Inserting virtual carrier in conventional OFDM host carrier in communications system

The invention claimed is: 1. Circuitry for a virtual carrier terminal, the circuitry being configured to: camp onto a cell to receive data at the virtual carrier terminal, wherein the circuitry for camping onto the cell to receive data at the virtual carrier terminal is further configured to locate a virtual carrier within a host carrier, decode a control region and identify allocated resource blocks, and decode the allocated resource blocks and receive data transmitted by a base station, wherein data for virtual carrier terminals is separately transmitted on a virtual carrier subset of resource elements based on the decoded information. 2. The circuitry for the virtual carrier terminal of claim 1 , wherein the decoded allocated resource blocks include a remainder of system information containing details of a network configuration. 3. The circuitry for the virtual carrier terminal of claim 1 , wherein the virtual carrier mirrors LTE resource allocation, wherein in response to the virtual carrier mirroring the LTE resource allocation, the circuitry is further configured to decode control portions within the virtual carrier that indicate which resource elements within the virtual carrier have been allocated for a specific virtual carrier terminal or for system information. 4. The circuitry for the virtual carrier terminal of claim 1 , wherein the virtual carrier terminals share a virtual carrier and have grants allocated to manage virtual carrier sharing. 5. The circuitry for the virtual carrier terminal of claim 1 , wherein the virtual carrier terminal has an entire virtual carrier allocated for its own downlink transmissions. 6. The circuitry for the virtual carrier terminal of claim 1 , wherein the virtual carrier is entirely allocated to the virtual carrier terminal for a certain number of sub-frames only. 7. The circuitry for the virtual carrier terminal of claim 1 , wherein the circuitry for locating the virtual carrier within the host carrier is further configured to receive virtual carrier location information, wherein the virtual carrier location information includes an indication that one or more virtual carriers are provided within the host carrier or that the host carrier does not currently provide any virtual carrier. 8. The circuitry for the virtual carrier terminal of claim 7 , wherein the virtual carrier location information includes an indication of the virtual carrier's bandwidth. 9. The circuitry for the virtual carrier terminal of claim 7 , wherein the virtual carrier location information includes the virtual carrier's center frequency and bandwidth, thereby giving the virtual carrier terminal an exact location and bandwidth of any active virtual carrier. 10. The circuitry for the virtual carrier terminal of claim 7 , wherein the processing circuitry is further configured to: in response to a virtual carrier being found at a different frequency position in each sub-frame according to a pseudo-random hopping algorithm, indicate a pseudo random parameter in the location information. 11. Circuitry for a virtual carrier terminal, the circuitry being configured to receive downlink virtual carrier reference signals, wherein in order to preserve compatibility with LTE communication terminals receiving data on a host carrier, sub-carrier positions that would contain reference signals in an existing host sub-frame are retained in a virtual carrier. 12. The circuitry for the virtual carrier terminal of claim 11 , wherein the virtual carrier includes additional reference signal bearing sub-carriers to enhance a channel estimation accuracy generated by the virtual carrier terminal. 13. The circuitry for the virtual carrier terminal of claim 12 , wherein the circuitry is further configured to further comprising: increase a sampling frequency of the channel estimation by combining additional reference signals with reference signals from existing reference signal bearing subcarriers. 14. The circuitry for the virtual carrier terminal of claim 13 , wherein the positions of the additional reference bearing sub-carriers are systematically interspersing with respect to positions of the existing reference signal bearing subcarriers. 15. The circuitry for the virtual carrier terminal of claim 12 , wherein positions of the additional reference bearing sub-carriers are systematically placed at an edge of a bandwidth of the virtual carrier.