1. A decoder for producing a synthesized wideband signal, comprising:
a) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
b) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
c) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
d) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;
e) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and
f) a high-frequency content recovering device comprising:
i) a random noise generator for producing a noise sequence having a given spectrum;
ii) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
iii) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'a) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;', 'b) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;', 'c) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;', 'd) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;', 'e) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and', 'f) a high-frequency content recovering device comprising:
i) a random noise generator for producing a noise sequence having a given spectrum;
ii) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
iii) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'i) a random noise generator for producing a noise sequence having a given spectrum;', 'ii) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and', 'iii) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.

2. A decoder for producing a synthesized wideband signal as defined in claim 1, wherein said random noise generator comprises a random white noise generator for producing a white noise sequence whereby said spectral shaping unit produces a spectrally-shaped white noise sequence.

3. A decoder for producing a synthesized wideband signal as defined in claim 2, wherein said spectral shaping unit comprises:
a) a gain adjustment module, responsive to said white noise sequence and a set of gain adjusting parameters, for producing a scaled white noise sequence;
b) a spectral shaper for filtering said scaled white noise sequence in relation to a bandwidth expanded version of the linear prediction filter coefficients to produce a filtered scaled white noise sequence characterized by a frequency bandwidth generally higher than a frequency bandwidth of said over-sampled synthesized signal version; and
c) a band-pass filter responsive to said filtered scaled white noise sequence for producing a band-pass filtered scaled white noise sequence to be subsequently injected in said over-sampled synthesized signal version as said spectrally-shaped white noise sequence.', 'a) a gain adjustment module, responsive to said white noise sequence and a set of gain adjusting parameters, for producing a scaled white noise sequence;', 'b) a spectral shaper for filtering said scaled white noise sequence in relation to a bandwidth expanded version of the linear prediction filter coefficients to produce a filtered scaled white noise sequence characterized by a frequency bandwidth generally higher than a frequency bandwidth of said over-sampled synthesized signal version; and', 'c) a band-pass filter responsive to said filtered scaled white noise sequence for producing a band-pass filtered scaled white noise sequence to be subsequently injected in said over-sampled synthesized signal version as said spectrally-shaped white noise sequence.

4. A decoder for producing a synthesized wideband signal as defined in claim 3, further comprising:
a) a voicing factor generator responsive to said pitch and innovative codevectors for calculating a voicing factor for forwarding to said gain adjustment module;
b) an energy computing module responsive to said excitation signal for calculating an excitation energy for forwarding to said gain adjustment module; and
c) a spectral tilt calculator responsive to said synthesized signal for calculating a tilt scaling factor for forwarding to said gain adjustment module;
wherein said set of gain adjusting parameters comprises said voicing factor, said excitation energy, and said tilt scaling factor.', 'a) a voicing factor generator responsive to said pitch and innovative codevectors for calculating a voicing factor for forwarding to said gain adjustment module;', 'b) an energy computing module responsive to said excitation signal for calculating an excitation energy for forwarding to said gain adjustment module; and', 'c) a spectral tilt calculator responsive to said synthesized signal for calculating a tilt scaling factor for forwarding to said gain adjustment module;', 'wherein said set of gain adjusting parameters comprises said voicing factor, said excitation energy, and said tilt scaling factor.

5. A decoder for producing a synthesized wideband signal as defined in claim 4, wherein said voicing factor generator comprises a means for calculating said voicing factor', 'in relation to an energy of a gain-scaled version of the pitch codevector and an energy of a gain-scaled version of the innovative codevector.

6. A decoder for producing a synthesized wideband signal as defined in claim 4, wherein said gain adjustment module comprises a means for calculating an energy scaling factor', 'in relation to the white noise sequence and an enhanced excitation signal derived from said excitation signal.

7. A decoder for producing a synthesized wideband signal as defined in claim 4, wherein said spectral tilt calculator comprises a means for calculating said tilt scaling factor', 'in relation to the synthesized signal and the voicing factor.

