User device for communicating data and method

The invention claimed is: 1. A user device arranged to transmit and to receive data to and from an infrastructure equipment via a wireless access interface, the wireless access interface being provided by the infrastructure equipment using a plurality of Orthogonal Frequency Division Multiplexing (OFDM) subcarriers, the plurality of subcarriers extending across at least a first bandwidth, the infrastructure equipment repeatedly transmitting signals representing a same instance of user device payload data in a second bandwidth, the second bandwidth being less than and within the first bandwidth and including a subset of the OFDM subcarriers, and the user device is configured to receive one or more of the signals repeatedly transmitted across the second bandwidth and not across subcarriers of the first bandwidth outside of the second bandwidth; store second signals in a memory, the second signals representing the one or more of the signals received across the second bandwidth; combine the stored second signals to generate a combined signal; detect the user device payload data from the combined signal based on an indication of the second bandwidth when the user device detects the indication; and when the user device fails to detect the indication, accumulate three consecutive subframes of the signals received across the second bandwidth; and detect the user device payload data from the combined signal based on information included in the three consecutive subframes. 2. The user device as claimed in claim 1 , wherein the infrastructure equipment repeatedly transmits third signals representing a same instance of user device control data in the first bandwidth, the user device control data providing the indication of a location of the second signals representing the user device payload data in the second bandwidth, and the user device is configured to receive one or more of the repeatedly transmitted third signals representing user device control data across the first bandwidth, store fourth signals in the memory, the fourth signals representing the one or more of the third signals received across the first bandwidth, combine the stored fourth signals to generate a second combined signal, and detect the user device control data from the second combined signal. 3. The user device as claimed in claim 2 , wherein the user device is configured to receive the indication of the second bandwidth from the infrastructure equipment prior to receiving the repeated transmissions of the third signals representing the user device control data. 4. The user device as claimed in claim 2 , wherein a number of repeated signals combined to detect the user device payload data is greater than a number of repeated signals combined to detect the user device control data. 5. The user device as claimed in claim 1 , wherein the wireless access interface provided by the plurality of OFDM subcarriers is divided into a plurality of time periods and the repeated signals representing the user device payload data are transmitted in a same set of resources of the wireless access interface in a first time period and in a second time period, and the user device is configured to receive the user device payload data in the same set of resources of the wireless access interface in the first time period and in the second time period. 6. The user device as claimed in claim 1 , wherein the user device is configured to receive user device payload data within a virtual carrier of a predetermined bandwidth, the second bandwidth being approximately equal to the predetermined bandwidth, and the predetermined bandwidth includes a set of the OFDM subcarriers that is substantially similar to the OFDM subcarriers that form the subset of the OFDM subcarriers included in the second bandwidth. 7. The user device as claimed in claim 1 , wherein the user device is compliant with 3GPP LTE. 8. The user device as claimed in claim 1 , wherein the user device is configured to combine the stored signals in accordance with an incremental redundancy repetition scheme or a chase combining scheme. 9. A method of receiving data at a user device arranged to transmit and to receive data to and from an infrastructure equipment via a wireless access interface, the wireless access interface being provided by the infrastructure equipment using a plurality of Orthogonal Frequency Division Multiplexing (OFDM) subcarriers, the plurality of subcarriers extending across at least a first bandwidth, the infrastructure equipment repeatedly transmitting signals representing a same instance of user device payload data in a second bandwidth, the second bandwidth being less than and within the first bandwidth and including a subset of the OFDM subcarriers, the method comprising: receiving one or more of the repeatedly transmitted signals across the second bandwidth and not across subcarriers of the first bandwidth outside of the second bandwidth; storing second signals in a memory, the second signals representing the one or more of the signals received across the second bandwidth; combing the stored second signals to generate a combined signal; detecting the user device payload data from the combined signal based on an indication of the second bandwidth when the user device detects the indication; and when the user device fails to detect the indication, accumulating three consecutive subframes of the signals received across the second bandwidth; and detecting the user device payload data from the combined signal based on information included in the three consecutive subframes. 10. The method as claimed in claim 9 , wherein the infrastructure equipment repeatedly transmits third signals representing a same instance of user device control data in the first bandwidth, the user device control data providing the indication of a location of the second signals representing the user device payload data in the second bandwidth, and the method further comprises: receiving one or more of the repeatedly transmitted third signals representing user device control data across the first bandwidth; storing fourth signals in the memory, the fourth signals representing the one or more of the third signals received across the first bandwidth; combining the stored fourth signals to generate a second combined signal; and detecting the user device control data from the second combined signal. 11. The method as claimed in claim 10 , further comprising receiving the indication of the second bandwidth from the infrastructure equipment prior to receiving the repeated transmissions of the third signals representing the user device control data. 12. The method as claimed in claim 10 , the method comprising combining a greater number of repeated signals to detect the user device payload data than to detect the user device control data. 13. The method as claimed in claim 9 , wherein the wireless access interface provided by the plurality of OFDM subcarriers is divided into a plurality of time periods and the repeated signals representing the user device payload data are transmitted in a same set of resources of the wireless access interface in a first time period and in a second time period, and the method further comprises receiving the user device payload data in the same set of resources of the wireless access interface in the first time period and in the second time period. 14. The method as claimed in claim 9 , further comprising receiving user device payload data within a virtual carrier of a predetermined bandwidth, the second bandwidth being approximately equal to the predetermined bandwidth, and the predetermine