Method for controlling interference from white space units

The invention claimed is: 1. A method performed by a node, for controlling an aggregated interference generated by at least two white space units in at least one point in space for at least one frequency channel, wherein a model of propagation channels from each of the at least two white space units to each of the at least one point comprises a variable with a lognormal distribution, the method comprising: receiving requests for usage of white space frequency channels from the at least two white space units, the requests comprising positions of the at least two white space units, determining output power limits for the at least two white space units by maximizing a utility function while fulfilling a probabilistic constraint on the amount of aggregated interference generated in each of the at least one point, based on the received requests and on said model of propagation channels, wherein a sum of lognormal variables in the probabilistic constraint is approximated by a single lognormal variable, the probabilistic constraint corresponding to a probability that the aggregated interference from the at least two white space units does not exceed an interference value threshold, wherein the probability is constrained to be below a probability threshold at each of the at least one points, wherein determining the output power limits further comprises: determining that the output power limit for each of the at least two white space units is equal to or lower than a maximum output power value available for the respective one of the at least two white space units; transmitting the determined output power limits to the respective at least two white space units, and wherein the at least two white space units are requesting simultaneous usage of at least two frequency channels, and wherein determining of output power limits is subject to a constraint on a total transmit power for each of the at least two white space units over all selected frequency channels including the at least two frequency channels. 2. The method according to claim 1 , further comprising: checking by means of a Monte-Carlo, MC, simulation if the determined output power limits fulfil the probability constraint, and transmitting the determined output power limits to the respective at least two white space units if the determined output power limits fulfil the probability constraint. 3. The method according to claim 1 , wherein the utility function is one of: a sum-capacity; a sum-power; or a total throughput. 4. The method according to claim 1 , wherein a Fenton-Wilkinson approximation is used for approximating the sum of lognormal variables by a single lognormal variable. 5. The method according to claim 1 , wherein the maximum output power value for the first one of the at least two white space units is received in at least one of the requests, is pre-defined, or is determined based on capabilities of the first one of the at least two white space units. 6. The method according to claim 1 , wherein the determining of output power limits is subject to an additional constraint that the determined output power limits must be the same for all of the at least two white space units. 7. The method according to claim 1 , further comprising: comparing at least one of the determined output power limits with a minimum output power value related to a corresponding white space unit, and if the at least one of the determined output power limits is below the minimum output power value: determining the output power limits again with at least one of the at least two white space units removed. 8. The method according to claim 7 , wherein the minimum output power value is received in at least one of the requests. 9. The method according to claim 1 , wherein the aggregated interference is controlled in at least two frequency channels, and wherein the model of propagation channels for the at least two frequency channels takes adjacent channel suppression into account. 10. The method according to claim 1 , wherein the maximizing of the utility function comprises a selection of at least one of several frequency channels for each of the at least two white space units. 11. The method according to claim 10 , wherein the determining of output power limits is subject to at least one of the following constraints: a constraint on a number of simultaneously used frequency channels for the at least two white space units; and a constraint that the at least two white space units must use contiguous frequency channels. 12. The method according to claim 1 , wherein each of the at least two white space units is a white space device, or a white space system. 13. The method according to claim 1 , wherein the node is a geo-location database. 14. A node configured to control an aggregated interference generated by at least two white space units in at least one point in space for at least one frequency channel, wherein a model of propagation channels from each of the at least two white space units to each of the at least one point comprises a variable with a lognormal distribution, the node comprising a communication unit and a processing unit, wherein the communication unit is configured to receive requests for usage of white space frequency channels from the at least two white space units, the requests comprising positions of the at least two white space units, the processing unit is configured to determine output power limits for the at least two white space units by maximizing a utility function while fulfilling a probabilistic constraint on the amount of aggregated interference generated in each of the at least one point, based on the received requests and on said model of propagation channels, wherein a sum of lognormal variables in the probabilistic constraint is approximated by a single lognormal variable, the probabilistic constraint corresponds to a probability that the aggregated interference from the at least two white space units does not exceed an interference value threshold, wherein the probability is constrained to be below a probability threshold at each of the at least one points, wherein when determining the output power limits the process is further operable to: determining that the determined output power limit for each of the at least two white space units is equal to or lower than a maximum output power value available for the respective one of the at least two white space units; the communication unit is further configured to transmit the determined output power limits to the respective at least two white space units, and wherein the at least two white space units are requesting simultaneous usage of at least two frequency channels, and wherein determining of output power limits is subject to a constraint on a total transmit power for each of the at least two white space units over all selected frequency channels including the at least two frequency channels. 15. The node according to claim 14 , wherein the processing unit is further configured to check by means of a Monte-Carlo, MC, simulation if the determined output power limits fulfil the probability constraint, and the communication unit is further configured to transmit the determined output power limits to the respective at least two white space units if the determined output power limits fulfil the probability constraint. 16. The node according to claim 14 , wherein the processing unit is configured to approximate the sum of lognormal variables by a single lognormal variable by using a Fenton-Wilkinson approximation. 17. The node according to claim 14 , wherein