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How do people create games which make the object move when we turn or rotate our phone in different directions (accelerating a car, for example)? Do they use readings from the accelerometer and gyroscope or do they use OpenGL in Android?

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They use the sensor readings to control whatever they're using to draw, whether it's 2D, 3D, etc. – Dave Newton Nov 6 '11 at 18:35
up vote 4 down vote accepted

They are likely using the accelerometer, because it is widely available on a large variety of devices.

You might want to take a look at this tutorial:

And here's a demo of the accelerometer feature from Google:

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Thanx user1032613...its a good example ...but woooo its does a lot of complicated caluclations :) ..will go through and understand the logic . – Kozlov Nov 7 '11 at 15:03
Hi , I tried to understand the code in the sample.Its a lot of mathematics involved there and more over lots of hard coding used without any comments .Is there any body who understand that code well? And @user1032613 that's what i was exactly looking for :) – Kozlov Nov 9 '11 at 7:17

This example shows a simple calculation for the 3 directions value
pitch, orientation and azimuth.

if(SensorManager.getRotationMatrix(R, null, AccelerometerValues_last, MagneticFieldValues_last))
SensorManager.remapCoordinateSystem(R, SensorManager.AXIS_Y, SensorManager.AXIS_MINUS_X, remapR);
SensorManager.getOrientation(remapR, orientationValues);

Matrix.multiplyMV(orientationVector, 0, remapR, 0, sZVector, 0);
pitch = (float) (-Math.atan2(orientationVector[1], orientationVector[2]) * RADIANS_TO_DEGREES);

Matrix.multiplyMV(orientationVector, 0, remapR, 0, sZVector, 0);
orientation = (float) (-Math.atan2(orientationVector[0], orientationVector[1]) * RADIANS_TO_DEGREES);

Matrix.invertM(remapR_inv, 0, remapR, 0);
Matrix.multiplyMV(azimuthVector, 0, remapR_inv, 0, sZVector, 0);
azimuth = (float) (180 + Math.atan2(azimuthVector[0], azimuthVector[1]) * RADIANS_TO_DEGREES);

The complete code in the article How to use Android sensors?. FYI.

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