Issues with audio device writer to read the output signal.
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Dear Community,
I am trying to build a code based on the ISO 9613-1 standard, that can filter an audio track based on atmospheric absorption.
In the following code, I created a user interface where I can input, Altitude, temperature, Humidity, Initial level and distance.
But when I started adding the apply button and call back functions to make sure that all the variables are entered. I am encountering problems with the "deviceWriter(audioOut);"
With the following error message :
Not enough input arguments.
Error in LiveEditorEvaluationHelperE678951713>apply_callback (line 133)
if ~isDeviceOpened
Error while evaluating UIControl Callback.
I need help please, finishing this code, by executing correctly the part where the audio must be played out on the computer speakers after being filtered.
Thank you in advance
% Create a user interface to input data
f = figure;
% Create text boxes for the different variables
global t1 t2 t3 t4 t5 isDeviceOpened
isDeviceOpened = false;
t1 = uicontrol('Style', 'edit', 'String', '10', 'Position', [20, 350, 100, 20]);
t2 = uicontrol('Style', 'edit', 'String', '20', 'Position', [120, 350, 100, 20]);
t3 = uicontrol('Style', 'edit', 'String', '70', 'Position', [220, 350, 100, 20]);
t4 = uicontrol('Style', 'edit', 'String', '100', 'Position', [320, 350, 100, 20]);
t5 = uicontrol('Style', 'edit', 'String', '', 'Position', [420, 350, 100, 20]);
% Create a button to apply the callback function
apply_button = uicontrol('Style', 'pushbutton', 'String', 'Apply', 'Position', [20, 100, 80, 20], 'Callback', {@apply_callback, t1, t2, t3, t4, t5});
% Create labels for the text boxes
uicontrol('Style', 'text', 'String', 'Altitude [m]:', 'Position', [20, 375, 100, 30]);
uicontrol('Style', 'text', 'String', 'Tempreture [ºC]:', 'Position', [120, 375, 100, 30]);
uicontrol('Style', 'text', 'String', 'Humidity [%]:', 'Position', [220, 375, 100, 30]);
uicontrol('Style', 'text', 'String', 'Initial Sound Level [dB]:', 'Position', [320, 375, 100, 30]);
uicontrol('Style', 'text', 'String', 'Distance [m]:', 'Position', [420, 375, 100, 30]);
oneThirdOctaveGraphicEQ = graphicEQ;
graphicEQ = oneThirdOctaveGraphicEQ;
function apply_callback(hObject, eventdata, t1, t2, t3, t4, t5, isDeviceOpened)
% Get the value of the edit text box
Altitude = str2double(get(t1, 'String')); % Expressed in meters over see level
Tc = str2double(get(t2, 'String')); % Tempretures in Degree Celsius
hr = str2double(get(t3, 'String')); % Relative humidity as a percentage
LdBi = str2double(get(t4, 'String')); % Initial SoundLevel in dB at 1m from source
d = str2double(get(t5, 'String')); % Distance in meters from source
if isnan(Altitude) || isnan(Tc) || isnan(hr) || isnan(LdBi) || isnan(d)
error('Invalid input')
end
%---------------------------------------------------------------------------------------------
%Initial Reference Data
Tk= Tc + 273.15; % Ambient atmospheric tempreture in Kelvin K
To=293.15; % Reference atmospheric tempreture in Kelvin 20C
pr=101.325; % Reference ambient atmospheric pressure in kPa
pa = pr * exp((-9.80665 * 0.0289644 * Altitude)/(8.31432 * Tk));% Ambient atmospheric pressure in kPa based on altitude
To1=273.16; % Triple-point isotherm temp: 273.16 K = 273.15 + 0.01 K (0.01°C)
p0=0.00002;
x=0.1151; % A help factor to shorten the formula
pi=p0*10^(LdBi/20); % Initial sound pressure ampliture in Pa
psat = pr * 10^((-6.8346 * (To1 / Tk)^1.261) + 4.6151); % Saturation vapor pressure
h = hr * (psat / pa); % Molar concentration of water vapor as percentage
frO = (pa / pr) * (24 + 4.04 * 10^4 * h * ((0.02 + h) / (0.391 + h))); % Oxygen relaxation frequency
frN = (pa / pr) * (Tk / To)^(-1/2) * (9 + 280 * h * exp(-4.170 * ((Tk / To)^(-1/3)-1))); % Nitrogen relaxation frequency
%---------------------------------------------------------------------------------------------
% Third Octave center frequncy for the garphic EQ in Hz based on ISO
oneThirdCenterFreqArray = [25 31.5 40 50 63 80 100 125 160 200 250 315 400 500 630 800 1000 ...
