Mercurial > hg > aimc
view trunk/matlab/bmm/carfac/CARFAC_Init.m @ 536:2964a3b4a00a
New design params, including narrower AGC, Greenwood map for more channels, default 71, some renaming, open loop feature, ...
| author | dicklyon@google.com |
|---|---|
| date | Thu, 22 Mar 2012 22:37:56 +0000 |
| parents | 95a11cca4619 |
| children | 910efa18d8f5 |
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% Copyright 2012, Google, Inc. % Author: Richard F. Lyon % % This Matlab file is part of an implementation of Lyon's cochlear model: % "Cascade of Asymmetric Resonators with Fast-Acting Compression" % to supplement Lyon's upcoming book "Human and Machine Hearing" % % Licensed under the Apache License, Version 2.0 (the "License"); % you may not use this file except in compliance with the License. % You may obtain a copy of the License at % % http://www.apache.org/licenses/LICENSE-2.0 % % Unless required by applicable law or agreed to in writing, software % distributed under the License is distributed on an "AS IS" BASIS, % WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. % See the License for the specific language governing permissions and % limitations under the License. function CF_struct = CARFAC_Init(CF_struct, n_ears) % function CF_struct = CARFAC_Init(CF_struct, n_ears) % % Initialize state for n_ears channels (default 1). % This allocates and zeros all the state vector storage in the CF_struct. % TODO (dicklyon): Review whether storing state in the same struct as % the design is a good thing, or whether we want another % level of object. I like fewer structs and class types. if nargin < 2 n_ears = 1; % monaural default end % % this is probably what I'd do in the C++ version: % if CF_struct.n_ears ~= n_ears; % % free the state and make new number of channels % % make a struct arrray, one element per ear channel, numbered: % for k = 1:n_ears % CF_struct.state(k) = struct('ear_number', k); % end % end % But this code doesn't work because I don't understand struct arrays. % For now I don't ever free anything if n_ears is reduced; % so be sure to respect n_ears, not the size of the state struct array. CF_struct.n_ears = n_ears; % These inits grow the struct arrays as needed: for ear = 1:n_ears % for now there's only one coeffs, not one per ear CF_struct.CAR_state(ear) = CAR_Init_State(CF_struct.CAR_coeffs); CF_struct.IHC_state(ear) = IHC_Init_State(CF_struct.IHC_coeffs); CF_struct.AGC_state(ear) = AGC_Init_State(CF_struct.AGC_coeffs); end function state = CAR_Init_State(coeffs) n_ch = coeffs.n_ch; state = struct( ... 'z1_memory', zeros(n_ch, 1), ... 'z2_memory', zeros(n_ch, 1), ... 'zA_memory', zeros(n_ch, 1), ... 'zB_memory', zeros(n_ch, 1), ... 'dzB_memory', zeros(n_ch, 1), ... 'zY_memory', zeros(n_ch, 1), ... 'g_memory', coeffs.g0_coeffs, ... 'dg_memory', zeros(n_ch, 1) ... ); function state = AGC_Init_State(coeffs) n_ch = coeffs.n_ch; n_AGC_stages = coeffs.n_AGC_stages; state = struct( ... 'AGC_memory', zeros(n_ch, n_AGC_stages), ... 'input_accum', zeros(n_ch, n_AGC_stages), ... 'decim_phase', zeros(n_AGC_stages, 1) ... % integer decimator phase ); function state = IHC_Init_State(coeffs) n_ch = coeffs.n_ch; state = struct( ... 'ihc_accum', zeros(n_ch, 1), ... 'cap_voltage', coeffs.rest_cap * ones(n_ch, 1), ... 'cap1_voltage', coeffs.rest_cap1 * ones(n_ch, 1), ... 'cap2_voltage', coeffs.rest_cap2* ones(n_ch, 1), ... 'lpf1_state', coeffs.rest_output * ones(n_ch, 1), ... 'lpf2_state', coeffs.rest_output * ones(n_ch, 1) ... );