Method and apparatus for determining an optimum frequency range within a full frequency range of a watermarked input signal

1 - 6 . (canceled) 7 . A method for determining an optimum frequency range within a full frequency range of a watermarked audio input signal, for carrying out on successive sections of said watermarked audio input signal a watermark information detection using in each case correlation of one of said sections with reference signals, said method including the steps: a) correlating a current section of said watermarked audio input signal with several reference signals, using the lower and upper frequency limits of an optimum frequency band used in the watermark information detection of the previous section of said watermarked audio input signal; b) selecting the reference signal with the best match and keeping the location of a peak value of the correlation result for said best match; c) for the selected reference signal, calculating a cumulative correlation value curve in dependence from said location of said correlation value peak, wherein for calculating said cumulative correlation value curve correlation result peak values are accumulated over frequency; d) for the following section of said watermarked audio input signal, determining an optimum frequency band with a lower frequency limit by determining the frequency at which said cumulative correlation value curve starts increasing, and with an upper frequency limit by determining the frequency at which said cumulative correlation curve is no more increasing; e) continuing with step a). 8 . The method according to claim 7 , wherein for a first section of said audio input signal a frequency band is searched that leads by correlation with several reference signals to watermark information detection, and wherein for the second section of said audio input signal the processing continues with step a). 9 . The method according to claim 7 , wherein said calculation of the cumulative correlation value function re-uses a Fourier transformation and/or the multiplication result calculated in step a). 10 . The method according to claim 7 wherein, instead of a positive peak correlation value, the largest value of the absolute values of the correlation result is used, and if that largest value is negative, and in step d) the frequency is determined at which the said cumulative correlation value curve starts or ends, respectively, decreasing. 11 . The method according to claim 7 , wherein not only one lower and one upper frequency limit are determined but several lower/upper frequency limit pairs distributed within the total frequency range. 12 . An apparatus for determining an optimum frequency range within a full frequency range of a watermarked audio input signal, for carrying out on successive sections of said watermarked audio input signal a watermark information detection using in each case correlation of one of said sections with reference signals, said apparatus including: a correlator which correlates a current section of said watermarked audio input signal with several reference signals, using the lower and upper frequency limits of an optimum frequency band used in the watermark information detection of the previous section of said watermarked audio input signal; a selector which selects the reference signal with the best match and keeps the location of a peak value of the correlation result for said best match, and which calculates, for the selected reference signal, a cumulative correlation value curve in dependence from said location of said correlation value peak, wherein for calculating said cumulative correlation value curve correlation result peak values are accumulated over frequency, and which determines, for the following section of said watermarked audio input signal, an optimum frequency band with a lower frequency limit by determining the frequency at which said cumulative correlation value curve starts increasing, and with an upper frequency limit by determining the frequency at which said cumulative correlation curve is no more increasing, and which continues the processing in said correlator by correlating the current section of said watermarked audio input signal with several reference signals. 13 . The apparatus according to claim 12 , wherein for a first section of said audio input signal a frequency band is searched that leads by correlation with several reference signals to watermark information detection, and wherein for the second section of said audio input signal the processing continues in said means being adapted for correlating a current section of said watermarked audio input signal with several reference signals. 14 . The apparatus according to claim 12 , wherein said calculation of the cumulative correlation value function re-uses a Fourier transformation and/or the multiplication result calculated in step a). 15 . The apparatus according to claim 12 wherein, instead of a positive peak correlation value, the largest value of the absolute values of the correlation result is used, and if that largest value is negative, and in step d) the frequency is determined at which the said cumulative correlation value curve starts or ends, respectively, decreasing. 16 . The apparatus according to claim 12 , wherein not only one lower and one upper frequency limit are determined but several lower/upper frequency limit pairs distributed within the total frequency range.