Mercurial > hg > aimc
view trunk/matlab/bmm/carfac/CARFAC_IHC_Step.m @ 690:76f749d29b48
Fix memory leak in CARFAC.
Also get rid of most uses of auto, which tend to hurt readability
unless the type name is particularly long, especially when it masks
pointers.
| author | ronw@google.com |
|---|---|
| date | Tue, 11 Jun 2013 21:41:53 +0000 |
| parents | 3e2e0ab4f708 |
| children |
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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 [ihc_out, state] = CARFAC_IHC_Step(filters_out, coeffs, state); % function [ihc_out, state] = CARFAC_IHC_Step(filters_out, coeffs, state); % % One sample-time update of inner-hair-cell (IHC) model, including the % detection nonlinearity and one or two capacitor state variables. % AC couple the filters_out, with 20 Hz corner ac_diff = filters_out - state.ac_coupler; state.ac_coupler = state.ac_coupler + coeffs.ac_coeff * ac_diff; if coeffs.just_hwr ihc_out = min(2, max(0, ac_diff)); % limit it for stability else conductance = CARFAC_Detect(ac_diff); % rectifying nonlinearity if coeffs.one_cap; ihc_out = conductance .* state.cap_voltage; state.cap_voltage = state.cap_voltage - ihc_out .* coeffs.out_rate + ... (1 - state.cap_voltage) .* coeffs.in_rate; else % change to 2-cap version more like Meddis's: ihc_out = conductance .* state.cap2_voltage; state.cap1_voltage = state.cap1_voltage - ... (state.cap1_voltage - state.cap2_voltage) .* coeffs.out1_rate + ... (1 - state.cap1_voltage) .* coeffs.in1_rate; state.cap2_voltage = state.cap2_voltage - ihc_out .* coeffs.out2_rate + ... (state.cap1_voltage - state.cap2_voltage) .* coeffs.in2_rate; end % smooth it twice with LPF: ihc_out = ihc_out * coeffs.output_gain; state.lpf1_state = state.lpf1_state + coeffs.lpf_coeff * ... (ihc_out - state.lpf1_state); state.lpf2_state = state.lpf2_state + coeffs.lpf_coeff * ... (state.lpf1_state - state.lpf2_state); ihc_out = state.lpf2_state - coeffs.rest_output; end state.ihc_accum = state.ihc_accum + ihc_out; % for where decimated output is useful