Network element, integrated circuit and method of determining connectivity from antenna elements to transceiver line-ups

The invention claimed is: 1. A method of determining a relationship between at least one logical channel of a plurality of logical channels and at least one antenna element feed of a plurality of antenna element feeds coupleable to an antenna array, the method comprising: applying a first signal generated by a network element to a logical channel of the plurality of logical channels; detecting a presence of a receive signal at an antenna element feed of the plurality of antenna element feeds using a coupler structure, wherein the receive signal is a radio frequency signal generated based on the first signal, wherein the antenna element feed is coupled between the logical channel and an antenna element of the antenna array; and determining, without prior knowledge of a specifically defined connection of the logical channel to the antenna element feed, a mapping based on said detecting, wherein the mapping indicates a connection between the logical channel and the antenna element feed. 2. The method claim 1 , further comprising: determining that a different logical channel of the plurality of logical channels is also mapped to the antenna element feed; and in response to said determining, storing data indicating that the different logical channel is mapped to the antenna element feed. 3. The method claim 1 , further comprising: determining that the first signal is present on a circuit element in a physical channel between the logical channel and the antenna element feed; and in response to said determining, storing data indicating that the circuit element is mapped to at least one of the logical channel or the antenna element feed. 4. The method claim 1 , further comprising applying a beam weighting to the logical channel based at least partly on the mapping. 5. The method claim 1 , wherein the antenna array includes at least one cross polarized patch antenna element. 6. The method claim 1 , further comprising: determining an absolute position of one or more antenna elements of the antenna array based at least partially on the mapping; and determining an array shape of the antenna array based at least partly on the absolute position. 7. The method of claim 6 , further comprising: determining an absolute position of one or more antenna elements of an antenna array based at least partially on the mapping; and reconfiguring a shape of the antenna array based at least on the absolute position. 8. The method claim 1 , further comprising at least one of: determining that a different logical channel of the plurality of logical channels is unconnected to any antenna element feed of the plurality of antenna element feeds; or determining that a different antenna element feed of the plurality of antenna element feeds is unconnected to any logical channel of the plurality of logical channels. 9. The method claim 1 , further comprising determining an absolute position of one or more antenna elements the antenna array based at least partly on the mapping. 10. A computer program product comprising code stored on non-transitory memory that, when executed by a processor, causes the method of claim 1 to be performed by the network element. 11. A network element comprising: a plurality of logical channels; a plurality of antenna element feeds connectable to the plurality of logical channels; and a signal processor comprising circuitry configured to: apply a first signal to a logical channel of the plurality of logical channels; detect a presence of a receive signal at an antenna element feed of the plurality of antenna element feeds using a coupler structure, wherein the receive signal is a radio frequency signal generated based on the first signal, wherein the antenna element feed is coupled between the logical channel and an antenna element; determine, without prior knowledge of a specifically defined connection of the logical channel to the antenna element feed, a mapping indicating that the logical channel is connected to the antenna element feed based on detecting the receive signal at the antenna element feed using the coupler structure; and store data indicating that the logical channel is connected to the antenna element feed. 12. The network element of claim 11 , wherein the signal processor is further configured to apply a beam weighting to the logical channel based at least partly on the stored data. 13. The network element of claim 11 , wherein the signal processor comprises calibration signal generation and calibration feedback detection transceiver circuitry. 14. The network element of claim 11 , wherein the signal processor is further configured to transmit a second signal though a signal path between the logical channel and the antenna element feed. 15. The network element of claim 11 , further comprising switch devices arranged to electrically connect the coupler structure to a common feedback point for antenna elements of an antenna array, the antenna elements including the antenna element. 16. The network element of claim 11 , wherein a digital signal processing block and an analog circuit are electrically connected between the logical channel and the antenna element. 17. A network element comprising: a plurality of logical channels; a plurality of antenna element feeds connectable to the plurality of logical channels; and a signal processor comprising circuitry configured to: apply a first signal to an antenna element feed of the plurality of antenna element feeds using a coupler structure, wherein the antenna element feed is coupled between an antenna element and a logical channel of the plurality of logical channels; detect a presence of a receive signal at the logical channel, wherein the receive signal is a logical signal generated based on the first signal; determine, without prior knowledge of a specifically defined connection of the logical channel to the antenna element feed, a mapping indicating that the logical channel is connected to the antenna element feed based on detecting the receive signal at the logical channel; and store data indicating that the logical channel is connected to the antenna element feed. 18. The network element of claim 17 , further comprising an antenna array that includes the antenna element, wherein the antenna array includes at least one cross polarized patch antenna element. 19. The network element of claim 18 , wherein the signal processor is further configured to: determine an absolute position of one or more antenna elements of the antenna array based at least partially on the mapping; and determine an array shape of the antenna array based at least partly on the determined absolute position. 20. The network element of claim 17 , wherein the signal processor comprises calibration signal generation and calibration feedback detection transceiver circuitry. 21. The network element of claim 17 , further comprising switches arranged to electrically connect the coupler structure to a common network port associated with the plurality of antenna element feeds. 22. A method of determining a relationship between at least one logical channel of a plurality of logical channels and at least one antenna element feed of a plurality of antenna element feeds coupleable to an antenna array, the method comprising: applying a first signal to an antenna element feed of the plurality of antenna element feeds using a coupler structure, wherein the antenna element feed is coupled between an antenna element of the anten