Method for bandpass sampling by position modulated wavelets

1 . Method for bandpass sampling of an analogue signal, the spectrum of said signal having a set of sub-bands, said signal being correlated with a sequence of wavelets succeeding each other with a rate f p equal to the sum of the widths of said sub-bands, the central frequencies of the wavelets belonging to said sub-bands, characterised in that the respective positions of the wavelets in the sequence are temporally modulated by means of arguments of successive elements of a CAZAC sequence, the correlation results with the sequence of wavelets thereby position modulated being sampled with a frequency f s ≤f p and digitally converted. 2 . Bandpass sampling method according to claim 1 , characterised in that the sequence of wavelets is formed of a plurality of base sequences, each base sequence being of duration ΣT p with T p =1/f p , the CAZAC sequence being of length Σ, the respective positions of the wavelets in a base sequence being temporally modulated by means of arguments of successive elements of the CAZAC sequence. 3 . Bandpass sampling method according to claim 2 , characterised in that the CAZAC sequence is formed by the complex elements η k ,k=1, . . . ,Σ where the temporal positions of the wavelets of the sequence are the instants kT p +ε k with T p =1/f p and ɛ k = arg  ( ɛ k ) 2  π   j c v , where f c v is the central frequency of the wavelets. 4 . Bandpass sampling method according to claim 3 , characterised in that the CAZAC sequence is a Zadoff-Chu sequence of which the elements are defined by: ZC R (k)=e −jπRk(k−1)/Σ , if the length Σ of the sequence is odd, and ZC R (k)=e −jπR(k−1)(K−1)/Σ , if the length Σ of the sequence is even and where R,Σ are positive integers that are coprime, R representing the excursion of the instantaneous frequency, expressed as a multiple of f p , along the sequence and k∈[1,Σ]. 5 . Bandpass sampling method according to claim 4 , characterised in that the sequence of wavelets is formed of at least a first and a second base sequence, the first base sequence being constituted of wavelets of which the positions are temporally modulated by means of arguments of successive elements of a first CAZAC sequence and the second base sequence being constituted of wavelets of which the positions are temporally modulated by means of arguments of successive elements of a second CAZAC sequence, the first and second CAZAC sequences being of same length but of distinct excursions of instantaneous frequency. 6 . Bandpass sampling method according to claim 4 , characterised in that the spectrum of the analogue signal includes a first and a second sub-band, and that the sequence of wavelets is formed of at least a first and a second base sequence, the first being constituted of wavelets of which the central frequency belongs to the first sub-band and the second being constituted of wavelets of which the central frequency belongs to the second sub-band. 7 . Bandpass sampling method according to claim 1 , characterised in that the wavelets are Gabor functions. 8 . Bandpass sampling method according to claim 1 , characterised in that the wavelets are Morlet wavelets. 9 . Device for bandpass sampling of an analogue signal by bandpass sampling, the spectrum of said signal having a set of sub-bands, the device including at least one sampling branch comprising: a wavelet sequence generator, the wavelets of said sequence succeeding each other with a rate f p equal to the sum of the widths of said sub-bands; a correlator for correlating the analogue signal with said sequence of wavelets and supplying correlation results at the rate f p ; a sampler for sampling the correlation results at the rate f p ; an analogue digital converter for decimating and digitally converting the correlation results thereby sampled; characterised in that it further includes: a temporal position modulator intended to modulate the temporal positions of the wavelets of the sequence of wavelets generated by the generator, before correlation with the analogue signal, the temporal modulation being carried out by means of arguments of successive elements of a CAZAC sequence. 10 . Bandpass sampling device according to claim 9 , characterised in that the CAZAC sequence is a Zadoff-Chu sequence of which the elements are defined by: ZC R (k)=e −jπRk(k−1)/Σ , if the length Σ of the sequence is odd, and ZC R (k)=e −jπR(k−1)(K−1)/Σ , if the length Σ of the sequence is even and where R,Σ are positive integers that are coprime, R representing the excursion of the instantaneous frequency, expressed as a multiple of f p , along the sequence and k∈[1,Σ]. 11 . Bandpass sampling device according to claim 10 , characterised in that the wavelet sequence generator includes a VCO oscillator switched by a switching signal, the VCO oscillator including: an oscillating circuit, the frequency of which is controlled to be equal to the central frequency of the wavelets of the sequence; a pair of crossed transistors, mounted between the terminals of the oscillating circuit; a common current source, the current source being switched by the switching signal; a clock generator, for generating a clock signal at the frequency f p , a frequency modulator, for linearly modulating the frequency of the clock signal in such a way that it varies linearly from the start to the end of the sequence of wavelets with an excursion of Rf p . 12 . Bandpass sampling device according to claim 10 , characterised in that the wavelet sequence generator further includes a pulse shaping module, transforming each pulse of the clock signal into a pulse having the waveform of a wavelet. 13 . Bandpass sampling device according to claim 9 , characterised in that the wavelets are Gabor functions. 14 . Bandpass sampling device according to claim 9 , characterised in that the wavelets are Morlet wavelets.