vehicle of claim 1 , wherein the processor(s) are configured to determine the identification information of the battery pack without reference to content of the battery cell sensor signals. 12. A method of controlling a vehicle, the vehicle comprising: (i) a battery pack comprising: battery cells; battery cell sensors, each of the battery cell sensors corresponding to and in communication with one of the battery cells, to: measure attributes of each of the battery cells; and generate battery cell sensor signals for each of the battery cells based on the measured attributes; connecting wires, each connecting wire being in communication with (a) one or more of the battery cells, or (b) one or more of the battery cell sensors to transmit the battery cell sensor signals; and a connection module comprising a plurality of active connection module pins, each of the active connection module pins being in electrical communication with at least one of the plurality of connecting wires; (ii) a port configured to interface with the connection module, the port comprising a plurality of port pins configured to engage with the plurality of active connection module pins and thereby receive the battery cell sensor signals from the connecting wires via the port pins; and (iii) processor(s); wherein the method comprises, via the processor(s): receiving the battery cell sensor signals via the port pins; determining an arrangement of the active connection module pins based on the battery cell sensor signals; loading a database that relates arrangements of active connection module pins to battery pack identification information; determining, by looking up the determined arrangement of the active connection module pins in the database, identification information corresponding to the battery pack; selecting an operational strategy for the vehicle based on the determined one or more actual attributes of the battery pack; and implementing the selected operational strategy on the vehicle. 13. The method of claim 12 , wherein a total number of the port pins exceeds a total number of the active connection module pins such that when the port interfaces with the connection module, at least one of the port pins fails to engage with any of the active connection module pins; and wherein the method comprises determining the arrangement of active connection module pins based on determining a location of the at least one of the port pins that has failed to engage with any of the active connection module pins. 14. The method of claim 12 , comprising determining the identification information of the battery pack without reference to content of the battery cell sensor signals. 15. The method of claim 12 , wherein the loaded database comprises a plurality of entries, each entry relating one possible arrangement of active connection module pins to one set of battery pack identification information. 16. The method of claim 15 , wherein each entry relates one possible arrangement of (a) active connection module pins and (b) missing or inactive connection module pins to one set of battery pack identification information. 17. The method of claim 16 , wherein, for each entry, a sum of (a) a total number of active connection module pins and (b) a total number of missing or inactive connection module pins equals a total number of the plurality of port pins; the total number of missing or inactive connection module pins is at least one; and the sum is the same for each entry. 18. The method of claim 13 , wherein the database is loaded from a plurality of databases; and the total number of port pins exceeds the total number of the active connection module pins by at least two. 19. The vehicle of claim 1 , wherein the measured attributes include at least one of a temperature or a voltage. 20. The vehicle of claim 1 , wherein, to implement the selected operational strategy, the processor