8. A decoder for producing a synthesized wideband signal as defined in claim 3, wherein said band-pass filter comprises a frequency bandwidth located between 5.6 kHz and 7.2 kHz.

9. A decoder for producing a synthesized wideband signal, comprising:
a) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
b) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
c) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
d) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal; and
e) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal;
the improvement a high-frequency content recovering device comprising:
i) a random noise generator for producing a noise sequence having a given spectrum;
ii) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
iii) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'a) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;', 'b) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;', 'c) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;', 'd) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal; and', 'e) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal;', 'the improvement a high-frequency content recovering device comprising:
i) a random noise generator for producing a noise sequence having a given spectrum;
ii) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
iii) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'i) a random noise generator for producing a noise sequence having a given spectrum;', 'ii) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and', 'iii) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', '10. A decoder for producing a synthesized wideband signal as defined in claim 9, wherein said random noise generator comprises a random white noise generator for producing a white noise sequence whereby said spectral shaping unit produces a spectrally-shaped white noise sequence.', '11. A decoder for producing a synthesized wideband signal as defined in claim 10, wherein said spectral shaping unit comprises:
a) a gain adjustment module, responsive to said white noise sequence and a set of gain adjusting parameters, for producing a scaled white noise sequence;
b) a spectral shaper for filtering said scaled white noise sequence in relation to a bandwidth expanded version of the linear prediction filter coefficients to produce a filtered scaled white noise sequence characterized by a frequency bandwidth generally higher than a frequency bandwidth of said over-sampled synthesized signal version; and
c) a band-pass filter responsive to said filtered scaled white noise sequence for producing a band-pass filtered scaled white noise sequence to be subsequently injected in said over-sampled synthesized signal version as said spectrally-shaped white noise sequence.', 'a) a gain adjustment module, responsive to said white noise sequence and a set of gain adjusting parameters, for producing a scaled white noise sequence;', 'b) a spectral shaper for filtering said scaled white noise sequence in relation to a bandwidth expanded version of the linear prediction filter coefficients to produce a filtered scaled white noise sequence characterized by a frequency bandwidth generally higher than a frequency bandwidth of said over-sampled synthesized signal version; and', 'c) a band-pass filter responsive to said filtered scaled white noise sequence for producing a band-pass filtered scaled white noise sequence to be subsequently injected in said over-sampled synthesized signal version as said spectrally-shaped white noise sequence.', '12. A decoder for producing a synthesized wideband signal as defined in claim 11, further comprising:
a) a voicing factor generator responsive to said pitch and innovative codevectors for calculating a voicing factor for forwarding to said gain adjustment module;
b) an energy computing module responsive to said excitation signal for calculating an excitation energy for forwarding to said gain adjustment module; and
c) a spectral tilt calculator responsive to said synthesized signal for calculating a tilt scaling factor for forwarding to said gain adjustment module;
wherein said set of gain adjusting parameters comprises said voicing factor, said excitation energy, and said tilt scaling factor.', 'a) a voicing factor generator responsive to said pitch and innovative codevectors for calculating a voicing factor for forwarding to said gain adjustment module;', 'b) an energy computing module responsive to said excitation signal for calculating an excitation energy for forwarding to said gain adjustment module; and', 'c) a spectral tilt calculator responsive to said synthesized signal for calculating a tilt scaling factor for forwarding to said gain adjustment module;', 'wherein said set of gain adjusting parameters comprises said voicing factor, said excitation energy, and said tilt scaling factor.', '13. A decoder for producing a synthesized wideband signal as defined in claim 12, wherein said voicing factor generator comprises a means for calculating said voicing factor', 'in relation to an energy of a gain-scaled version of the pitch codevector and an energy of a gain-scaled version of the innovative codevector.', '14. A decoder for producing a synthesized wideband signal as defined in claim 12, wherein said gain adjustment module comprises a means for calculating an energy scaling factor', 'in relation to the white noise sequence and an enhanced excitation signal derived from said excitation signal.', '15. A decoder for producing a synthesized wideband signal as defined in claim 12, wherein said spectral tilt calculator comprises a means for calculating said tilt scaling factor', 'in relation to the synthesized signal and the voicing factor.', '16. A decoder for producing a synthesized wideband signal as defined in claim 11, wherein said band-pass filter comprises a frequency bandwidth located between 5.6 kHz and 7.2 kHz.', '17. A cellular communication system for servicing a geographical area divided into a plurality of cells, comprising:
a) mobile transmitter/receiver units;
b) cellular base stations respectively situated in said cells;
