Cell selection in cellular communication systems

The invention claimed is: 1. A method for cell selection in a cellular communication system having a first base station with a first cell and at least one second base station with a respective second cell, said method comprising the steps of: obtaining, in one of said first base station and said second base station, user equipment specific information for a user equipment being present in said first cell, said user equipment specific information comprising information of a prevailing radio situation of said user equipment and information of a present decoding performance of said user equipment; estimating, in one of said first base station, said second base station and a node connected to at least one of said first base station and said second base station, a present capability of said user equipment for handling increased interference and a measure of a cell selection offset required to cover said user equipment by said second cell, from said user equipment specific information; deciding, in one of said first base station, said second base station, and a node connected to at least one of said first base station and said second base station, on modifying a cell selection offset for handover between said first cell and said second cell, in dependence on said estimated present capability of said user equipment for handling increased interference and said cell selection offset required to cover said user equipment by said second cell, wherein said deciding on modifying the cell selection offset is performed by comparing a first comparison measure computed from said estimated present capability of said user equipment and a second comparison measure computed from said required cell selection offset; and receiving feed-back information about capability for handling increased interference from user equipments having performed a handover to said second cell due to a modified cell selection offset after said handover has been completed, wherein said feed-back information is utilized for refining the computation of at least one of said first comparison measure and said second comparison measure. 2. The method according to claim 1 , wherein said step of deciding on modifying the cell selection offset is performed in further dependence of expected gains in load sharing and uplink performance. 3. The method according to claim 1 , wherein said user equipment specific information comprises at least one of a channel state information report, link adaptation, a handover measurement report, and sounding reference symbols power measurements. 4. The method according to claim 1 , wherein said first comparison measure is estimated as a function of a send bit information value, said send bit information value being a ratio of a number of information bits transmitted to said user equipment by said first base station divided by a number of resource elements utilized for said user equipment by said first base station. 5. The method according to claim 1 , wherein said second comparison measure is estimated as a function of a range expansion depth for said user equipment, said range expansion depth being a difference between a received power of a pilot signal from said first base station and a received power of a pilot signal from said second base station. 6. The method according to claim 5 , wherein said second comparison measure is estimated as a function being further dependent on differences in power allocations for Physical Downlink Shared Channel and reference symbols between said first base station and said second base station. 7. The method according to claim 1 , wherein said step of deciding on modifying the cell selection offset is performed individually for said user equipment and only if said comparison between said first comparison measure and said second comparison measure indicates that said user equipment has a capability of handling the increased interference caused by such cell selection offset that is better than a preselected level. 8. The method according to claim 1 , wherein said steps of obtaining and estimating are performed for a set of user equipments in at least one of said first cell and said second cell; wherein said step of deciding on modifying the cell selection offset is performed collectively for all user equipments in said set of user equipments; and wherein a magnitude of said cell selection offset being adapted to give a cell area of said second cell that comprises less than or equal to a predetermined fraction of user equipments in said set of user equipments for which said comparison between said first comparison measure and said second comparison measure indicates that said user equipment has a capability of handling the increased interference caused by such cell selection offset that is worse than a preselected level. 9. The method according to claim 8 , wherein said predetermined fraction is zero. 10. The method according to claim 8 , wherein said set of user equipments comprises all user equipments in said first cell possibly being influenced by a cell selection offset for said second cell. 11. The method according to claim 1 , wherein at least one of said first comparison measure and said second comparison measure is computed utilizing gathered statistics concerning estimated present capability of user equipments for handling increased interference under different circumstances. 12. The method according to claim 1 , wherein said first base station transmits radio signals with a power that is higher than for radio signals transmitted by said second base station. 13. A network node in a cellular communication system, said network node comprising: an interface configured to obtain user equipment specific information for a user equipment being present in a first cell, said user equipment specific information comprising information of a prevailing radio situation of said user equipment and information of a present decoding performance of said user equipment; a processor functionally connected to the interface, the processor configured to: estimate a present capability of said user equipment for handling increased interference and a measure of a cell selection offset required to cover said user equipment by a second cell, from said user equipment specific information; and decide on modifying a cell selection offset for handover between said first cell and said second cell, in dependence on said estimated present capability of said user equipment for handling increased interference and said cell selection offset required to cover said user equipment by said second cell, wherein said decision on modifying the cell selection offset is performed by comparing a first comparison measure deduced from said estimated present capability of said user equipment and a second comparison measure deduced from said required cell selection offset, wherein said interface is further configured to receive feed-back information about capability for handling increased interference from user equipments having performed a handover to said second cell due to a modified cell selection offset after said handover has been completed, and wherein said processor is further configured to refine the computation of at least one of said first comparison measure and said second comparison measure by said feed-back information. 14. The network node according to claim 13 , wherein said processor configured to perform said decision on modifying the cell selection offset is further configured to make said decision in further dependence of expected gains in load sharing and uplink performance. 15. The network node according to claim 13 , wherein said