ignorm

Functions

int main(int argc, char *argv[])

ignorm [ option ] [ infile ]

-m int
- order of coefficients \((0 \le M)\)
-g double
- gamma \((|\gamma| \le 1)\)
-c int
- gamma \(\gamma = -1 / C\) \((1 \le C)\)
infile str
- double-type normalized generalized cepstral coefficients
stdout
- double-type generalized cepstral coefficients

The below example denormalizes generalized cepstral coefficients:

ignorm -g -0.5 < data.ngc > data.gc

The generalized cepstral coefficients can be reverted by

gnorm -g -0.5 < data.ngc > data.gc

Parameters

argc – [in] Number of arguments.
argv – [in] Argument vector.

Returns

0 on success, 1 on failure.

See also

gnorm freqt mgc2mgc

class sptk::GeneralizedCepstrumInverseGainNormalization

Convert normalized generalized cepstral coefficients to generalized cepstral coefficients.

The input is the \(M\)-th order normalized generalized cepstral coefficients and the gain \(K\):

\[ \begin{array}{cccc} K, & c'_\gamma(1), & \ldots, & c'_\gamma(M), \end{array} \]

and the output is the \(M\)-th order generalized cepstral coefficients:

\[ \begin{array}{cccc} c_\gamma(0), & c_\gamma(1), & \ldots, & c_\gamma(M). \end{array} \]

The zeroth generalized cepstral coefficient is given by

\[\begin{split} c_\gamma(0) = \left\{ \begin{array}{ll} (K^\gamma - 1) / \gamma, \quad & 0 < |\gamma| \le 1 \\ \log \, K. & \gamma = 0 \end{array} \right. \end{split}\]

The other generalized cepstral coefficients are obtained as follows:

\[ c_\gamma(m) = (1 + \gamma \, c_\gamma(0)) c'_\gamma(m). \]

[1] T. Kobayashi and S. Imai, “Spectral analysis using generalized cepstrum,” IEEE Transactions on Acoustics, Speech, and Signal Processing, vol. 32, no. 5, pp. 1087-1089, 1984.

Public Functions

GeneralizedCepstrumInverseGainNormalization(int num_order, double gamma)

Parameters

num_order – [in] Order of coefficients, \(M\).
gamma – [in] Exponent parameter, \(\gamma\).

inline int GetNumOrder() const

Returns: Order of coefficients.

inline double GetGamma() const

Returns: Exponent parameter.

inline bool IsValid() const

Returns: True if this object is valid.

bool Run(const std::vector<double> &normalized_generalized_cepstrum, std::vector<double> *generalized_cepstrum) const

Parameters

normalized_generalized_cepstrum – [in] \(M\)-th order normalized cepstral coefficients.
generalized_cepstrum – [out] \(M\)-th order cepstral coefficients.

Returns

True on success, false on failure.

bool Run(std::vector<double> *input_and_output) const

Parameters: input_and_output – [inout] \(M\)-th order coefficients.
Returns: True on success, false on failure.