Programmer Guide/Command Reference/EVAL/aseg1: Difference between revisions

Revision as of 15:55, 12 April 2011

This function implements a simple automatic signal segmentation based on the energy (rms) track of the signal.

Usage 1

aseg1(x, 0, n, m, xmin, omax)

x: data vector (usally rms track in dB)
n: minimum length of a signal segment in frames; 0 < n < nrow(x)
m: smoothing length; 0 <= m; if m is greater than zero, the segmentation is performed on a smoothed data vector xs.; xs[i] = avr(x[i-m], .., x[i+m])
xmin: segment threshhold
omax: offset for segment center; 0 < omax

Description

A segment is a continuous range of x, where all values are greater than xmin
The center of a segment is a continuous range of values inside a segment, where all values are greater than xmax-omax (with: xmax is the maximum value inside the segment).

Usage 2

fft(x)

x: signal vector or matrix; if x is a matrix a spectrum of each column is computed

Result 2: A matrix y with ncol(x) columns and L+2 rows, where each column y[*,j] contains the complex spectrum of the column (channel) x[*,j]. The transformation length L is set to npow2(nrow(x)).

Usage 3

fft(x, n {, ytype, poffset, prange, aref})

x

signal vector or matrix; if x is a matrix a spectrum of each column is computed

n

desired length of analysis window;

If n < nrow(x), the analysis window length L is set to nrow(x), otherwise L is set to n.
If the analysis window length L is a power of 2 (L=2^M), the fft algorithm is used, otherwise the dft is used.
If L is greater than nrow(x), zero padding is applied to the signal.

ytype: select the type and format of the computed spectrum (default=0) -> see Result 3
poffset: offset in samples to the signal begin or the selected zero phase position (default=0)

poffset=0	-> `phase[i] = atan2(im[i], re[i])`
otherwise	-> `phase[i] = (atan2(im[i], re[i]) - 2pii/L * poffset) % (2 * pi)`

prange=0	-> `0 <= phase[i] < 2*pi`
otherwise	-> `-pi <= phase[i] < pi`

aref: reference amplitude if the log. spectrum (ytype=4) is requested (default=1)

Result 3: A matrix y with ncol(x) columns, where each column y[*,j] contains the spectrum of the column (channel) x[*,j]. The type and the length of the spectra is selected by the argument ytype.

ytype	description	content of y[*,j]	nrow(y)
0	complex spectrum in cartesian format	`{ re₀, im₀, re₁, im₁, ... }`	L+2
1	complex spectrum in polar format	`{ amp₀, phase₀, amp₁, phase₁, ... } with: amp_i=sqrt(re_i² + im_i²), phase_i see poffset`	L+2
2	amplitude spectrum	`{ amp₀, amp₁, ... }`	L+1
3	power spectrum	`{ amp₀², amp₁², ... }`	L+1
4	logarithmic amplitude spectrum	`{ lev₀, lev₁, ... } with: lev_i=20*log₁₀(amp_i/aref)`	L+1

@@ Line 2: / Line 2: @@
 This function implements a simple automatic signal segmentation based on the energy (rms) track of the signal.
 ----
-;Usage 1:<code>aseg1(<var>x</var>, 0, <var>n</var>, <var>m</var>, <var>xmin</var>, <var>omin</var>, , <var>omax</var>)</code>
+;Usage 1:<code>aseg1(<var>x</var>, 0, <var>n</var>, <var>m</var>, <var>xmin</var>, <var>omax</var>)</code>
 :;<var>x</var>: data vector (usally rms track in dB)
 :;<var>n</var>: minimum length of a signal segment in frames; 0 < n < <code>nrow(''x'')</code>
-:;<var>xmin</var>: pause threshhold
+:;<var>m</var>: smoothing length; 0 <= m</code>; if ''m'' is greater than zero, the segmentation is performed on a smoothed data vector ''xs''.
-:;<var>osig</var>: pause threshhold
+::<code>''xs''[i] = avr(''x''[i-m], .., ''x''[i+m])</code>
+:;<var>xmin</var>: segment threshhold
+:;<var>omax</var>: offset for segment center; 0 < omax
+;Description:
+:#A segment is a continuous range of ''x'', where all values are greater than ''xmin''
+:#The center of a segment is a continuous range of values inside a segment, where all values are greater than ''xmax''-''omax (with: ''xmax'' is the maximum value inside the segment).