Transmission frequency spectrum scanning

The invention claimed is: 1. A method of scanning a transmission spectrum, the method comprising: analysing received signals over the transmission spectrum to determine an estimate of signal strength of the received signals as a function of frequency over the transmission spectrum; using the estimate of the strength of the received signals to identify candidate transmission channel frequencies within the transmission spectrum by: (i) performing edge detection on the estimate of the strength of the received signals in the frequency domain, and (ii) using the edge detection to search for a pattern in the estimate of the strength of the received signals in the frequency domain which is indicative of a candidate transmission channel, said pattern comprising a rising edge, a frequency interval and a falling edge, wherein the frequency interval between the rising edge and the falling edge is suitable for a transmission channel; and performing a targeted scan over the transmission spectrum based on the identified candidate transmission channel frequencies to thereby identify at least one transmission channel within the transmission spectrum. 2. The method of claim 1 wherein: (i) the transmission spectrum is a satellite broadcast spectrum, wherein the transmission channels are satellite channels, and wherein the transmission channel frequencies are satellite channel frequencies; (ii) the transmission spectrum is a terrestrial broadcast spectrum, wherein the transmission channels are terrestrial broadcast channels, and wherein the transmission channel frequencies are terrestrial broadcast channel frequencies; or (iii) the transmission spectrum is for use in mobile telephony, wherein the transmission channels are channels of a mobile telephone network, and wherein the transmission channel frequencies are channel frequencies of the mobile telephone network. 3. The method of claim 1 wherein the rising and falling edges of the pattern have gradients which are suitable for a transmission channel with said frequency interval. 4. Apparatus configured to scan a transmission spectrum, the apparatus comprising: a spectrum analyser module configured to analyse received signals over the transmission spectrum to determine an estimate of signal strength of the received signals as a function of frequency over the transmission spectrum; a channel identifier module configured to identify candidate transmission channel frequencies within the transmission spectrum using the estimate of the strength of the received signals; and a scanning module configured to perform a targeted scan over the transmission spectrum based on the identified candidate transmission channel frequencies to thereby identify one or more transmission channels within the transmission spectrum, wherein the channel identifier module comprises: an edge detector module configured to perform edge detection on the estimate of the strength of the received signals in the frequency domain; and an analysis module configured to use the results of the edge detection to identify candidate transmission channel frequencies within the transmission spectrum by searching for a pattern in the estimate of the strength of the received signals in the frequency domain which is indicative of a candidate transmission channel, said pattern comprising a rising edge, a frequency interval and a falling edge, wherein the frequency interval between the rising edge and the falling edge is suitable for a transmission channel. 5. The apparatus of claim 4 wherein the transmission spectrum is a satellite broadcast spectrum, wherein the transmission channels are satellite channels, and wherein the transmission channel frequencies are satellite channel frequencies. 6. The apparatus of claim 4 wherein the transmission spectrum is a terrestrial broadcast spectrum, wherein the transmission channels are terrestrial broadcast channels, and wherein the transmission channel frequencies are terrestrial broadcast channel frequencies. 7. The apparatus of claim 4 wherein the transmission spectrum is for use in mobile telephony, wherein the transmission channels are channels of a mobile telephone network, and wherein the transmission channel frequencies are channel frequencies of the mobile telephone network. 8. The apparatus of claim 4 wherein the rising and falling edges of the pattern have gradients which are suitable for a transmission channel with said frequency interval. 9. The apparatus of claim 4 wherein when searching for the pattern in the estimate of the strength of the received signals in the frequency domain the analysis module is configured to: identify a rising edge if: (i) the estimate of the strength of the received signals has a gradient in the frequency domain which is within a particular gradient range for a transmission channel with said frequency interval, and (ii) the value of the estimate of the strength of the received signals increases by more than a threshold increase amount; and identify a falling edge if: (i) the estimate of the strength of the received signals has a gradient in the frequency domain which is within a particular gradient range for a transmission channel with said frequency interval, and (ii) the value of the estimate of the strength of the received signals decreases by more than a threshold decrease amount. 10. The apparatus of claim 4 wherein the channel identifier module is further configured to use the estimate of the strength of the received signals to identify candidate symbol rates for respective candidate transmission channels at the identified candidate transmission channel frequencies, wherein frequency interval of the pattern corresponds to a candidate symbol rate of a candidate transmission channel, and wherein the scanning module is configured to use the identified candidate symbol rates for said targeted scan to identify the one or more transmission channels within the transmission spectrum. 11. The apparatus of claim 4 wherein the edge detector module is configured to perform the edge detection at a plurality of different scales which are associated with respective frequency ranges, wherein the analysis module is configured to search, at each of the scales, for a pattern with a frequency interval within the respective frequency range. 12. The apparatus of claim 11 wherein the edge detector module is configured to detect, at each of the scales, edges which have a gradient within a particular gradient range which is indicative of channels with a bandwidth within the frequency range for the scale. 13. The apparatus of claim 11 wherein there are three different scales: a wide scale, a medium scale and a thin scale, wherein the wide scale is associated with a higher frequency range than the medium scale, and wherein the medium scale is associated with a higher frequency range than the thin scale; and wherein the analysis module is configured to use the edge detection to search for a pattern in the estimate of the strength of the received signals at the wide scale then at the medium scale and then at the thin scale. 14. The apparatus of claim 4 wherein the spectrum analyser module is configured to perform a Fourier analysis on the received signals to determine said estimate of the strength of the received signals as a function of frequency over the transmission spectrum. 15. The apparatus of claim 14 wherein the spectrum analyser module is configured to: perform the Fourier analysis separately over different sections of the transmission spectrum; and combine the results of the Fourier analysis over the different sections to determine the estimate of