Parameter feedback in a wireless communication system

The invention claimed is: 1. An apparatus comprising: at least one processor; and at least one memory including computer program code, the at least one memory and the computer program code configured, with the at least one processor, to cause the apparatus to perform the following: receiving information via a plurality of resource blocks of a transmission resource, said plurality of resource blocks being divided into a plurality of subbands and minibands; gathering from the received information a Channel Quality Index (CQI) in combination with at least one factor or one physical parameter, for each of the plurality of subbands and minibands; determining a metric profile corresponding to a task, said metric profile comprising at least one weight parameter for the corresponding at least one factor or one physical parameter for each of the plurality of subbands and minibands, wherein the weight parameter value represents a measure for a significance of the corresponding at least one factor or one physical parameter of the plurality of subbands and minibands with regard to the task; determining a metric for each of the plurality of subbands and minibands by applying the metric profile to the at least one factor or one physical parameter using a predetermined rule dependent from the task; selecting a predetermined number of the plurality of subbands and minibands, such that the selected subbands and minibands meet a predefined criteria best M; and providing Channel Quality Index (CQI) and Preferred Matrix Index (PMI) information corresponding to the predetermined number of the plurality of subbands and minibands to a Base Station Apparatus, wherein only the M highest ranking subbands and minibands are selected for reporting, wherein the apparatus is a Mobile Station Apparatus for organizing the transmission resource between the Base Station Apparatus and the Mobile Station Apparatus dependent on the task. 2. The apparatus of claim 1 , wherein the task is at least one of: providing a service; and transmitting a data packet and/or a voice packet. 3. The apparatus of claim 1 , wherein the metric is at least one value selected from the group of values consisting of: a metric value; a Channel Quality Indicator; and a Preferred Matrix index. 4. The apparatus of claim 1 , wherein the at least one physical parameter of a resource block is at least one physical parameter selected from the group consisting of: a signal to noise ratio; a size of a resource block; a Quality of Service; a load; a service type; and a buffer status. 5. The apparatus of claim 1 , wherein the apparatus is a mobile station according to at least one of the standards IEEE 802.16, IEEE 802.16e, IEEE 802.16m and LTE. 6. A method comprising: receiving information via a plurality of resource blocks of a transmission resource, said plurality of resource blocks being divided into a plurality of subbands and minibands; gathering from the received information a Channel Quality Index (CQI) in combination with at least one factor or one physical parameter, for each of the plurality of subbands and minibands; determining a metric profile corresponding to a task, said metric profile comprising at least one weight parameter for the corresponding at least one factor or one physical parameter for each of the plurality of subbands and minibands, wherein the weight parameter value represents a measure for a significance of the corresponding at least one factor or one physical parameter of the plurality of subbands and minibands with regard to the task; determining a metric for each of the plurality of subbands and minibands by applying the metric profile to the at least one factor or one physical parameter using a predetermined rule dependent from the task; selecting a predetermined number of the plurality of subbands and minibands, such that the selected subbands and minibands meet a predefined criteria best M; and providing Channel Quality Index (CQI) and Preferred Matrix Index (PMI) information corresponding to the predetermined number of the plurality of subbands and minibands to a Base Station Apparatus, wherein only the M highest ranking subbands and minibands are selected for reporting, wherein the method is one for organizing the transmission resource between the Base Station Apparatus and a Mobile Station Apparatus dependent on the task. 7. The method as claimed in claim 6 , wherein the task is at least one of: providing a service; and transmitting a data packet and/or a voice packet. 8. The method as claimed in claim 6 , wherein the metric is at least one value selected from the group of values consisting of: a metric value; a Channel Quality Indicator; and a Preferred Matrix index. 9. The method as claimed in claim 6 , wherein the at least one physical parameter of a resource block is at least one physical parameter selected from the group consisting of: a signal-to-noise ratio; a size of a resource block; a Quality of Service; a load; a service type; and a buffer status. 10. An apparatus comprising: at least one processor; and at least one memory including computer program code, the at least one memory and the computer program code configured, with the at least one processor, to cause the apparatus to perform the following: receiving Channel Quality Index (CQI) and Preferred Matrix Index (PMI) corresponding to a predetermined number of a plurality of subbands and minibands from a Mobile Station Apparatus, wherein only a M highest ranking subbands and minibands are selected for reporting, said predetermined number of the plurality of subbands and minibands being selected such that the selected subbands and minibands meet a predefined criteria best based on a metric, said metric being obtained by the Mobile Station Apparatus by applying a metric profile to at least one factor or one physical parameter, for each of a plurality of subbands and minibands, said plurality of subbands and minibands being divided from a plurality of resource blocks, wherein the at least one factor or one physical parameter is in combination with a Channel Quality Index (CQI), using a predetermined rule, said metric profile comprising at least one weight parameter for the corresponding at least one factor or one physical parameter for each of the plurality of subbands and minibands, wherein the weight parameter value represents a measure for a significance of the corresponding at least one factor or one physical parameter of the plurality of subbands and minibands with regard to a task; deciding about employing the information of the metric; and structuring a transmission resource between the apparatus and the Mobile Station Apparatus depending on the task and in accordance with the received information of the metric in the case of employing the information of the metric, wherein the apparatus is a Base Station Apparatus for allocating the transmission resource. 11. The apparatus of claim 10 , wherein the at least one memory and the computer program code are further configured, with the at least one processor, to cause the apparatus to send implicit and/or explicit signaling information to the Mobile Station Apparatus in order to enable the Mobile Station Apparatus to get the metric. 12. The apparatus of claim 10 , wherein the apparatus is a base station according to at least one of the standards IEEE 802.16, IEEE 802.16e, IEEE 802.16m and LTE. 13. A method comprising: receiving Channel Quality Index (CQI) and Preferred Matrix Index (PMI) corresponding to a predetermined number of a plurality of subbands and minibands from a Mobile Station Apparatus, wherein only a M