Estimating one or more characteristics of a communications channel

The invention claimed is: 1. A method of estimating one or more characteristics of a communications channel, the method comprising: receiving a first wireless signal transmitted by a transmitter at a first set of frequencies in a first time slot; receiving a second wireless signal transmitted by the transmitter at a second set of frequencies in a second time slot, wherein the second set of frequencies partially overlaps with the first set of frequencies and the second time slot is different from the first time slot; and jointly processing the first wireless signal and the second wireless signal to estimate the one or more characteristics of the communications channel, wherein the first wireless signal has a first center-frequency and the second wireless signal has a second center-frequency, and wherein jointly processing the first wireless signal and the second wireless signal is based on a difference between the second center-frequency and the first center-frequency. 2. The method of claim 1 , wherein jointly processing the first wireless signal and the second wireless signal comprises: combining the first wireless signal and the second wireless signal to form a composite function; and processing the composite function to estimate the one or more characteristics of the communications channel. 3. The method of claim 2 , wherein combining the first wireless signal and the second wireless signal to form a composite function comprises: processing the first wireless signal to form a first function; processing the second wireless signal to form a second function; and combining the first function and the second function to produce the composite function. 4. The method of claim 3 , wherein each of the first function and the second function comprises one of: a channel impulse response; or a channel frequency response. 5. The method of claim 3 , wherein the method further comprises: taking into account the difference, when combining the first function and the second function. 6. The method of claim 4 , wherein the first function is a first channel frequency response comprising a first set of samples and the second function is a second channel frequency response comprising a second set of samples, wherein the first set of samples includes samples which do not exist in the second set of samples, and the second set of samples includes samples which do not exist in the first set of samples, wherein the method comprises combining the first set of samples and the second set of samples into a combined set of samples, wherein, when combining the first set of samples and the second set of samples, zeros are inserted in the combined set of samples for samples that do not exist in the first set of samples and/or zeros are inserted in the combined set of samples for samples that do not exist in the second set of samples. 7. The method of claim 4 , wherein the first function is a first channel frequency response, and the second function is a second channel frequency response, wherein processing the composite function comprises performing at least one of: a Discrete Fourier Transform or an Inverse Discrete Fourier Transform, on the composite function. 8. The method of claim 7 , wherein performing at least one of: the Discrete Fourier Transform or the Inverse Discrete Fourier Transform, on the composite frequency response, comprises performing at least one of: a Fast Fourier Transform or an Inverse Fast Fourier Transform. 9. The method of claim 1 , wherein jointly processing the first wireless signal and the second wireless signal to estimate the one or more characteristics of the communications channel comprises estimating the one or more characteristics according to a Maximum Likelihood criterion. 10. The method of claim 9 , wherein estimating the one or more characteristics according to the Maximum Likelihood criterion comprises solving a Nonlinear Least Squares problem. 11. The method of claim 1 , further comprising: receiving assistance information relating to at least one of the first wireless signal and the second wireless signal; and using the assistance information to assist in receiving said at least one wireless signal. 12. The method of claim 11 , further comprising forwarding the assistance information to at least one other device, to assist said other device in receiving said at least one wireless signal. 13. The method of claim 11 , wherein the assistance information comprises at least one of, or any combination of two or more of: a type of at least one of the signals to be transmitted; a time at which at least one of the signals will be transmitted; a frequency at which at least one of the signals will be transmitted; a bandwidth of at least one of the signals to be transmitted; a power level with which at least one of the signals will be transmitted; an antenna configuration that will be used to transmit at least one of the signals; a time difference between the first wireless signal and the second wireless signal; and a phase relationship between the first wireless signal and the second wireless signal. 14. The method of claim 12 , wherein the transmitter is a transmitter of a User Equipment (UE), in a wireless infrastructure network, the first wireless signal and the second wireless signal are uplink signals, the UE is controlled by a Base Station, hereinafter BS, in the wireless infrastructure network, and wherein the method further comprises: receiving a control signal transmitted by the BS for the UE; and extracting at least some of the assistance information from the control signal. 15. The method of claim 1 , wherein one or both of the first wireless signal and the second wireless signal is a synchronization signal. 16. The method of claim 1 , wherein the one or more characteristics of the communications channel include at least one of, or any combination of two or more of: a time delay of the channel; a phase delay of the channel; an amplitude response of the channel; and a Doppler frequency. 17. A non-transitory computer readable storage medium storing computer program comprising computer program code configured to cause one or more physical computing devices to perform the steps of claim 1 , if said computer program is run on said one or more physical computer devices. 18. An electronic communications device, comprising: a first receiver, configured to receive a first wireless signal transmitted by a transmitter at a first set of frequencies in a first time slot; a second receiver, configured to receive a second wireless signal transmitted by the transmitter at a second set of frequencies in a second time slot, wherein the second set of frequencies partially overlaps with the first set of frequencies and the second time slot is different from the first time slot; and a processor, configured to jointly process the first wireless signal and the second wireless signal to estimate one or more characteristics of the communications channel, wherein the first wireless signal has a first center-frequency and the second wireless signal has a second center-frequency, and wherein the processor is configured to jointly process the first wireless signal and the second wireless signal based on a difference between the second center-frequency and the first center-frequency. 19. The electronic communications device of claim 18 , wherein the electronic communications device is configured to send the estimated one or more characteristics to a second device. 20. A transm