Rotatable antenna arrangement for LOS-MIMO

The invention claimed is: 1. An antenna arrangement configured for line-of-sight (LOS) multiple-input multiple-output (MIMO) communication, comprising: first and second directive antenna units arranged to have antenna main lobes pointing in a transceiving direction; a mounting bracket configured for mounting the antenna arrangement to a fixed infrastructure; and a connecting element attached to at least one of the directive antenna units and arranged to separate the directive antenna units by a distance, the connecting element being rotatably arranged in relation to the mounting bracket and arranged to rotate about a rotation axis to control an effective antenna distance between the first and second directive antenna units, wherein control of the effective antenna distance is based on each angle of rotation about the rotation axis that results in a corresponding effective antenna distance between the first and second directive antenna units while maintaining a substantially fixed transceiving direction of the antenna arrangement independently of rotation of the connecting element about the rotation axis. 2. The antenna arrangement according to claim 1 , wherein the connecting element is arranged to rotate about the rotation axis in a plane perpendicular to the transceiving direction. 3. The antenna arrangement according to claim 1 , wherein the connecting element is directly attached to the mounting bracket, and where the rotation axis passes through the mounting bracket. 4. The antenna arrangement according to claim 1 , wherein the connecting element is arranged to rotate about the rotation axis in a plane parallel to the transceiving direction. 5. The antenna arrangement according to claim 1 , wherein the connecting element comprises a pantograph arrangement, the pantograph arrangement being configured to maintain the transceiving direction of the directive antennas independently of connecting element rotation about the rotation axis. 6. The antenna arrangement according to claim 1 , wherein the connecting element is attached to first and second directive antenna unit. 7. The antenna arrangement according to claim 1 , wherein the connecting element is attached to the first directive antenna unit and separated from the second directive antenna unit, the second directive antenna unit being attached to a further mounting bracket for mounting the second directive antenna unit to the fixed infrastructure. 8. The antenna arrangement according to claim 1 , comprising one or more further directive antenna units arranged to have antenna main lobes pointing in the transceiving direction. 9. The antenna arrangement according to claim 1 , comprising a scale arranged to indicate a present angle of rotation of the connecting element. 10. The antenna arrangement according to claim 1 , wherein the scale is arranged to indicate a preferred level of rotation as function of radio link length L and radio link carrier frequency f. 11. The antenna arrangement according to claim 1 , comprising a dome arranged to enclose the directive antennas and the connecting element. 12. The antenna arrangement according to claim 1 , wherein the connecting element is configured to be manually rotated about the rotation axis. 13. The antenna arrangement according to claim 1 , wherein the connecting element is configured to be automatically rotated about the rotation axis in response to an input control signal. 14. The antenna arrangement according to claim 1 , comprising a locking mechanism having an open and a closed position, the locking mechanism being arranged to allow rotation of the connecting element when in the open position, and to prevent rotation of the connecting element when in the closed position. 15. The antenna arrangement according to claim 1 , wherein each effective antenna distance is defined by a projected distance measured between a projection of each of the first and second directive antenna units on an axis that is perpendicular to the rotation axis. 16. A method for deployment of an antenna arrangement, the method comprising: providing an antenna arrangement comprising first and second directive antenna units arranged to have antenna main lobes pointing in a transceiving direction, a mounting bracket configured for mounting the antenna arrangement to a fixed infrastructure, and a connecting element attached to at least one of the directive antenna units and arranged to separate the directive antenna units by a distance, the connecting element being rotatably arranged in relation to the mounting bracket and arranged to rotate about a rotation axis to control an effective antenna distance between the first and second directive antenna units, wherein control of the effective antenna distance is based on each angle of rotation about the rotation axis that results in a corresponding effective antenna distance between the first and second directive antenna units while maintaining a substantially fixed transceiving direction of the antenna arrangement independently of rotation of the connecting element about the rotation axis; attaching the antenna arrangement to a fixed infrastructure at a near end of a planned radio link, by means of the one or more mounting brackets; determining a preferred effective distance between first and second directive antennas; and rotating the connecting element of the antenna arrangement to obtain the preferred effective distance between the first and the second directive antenna. 17. The method according to claim 16 , wherein each effective antenna distance is defined by a projected distance measured between a projection of each of the first and second directive antenna units on an axis that is perpendicular to the rotation axis. 18. A method for deployment of an antenna arrangement, the method comprising: providing an antenna arrangement comprising first and second directive antenna units arranged to have antenna main lobes pointing in a transceiving direction, a mounting bracket configured for mounting the antenna arrangement to a fixed infrastructure, and a connecting element attached to at least one of the directive antenna units and arranged to separate the directive antenna units by a distance, the connecting element being rotatably arranged in relation to the mounting bracket and arranged to rotate about a rotation axis to control an effective antenna distance between the first and second directive antenna units, wherein control of the effective antenna distance is based on each angle of rotation about the rotation axis that results in a corresponding effective antenna distance between the first and second directive antenna units while maintaining a substantially fixed transceiving direction of the antenna arrangement independently of rotation of the connecting element about the rotation axis; configuring an alignment signal transmission device on a far side of a planned radio link, for transmission of an alignment signal; attaching the antenna arrangement to a fixed infrastructure at a near end of the planned radio link, by means of the one or more mounting brackets; receiving the alignment signal by the antenna arrangement; measuring a signal quality of the received signal; and rotating the connecting element of the antenna arrangement to improve the measured signal quality of the received signal. 19. A method for deployment of an antenna arrangement, the method comprising: providing an antenna arrangement comprising first and second directive antenna units arranged to have antenna main lobes pointing in a t