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annotate trunk/matlab/bmm/carfac/CARFAC_Run.m @ 548:ff12d0432d9c

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Implemented all but g0 initialisation in CAR class
author Ulf.Hammarqvist@gmail.com
date Sat, 07 Apr 2012 09:35:10 +0000
parents 43c5664a00ec
children 3dff17554c6d
rev   line source
tom@516 1 % Copyright 2012, Google, Inc.
dicklyon@523 2 % Author Richard F. Lyon
tom@516 3 %
tom@516 4 % This Matlab file is part of an implementation of Lyon's cochlear model:
tom@516 5 % "Cascade of Asymmetric Resonators with Fast-Acting Compression"
tom@516 6 % to supplement Lyon's upcoming book "Human and Machine Hearing"
tom@516 7 %
tom@516 8 % Licensed under the Apache License, Version 2.0 (the "License");
tom@516 9 % you may not use this file except in compliance with the License.
tom@516 10 % You may obtain a copy of the License at
tom@516 11 %
tom@516 12 % http://www.apache.org/licenses/LICENSE-2.0
tom@516 13 %
tom@516 14 % Unless required by applicable law or agreed to in writing, software
tom@516 15 % distributed under the License is distributed on an "AS IS" BASIS,
tom@516 16 % WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
tom@516 17 % See the License for the specific language governing permissions and
tom@516 18 % limitations under the License.
tom@516 19
dicklyon@536 20 function [CF, decim_naps, naps, BM] = CARFAC_Run ...
tom@516 21 (CF, input_waves, AGC_plot_fig_num)
dicklyon@534 22 % function [CF, decim_naps, naps] = CARFAC_Run ...
dicklyon@523 23 % (CF, input_waves, AGC_plot_fig_num)
tom@516 24 % This function runs the CARFAC; that is, filters a 1 or more channel
tom@516 25 % sound input to make one or more neural activity patterns (naps).
tom@516 26 %
tom@516 27 % The CF struct holds the filterbank design and state; if you want to
tom@516 28 % break the input up into segments, you need to use the updated CF
tom@516 29 % to keep the state between segments.
tom@516 30 %
tom@516 31 % input_waves is a column vector if there's just one audio channel;
tom@516 32 % more generally, it has a row per time sample, a column per audio channel.
tom@516 33 %
tom@516 34 % naps has a row per time sample, a column per filterbank channel, and
tom@516 35 % a layer per audio channel if more than 1.
tom@516 36 % decim_naps is like naps but time-decimated by the int CF.decimation.
tom@516 37 %
tom@516 38 % the input_waves are assumed to be sampled at the same rate as the
tom@516 39 % CARFAC is designed for; a resampling may be needed before calling this.
tom@516 40 %
tom@516 41 % The function works as an outer iteration on time, updating all the
tom@516 42 % filters and AGC states concurrently, so that the different channels can
tom@516 43 % interact easily. The inner loops are over filterbank channels, and
tom@516 44 % this level should be kept efficient.
tom@516 45
dicklyon@534 46 [n_samp, n_ears] = size(input_waves);
tom@516 47 n_ch = CF.n_ch;
tom@516 48
tom@516 49 if nargin < 3
tom@516 50 AGC_plot_fig_num = 0;
tom@516 51 end
tom@516 52
dicklyon@536 53 if nargout > 3
dicklyon@536 54 BM = zeros(n_samp, n_ch, n_ears);
dicklyon@536 55 else
dicklyon@536 56 BM = [];
dicklyon@536 57 end
dicklyon@536 58
dicklyon@534 59 if n_ears ~= CF.n_ears
tom@516 60 error('bad number of input_waves channels passed to CARFAC_Run')
tom@516 61 end
tom@516 62
dicklyon@534 63
dicklyon@534 64 naps = zeros(n_samp, n_ch, n_ears);
dicklyon@534 65
dicklyon@536 66 seglen = 256;
dicklyon@534 67 n_segs = ceil(n_samp / seglen);
dicklyon@534 68
dicklyon@534 69 if nargout > 1
tom@516 70 % make decimated detect output:
dicklyon@534 71 decim_naps = zeros(n_segs, CF.n_ch, CF.n_ears);
tom@516 72 else
tom@516 73 decim_naps = [];
tom@516 74 end
tom@516 75
dicklyon@534 76 if nargout > 2
dicklyon@534 77 % make decimated detect output:
dicklyon@534 78 naps = zeros(n_samp, CF.n_ch, CF.n_ears);
dicklyon@534 79 else
dicklyon@534 80 naps = [];
dicklyon@534 81 end
tom@516 82
dicklyon@534 83 for seg_num = 1:n_segs
dicklyon@534 84 if seg_num == n_segs
dicklyon@534 85 % The last segement may be short of seglen, but do it anyway:
dicklyon@534 86 k_range = (seglen*(seg_num - 1) + 1):n_samp;
dicklyon@534 87 else
dicklyon@534 88 k_range = seglen*(seg_num - 1) + (1:seglen);
tom@516 89 end
dicklyon@534 90 % Process a segment to get a slice of decim_naps, and plot AGC state:
dicklyon@536 91 if ~isempty(BM)
dicklyon@536 92 [seg_naps, CF, seg_BM] = CARFAC_Run_Segment(CF, input_waves(k_range, :));
dicklyon@536 93 else
dicklyon@536 94 [seg_naps, CF] = CARFAC_Run_Segment(CF, input_waves(k_range, :));
dicklyon@536 95 end
dicklyon@536 96
dicklyon@536 97 if ~isempty(BM)
dicklyon@536 98 for ear = 1:n_ears
dicklyon@536 99 % Accumulate segment BM to make full BM
dicklyon@536 100 BM(k_range, :, ear) = seg_BM(:, :, ear);
dicklyon@536 101 end
dicklyon@536 102 end
dicklyon@534 103
dicklyon@534 104 if ~isempty(naps)
dicklyon@534 105 for ear = 1:n_ears
dicklyon@534 106 % Accumulate segment naps to make full naps
dicklyon@534 107 naps(k_range, :, ear) = seg_naps(:, :, ear);
tom@516 108 end
dicklyon@523 109 end
dicklyon@523 110
dicklyon@534 111 if ~isempty(decim_naps)
dicklyon@534 112 for ear = 1:n_ears
dicklyon@534 113 decim_naps(seg_num, :, ear) = CF.IHC_state(ear).ihc_accum / seglen;
dicklyon@534 114 CF.IHC_state(ear).ihc_accum = zeros(n_ch,1);
dicklyon@534 115 end
tom@516 116 end
dicklyon@523 117
dicklyon@534 118 if AGC_plot_fig_num
dicklyon@523 119 figure(AGC_plot_fig_num); hold off; clf
dicklyon@534 120 for ear = 1:n_ears
dicklyon@534 121 maxes(ear) = max(CF.AGC_state(ear).AGC_memory(:));
dicklyon@523 122 hold on
dicklyon@537 123 for stage = 1:4;
dicklyon@537 124 plot(2^(stage-1) * CF.AGC_state(ear).AGC_memory(:, stage));
dicklyon@523 125 end
dicklyon@523 126 end
dicklyon@536 127 axis([0, CF.n_ch+1, 0.0, max(maxes) * 1.01 + 0.002]);
dicklyon@523 128 drawnow
dicklyon@523 129 end
dicklyon@534 130
tom@516 131 end
tom@516 132
dicklyon@534 133
dicklyon@534 134