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I am starting a project which would allow me to use Java to read sound samples, and depending on the properties of each sample (I'm thinking focusing on decibels at the moment for the sake of simplification, or finding some way to compute the overall 'volume' of a specific sample or set of samples), return a value from 0-255 where 0 would be silence and 255 would be the highest sound pressure (Compared to a reference point, I suppose? I have no idea how to word this). I want to then have these values returned as bytes and sent to an Arduino in order to control the intensity of LED's using PWM, and visually 'see' the music.

I am not any sort of audio file format expert, and have no particular understanding of how the data is stored in a music file. As such, I am having trouble finding out how to read a sample and find a way to represent its overall volume level as a byte. I have looked through the javax.sound.sampled package and it is all very confusing to me. Any insight as to how I could accomplish this would be greatly appreciated.

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marked as duplicate by Andrew Thompson, chandresh_cool, Ryan McDonough, Freelancer, Jesse May 16 '13 at 12:42

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

No, this is different. –  Daniel P May 15 '13 at 3:24
How, exactly, is it different? This is a good time to put more words, rather than less. –  Andrew Thompson May 15 '13 at 3:28
This isn't a duplicate of the linked question at all. –  Brad Oct 27 '13 at 19:33
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2 Answers 2

First i suggest you to read Pulse-code modulation which is the format use to store data on a .wav file (the simplest to begin with).

Next there is a post on how to get PCM data from a wav file in java here.

Finally to get the "volume" (which is actually more the energy) apply this

energy equation
on window of approximately 10ms of sound (at 44100 kHz mono 10ms => 441 samples).

wish it could help you,

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As Bastyen (+1 from me) indicates, calculating decibels is actually NOT simple, but requires looking at a large number of samples. However, since sound samples run MUCH more frequently than visual frames in an animation, making an aggregate measure works out rather neatly.

A nice visual animation rate, for example, updates 60 times per second, and the most common sampling rate for sound is 44100 times per second. So, 735 samples (44100 / 60 = 735) might end up being a good choice for interfacing with a visualizer.

By the way, of all the official Java tutorials I've read (I am a big fan), I have found the ones that accompany the javax.sound.sampled to be the most difficult. http://docs.oracle.com/javase/tutorial/sound/TOC.html
But they are still worth reading. If I were in charge of a rewrite, there would be many more code examples. Some of the best code examples are in several sections deep, e.g., the "Using Files and Format Converters" discussion.

If you don't wish to compute the RMS, a hack would be to store the local high and/or low value for the given number of samples. Relating these numbers to decibels would be dubious, but MAYBE could be useful after giving it a mapping of your choice to the visualizer. Part of the problem is that values for a single point on given wave can range wildly. The local high might be more due to the phase of the constituent harmonics happening to line up than about the energy or volume.

Your PCM top and bottom values would probably NOT be 0 and 256, more likely -128 to 127 for 8-bit encoding. More common still is 16-bit encoding (-32768 to 32767). But you will get the hang of this if you follow Bastyen's links. To make your code independent of the bit-encoding, you would likely normalize the data (convert to floats between -1 and 1) before doing any other calculations.

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I like the idea of updating 60 times per second, it's truly more suitable for this application than my 10ms (more for sound processing). –  Bastyen May 16 '13 at 8:04
Thx for edit! Apologies for not doing it correctly the first time. –  Phil Freihofner May 18 '13 at 15:24
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