Measure devel notes
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Development notes. For the official page, please see Measure
Metadata file associated with Logs
Measure Activity logs metadata file Filename Filename Filename Logname Logname Logname
Log file format
sec/minute/hour/snapshot 2232 3445 stop
Draw dotted log
context.move_to(x,y) context.arc(x,y,r,0,2*pi)
Convert #RRGGBB to an (R, G, B) tuple
colorstring = colorstring.strip() if colorstring[0] == '#': colorstring = colorstring[1:] r, g, b = colorstring[:2], colorstring[2:4], colorstring[4:] r, g, b = [int(n, 16) for n in (r, g, b)] return (r, g, b)
Get the XO colors
from sugar import profile color=profile.get_color() fill = color.get_fill_color() stroke = color.get_stroke_color()
DSP
Filtering using sinc
- http://www.dspguide.com/ch16/2.htm
- I will precompute h[i] for all the three ranges and apply it to all the three ranges
- I have selected fc = and M =
Scaling - for scale display, and RMS values
- I get a buffer of 16bit values (-32768 to 32768). I need to calculate the corresponding rms value of the voltage
- The correspondence between digital domain values and physical values has been found out experimentally as
v = (m/g)*(s) + 1180 millivolts
where s is a sample value ranging from -32768 to +32768 where m = .0238(i.e. slope when all capture gains are 0dB i.e. g=1) where g is the gain introduced by capture gains. There are two such gains Mic Boost +20dB and Capture Gain. Note that g IS NOT in dB.
- Also let k = m/g and c = 1180
- One option is to scale each sample in voltage domain (which would come out to be a float value) to get Rv
- The other option is to calculate RMS of all samples s, let the resulting RMS value be Rs, then to get Rv,
Rv = Rs