crosscorr = bincorr(insig,fs,c_s,w_f,M_f,T_int,N_1)
insig | signal with \(t \times nfc \times 2\) (right, left channel) |
fs | sampling rate |
crosscorr | output matrix containing the correlations |
t | time axis corresponding to the n time samples in crosscorr |
lindemann1986_bincorr(insig,fs) is an implementation of the Lindemann cross-correlation algorithm to simulate a binaural delay line. The output is a matrix of size \(n \times m \times amplitude\) , where n = length(t)/fs.
The cross-correlation is calculated using:
where \(T_{int}\) denotes an integration time constant and R, L the right and left input signal.
lindemann1986_bincorr takes the following key/value pairs at the end of the command line:
'c_s',c_s | Stationary inhibition factor, \(0 \leq c_s \leq 1\) (0.0 = no inhibition). Default value is 0.3. |
'w_f',w_f | Monaural sensitivity at the end of the delay line, \(0 \leq w_f < 1\) . Default value is 0.035. |
'M_f',M_f | Determines the decrease of the monaural sensitivity along the delay line. Default value is 6 |
'T_int',t_int | integration time window (ms). This is the memory of the correlation process with exp(-1/T_int). Also this determines the time steps in the binaural activity map, because every time step T_int a new running cross-correlation is started, so every T_int we have a new result in crosscorr. You can set T_int = inf if you like to have no memory effects, then you will get only one time step in crosscorr. Default value is 5 ms. |
'N_1',N_1 | Sample at which the first running cross-correlation should be started to avoid onset effects (see Lindemann (1986a) p. 1614). Default: 1, 17640 (200/f*fs with \(f=500\) and \(fs=44100\) ) for 'stationary' (see above) |
'stationary' | will set the default values of N_1=17640 and T_int=inf, use this for stationary input signals. |
The key/values can also be specified first in the line of arguments in the following order: c_s, w_f, M_f, T_int, N_1.
W. Lindemann. Extension of a binaural cross-correlation model by contralateral inhibition. I. Simulation of lateralization for stationary signals. J. Acoust. Soc. Am., 80:1608-1622, 1986.
W. Lindemann. Extension of a binaural cross-correlation model by contralateral inhibition. II. The law of the first wave front. J. Acoust. Soc. Am., 80:1623-1630, 1986.