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I'm attempting to write a peak volume meter using NAudio. My code is very similar to http://channel9.msdn.com/coding4fun/articles/NET-Voice-Recorder, but both my code and the linked Voice Recorder project suffer from an issue.

When playing a sound of constant frequency and volume, the volume meter initially begins at a reasonable level, but then decays to a very small value. I'm not sure why this is the case, for the peak volume meter in the NAudioDemo does not do this. I attempted to replicate the code from NAudioDemo in my program, but I was unable to find the code file containing the peak volume meter code.

Can somebody guide me to an alternative solution for creating a peak volume meter or help me determine why my solution (and the one provided at the link) both don't work?

public MainWindow()
    {
        int waveInDevices = WaveIn.DeviceCount;
        for (int waveInDevice = 0; waveInDevice < waveInDevices; waveInDevice++)
        {
            WaveInCapabilities deviceInfo = WaveIn.GetCapabilities(waveInDevice);
            Console.WriteLine("Device {0}: {1}, {2} channels",
                waveInDevice, deviceInfo.ProductName, deviceInfo.Channels);

            WaveIn waveIn = new WaveIn();
            waveIn.DeviceNumber = 0; //TODO: Let the user choose which device, this comes from the device numbers above
            waveIn.DataAvailable += waveIn_DataAvailable;
            int sampleRate = SAMPLE_RATE; // 8 kHz
            int channels = 1; // mono
            waveIn.WaveFormat = new WaveFormat(sampleRate, channels);
            waveIn.StartRecording();
        }
    }

    void waveIn_DataAvailable(object sender, WaveInEventArgs e)
    {
        for (int index = 0; index < e.BytesRecorded; index += 2)
        {
            short sample = (short)((e.Buffer[index + 1] << 8) |
                                    e.Buffer[index + 0]);
            float sample32 = sample / 32768f;
            ProcessSample(sample32);
        }           

    }

    void ProcessSample(float sample1)
    {
        samplenumber += 1;

        if (sample1 > maxval)
        {
            maxval = sample1;
        }

        if (sample1 < minval)
        {
            minval = sample1;
        }


        //Run updateView every few loops

        if (samplenumber > (double)SAMPLE_RATE / DISPLAY_UPDATE_RATE)
        {
            samplenumber = 0;
            updateView(); //needs to be fast!
        }
    }

    void updateView()
    {
        Console.WriteLine(maxval);
        Console.WriteLine(minval);
        progressBar1.Value = (maxval - minval)*50;

        maxval = 0;
        minval = 0;
    }
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I haven't checked that project yet, but it might not be an actual peak meter. There are several "VU"-like algorithms. –  Brad Jan 16 '13 at 3:31
    
What is a "VU"-like algorithm? –  Shivam Sarodia Jan 16 '13 at 3:54
    
A VU meter (transitchicago.com/farechanges) measures signal levels. The way the needle tracks the level isn't instantaneous... it lags behind a bit, and averages out some of the peaks and valleys. There are algorithms out there that try to emulate this behavior. There are also other algorithms for metering a signal. A peak meter always shows you the highest level for the set of samples. The project you linked to may use some sort of delta algorithm, which is why it drops when nothing changes. It's just a guess though, I haven't looked at the code. –  Brad Jan 16 '13 at 3:58
    
@Brad excuse me but how is the link to Chicago's transport fare changes page relevant to VU meter? ;) –  J Pollack Feb 27 '13 at 9:58
    
@JPollack, Ha, sorry, I must have pasted a link without copying. I don't remember what I was going to link to... maybe this? en.wikipedia.org/wiki/File:VU-meter-reponse-graph.svg –  Brad Feb 27 '13 at 14:10

2 Answers 2

up vote 1 down vote accepted

All that is happening in that article is that it is finding the maximum audio peak over a small interval (e.g. 20ms) and then plotting that on a decibel scale. To find the peak, examine the value of each sample in the interval and select the max value (It's what the SampleAggregator class is doing). To convert to decibels, take the log base 10 of the maximum value, and multiply by 10. So 0dB is the loudest, and anything below say -96dB is effectively silence. (actually, looking back at the article, I don't think I even bothered to convert to a decibel scale, which I probably should have done)

share|improve this answer
    
I see. So why would I be seeing the drop in "volume" after a few seconds? I'm struggling to explain this strange behavior. –  Shivam Sarodia Jan 16 '13 at 12:48
    
are you definitely capturing audio? Have you tried recording a few seconds and seeing if the values are as expected –  Mark Heath Jan 16 '13 at 15:40
    
I believe I am capturing audio, since when I initially begin speaking, the volume increases for a few seconds. I updated my question with the applicable parts of my code, if that is any help. The displayed values of maxval and minval begin at reasonable levels, but quickly fall to near zero after a few seconds. –  Shivam Sarodia Jan 17 '13 at 2:13
    
You are setting the progress bar to the average sample value, which naturally will be 0 since audio ranges between +/- 1. You need to use Math.Abs on every sample, and simply find the biggest value over the interval. –  Mark Heath Jan 17 '13 at 7:12
    
I seem to have found the issue. when I check the "Disable System Effects" box in the recording device property box, the application works fine. Thank you very much for your help! –  Shivam Sarodia Jan 17 '13 at 23:36

This was my little solution for getting peak from output device. I'm using NAudio version 1.7.0.15

 public partial class Form1 : Form
{


    public Form1()
    {
        InitializeComponent();

        MMDeviceEnumerator enumerator = new MMDeviceEnumerator();

        var devices = enumerator.EnumerateAudioEndPoints(DataFlow.All, DeviceState.Active);
        comboboxDevices.Items.AddRange(devices.ToArray());
    }

    private void timer1_Tick(object sender, EventArgs e)
    {
        if (comboboxDevices.SelectedItem != null)
        {
            var device = (MMDevice)comboboxDevices.SelectedItem;
            progressBar1.Value = (int)(Math.Round(device.AudioMeterInformation.MasterPeakValue * 100));
        }
    }
}
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