Method and a first network node for controlling load

The invention claimed is: 1. A method in a first network node for controlling load in a first cell of the first network node, wherein the first network node is comprised in a radio communication network, wherein the first network node comprises a multi-stage receiver for cancelling interference in multiple stages, wherein a first and a second radio communication device are associated with the first cell, wherein a third radio communication device is associated with a second cell of the radio communication network, wherein the method comprises: computing an interference cancellation gain, at an intermediate stage of the multi-stage receiver, during an interference cancellation process for reducing interference between uplinks signals transmitted by the first and second radio communication devices; estimating neighbour cell interference from interfering signals transmitted by the third radio communication device while accounting for a load utilization, wherein the load utilization is a ratio between power transmitted by the first and second radio communication devices and power granted to the first and second radio communication devices; calculating a load measure for stability based on at least the interference cancellation gain and the neighbour cell interference; and controlling the load in the first cell based on the load measure for stability. 2. The method according to claim 1 , wherein the computed interference cancellation gain comprises an instantaneous interference cancellation gain for a current transmission time interval. 3. The method according to claim 1 , further comprising: computing an average interference cancellation gain over a number of transmission time intervals, wherein the average interference cancellation gain is determined based on a respective difference between a respective power measure for stability at an air interface of the multi-stage receiver and a respective power measure for stability after the intermediate stage of the receiver for each respective transmission time interval of the number of transmission time intervals. 4. The method according to claim 1 , further comprising: obtaining a load target for stability; increasing the load target for stability based to the computed interference cancellation gain; wherein the controlling of the load in the first cell further comprises: controlling the load of the first cell at an air interface of the multi-stage receiver while using the load target and the load measure. 5. The method according to claim 1 , further comprising: determining a scaling factor based on the computed interference cancellation gain and the load measure; calculating load factors based on the scaling factor; wherein the controlling of the load in the first cell further comprises: controlling the load of the first cell after the intermediate stage of the multi-stage receiver while using the determined load factors. 6. The method according to claim 5 , wherein the computed interference cancellation gain comprises the instantaneous interference cancellation gain. 7. The method according to claim 6 , wherein the instantaneous interference cancellation gain is cell-specific or channel-specific. 8. The method according to claim 1 , wherein the load utilization and the neighbour cell interference is computed jointly. 9. The method according to claim 1 , wherein the load measure comprises noise rise for stability. 10. The method according to claim 1 , wherein the first network node is a first radio network node, a first radio base station, a micro base station, a femto base station, a home NodeB or a first Node B. 11. A first network node configured to control load in a first cell of the first network node, wherein the first network node is comprised in a radio communication network, wherein the first network node comprises a multi-stage receiver for cancelling interference in multiple stages, wherein a first and a second radio communication device are associated with the first cell, wherein a third radio communication device is associated with a second cell of the radio communication network, wherein the first network node comprises: a processing circuit configured to compute an interference cancellation gain, at an intermediate stage of the multi-stage receiver, during an interference cancellation process for reducing interference between uplinks signals transmitted by the first and second radio communication devices, wherein the processing circuit further is configured to: estimate neighbour cell interference from interfering signals transmitted by the third radio communication device while accounting for a load utilization, wherein the load utilization is a ratio between power transmitted by the first and second radio communication devices and power granted to the first and second radio communication devices; calculate a load measure for stability based on at least the interference cancellation gain and the neighbour cell interference; and control load in the first cell based on the load measure for stability. 12. The first network node according to claim 11 , wherein the interference cancellation gain comprises an instantaneous interference cancellation gain for a current transmission time interval. 13. The first network node according to claim 11 , wherein the processing circuit further is configured to: compute an average interference cancellation gain over a number of transmission time intervals, wherein the average interference cancellation gain is determined based on a respective difference between a respective power measure for stability at an air interface of the multi-stage receiver and a respective power measure for stability after the intermediate stage of the receiver for each respective transmission time interval of the number of transmission time intervals. 14. The first network node according to claim 11 , wherein the processing circuit further is configured to: obtain a load target for stability; increase the load target for stability based to the computed interference cancellation gain; control the load of the first cell at an air interface of the multi-stage receiver while using the load target and the load measure. 15. The first network node according to claim 11 , wherein the processing circuit further is configured to: determine a scaling factor based on the computed interference cancellation gain and the load measure; calculate load factors based on the scaling factor; control the load of the first cell after the intermediate stage of the multi-stage receiver while using the determined load factors. 16. The first network node according to claim 15 , wherein the interference cancellation gain comprises the instantaneous interference cancellation gain. 17. The first network node according to claim 16 , wherein the instantaneous interference cancellation gain is cell-specific or channel-specific. 18. The first network node according to claim 11 , wherein the processing circuit further is configured to jointly compute the load utilization and the neighbour cell interference. 19. The first network node according to claim 11 , wherein the load measure comprises noise rise for stability. 20. The first network node according to claim 11 , wherein the first network node is a first radio network node, a first radio base station, a micro base station, a femto base station, a home NodeB or a first Node B.