Interference mitigation in a communications network

The invention claimed is: 1. A network node for mitigating interference in a communications network, the network node comprising: processing circuitry; memory containing instructions executable by the processing circuitry whereby the network node is operative to: obtain a packet, the packet having been wirelessly received in an uplink direction by a transmission and reception point of the network node and from a packet sender; wherein the packet is indicative of scheduled transmission of a further packet within a predefined time interval from the transmission and reception point having wirelessly received the packet; wherein the packet comprises channel state information feedback; and wherein the packet sender is a terminal device not served by the network node; determine beamforming weights such that interference caused by transmission from the transmission and reception point of the network node in a downlink direction being reversed to the uplink direction is less than a threshold interference value; and initiate transmission in at least one beam using the determined beamforming weights, wherein the beamforming weights are used for the transmission at least within the predefined time interval. 2. The network node of claim 1 , wherein the beamforming weights are determined such that transmission power of the transmission in the downlink direction is less than a threshold power value, the threshold power value depending on the threshold interference value. 3. The network node of claim 1 , wherein the instructions are such that the network node is operative to estimate, using the obtained packet, uplink channel coefficients of an uplink channel in which the packet was wirelessly received from the packet sender. 4. The network node of claim 3 , wherein the uplink direction is defined by the uplink channel coefficients. 5. The network node of claim 3 , wherein the instructions are such that the network node is operative to determine first downlink channel coefficients of a downlink channel towards the packet sender using the estimated uplink channel coefficients. 6. The network node of claim 5 , wherein the beamforming weights are determined based on the first downlink channel coefficients. 7. The network node of claim 6 , wherein the transmission is initiated in a second downlink channel with second downlink channel coefficients being orthogonal to the first downlink channel coefficients, the second downlink channel coefficients defining the beamforming weights. 8. The network node of claim 3 : wherein the packet has a preamble, the preamble comprising a legacy long training field (L-LTF); and wherein the uplink channel coefficients are estimated for at least one symbol in the L-LTF. 9. The network node of claim 8 , wherein the L-LTF consists of as many symbols as the packet sender has antennas. 10. The network node of claim 1 , wherein the predefined time interval is defined as a next-coming transmission opportunity. 11. The network node of claim 1 , wherein the packet comprises an indication that the packet sender requires a response from an intended packet receiver. 12. The network node of claim 11 , wherein the packet comprises a null data packet announcement frame. 13. A system for mitigating interference in a communications network, the system comprising: a network node, the network node comprising: processing circuitry; memory containing instructions executable by the processing circuitry whereby the network node is operative to: obtain a packet, the packet having been wirelessly received in an uplink direction by a transmission and reception point of the network node and from a packet sender; wherein the packet is indicative of scheduled transmission of a further packet within a predefined time interval from the transmission and reception point having wirelessly received the packet; wherein the packet comprises channel state information feedback; and wherein the packet sender is a terminal device not served by the network node; determine beamforming weights such that interference caused by transmission from the transmission and reception point of the network node in a downlink direction being reversed to the uplink direction is less than a threshold interference value; and initiate transmission in at least one beam using the determined beamforming weights, wherein the beamforming weights are used for the transmission at least within the predefined time interval. 14. The system of claim 13 , further comprising: the transmission and reception point; and the packet sender. 15. A method for mitigating interference in a communications network, the method comprising a network node: obtaining a packet, the packet having been wirelessly received in an uplink direction by a transmission and reception point of the network node and from a packet sender; wherein the packet is indicative of scheduled transmission of a further packet within a predefined time interval from the transmission and reception point having wirelessly received the packet; wherein the packet comprises channel state information feedback; and wherein the packet sender is a terminal device not served by the network node; determining beamforming weights such that interference caused by transmission from the transmission and reception point of the network node in a downlink direction being reversed to the uplink direction is less than a threshold interference value; and initiating transmission in at least one beam using the determined beamforming weights, wherein the beamforming weights are used for the transmission at least within the predefined time interval. 16. The method of claim 15 , wherein the beamforming weights are determined such that transmission power of the transmission in the downlink direction is less than a threshold power value, the threshold power value depending on the threshold interference value. 17. The method of claim 15 , further comprising estimating, using the obtained packet, uplink channel coefficients of an uplink channel in which the packet was wirelessly received from the packet sender. 18. The method of claim 17 , wherein the uplink direction is defined by the uplink channel coefficients. 19. The method of claim 17 , further comprising determining first downlink channel coefficients of a downlink channel towards the packet sender using the estimated uplink channel coefficients. 20. The method of claim 19 , wherein the beamforming weights are determined based on the first downlink channel coefficients. 21. A non-transitory computer readable recording medium storing a computer program product for mitigating interference in a communications network, the computer program product comprising program instructions which, when run on processing circuitry of a network node, causes the network node to: obtain a packet, the packet having been wirelessly received in an uplink direction by a transmission and reception point of the network node and from a packet sender; wherein the packet is indicative of scheduled transmission of a further packet within a predefined time interval from the transmission and reception point having wirelessly received the packet; wherein the packet comprises channel state information feedback; and wherein the packet sender is a terminal device not served by the network node; determine beamforming weights such that interference caused by transmission from the transmission and reception point of the network node in a downlink direction being reversed to the uplink direct