function fb = hohmann2002(fs,flow,basef,fhigh,filters_per_ERBaud,varargin)
%HOHMANN2002 Invertible Gammatone filterbank
% Usage: fb = hohman2002(fs, flow, basef, fhigh, filters_per_ERBaud)
%
% Input parameters:
% fs : The sampling frequency of the signals on which
% the filterbank will operate
% flow : The lowest center frequency of a filter
% basef : "base frequency". One of the filters will
% have exactly this center frequency. Must be >= flow
% fhigh : The highest center frequency of a filter.
% Must be >= basef
% filters_per_ERBaud : The density of gammatone filters on the ERB
% scale.
%
% Output parameters:
% fb : The constructed filterbank object.
%
% hohman2002 constructs a new fb object implementing
% the analysis part of a gammatone filterbank as described
% in Hohmann (2002).
%
% fb contains several all-pole gammatone filters; each
% one with a bandwidth of 1 ERB (optional: times bandwidth_factor),
% and an order of gamma_order.
%
% The center frequencies of the individual filters are computed as
% described in section 3 of Hohmann (2002).
%
% HOHMANN2002 takes the following flags at the end of the line of input
% arguments:
%
% 'gamma_order' The order of the gammatone filters in this
% filterbank. Default is 4.
%
% 'bandwidth_factor' The bandwidth parameter of the individual filters
% is calculated from the Equivalent Rectangular
% Bandwidth (ERB) according to equation 14 in
% Hohmann (2002). ERB is taken from the Glasberg &
% Moore formula for a specific center frequency
% (equation 13 in Hohmann (2002)).
% Using this parameter, it is possible to widen or
% narrow all filters of the filterbank with a
% constant bandwidth factor. Default is 1.0.
%
% 'l' Scaling factor l from Eq. 13 in Hohmann (2002).
% Default is 24.7.
%
% 'q' Scaling factor q from Eq. 13 in Hohmann (2002).
% Default is 9.265.
%
% References:
% V. Hohmann. Frequency analysis and synthesis using a gammatone
% filterbank. Acta Acustica united with Acoustica, 88(3):433--442, 2002.
%
%
% See also: demo_hohmann2002, demo_gammatone, hohmann2002_mixer,
% dietz2011_filterbank, hohmann2002_synth,
% hohmann2002_filter, hohmann2002_freqz,
% hohmann2002_delay, hohmann2002_clearstate, hohmann2002_process,
% kelvasa2015_localize, exp_hohmann2002, exp_gammatone, hauth2020
%
% Url: http://amtoolbox.org/amt-1.6.0/doc/models/hohmann2002.php
% #StatusDoc: Perfect
% #StatusCode: Perfect
% #Verification: Verified
% #Author : Universitaet Oldenburg, tp (2002 - 2007)
% #Author : Piotr Majdak (2016)
% Adapted from function gfb_analyzer_new
% This file is licensed unter the GNU General Public License (GPL) either
% version 3 of the license, or any later version as published by the Free Software
% Foundation. Details of the GPLv3 can be found in the AMT directory "licences" and
% at <https://www.gnu.org/licenses/gpl-3.0.html>.
% You can redistribute this file and/or modify it under the terms of the GPLv3.
% This file is distributed without any warranty; without even the implied warranty
% of merchantability or fitness for a particular purpose.
definput.keyvals.l=24.7; % see equation (17) in [Hohmann 2002]
definput.keyvals.q=9.265; % see equation (17) in [Hohmann 2002]
definput.keyvals.gamma_order=4;
definput.keyvals.gaincalc_iterations=100; % number of iterations for the approximation of the gain factors
definput.keyvals.bandwidth_factor=1.0;
[~,kv] = ltfatarghelper({'l','q','gamma_order','gaincalc_iterations','bandwidth_factor'},definput,varargin);
fb.type = 'gfb_analyzer';
fb.fs = fs;
fb.flow = flow;
fb.basef = basef;
fb.fhigh = fhigh;
fb.filters_per_ERBaud = filters_per_ERBaud;
fb.bandwidth_factor = kv.bandwidth_factor;
fb.fast = 0;
fb.L = kv.l;
fb.Q = kv.q;
fb.gamma_order = kv.gamma_order;
fb.gaincalc_iterations = kv.gaincalc_iterations;
fb.center_frequencies_hz = ...
erbspacebw(flow,fhigh,1/filters_per_ERBaud,basef);
% This loop actually creates the gammatone filters:
for band = 1:length(fb.center_frequencies_hz)
center_frequency_hz = fb.center_frequencies_hz(band);
% Construct gammatone filter:
fb.filters(1,band) = ...
hohmann2002_filter(fs, center_frequency_hz, kv.gamma_order, kv.bandwidth_factor);
end