1250 1600 2000 2500 3150 4000 5000 6300 8000 10000 12500 16000 20000];
%---------------------------------------------------------------------------------------------
f = oneThirdCenterFreqArray; % Third Octave center frequncy for the garphic EQ in Hz
for ii=1:numel(f)
z = 0.1068 * exp (-3352 / Tk) * (frN + f(ii)^2 / frN)^(-1); % A help factor to shorten the formula
y = (Tk / To)^(-5/2) * (0.01275 * exp (-2239.1 / Tk) * (frO + f(ii)^2 / frO)^(-1) + z); % A help factor to shorten the formula
alpha = 8.686 * f(ii)^2 * ((1.84 * 10^(-11) * (pa / pr)^(-1) * (Tk / To)^(1/2)) + y); % Pure tone attenuation coeffiecnt in dB/m for Atmospheric Absorption
pt = pi * exp(-x * alpha * d); % Sound pressure amplitude in Pa
AtmosphericAbs=alpha*d; % Atmospheric attenuation due to distance
Aabs=20 * log10(pt/p0); % Atmospheric attenuation due to distance in dB
Gain(ii) = Aabs - LdBi; % Atmospheric attenuation due to distance in dB per frequency
end
%---------------------------------------------------------------------------------------------
% Import Audio Track from Directory
frameLength = 1024;
fileReader = dsp.AudioFileReader('/Users/user/Documents/Music repertoire/TEST MUSIC/What Is Love 2016.mp3','SamplesPerFrame',frameLength);
deviceWriter = audioDeviceWriter('SampleRate',fileReader.SampleRate);
% ------------------------------
% Perform Graphic EQ Filtering according to Absorption Calculations
%release(graphicEQ); % Release system memory from previous run
oneThirdOctaveGraphicEQ.Bandwidth = '1/3 octave';
oneThirdOctaveGraphicEQ.Gains = Gain;
equalizer = graphicEQ;
visualize(equalizer);
% Playing the filtered audio out
while ~isDone(fileReader)
audioIn = fileReader();
audioOut = equalizer(audioIn);
%Opening the audioDeviceWriter
if ~isDeviceOpened
deviceWriter = audioDeviceWriter('SampleRate',fs);
setup(deviceWriter);
isDeviceOpened = true;
end
%Playing the sound
deviceWriter(audioOut);
% ...
% ...
% Close the audioDeviceWriter
release(deviceWriter);
drawnow limitrate % required to update parameter
end
end
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Risposte (1)
Manoj Mirge
il 23 Mar 2023
Hi charbel,
You have not provided isDeviceOpened argument to your apply_callback callback function while creating a uicontrol pushbutton.
% In below line, you have only given t1,t2,t3,t4 and t5 as arguments to your callback function.
apply_button = uicontrol('Style', 'pushbutton', 'String', 'Apply', 'Position', [20, 100, 80, 20], 'Callback', {@apply_callback, t1, t2, t3, t4, t5});
When user presses the Apply button, it will invoke the button pushed callback with following syntax:
apply_callback(hObject,eventdata,t1,t2,t3,t4,t5);
Since you have not provided isDeviceOpened argument to your function, if it tries to use the isDeviceOpened argument inside it, you will get the error stating ‘Not enough input arguments’ .
To make your code work provide isDeviceOpened argument in the callback function while creating the button.
apply_button = uicontrol('Style', 'pushbutton', 'String', 'Apply', 'Position', [20, 100, 80, 20], 'Callback', {@apply_callback, t1, t2, t3, t4, t5,isDeviceOpened});
Hope this helps.
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