	Edinburgh Speech Tools Library
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sigfilter Filter waveforms

Table of Contents
Synopsis
Options

Synopsis

sigfilter [input file0] -o [output file] [-h ] [-itype string] [-n int] [-f int] [-ibo string] [-iswap ] [-istype string] [-c string] [-start float] [-end float] [-from int] [-to int] [-o ofile] [-otype string] [-F int] [-obo string] [-oswap ] [-ostype string] [-scale float] [-scaleN float] [-double ] [-lpfilter int] [-hpfilter int] [-forder int] [-lpcfilter ifile] [-firfilter ifile] [-inv_filter ]

sigfilter filters an input waveform and prduces a output waveform.

Options

-h
Options help
-itype
string Input file type (optional). If set to raw, this indicates that the input file does not have a header. While this can be used to specify file types other than raw, this is rarely used for other purposes as the file type of all the existing supported types can be determined automatically from the file's header. If the input file is unheadered, files are assumed to be shorts (16bit). Supported types are nist, est, esps, snd, riff, aiff, audlab, raw, ascii
-n
int Number of channels in an unheadered input file
-f
int Sample rate in Hertz for an unheadered input file
-ibo
string Input byte order in an unheadered input file: possibliities are: MSB , LSB, native or nonnative. Suns, HP, SGI Mips, M68000 are MSB (big endian) Intel, Alpha, DEC Mips, Vax are LSB (little endian)
-iswap
Swap bytes. (For use on an unheadered input file)
-istype
string Sample type in an unheadered input file: short, mulaw, byte, ascii
-c
string Select a single channel (starts from 0). Waveforms can have multiple channels. This option extracts a single channel for progcessing and discards the rest.
-start
float Extract sub-wave starting at this time, specified in seconds
-end
float Extract sub-wave ending at this time, specified in seconds
-from
int Extract sub-wave starting at this sample point
-to
int Extract sub-wave ending at this sample point
-o
ofile Output filename. If not specified output is to stdout.
-otype
string Output file type, (optional). If no type is Specified the type of the input file is assumed. Supported types are: nist, est, esps, snd, riff, aiff, audlab, raw, ascii
-F
int Output sample rate in Hz. If this is different from the input sample rate, resampling will occur
-obo
string Output byte order: MSB, LSB, native, or nonnative. Suns, HP, SGI Mips, M68000 are MSB (big endian) Intel, Alpha, DEC Mips, Vax are LSB (little endian)
-oswap
Swap bytes when saving to output
-ostype
string Output sample type: short, mulaw, byte or ascii
-scale
float Scaling factor. Increase or descrease the amplitude of the whole waveform by the factor given
-scaleN
float Scaling factor with normalization. The waveform is scaled to its maximum level, after which it is scaled by the factor given
-double
Perform double filtering by applying a forward filter, then a backward filter, leaving the filtered signla in phase with the original
-lpfilter
int Low pass filter, with cutoff frequency in Hz Filtering is performed by a FIR filter which is built at run time. The order of the filter can be given by -forder. The default value is 199
-hpfilter
int High pass filter, with cutoff frequency in Hz Filtering is performed by a FIR filter which is built at run time. The order of the filter can be given by -forder. The default value is 199.
-forder
int Order of FIR filter used for lpfilter and hpfilter. This must be ODD. Sensible values range from 19 (quick but with a shallow rolloff) to 199 (slow but with a steep rolloff). The default is 199.
-lpcfilter
ifile Track file containing lpc filter coefficients
-firfilter
ifile File containing a single set of FIR filter coefficients
-inv_filter
use filter coefficients for inverse filtering

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-h	Options help
-itype	`string` Input file type (optional). If set to raw, this indicates that the input file does not have a header. While this can be used to specify file types other than raw, this is rarely used for other purposes as the file type of all the existing supported types can be determined automatically from the file's header. If the input file is unheadered, files are assumed to be shorts (16bit). Supported types are nist, est, esps, snd, riff, aiff, audlab, raw, ascii
-n	`int` Number of channels in an unheadered input file
-f	`int` Sample rate in Hertz for an unheadered input file
-ibo	`string` Input byte order in an unheadered input file: possibliities are: MSB , LSB, native or nonnative. Suns, HP, SGI Mips, M68000 are MSB (big endian) Intel, Alpha, DEC Mips, Vax are LSB (little endian)
-iswap	Swap bytes. (For use on an unheadered input file)
-istype	`string` Sample type in an unheadered input file: short, mulaw, byte, ascii
-c	`string` Select a single channel (starts from 0). Waveforms can have multiple channels. This option extracts a single channel for progcessing and discards the rest.
-start	`float` Extract sub-wave starting at this time, specified in seconds
-end	`float` Extract sub-wave ending at this time, specified in seconds
-from	`int` Extract sub-wave starting at this sample point
-to	`int` Extract sub-wave ending at this sample point
-o	`ofile` Output filename. If not specified output is to stdout.
-otype	`string` Output file type, (optional). If no type is Specified the type of the input file is assumed. Supported types are: nist, est, esps, snd, riff, aiff, audlab, raw, ascii
-F	`int` Output sample rate in Hz. If this is different from the input sample rate, resampling will occur
-obo	`string` Output byte order: MSB, LSB, native, or nonnative. Suns, HP, SGI Mips, M68000 are MSB (big endian) Intel, Alpha, DEC Mips, Vax are LSB (little endian)
-oswap	Swap bytes when saving to output
-ostype	`string` Output sample type: short, mulaw, byte or ascii
-scale	`float` Scaling factor. Increase or descrease the amplitude of the whole waveform by the factor given
-scaleN	`float` Scaling factor with normalization. The waveform is scaled to its maximum level, after which it is scaled by the factor given
-double	Perform double filtering by applying a forward filter, then a backward filter, leaving the filtered signla in phase with the original
-lpfilter	`int` Low pass filter, with cutoff frequency in Hz Filtering is performed by a FIR filter which is built at run time. The order of the filter can be given by -forder. The default value is 199
-hpfilter	`int` High pass filter, with cutoff frequency in Hz Filtering is performed by a FIR filter which is built at run time. The order of the filter can be given by -forder. The default value is 199.
-forder	`int` Order of FIR filter used for lpfilter and hpfilter. This must be ODD. Sensible values range from 19 (quick but with a shallow rolloff) to 199 (slow but with a steep rolloff). The default is 199.
-lpcfilter	`ifile` Track file containing lpc filter coefficients
-firfilter	`ifile` File containing a single set of FIR filter coefficients
-inv_filter	use filter coefficients for inverse filtering