Well, I tried after Reca showed us how it's done. In this thread he deduced RPM and speed for a 23 seconds video of Fisichella:
viewtopic.php?t=2218
What you do is to convert an arbitrary wave (the sound of the engine) into cosine and sine waves. Once you do that, you can analyze the "basic" frecuency of the engine and deduce its RPM.
It's not through intensity but through frequency. You do what is called harmonic analysis, which is the transformation into a Fourier series of a (pressumibly) periodic function: the noise of the engine. A Fourier series is an infinite sum of cosine and sine waves. You do that after filtering the sound track to elliminate noise. In essence, you use this formula:
Here is an example of how you can transform any input (in black) into sines and cosines (coloured waves):
If you can deduce RPM and you know trap speed, you can deduce gear final relations, knowing the tyre diameter. From that, you can figure out the speed from the sound. From the speed, you can deduce acceleration.
If somebody is interested, you can start by downloading a YouTube video (courtesy of vdt, answering a question from Manchild) to your hard disk using this software (you don't have to, you can use the video directly, but...) :
http://keepvid.com/
I recommend FoxSports Latin America videos: the commentator, invariably, when a lap is shown, says "Let's hear" and then he shuts up... These guys are good!
I've been trying to use the idea to help me with the tuning of karts: I filmed a lap (
you have to carry the camera on board! I learned that if you don't, the Doppler effect invalidates your results!).
A simple software that gives you RPM directly can be found here:
http://www.tunelab-world.com/rpmsound.html
The output is like this:
You can see the RPM, but you cannot store them. If you wish to store the RPM vs time, to follow Reca steps, you can use PCA3 (for only 30 days before paying 24 dollars):
http://www.ymec.com/
Which gives you this output:
I've been tinkering with that program for two weeks now and I haven't been able to reproduce Reca's results. We better ask him.
I dream of having the RPM, speed and acceleration to use that figures and my battered Brembo card to get a better picture of what the kart is doing (specially the competition). You feel like Jean Todt... even if the guys at the track have started to think I'm mad when I strapped the camera to the car.
It's already been told here that you can use Bosch software to deduce ride height, tyre load and spring behaviour for a couple hundred dollars. I don't care about the jokes at my track: let's see who does a better tuning this season!
At least I've learned a lot: first lesson, which I got last Sunday afternoon, is "don't tie the camera directly to the chassis: it produces its own sound"...
The other problem I had was to get the speed (I know my own gear relation, but karts have no speedometer) for calibration, so I borrowed a radar from my old buddies at the Ministry of Transportation. If you are unable to get one, you have to figure out a way to measure speed: I also found that the increase in tyre diameter and (perhaps?) some slippage of the tyre
makes the direct deduction of speeds inexact: you can get 5 to 8% of error on speed, which was discouraging. I found that when I compared track times with my first approximations. Perhaps I'm making some other mistake? ANY help is appreciated, guys at SAE. How do you do it, flynfrog?
Sorry for the length of this post, I got carried away...
