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I'm developing for Honeycomb Gingerbread and I was wondering, which physical sensors are used when I use the Sensor.TYPE_ROTATION_VECTOR?

Does it use a combination of compass and accelerometers? Or gyro + accel? Or all three? Or something else? The reason I'm asking is that my app behaves differently on two different pieces of hardware, and they should actually have the same type of sensors.

Thanks, Mark

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Could you please go more into detail about "Behaves differently on two...pieces of hardware"? –  AedonEtLIRA Aug 11 '11 at 14:41
    
Well after performing some more tests, it seems on Honeycomb (with my tablet) using Sensor.TYPE_ROTATION_VECTOR will use the accelerometer and the device's gyro (which is what I would have expected). On my Samsung Galaxy S2 running Gingerbread, it seems to use the magnetic compass for some very strange reason. (I was able to figure this out by placing a strong magnet next to the device and as I moved it around, the app was responding to the magnet.) So either Gingerbread or Samsung aren't fully taking advantage of the physical sensors. –  Mark Aug 12 '11 at 7:43
    
Well as for changing the sensors, I don't think that's possible without OS manipulation. As for the use of the hardware, I'm with you, I thought it would have used Gyro & accel. Doesn't make to much sense why it wouldn't. –  AedonEtLIRA Aug 12 '11 at 14:32
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3 Answers

I realize it's been a while since the question was asked, but I don't see a clear answer, so...

It uses all three sensors if they're available. The use of magnetic field sensor is crucial to have some absolute point of reference. The "rotation sensor" needs to initially orient itself and then eliminate the drift that gyro introduces over time. Gyro is still used because of it's precision and good response time. The accelerometer helps determine the gravity vector.

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It should be noted that the gyro is only used in Android 4.0 or higher. Source: developer.android.com/guide/topics/sensors/sensors_motion.html –  Philip Daubmeier Jul 12 '12 at 1:53
    
The term to search for is "sensor fusion". With 4.0 and above, there is essentially a black box which reads all available sensors and combines them (I think through a Kalman filter). Then all of the sensors, real and virtual, are taken as outputs of the sensor fusion black box. –  Edward Falk Aug 14 '12 at 21:18
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Correct. My initial source was youtube.com/watch?v=C7JQ7Rpwn2k and I recommend watching it to anyone dealing with sensor data. –  Jacek Gorgoń Aug 17 '12 at 8:31
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The theory:

For you phone to know the orientation, including azimuth, you need to reference a plane in the real world. That plane is calculated from two non co-linear vectors: Gravity (Accelerometer) and Magnetic fields forces. This vectors DO GET co-linear at two "places" on earth, but fortunately that is near the earth poles.

The practice:

With the Magnetic and Accelerometer you are able to get the orientation. Unfortunately if you submit your phone to any linear acceleration, or if there is magnetic disturbances the measures get noisy. The use of a Gyroscope dramatically improves response time/accuracy (since it is a tradeoff), but it is not essential for all applications.

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It looks like it uses any sensors that you define to be used with your SensorManager. In turn the sensor manager will broadcast the sensor event that your code will be listening for.

Look at the demo code below to see an example.

Sources:

http://developer.android.com/reference/android/hardware/SensorManager.html

http://developer.android.com/resources/samples/ApiDemos/src/com/example/android/apis/os/RotationVectorDemo.html

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Hmm I don't think so. The Sensor.TYPE_ROTATION_VECTOR is just a virtual sensor and somehow the OS will "decide" which physical sensors to use to provide the rotation vector. I don't see a way to change the behavior, neither in my code nor in the links you supplied. –  Mark Aug 12 '11 at 7:46
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