c) a control terminal for controlling communication between the cellular base stations;
d) a bidirectional wireless communication sub-system between each mobile unit situated in one cell and the cellular base station of said one cell, said bidirectional wireless communication subsystem comprising, in both the mobile unit and the cellular base station:
i) a transmitter including an encoder for encoding a wideband signal and a transmission circuit for transmitting the encoded wideband signal; and
ii) a receiver including a receiving circuit for receiving a transmitted encoded wideband signal and a decoder for decoding the received encoded wideband signal, said decoder comprising:
(1) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
(2) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
(3) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
(4) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;
(5) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and
(6) a high-frequency content recovering device comprising:
a) a random noise generator for producing a noise sequence having a given spectrum;
b) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
c) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'a) mobile transmitter/receiver units;', 'b) cellular base stations respectively situated in said cells;', 'c) a control terminal for controlling communication between the cellular base stations;', 'd) a bidirectional wireless communication sub-system between each mobile unit situated in one cell and the cellular base station of said one cell, said bidirectional wireless communication subsystem comprising, in both the mobile unit and the cellular base station:
i) a transmitter including an encoder for encoding a wideband signal and a transmission circuit for transmitting the encoded wideband signal; and
ii) a receiver including a receiving circuit for receiving a transmitted encoded wideband signal and a decoder for decoding the received encoded wideband signal, said decoder comprising:
(1) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
(2) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
(3) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
(4) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;
(5) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and
(6) a high-frequency content recovering device comprising:
a) a random noise generator for producing a noise sequence having a given spectrum;
b) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
c) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'i) a transmitter including an encoder for encoding a wideband signal and a transmission circuit for transmitting the encoded wideband signal; and', 'ii) a receiver including a receiving circuit for receiving a transmitted encoded wideband signal and a decoder for decoding the received encoded wideband signal, said decoder comprising:
(1) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
(2) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
(3) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
(4) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;
(5) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and
(6) a high-frequency content recovering device comprising:
a) a random noise generator for producing a noise sequence having a given spectrum;
b) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
c) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', '(1) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;', '(2) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;', '(3) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;', '(4) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;', '(5) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and', '(6) a high-frequency content recovering device comprising:
a) a random noise generator for producing a noise sequence having a given spectrum;
b) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
c) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'a) a random noise generator for producing a noise sequence having a given spectrum;', 'b) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and', 'c) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', '18. A cellular communication system as defined in claim 17, wherein said random noise generator comprises a random white noise generator for producing a white noise sequence whereby said spectral shaping unit produces a spectrally-shaped white noise sequence.', '19. A cellular communication system as defined in claim 18, wherein said spectral shaping unit comprises:
a) a gain adjustment module, responsive to said white noise sequence and a set of gain adjusting parameters, for producing a scaled white noise sequence;
b) a spectral shaper for filtering said scaled white noise sequence in relation to a bandwidth expanded version of the linear prediction filter coefficients to produce a filtered scaled white noise sequence characterized by a frequency bandwidth generally higher than a frequency bandwidth of said over-sampled synthesized signal version; and
c) a band-pass filter responsive to said filtered scaled white noise sequence for producing a band-pass filtered scaled white noise sequence to be subsequently injected in said over-sampled synthesized signal version as said spectrally-shaped white noise sequence.', 'a) a gain adjustment module, responsive to said white noise sequence and a set of gain adjusting parameters, for producing a scaled white noise sequence;', 'b) a spectral shaper for filtering said scaled white noise sequence in relation to a bandwidth expanded version of the linear prediction filter coefficients to produce a filtered scaled white noise sequence characterized by a frequency bandwidth generally higher than a frequency bandwidth of said over-sampled synthesized signal version; and', 'c) a band-pass filter responsive to said filtered scaled white noise sequence for producing a band-pass filtered scaled white noise sequence to be subsequently injected in said over-sampled synthesized signal version as said spectrally-shaped white noise sequence.

