In an alternative embodiment, the scanning antenna system and donor antenna system are combined by use of dual polarization antennas. In this configuration, a single triple-sector dual-polarization multi-band antenna system (such as, for example, a Galtronics Extent T5622 or a Kathrein 84010515/6 or similar), housed under a single radome, operates as both the scanning and donor antenna systems. Each antenna/sector has a dual polarisation (such that each antenna/sector operates as a pair of antennas) e.g. cross polarisation at +45 degrees and ?45 degrees. A single polarisation acts as a single scanning or donor antenna. Each antenna/sector (i.e. each pair) has a donor and scanning feeding line (a coaxial cable). A controller therefore receives 6 feeding lines to RF ports of the controller. A high power RF switch PCB comprises the repeater system driver connection (while also serving as the physical connection to the donor antenna system). The controller controls operation of the scanning antennas in a similar manner to that described above.

The controller collects the received mobile signals from the scanning antenna systems, analyses and compares the information received from each scanning antenna (in real or near-real time) and outputs an operational instruction to the high power RF switch. The high power RF switch PCB connects the repeater system with the respective donor antenna system according to the determination (as discussed above), by the controller, of which scanning antenna provides optimal signals. Use of a dual polarisation antenna system saves space (particularly relevant on a vehicle) and cost.