Localized and distributed transmission

What is claimed is: 1. A method of operating a network node to allocate resources on a downlink-shared channel of a telecommunication system, the method comprising: assigning available physical resource blocks into localized resource blocks and distributed resource blocks for distributed transmission; mapping a distributed virtual resource block to the distributed resource blocks by splitting the distributed virtual resource block into parts and mapping each part to a subunit of a corresponding one of the physical resource blocks that have been assigned for distributed transmission; and transmitting information using distributed transmission on the downlink-shared channel, according to a determined position of a corresponding one of the physical resource blocks assigned for distributed transmission. 2. The method of claim 1 , comprising allocating subunits of each of the distributed resource blocks to a plurality of respective users. 3. The method of claim 1 , further comprising: determining a number of physical resource blocks available for transmission on the downlink-shared channel (NRB); determining a number of the physical resource blocks assigned for distributed transmission (NDRB); and determining a position of each of the physical resource blocks that have been assigned for distributed transmission. 4. The method of claim 3 , wherein mapping the distributed virtual resource blocks further comprises: splitting the distributed virtual resource block into the number NDRB of parts Pi,j, where i is an index of a physical resource block to which part Pi,j is to be mapped and j is an index of part Pi,j within the distributed virtual resource block; and mapping each part Pi,j to a subunit Sk,1 of a corresponding one of a number of physical resource blocks that have been assigned for distributed transmission, where k is an index of the corresponding one of the physical resource blocks that have been assigned for distributed transmission, and 1 is an index of subunit Sk,1, wherein the physical resource blocks that have been assigned for distributed transmission are indexed sequentially 0, 1, . . . , NDRB, k=[(i+j) mod NDRB], and 1=j. 5. The method of claim 1 , wherein each resource block contains the same number of sub-carriers. 6. The method of claim 1 , wherein each resource block comprises a predetermined number of consecutive sub-carriers. 7. The method of claim 1 , wherein the distributed resource blocks are located at intervals amongst the resource blocks. 8. The method of claim 7 , wherein the distributed resource blocks are located at substantially regular intervals amongst the resource blocks. 9. The method of claim 1 , further comprising: for a first user, allocating a first subunit of each of a plurality of distributed resource blocks; and for a second user, allocating a second subunit of each of the plurality of distributed resource blocks. 10. The method of claim 9 , wherein each of the first and second subunits comprise similar numbers of sub-carriers during a predetermined time period. 11. The method of claim 1 , further comprising: determining in a network node how many of the resource blocks should be allocated as localized resource blocks and how many of the resource blocks should be allocated as distributed resource blocks; and transmitting information to a user indicating how many of the resource blocks should be allocated as distributed resource blocks, such that the user can determine which of the resource blocks are to be allocated as distributed resource blocks. 12. A network node adapted to allocate resources of a downlink-shared channel of a telecommunication system, wherein the node comprises a controller configured to: assign available physical resource blocks into localized resource blocks and distributed resource blocks for distributed transmission; map a distributed virtual resource block to the distributed resource blocks by splitting the distributed virtual resource block into parts and mapping each part to a subunit of a corresponding one of the physical resource blocks that have been assigned for distributed transmission; and transmit information using distributed transmission on the downlink-shared channel, according to a determined position of a corresponding one of the physical resource blocks assigned for distributed transmission. 13. The network node of claim 12 , wherein the controller is further configured to: determine how many of the resource blocks should be allocated as localized resource blocks and how many of the resource blocks should be allocated as distributed resource blocks; and transmit information to a user indicating how many of the resource blocks should be allocated as distributed resource blocks, such that the user can determine which of the resource blocks are to be allocated as distributed resource blocks. 14. The network node of claim 12 , wherein the network node is a NodeB of the telecommunication system. 15. A method performed by a user equipment operable in a telecommunication system, the method comprising: receiving transmissions from a network node of the telecommunication system on a downlink shared channel comprising a plurality of sub-carriers defining a plurality of physical resource blocks; receiving information from the network node indicative of whether physical resource blocks are assigned for distributed transmission or for localized transmission; mapping each physical resource block assigned for localized transmission and assigned to the user equipment one-to-one to a virtual resource block of a shared channel transmission; and mapping subunits of a physical resource block determined to be assigned for distributed transmission to virtual resource blocks of the shared channel transmission. 16. The method of claim 15 , further comprising receiving information from the network node allowing the user equipment to determine which physical resource blocks have been assigned to the user equipment.