Method and base station for supporting D2D communication

The invention claimed is: 1. A method in a base station of a radio network, for supporting Device-to-Device (D2D) communication over a D2D radio link between a first wireless device and a second wireless device, the method comprising: obtaining a first path gain of the D2D radio link; obtaining a second path gain of a cellular radio link between the base station and the first wireless device; obtaining a third path gain of a cellular radio link between the base station and the second wireless device; responsive to determining that the first path gain is large enough to support the D2D communication: selecting between a D2D communication mode that uses network coding and a D2D communication mode that does not use network coding, in dependence on the second and third path gains; and applying the selected D2D communication mode for the D2D communication. 2. The method according to claim 1 , wherein determining that the first path gain is large enough to support the D2D communication comprises determining that the first path gain is above a first predefined threshold, and wherein selecting between the D2D communication mode that uses network coding and the D2D communication mode that does not use network coding comprises selecting the D2D communication mode that uses network coding when both the second path gain and the third path gain are below a second predefined threshold. 3. The method according to claim 1 , wherein selecting between the D2D communication mode that uses network coding and the D2D communication mode that does not use network coding comprises selecting the D2D communication mode that uses network coding when both the second path gain and the third path gain are below a second predefined threshold and a difference between the first path gain and each of the second and third path gains is below a third predefined threshold. 4. The method according to claim 1 , wherein, when the D2D communication mode that uses network coding is the selected D2D communication mode, applying the selected D2D communication mode comprises receiving first data sent in a first radio signal from the first wireless device, receiving second data sent in a second radio signal from the second wireless device, and sending a network coded form of the first and second data to the second wireless device, thereby enabling the second wireless device to use the network coded form of the first and second data for decoding the first radio signal. 5. The method according to claim 4 , further comprising signalling to the second wireless device a network coding function used for creating the network coded form of the first and second data. 6. The method according to claim 1 , wherein the first path gain of the D2D radio link is obtained from measurements of the D2D radio link reported by at least one of the first and second wireless devices. 7. The method according to claim 1 , wherein the second path gain and the third path gain are obtained from measurements of the respective cellular radio links between the base station and the first and second wireless devices. 8. The method according to claim 6 , wherein at least some of the measurements are path loss measurements. 9. The method according to claim 1 , wherein a transmit power P UE,NWC of at least one of the first and second wireless devices is set as: P UE,NWC =min[ P MAX ,max[ A,B]] where A=P 0 cell −α cell ·G UE-BS +10·log 10 M cell , B=P 0 D2D −α D2D ·G D2D +10·log 10 M D2D , P MAX is a maximum allowed transmit power, P 0 cell is a base power level to control cellular Signal to Noise Ratio (SNR), α cell is a path loss compensation factor applied on the respective cellular radio link, G UE-BS is the path gain of the respective cellular radio link, M cell a number of scheduled Physical Resource Blocks (PBRs) on the respective cellular radio link, P 0 D2D is a base power level to control D2D SNR, α D2D is a path loss compensation factor applied on the D2D radio link, G D2D is the path gain of the D2D radio link, and M D2D is a number of scheduled PBRs on the D2D radio link. 10. A base station of a radio network, the base station being arranged to support Device-to-Device (D2D) communication over a D2D radio link between a first wireless device and a second wireless device, the base station comprising: a communication circuit comprising radio circuitry for conducting radio communication with the first and second wireless devices, and processing circuitry operatively associated with the radio circuitry and configured to: obtain a first path gain of the D2D radio link; obtain a second path gain of a cellular radio link between the base station and the first wireless device; obtain a third path gain of a cellular radio link between the base station and the second wireless device; responsive to determining that the first path gain is large enough to support the D2D communication: select between a D2D communication mode that uses network coding and a D2D communication mode that does not use network coding, in dependence on the second and third path gains; and apply the selected D2D communication mode for the D2D communication. 11. The base station according to claim 10 , wherein the processing circuitry is configured to determine that the first path gain is large enough to support the D2D communication by determining that the first path gain is above a first predefined threshold, and is further configured to select between the D2D communication mode that uses network coding and the D2D communication mode that does not use network coding comprises selecting the D2D communication mode that uses network coding when both the second path gain and the third path gain are below a second predefined threshold. 12. The base station according to claim 10 , wherein the processing circuitry is configured to select between the D2D communication mode that uses network coding and the D2D communication mode that does not use network coding by selecting the D2D communication mode that uses network coding when both the second path gain and the third path gain are below a second predefined threshold and a difference between the first path gain and each of the second and third path gains is below a third predefined threshold. 13. The base station according to claim 10 , wherein, when the D2D communication mode that uses network coding is the selected D2D communication mode, applying the selected D2D communication mode comprises the processing circuitry receiving first data sent in a first radio signal from the first wireless device, receiving second data sent in a second radio signal from the second wireless device, and sending a network coded form of the first and second data to the second wireless device, thereby enabling the second wireless device to use the network coded form of the first and second data for decoding the first radio signal. 14. The base station according to claim 13 , wherein the processing circuitry is configured to signal to the second wireless device a network coding function used for creating the network coded form of the first and second data. 15. The base station according to claim 10 , wherein the processing circuitry is configured to obtain the first path gain of the D2D radio link from measurements of the D2D radio link reported by at least one of the first and second wireless devices. 16. The base station according to claim 10 , wherein the processing circuitry is configured to obtain the second path gain and the third path gain from measurements of the respective cellular radio