20. A cellular communication system as defined in claim 19, further comprising:
a) a voicing factor generator responsive to said pitch and innovative codevectors for calculating a voicing factor for forwarding to said gain adjustment module;
b) an energy computing module responsive to said excitation signal for calculating an excitation energy for forwarding to said gain adjustment module; and
c) a spectral tilt calculator responsive to said synthesized signal for calculating a tilt scaling factor for forwarding to said gain adjustment module;
wherein said set of gain adjusting parameters comprises said voicing factor, said excitation energy, and said tilt scaling factor.', 'a) a voicing factor generator responsive to said pitch and innovative codevectors for calculating a voicing factor for forwarding to said gain adjustment module;', 'b) an energy computing module responsive to said excitation signal for calculating an excitation energy for forwarding to said gain adjustment module; and', 'c) a spectral tilt calculator responsive to said synthesized signal for calculating a tilt scaling factor for forwarding to said gain adjustment module;', 'wherein said set of gain adjusting parameters comprises said voicing factor, said excitation energy, and said tilt scaling factor.

21. A cellular communication system as defined in claim 20, wherein said voicing factor generator comprises a means for calculating said voicing factor', 'in relation to an energy of a gain-scaled version of the pitch codevector and an energy of a gain-scaled version of the innovative codevector.

22. A cellular communication system as defined in claim 20, wherein said gain adjustment module comprises a means for calculating an energy scaling factor', 'in relation to the white noise sequence and an enhanced excitation signal derived from said excitation signal.

23. A cellular communication system as defined in claim 20, wherein said spectral tilt calculator comprises a means for calculating said tilt scaling factor', 'in relation to the synthesized signal and the voicing factor, N is a subframe length and n=0, . . . Nâx88x921.

24. A cellular communication system as defined in claim 19, wherein said band-pass filter comprises a frequency bandwidth located between 5.6 kHz and 7.2 kHz.

25. A mobile transmitter/receiver unit comprising:
a receiver including a receiving circuit for receiving a transmitted encoded wideband signal and a decoder for decoding the received encoded wideband signal, said decoder comprising:
i) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
ii) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
iii) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
iv) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;
v) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and
vi) a high-frequency content recovering device comprising:
(1) a random noise generator for producing a noise sequence having a given spectrum;
(2) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
(3) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'a receiver including a receiving circuit for receiving a transmitted encoded wideband signal and a decoder for decoding the received encoded wideband signal, said decoder comprising:
i) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;
ii) a pitch codebook responsive to said pitch codebook parameters for producing a pitch codevector;
iii) an innovative codebook responsive to said innovative codebook parameters for producing an innovative codevector;
iv) a combiner circuit for combining said pitch codevector and said innovative codevector to thereby produce an excitation signal;
v) a signal synthesis device including a linear prediction filter for filtering said excitation signal in relation to said linear prediction filter coefficients to thereby produce a synthesized wideband signal, and an oversampler responsive to said synthesized wideband signal for producing an over-sampled signal version of the synthesized wideband signal; and
vi) a high-frequency content recovering device comprising:
(1) a random noise generator for producing a noise sequence having a given spectrum;
(2) a spectral shaping unit for shaping the spectrum of the noise sequence in relation to linear prediction filter coefficients related to said down-sampled wideband signal; and
(3) a signal injection circuit for injecting said spectrally-shaped noise sequence in said over-sampled synthesized signal version to thereby produce said full-spectrum synthesized wideband signal.', 'i) a signal fragmenting device for receiving an encoded version of a wideband signal previously down-sampled during encoding and extracting from said encoded wideband signal version at least pitch codebook parameters, innovative codebook parameters, and linear prediction filter coefficients;', 'ii) a pitch codebo