Inserting virtual carrier in conventional ofdm host carrier in communications system

1 . A circuitry for a base station for communicating data to and from a plurality of mobile terminals over a plurality of OFDM sub-carriers within a coverage area provided by the circuitry for a base station, the circuitry configured to: allocate transmission resources provided by a first group of the plurality of OFDM sub-carriers within a first frequency band to mobile terminals of a first type; allocate transmission resources provided by a second group of the plurality of OFDM sub-carriers within a second frequency band to terminals of a second type, the second group being smaller than the first group and the second frequency band being selected from within the first frequency band; transmit control information comprising resource allocation information for terminals of the first type over a first bandwidth corresponding to the combined first and second groups of OFDM sub-carriers; and transmit control information comprising resource allocation information for terminals of the second type over a second bandwidth corresponding to the second group of OFDM sub-carriers. 2 . The circuitry of claim 1 , wherein the circuitry is configured to transmit the control information comprising resource allocation information for the terminals of the first type in different OFDM symbols to the transmission of control information comprising resource allocation information for the terminals of the second type. 3 . The circuitry of claim 1 , wherein the OFDM sub-carriers are transmitted using a sub-frame structure. 4 . The circuitry of claim 3 , wherein the circuitry is configured to transmit the control information comprising resource allocation information for the terminals of the second type in a first sub-frame which relates to allocation of resources in a subsequent sub-frame. 5 . The circuitry of claim 3 , wherein the circuitry is configured to transmit the control information comprising resource allocation information for the terminals of the second type in a first sub-frame which relates to allocation of resources in the same sub-frame. 6 . The circuitry of claim 1 , wherein the second group of the plurality of the OFDM sub-carriers form a virtual carrier inserted in the first group of the plurality of the OFDM sub-carriers and the first group of the plurality of the OFDM sub-carriers form a host carrier. 7 . The circuitry of claim 6 , wherein the circuitry is configured to transmit data to the terminals of the first type on the host carrier and to transmit data to the terminals of the second type on the virtual carrier. 8 . The circuitry of claim 6 , wherein the circuitry is configured to insert one or more additional virtual carriers in the host carrier. 9 . The circuitry of claim 6 , wherein the circuitry is configured to transmit reference signals for channel estimation for use by both the terminals of the first type and terminals of the second type in the virtual carrier. 10 . The circuitry of claim 9 , wherein the circuitry is configured to transmit additional reference signals within the virtual carrier for channel estimation for use by terminals of the second type in the virtual carrier. 11 . The circuitry of claim 6 , wherein the circuitry is configured to: transmit the sub-carriers using a sub-frame structure, each sub-frame comprising a predetermined number of OFDM symbols; and transmit the control information comprising resource allocation information for terminals of the first type over the first n OFDM symbols of each sub-frame, wherein n may vary from sub-frame to sub-frame. 12 . The circuitry of claim 11 , wherein the circuitry is configured to: transmit the virtual carrier over the final m-n symbols of each sub-frame, where m corresponds to a number of symbols in the sub-frame; and signal to terminals of the second type an indication of n for each given sub-frame thereby enabling the terminals of the second type to determine a length of the virtual carrier for each given sub-frame. 13 . The circuitry of claim 11 , wherein the circuitry is configured to transmit the control information comprising resource allocation information for terminals of the second type in the last OFDM symbol or OFDM symbols of each sub-frame. 14 . The circuitry of claim 1 , wherein the circuitry is configured in accordance with 3GPP Long Term Evolution (LTE) specifications. 15 . Circuitry for a base station for communicating data to and from a plurality of mobile terminals over a plurality of OFDM sub-carriers within a coverage area, the circuitry configured to: allocate transmission resources provided by a first group of the plurality of OFDM sub-carriers within a first frequency band to mobile terminals of a first type; allocate transmission resources provided by a second group of the plurality of OFDM sub-carriers within a second frequency band to terminals of a second type, the second group being smaller than the first group and the second frequency band being selected from within the first frequency band; transmit control information comprising resource allocation information for terminals of the first type over a first bandwidth corresponding to the combined first and second groups of OFDM sub-carriers; and transmit control information comprising resource allocation information for terminals of the second type over a second bandwidth corresponding to the second group of OFDM sub-carriers. 16 . The circuitry of claim 15 , wherein the circuitry is configured to transmit the control information comprising resource allocation information for the terminals of the first type in different OFDM symbols to the transmission of control information comprising resource allocation information for the terminals of the second type. 17 . The circuitry of claim 15 , wherein the OFDM sub-carriers are transmitted using a sub-frame structure, and the circuitry is configured to transmit the control information comprising resource allocation information for the terminals of the second type in a first sub-frame which relates to allocation of resources in a subsequent sub-frame. 18 . The circuitry of claim 15 , wherein the OFDM sub-carriers are transmitted using a sub-frame structure, and the circuitry is configured to transmit the control information comprising resource allocation information for the terminals of the second type in a first sub-frame which relates to allocation of resources in the same sub-frame. 19 . Infrastructure equipment for communicating data to and from a plurality of mobile terminals over a plurality of OFDM sub-carriers within a coverage area, the infrastructure equipment comprising: circuitry configured to allocate transmission resources provided by a first group of the plurality of OFDM sub-carriers within a first frequency band to mobile terminals of a first type; allocate transmission resources provided by a second group of the plurality of OFDM sub-carriers within a second frequency band to terminals of a second type, the second group being smaller than the first group and the second frequency band being selected from within the first frequency band; transmit control information comprising resource allocation information for terminals of the first type over a first bandwidth corresponding to the combined first and second groups of OFDM sub-carriers; and transmit control information comprising resource allocation information for terminals of the second type over a second bandwidth corresponding to the second group of OFDM sub-carriers. 20 . The