Apparatus and method for communicating over a plurality of communication links

The invention claimed is: 1. A method in a first network entity which is capable of communicating over a plurality of communication links with a second network entity, wherein the method comprises the first network entity performing: determining a level of transmit traffic transmitted over the plurality of communication links to the second network entity; determining a level of receive traffic received over the plurality of communication links from the second network entity; determining if the level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links, and if so, changing the number of active links independently of the second network entity without exchanging messages with the second network entity relating to the change in the number of active links, and wherein changing the number of active links independently of the second network entity comprises transmitting transmit traffic on a previously inactive link or ceasing transmitting transmit traffic on a previously active link. 2. The method as claimed in claim 1 , wherein changing the number of active links independently of the second network entity comprises enabling a port on a previously inactive link, or disabling a port on a previously active link, independently of the second network entity. 3. The method as claimed in claim 1 , wherein the method comprises activating a link if at least one of the level of transmit traffic and the level of receive traffic exceeds an upper threshold. 4. The method as claimed in claim 1 , wherein the method comprises inactivating a link if both of the level of transmit traffic and the level of receive traffic is below a lower threshold. 5. The method as claimed in claim 1 , wherein an upper threshold for entering a state with a particular number of active links is different than a lower threshold for exiting that state. 6. The method as claimed in claim 1 , wherein the first network entity runs in a Link Aggregation Control Protocol (LACP) active mode to operate with the second network entity running in a LACP passive mode, when the second network entity is not configured to determine if a level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links. 7. The method as claimed in claim 1 , wherein changing the number of active links independently of the second network entity comprises changing the number of active links without exchanging messages or information relating to changing the number of active links prior, during or after the changing of the number of active links. 8. The method as claimed in claim 1 , wherein the level of transmit traffic and the level of receive traffic are measured in the first network entity. 9. A network entity configured to communicate over a plurality of communication links with a remote network entity, wherein the network entity comprises: a processor and memory; wherein the network entity is configured to: measure a level of receive traffic received over the plurality of communication links from the remote network entity; measure a level of transmit traffic transmitted over the plurality of communication links to the remote network entity; wherein the processor is configured to: determine if the level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links, change the number of active links independently of the remote network entity without exchanging messages with the remote network entity relating to the change in the number of active links, and wherein changing the number of active links independently of the remote network entity comprises transmitting transmit traffic on a previously inactive link or ceasing transmitting transmit traffic on a previously active link. 10. The network entity as claimed in claim 9 , wherein the processor being further configured to change the number of active links independently of the remote network entity comprises the processor being configured to enable a port on a previously inactive link, or disable a port on a previously active link. 11. The network entity as claimed in claim 9 , wherein the processor is configured to determine activating an additional link if at least one of the level of transmit traffic or the level of receive traffic exceeds an upper threshold. 12. The network entity as claimed in claim 9 , wherein the processor is configured to determine inactivating a link if both of the level of transmit traffic and the level of receive traffic is below a lower threshold. 13. The network entity as claimed in claim 9 , wherein an upper threshold for entering a state with a particular number of active links is different from a lower threshold for exiting that state. 14. The network entity as claimed in claim 9 wherein the network entity is configured to run in a Link Aggregation Control Protocol (LACP) active mode to operate with the remote network entity running in a LACP passive mode, when the remote network entity is not configured to determine if a level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links. 15. A system comprising a first network entity and a second network entity capable of communicating over a plurality of communication links, wherein the first network entity comprises: a processor and memory; wherein the first network entity is configured to: measure a level of receive traffic received over the plurality of communication links from the remote network entity; measure a level of transmit traffic transmitted over the plurality of communication links to the remote network entity; wherein the processor is configured to: determine if the level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links; change the number of active links independently of the remote network entity without exchanging messages with the second network entity relating to the change in the number of active links, and wherein changing the number of active links independently of the remote network entity comprises transmitting transmit traffic on a previously inactive link or ceasing transmitting transmit traffic on a previously active link. 16. The system as claimed in claim 15 , wherein the second network entity comprises: a second processor and memory; wherein the second network entity is configured to: measure a level of receive traffic received over the plurality of communication links from the remote network entity; measure a level of transmit traffic transmitted over the plurality of communication links to the remote network entity; wherein the second processor is configured to: determine if the level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links, and adapt the number of active links independently of the first network entity. 17. The system as claimed in claim 15 wherein the second network entity is not configured to determine if a level of transmit traffic and/or the level of receive traffic meet one or more requirements for changing a number of active links of the communication links, wherein the second network responds to a change in the number of active links enabled by the first network entity using Li