2012HackSessionNotes » History » Version 4
Version 3 (Luis Figueira, 2012-06-20 03:37 PM) → Version 4/11 (Luis Figueira, 2012-06-20 03:47 PM)
h1. 2012HackSessionNotes
h2. SMALLbox Add-ons
h3. Installing an add on
This section refers to the incoherentdl algorithm code tagged as ver_1.1 in the project’s Mercurial repository. To download this version please go to the project’s homepage in http://code.soundsoftware.ac.uk/projects/incoherentdl.
The incoherent dictionary learning add-on includes algorithms for learning dictionaries that are both adapted to the training data and that exhibit a low mutual coherence (defined as the maximum absolute inner product between any two different atoms) [27]. It extends
26
SMALLbox v2.0 User Documentation 27
the functionalities of the SMALL_two_step_DL toolbox which is included in the SMALLBox distribution, and is an example showing the capabilities of SMALLbox add–ons.
These are the steps needed to interface SMALLbox add-ons to the core SMALLbox dis- tribution:
* Download the add-on distribution from: http://code.soundsoftware.ac.uk/projects/incoherentdl/files
** The version you wish to download is *version 1.1*
* Place the add-on code in any convenient location of your file system, and add this to your MATLAB path
** addpath(genpath('/Users/luisf/incoherentdl-v1_1'))
* Modify the relevant files in the folder {SMALLBox Root}/config/
** modify/create SMBOX/config/SMALL_learn_config_local.m
*** cp SMBOX/config/SMALL_learn_local.m SMBOX/config/SMALL_learn_config_local.m
*** ** add the following this code to the local config file:
<pre>
elseif strcmpi(DL.toolbox , 'SMALL_incoherentDL')
DL=SMALL_incoherentDL ( Problem , DL ) ;
 % we need to make sure that columns are normalised to % unit lenght .
for i = 1: size(DL.D,2)
DL.D(: ,i)=DL.D(: ,i)/norm(DL.D(: ,i));
end
D = DL.D;
</pre>
* Run the SMALLboxInit.m script to set environmental variables.
* Run any function or script contained in the add-on.
** example:
*** load test_mocod.mat (incoherentdl-v1_1/results/test_mocod.mat)
*** open SMALL_test_mocod.m
*** run the code from the block that starts on line 110 (with the comment Plot Results)
**** this will display two coherence/signal to noise ratio plots based on results previously computed
h3. Creating a new add on
h2. SMALLbox Add-ons
h3. Installing an add on
This section refers to the incoherentdl algorithm code tagged as ver_1.1 in the project’s Mercurial repository. To download this version please go to the project’s homepage in http://code.soundsoftware.ac.uk/projects/incoherentdl.
The incoherent dictionary learning add-on includes algorithms for learning dictionaries that are both adapted to the training data and that exhibit a low mutual coherence (defined as the maximum absolute inner product between any two different atoms) [27]. It extends
26
SMALLbox v2.0 User Documentation 27
the functionalities of the SMALL_two_step_DL toolbox which is included in the SMALLBox distribution, and is an example showing the capabilities of SMALLbox add–ons.
These are the steps needed to interface SMALLbox add-ons to the core SMALLbox dis- tribution:
* Download the add-on distribution from: http://code.soundsoftware.ac.uk/projects/incoherentdl/files
** The version you wish to download is *version 1.1*
* Place the add-on code in any convenient location of your file system, and add this to your MATLAB path
** addpath(genpath('/Users/luisf/incoherentdl-v1_1'))
* Modify the relevant files in the folder {SMALLBox Root}/config/
** modify/create SMBOX/config/SMALL_learn_config_local.m
*** cp SMBOX/config/SMALL_learn_local.m SMBOX/config/SMALL_learn_config_local.m
*** ** add the following this code to the local config file:
<pre>
elseif strcmpi(DL.toolbox , 'SMALL_incoherentDL')
DL=SMALL_incoherentDL ( Problem , DL ) ;
 % we need to make sure that columns are normalised to % unit lenght .
for i = 1: size(DL.D,2)
DL.D(: ,i)=DL.D(: ,i)/norm(DL.D(: ,i));
end
D = DL.D;
</pre>
* Run the SMALLboxInit.m script to set environmental variables.
* Run any function or script contained in the add-on.
** example:
*** load test_mocod.mat (incoherentdl-v1_1/results/test_mocod.mat)
*** open SMALL_test_mocod.m
*** run the code from the block that starts on line 110 (with the comment Plot Results)
**** this will display two coherence/signal to noise ratio plots based on results previously computed
h3. Creating a new add on