Radio resource allocation and radio system

The invention claimed is: 1. A method comprising: detecting cell measurement data with respect to an own cell and adjacent cells of at least two user terminals of a plurality of cells of a radio system; dividing a frequency band of each of the cells of the radio system into frequency-time resource groups and allocating the frequency-time resource groups to the at least two user terminals within a coverage area of each of the cells based on modulation and coding schemes used by the at least two user terminals; comparing resulting interference values of different user terminal combinations with user terminals of more than one cell allocated with the same frequency-time resource group of the radio system on the basis of the cell measurement data, wherein at least one of the user terminal combinations comprises two or more user terminals; controlling resource allocation in at least part of the frequency-time resource groups on the basis of the comparison; minimizing mutual interference between the user terminals of the adjacent cells when allocating resources in at least part of the frequency-time resource groups; using path loss information included in the cell measurement data of the user terminals of a user terminal combination when estimating a resulting interference value of the same user terminal combination; and using angular information included in the cell measurement data, the angular information relating to the angular differences between the user terminals of a user terminal combination, when estimating a resulting interference value of the same user terminal combination. 2. The method of claim 1 , further comprising: performing the resource allocation control by using at least one of the path loss information and the angular information. 3. The method of claim 1 , further comprising: using information relating to received powers from adjacent base stations included in the cell measurement data of the user terminals of a user terminal combination when estimating a resulting interference value of the same user terminal combination. 4. The method of claim 1 , further comprising: detecting user terminals having at least approximately the same path loss values with respect to the own cell and the adjacent cells, and controlling the resource allocation in at least part of the frequency-time resource groups on the basis of the detection. 5. The method of claim 1 , further comprising: performing the resource allocation control of only the user terminals having least path loss values in at least part of the frequency-time resource groups on the basis of the comparison. 6. The method of claim 1 , further comprising: forming interference matrices corresponding to different user terminal combinations for comparing resulting interference values of different user terminal combinations within the same frequency-time resource group. 7. An apparatus comprising: a processing unit configured to divide a frequency band of each of a plurality of cells of a radio system into frequency-time resource groups and allocate the frequency-time resource groups to at least two user terminals within a coverage area of each of the cells based on modulation and coding schemes used by the at least two user terminals; compare resulting interference values of different user terminal combinations with user terminals of more than one cell allocated with the same frequency-time resource group of the radio system on the basis of cell measurement data, wherein at least one of the user terminal combinations comprises two or more user terminals; control resource allocation in at least part of the frequency-time resource groups on the basis of the comparison; minimize mutual interference between the user terminals of adjacent cells when allocating resources in at least part of the frequency-time resource groups; use path loss information included in the cell measurement data of the user terminals of a user terminal combination when estimating a resulting interference value of the same user terminal combination; and use angular information included in the cell measurement data, the angular information relating to the angular differences between the user terminals of a user terminal combination, when estimating a resulting interference value of the same user terminal combination. 8. The apparatus of claim 7 , wherein the processing unit is configured to perform the resource allocation control by using at least one of the path loss information and the angular information. 9. The apparatus of claim 7 , wherein the processing unit is configured to use information relating to received powers from adjacent base stations included in the cell measurement data of the user terminals of a user terminal combination when estimating a resulting interference value of the same user terminal combination. 10. The apparatus of claim 7 , wherein the processing unit is configured to detect user terminals having at least approximately the same path loss values with respect to own cell and adjacent cells, and the processing unit is configured to control the resource allocation in at least part of the frequency-time resource groups on the basis of the detection. 11. The apparatus of claim 7 , wherein the processing unit is configured to perform the resource allocation control on only the user terminals having least path loss values in at least part of the frequency-time resource groups on the basis of the comparison. 12. The apparatus of claim 7 , wherein the processing unit is configured to form interference matrices corresponding to different user terminal combinations for comparing resulting interference values of different user terminal combinations within the same frequency-time resource group. 13. The apparatus of claim 7 , further comprising a receiver configured to receive the cell measurement data with respect to an own cell and adjacent cells of each user terminal of a plurality of cells of the radio system. 14. The apparatus of claim 7 , wherein the apparatus comprises a network element of a radio system. 15. The apparatus of claim 7 , wherein the apparatus comprises a network element module. 16. A tangible and non-transitory computer-readable distribution medium encoding a computer program of instructions for executing a computer process for radio resource allocation, the computer process comprising: detecting cell measurement data with respect to an own cell and adjacent cells of at least two user terminals of a plurality of cells of a radio system; dividing a frequency band of each of the cells of the radio system into frequency-time resource groups and allocating the frequency-time resource groups to the at least two user terminals within a coverage area of each of the cells based on modulation and coding schemes used by the at least two user terminals; comparing resulting interference values of different user terminal combinations with user terminals of more than one cell allocated with the same frequency-time resource group of the radio system on the basis of the cell measurement data, wherein at least one of the user terminal combinations comprises two or more user terminals; controlling resource allocation in at least part of the frequency-time resource groups on the basis of the comparison; minimizing mutual interference between the user terminals of the adjacent cells when allocating resources in at least part of the frequency-time resource groups; using path loss information included in the cell measurement data of the user terminals of a user terminal combination when estimating a resulting interference val