I am creating a spectrogram where the y axis is the frequency response of an input file. Based on a min and max frequency (which is variable based on the fs), how would I:

  1. plot the y axis for frequency in terms of logarithmic distribution in a meaningful way as shown in the example image below. log10(f), in the chart below the frequency is on the x-axis and is only used to illustrate a point

Figure 1 frequency response graph

previous image swapped for one with a more suitable representation of a logarithmic scale

  1. provide a number of annotated reference points along the y axis which directly correlate to values ie 100Hz, 1kHz, 5kHz (in 1/3 octave bands as noted here)

  2. Define pixel to frequency mapping ratio methodology for plotting of frequency where there are n number of frequency bins along y axis

Finally, whilst I have been able to create a basic graph using the following code, I am at a bit of a loss as to how best implement a log scale in a bitmap image:

    Bitmap spectrogram = new Bitmap(xAxisImageSize, yAxisImageSize);
    // Mmake the Image BG Colour Black
    using (Graphics graph = Graphics.FromImage(spectrogram))
        Rectangle ImageSize = new Rectangle(0, 0, xAxisImageSize, yAxisImageSize);
        graph.FillRectangle(Brushes.Black, ImageSize);
        Pen whitePen = new Pen(Color.White, 3);
        // x axis
        graph.DrawLine(whitePen, 124, 900, 634, 900);
        // x axis label
        graph.DrawString("Time", new Font("Arial", 12), Brushes.White, new PointF(600, 924));
        // y axis
        graph.DrawLine(whitePen, 124, 900, 124, 388);
        // y axis label
        graph.DrawString("f (Hz)", new Font("Arial", 12), Brushes.White, new PointF(24, 388));
        // y axis top frequency
        graph.DrawString("20k", new Font("Arial", 12), Brushes.White, new PointF(75, 388));
        // y axis top marker
        graph.DrawLine(whitePen, 110, 388, 124, 388);
        // x axis Zero Point
        graph.DrawString("0", new Font("Arial", 12), Brushes.White, new PointF(124, 924));
        // y axis Zero Point
        graph.DrawString("0", new Font("Arial", 12), Brushes.White, new PointF(75, 886));

A scaled render of the image I have created thus far can be seen below.

cropped and scaled spectrogram example

Each (monochrome) point in the spectrogram will be plotted using the following snippet:

spectrogram.SetPixel(x, y, Color.FromArgb(255, colour, colour, colour));

I have all the necessary data to plot on the following axis:

  1. x time (linear)
  2. y frequency (logarithmic)
  3. z intensity (logarithmic)

An additional challenge is that the image is rendered from the top left rather than bottom right, so if you can show me a sensible way to manage this, I would be very greatful.

This is a c# console application using .NET 4.5.2


By means of hopefully clarifying the question, what I am looking to achieve is something like the charts logarithmic scale mode and implementing that on a bitmap graph axis rather than a chart control:

axis.IsLogarithmic = true;

so taking the log10(frequency) for which there are (in my example) 256 points/frequency bins between 0 Hz and 21963 Hz then map that onto a y axis with common 1/3 octave center frequency notation on the y axis as shown below:

enter image description here

Note that the above image was taken from this post where the OP is requesting similar information to me but on a chart control, the answer of which I cannot use due to not using a chart object.

For clarification on what I mean by 256 points/frequency bins, please see below:

Frequency Bin 0: 0
Frequency Bin 1: 86
Frequency Bin 2: 172
Frequency Bin 3: 258
Frequency Bin 4: 344
Frequency Bin 5: 430
Frequency Bin 6: 516
Frequency Bin 7: 602
Frequency Bin 8: 689
Frequency Bin 9: 775
Frequency Bin 10: 861
Frequency Bin 11: 947
Frequency Bin 12: 1033
Frequency Bin 13: 1119
Frequency Bin 242: 20844
Frequency Bin 243: 20930
Frequency Bin 244: 21016
Frequency Bin 245: 21102
Frequency Bin 246: 21188
Frequency Bin 247: 21274
Frequency Bin 248: 21360
Frequency Bin 249: 21447
Frequency Bin 250: 21533
Frequency Bin 251: 21619
Frequency Bin 252: 21705
Frequency Bin 253: 21791
Frequency Bin 254: 21877
Frequency Bin 255: 21963
  • For mass drawing don't use SetPixel it is very slow compared to LockBits then drawing against the returned BitmapData. – Scott Chamberlain Sep 11 '16 at 14:55
  • The name of the font is "Arial", not "Ariel". – Andrew Morton Sep 11 '16 at 15:03
  • @ScottChamberlain, I will look into LockBits, thank you. @Andrew, lol #fontfail I'll update that typo! – Majickal Sep 11 '16 at 15:12
  • @Majickal It would be somewhat easier to help if you used variables with meaningful names instead of numbers like 124, 900, 634, 900 etc. E.g. Dim originOffset As New Point(124, 634). – Andrew Morton Sep 11 '16 at 15:44
  • @AndrewMorton if you are referring to the drawline method (msdn.microsoft.com/en-us/library/…), the numbers simply represent the start x,y coordinates and the destination x,y coordinates between which a line defined by the pen.color is drawn. This code was provided purely as a demo of what I have already achieved, the current method I have used to achieve this and a starting off point on where I would like to follow on from. – Majickal Sep 11 '16 at 21:20

To create a logarithmic scale between two values, let V0 and V1, take to base-10 logarithms log(V1) and log(V2) and rescale to map to the desired coordinates on your plot, let X0 to X1.

X = X0 + (X1 - X0)(log(V) - log(V0))/(log(V1) - log(V0))

To draw ticks at simple values, first determine the full decades that are spanned, from 10^floor(log(V0)) to 10^floor(log(V1)), then get the most significant digits by

ceil(10^(log(V0) - floor(log(V0)))
floor(10^(log(V1) - floor(log(V1)))

to get the starting/ending digit in these decades.

For example, from 19 to 3410, the decades go from 10/100 to 1000/10000, digit 2 to digit 3 inclusive.

  • Hi Yves, I'm struggling to understand what you mean here, would it be possible for you to break it down and explain it further for me please. I think it is the first paragraph I am not really getting. What are V, Vn & X, Xn representative of? – Majickal Sep 13 '16 at 6:23
  • 1
    @Majickal V for value, X for abscissa. All you need to know is there. – Yves Daoust Sep 13 '16 at 6:28
  • Yues, That makes more sense immediately after looking up what abscissa actually means, and for those of you that also didn't know, like me, who may be reading this later: (in a system of coordinates) the distance from a point to the vertical or y -axis, measured parallel to the horizontal or x -axis; the x -coordinate. -Google Search Result – Majickal Sep 13 '16 at 21:24

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