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I am working an a bike computer app. I was hoping to work out the inclination of the slope using the accelerometer but things are not working too well.

I have put in test code getting the sensor data I am just smapeling at the UI rate and keeping a moving average over 128 samples which is about 6 seconds worth. With the phone in hand the data is good and I can calculate a good angle compared to my calibration flat vector.

With the phone mounted on the bike things are not at all good. I expect to get a good bit of noise but I was hoping that the large number of samples over the big time window would remove the vibration effects and general bike movements. Unfortunately this just is not working, the magnitude of the acceleration vector is not really staying around the 9.8 mark but is dropping lower which indicates to me that something is not right somewhere.

Here is a plot of the data from part of a test ride. enter image description here

As you can see when stationary at the start the magnitude is OK but once I get going it drops. I am fairly sure the problem is vibration related I initially descend and there was heavy vibration I then climb and the vibration is less and the magnitude gets back towards 9.8 but then I drop down quickly on a bad road and the magnitude ends up less than 3.

This is with a SonyErricson Xperia Active which uses a BMA250 sensor the datasheat looks like the sensor should be capable. My only theory for the cause of the problem is that the range is set to the 2g range and the vibration is causing data to go out of range and this is causing my problems.

Has anyone seen anything like this? Has anyone got any ideas on the cause of the problem?
Is there any way to change the sensitivity that I have not found?

Additional information.

OK I logged the raw sensor data before my filtering. A very small portion presented here Small sample of raw data The major axis is in green and on the flat as I belive this should be without the vibration it should be about 8.5. There is no obvious clamping on the data but I get more below 8.5 values than above 8.5 values. Even if the sensor is set up for it's most sensative 2g range it looks like the vibration shgould be OK I have a max value here of just over 15 and a minimum of -10 well ib a +- 20 ragnge just not centered correctly on the 8.5 it should be.

I will dig out my other phone which looks to have a slightly different sensor a BMA150 and try with that but unless it is perfect I think I will have to give up on the idea.

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Hold on. You descend, and the G goes down, you climb, and G goes up?? Isn't that exactly what should happen? At least, while you are accelerating down, or accelerating up. +1 for the wonderful data, btw. –  Bobbi Bennett May 22 '12 at 14:44
1  
I accelerate down at a slow rate and the reverse going up. The x axis on the plot is in seconds so about 10 minutes worth in the plot. If I could realy do that sort of acceleration for minutes on end I would be pleased.... –  Ifor May 22 '12 at 15:23

1 Answer 1

I suspect the accelerometer is not linear over such large G ranges. If so, and if there is any asymmetry, it will do what you see.

The solution for that is to pad the accelerometer mount a bit more, foam rubber, bungy-cord, whatever, possibly mount it on a heavier stage to filter the vibration more.

Or (not a good solution) try to model the error and compensate for it.

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Yes I will be modifying my mount to try and stop the worst of the vibration to see if that will help. Long term though I don't think I will be able to put the feature into the published app if the typical sensor is like this. The Data sheet does not indicate bad non linearity for the BMA250. It says +- 0.5% for the best fit straight line which sounds good to me. –  Ifor May 22 '12 at 15:31
    
I didn't see the linearity spec (some info comes over as box characters on my pdf viewer). But there -have- to be limits where the curve bends over, though maybe beyond where the digitizer limits. It should be easy to remove your moving average, and look at the individual points for clamping at some max value. Clamping, you could handle with a model of the distribution of the noise, essentially predict how much is clamped off. –  Bobbi Bennett May 22 '12 at 17:29
    
It does look like clamping or limiting, though, because the higher the g (z>y>x), the bigger the dip. –  Bobbi Bennett May 22 '12 at 17:33
    
Table on page 8 for the non linearity line. I will add some code to dump some of the original raw samples and see if anything shows up looking at them in more detail. –  Ifor May 22 '12 at 22:05

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