Inserting virtual carrier in conventional OFDM host carrier in communications system

The invention claimed is: 1. A mobile telecommunications system, comprising: a plurality of first mobile terminals that transmit uplink data to a network over a radio interface on a first group of sub-carriers of a plurality of sub-carriers over a first bandwidth, and transmit first random access request messages on a first random access channel to a base station of the network; and a plurality of second mobile terminals that transmit uplink data to the network over the radio interface on a second group of sub-carriers over a second bandwidth, and transmit second random access request messages on a second random access channel to the base station, wherein the first and second random access request messages request uplink radio resources, the second group of sub-carriers is within the first group of sub-carriers, the second bandwidth is smaller than the first bandwidth, the second random access channel is positioned on a sub-set of sub-carriers within and smaller than the second group of sub-carriers, the second group of sub-carriers forms a virtual carrier inserted within the first bandwidth and the remaining sub-carriers of the first group of sub-carriers form a host carrier, the first random access request messages include a first preamble, the second random access request messages include a second preamble different from the first preamble, the base station determines that a particular random access request message is from a first mobile terminal when the particular random access request message includes the first preamble, and the base station determines that the particular random access request message is from a second mobile terminal when the particular random access request message includes the second preamble. 2. The mobile telecommunications system according to claim 1 , wherein a position of the second random access channel is signalled to the second mobile terminals on a downlink signalling channel. 3. The mobile telecommunications system according to claim 1 , wherein the first mobile terminals receive downlink data from the network over a third group of sub-carriers over a third bandwidth, the second mobile terminals receive downlink data on a fourth group of sub-carriers over a fourth bandwidth, the fourth bandwidth is smaller than the third bandwidth, and the fourth group of sub-carriers is within the third group of sub-carriers. 4. The mobile telecommunications system according to claim 1 , wherein the mobile telecommunications system is configured in accordance with 3GPP Long Term Evolution specifications. 5. A mobile telecommunications system, comprising: a plurality of first mobile terminals that transmit uplink data to a network over a radio interface on a first group of sub-carriers of a plurality of sub-carriers over a first bandwidth, and transmit first random access request messages on a first random access channel to a base station of the network; and a plurality of second mobile terminals that transmit uplink data to the network over the radio interface on a second group of sub-carriers over a second bandwidth, and transmit second random access request messages on a second random access channel to the base station, wherein the first and second random access request messages request uplink radio resources, the second group of sub-carriers is within the first group of sub-carriers, the second bandwidth is smaller than the first bandwidth, the first random access channel is positioned on a sub-set of subcarriers outside of the second group of sub-carriers but within and smaller than the remaining sub-carriers of the first group of sub-carriers, the second group of sub-carriers forms a virtual carrier inserted within the first bandwidth and the remaining sub-carriers of the first group of sub-carriers form a host carrier, the first random access request messages include a first preamble, the second random access request messages include a second preamble different from the first preamble, the base station determines that a particular random access request message is from a first mobile terminal when the particular random access request message includes the first preamble, and the base station determines that the particular random access request message is from a second mobile terminal when the particular random access request message includes the second preamble. 6. The mobile telecommunications system according to claim 5 , wherein the random access request messages transmitted on the second random access channel are transmitted on a same group of sub-carriers of the first group of sub-carriers and at a same time as random access request messages transmitted on the first random access channel. 7. The mobile telecommunications system according to claim 6 , wherein the base station distinguishes between random access request messages transmitted from the first mobile terminals and random access request messages transmitted from the second mobile terminals by allocating access to the first random access channel to the first mobile terminals during a first period of time and allocating access to the second random access channel to the second mobile terminals during a second period of time. 8. The mobile telecommunications system according to claim 5 , wherein the first mobile terminals receive downlink data from the network over a third group of sub-carriers over a third bandwidth, the second mobile terminals receive downlink data on a fourth group of sub-carriers over a fourth bandwidth, the fourth bandwidth is smaller than the third bandwidth, and the fourth group of sub-carriers is within the third group of sub-carriers. 9. The mobile telecommunications system according to claim 5 , wherein the mobile telecommunications system is configured in accordance with 3GPP Long Term Evolution specifications. 10. A method of transmitting data in a mobile telecommunications system, the method comprising: transmitting, by first mobile terminals, uplink data to a network over a radio interface on a first group of sub-carriers of a plurality of sub-carriers over a first bandwidth; transmitting, by the first mobile terminals, first random access request messages on a first random access channel to a base station of the network; transmitting, by second mobile terminals, uplink data to the network over the radio interface on a second group of sub-carriers of the plurality of sub-carriers over a second bandwidth; and transmitting, by the second mobile terminals, second random access request messages on a second random access channel to the base station, wherein the first and second random access request messages request uplink radio resources, the second group of sub-carriers is within the first group of sub-carriers, the second bandwidth is smaller than the first bandwidth, the second random access channel is positioned on a sub-set of sub-carriers within and smaller than the second group of sub-carriers, the second group of sub-carriers forms a virtual carrier inserted within the first bandwidth and the remaining sub-carriers of the first group of sub-carriers form a host carrier, the first random access request messages include a first preamble, the second random access request messages include a second preamble different from the first preamble, the base station determines that a particular random access request message is from a first mobile terminal when the particular random access request message includes the first preamble, and the base station determines that the particular random access request message is from a second mobile terminal when the particular random access request message includes the second preamble. 11. A method o