Dynamic cyclic prefix configuration

The invention claimed is: 1. A method for configuring a cyclic prefix for transmissions on a cellular network using a Radio Access Technology based on Orthogonal Frequency Division Multiplexing, OFDM, the method comprising: determining, at a User Equipment, UE, of the cellular network, information for calculating a delay spread for transmission symbols from a base station of the cellular network to the UE; identifying a cyclic prefix for the transmissions based on the determined information; checking that intra-carrier inter-symbol interference is the dominant source of interference to the transmission symbols from the base station to the UE; and/or configuring the transmission symbols from the base station to the UE such that intra-carrier inter-symbol interference is the dominant source of interference to the transmission symbols from the base station to the UE, wherein the step of checking comprises: for each of the transmission symbols, estimating a respective signal-to-interference-plus-noise ratio, SINR; and checking that the SNIR for the transmission symbol transmitted first in time is higher than the respective SNIR for each of a plurality of subsequent transmission symbols. 2. The method of claim 1 , further comprising: communicating from the UE to the base station, an indication of one or more of: the determined information; the delay spread calculated from the determined information; and an indication of a cyclic prefix based on the determined information; and receiving an instruction from the base station at the UE to set or adjust the cyclic prefix for transmitting and/or receiving the transmissions at the UE. 3. The method of claim 1 , wherein the step of configuring the transmission symbols comprises one or more of: setting a cyclic prefix associated with the transmission symbols on all or a subset of subcarriers, based on a pre-determined worst possible delay spread for the UE; inserting a guard period after the transmission symbols on all or a subset of subcarriers; and muting some of the transmission symbols on all or a subset of subcarriers. 4. The method of claim 1 , further comprising: identifying a change in the delay spread based on the determined information; and communicating from the UE to the base station an indication that an adjustment to the cyclic prefix for the transmissions should be made; and receiving an instruction from the base station at the UE to adjust the cyclic prefix for transmitting and/or receiving the transmissions at the UE. 5. The method of claim 1 , wherein the transmission symbols from a base station of the cellular network to the UE comprise pilot symbols. 6. A cellular network device configured to operate in accordance with the method of claim 1 . 7. A method for configuring a cyclic prefix for transmissions on a cellular network using a Radio Access Technology based on Orthogonal Frequency Division Multiplexing, OFDM, the method comprising: determining, at a User Equipment, UE, of the cellular network, information for calculating a delay spread for transmission symbols from a base station of the cellular network to the UE; identifying a cyclic prefix for the transmissions based on the determined information; and establishing the delay spread based on the determined information, wherein the determined information comprises whether a channel coefficient for each of the transmission symbols varies more than a predefined threshold; and wherein the step of establishing comprises determining a coherence bandwidth based on the determined information and establishing the delay spread using the determined coherence bandwidth. 8. The method of claim 7 , wherein the determined information comprises a relationship between a cyclic prefix associated with the transmission symbols and a signal-to-interference-plus-noise ratio, SINR, for the transmission symbols received at the UE; and wherein the step of establishing comprises establishing the delay spread using the determined relationship. 9. A method for configuring a cyclic prefix for transmissions on a cellular network using a Radio Access Technology based on Orthogonal Frequency Division Multiplexing, OFDM, the method comprising: determining, at a User Equipment, UE, of the cellular network, information for calculating a delay spread for transmission symbols from a base station of the cellular network to the UE; and identifying a cyclic prefix for the transmissions based on the determined information, wherein the base station is a first base station and the determined information is first information, the UE being configured to communicate with the first base station and with a second base station of the cellular network at the same time and the method further comprising: determining, at the UE, second information for calculating a delay spread for transmission symbols from the second base station to the UE; and wherein the step of identifying a cyclic prefix for the transmissions is based on the first information and the second information. 10. The method of claim 9 , wherein the step of identifying a cyclic prefix for the transmissions is based on: the first information, if a delay spread calculated from the first information is longer than a delay spread calculated from the second information; and the second information, if a delay spread calculated from the second information is longer than a delay spread calculated from the first information. 11. A method of establishing a delay spread from received transmission symbols using a transmission technology based on Orthogonal Frequency Division Multiplexing, OFDM, the method comprising: determining a coherence bandwidth based on whether a channel coefficient for each of the transmission symbols varies more than a predefined threshold, the delay spread being established using the determined coherence bandwidth; and/or determining a relationship between a cyclic prefix associated with the transmission symbols and a signal-to-interference-plus-noise ratio, SINR, for the received transmission symbols, the delay spread being established using the determined relationship, wherein the delay spread is established based on the reciprocal of the coherence bandwidth, and wherein the relationship is determined by: measuring a SINR for a first subset of the transmission symbols, the first subset of the transmission symbols being transmitted with a first cyclic prefix; measuring a SINR for a n th subset of the transmission symbols, n being initially set as 2, the n th subset of the transmission symbols being transmitted with a n th cyclic prefix that is shorter than the first cyclic prefix; if the SINR for the n th subset of the transmission symbols is not less than the SINR for the first subset of the transmission symbols by at least a predetermined amount, repeating the step of measuring a SINR for a n th subset of the transmission symbols for n=n+1, the (n+1) th cyclic prefix being smaller than the n th cyclic prefix; and if the SINR for the n subset of the transmission symbols is less than the SINR for the first subset of the transmission symbols by at least a predetermined amount, establishing the delay spread based on the (n−1) th cyclic prefix.