I tried to use the Z axis data from SensorEvent.values, but it doesn't detect rotation of my phone in the XY plane, ie. around the Z-axis.

I am using this as a reference for the co-ordinate axes. Is it correct?


How do I measure that motion using accelerometer values?

These games do something similar: Extreme Skater, Doodle Jump.

PS: my phone orientation will be landscape.

3 Answers 3


Essentially, there is 2 cases here: the device is laying flat and not flat. Flat here means the angle between the surface of the device screen and the world xy plane (I call it the inclination) is less than 25 degree or larger than 155 degree. Think of the phone lying flat or tilt up just a little bit from a table.

First you need to normalize the accelerometer vector.
That is if g is the vector returns by the accelerometer sensor event values. In code

float[] g = new float[3]; 
g = event.values.clone();

double norm_Of_g = Math.sqrt(g[0] * g[0] + g[1] * g[1] + g[2] * g[2]);

// Normalize the accelerometer vector
g[0] = g[0] / norm_Of_g
g[1] = g[1] / norm_Of_g
g[2] = g[2] / norm_Of_g

Then the inclination can be calculated as

int inclination = (int) Math.round(Math.toDegrees(Math.acos(g[2])));


if (inclination < 25 || inclination > 155)
    // device is flat
    // device is not flat

For the case of laying flat, you have to use a compass to see how much the device is rotating from the starting position.

For the case of not flat, the rotation (tilt) is calculated as follow

int rotation = (int) Math.round(Math.toDegrees(Math.atan2(g[0], g[1])));

Now rotation = 0 means the device is in normal position. That is portrait without any tilt for most phone and probably landscape for tablet. So if you hold a phone as in your picture above and start rotating, the rotation will change and when the phone is in landscape the rotation will be 90 or -90 depends on the direction of rotation.

  • 5
    Brilliant! Usually people suggest using Sensor.TYPE_MAGNETIC_FIELD as well for this task, however you simplified the solution; and by the way accelerometer is the only sensor guaranteed to be present on Android.
    – Kurovsky
    Sep 19, 2014 at 12:20
  • 2
    Can i ask you what is the math behind the "Normalization of the acc vector?" and why you do atan(g[1]/g[0]) ( or atan(y/x) ) to get the degrees? ? @Hoan Nguyen Feb 12, 2016 at 7:23
  • 1
    @AndreaBaccega As far as I understood normalization is required to bring down the values in the range on -1 to 1, which is the acceptable range for Math.acos(), for numbers lying outside this range it returns NAN. There are some links if someone is interested: in.mathworks.com/help/matlab/ref/… mathopenref.com/arccos.html Feb 24, 2016 at 9:24
  • 1
    can anybody tell, how to find angle when the "device is flat position"? Do I want to use "TYPE_MAGNETIC_FIELD"? "TYPE_MAGNETIC_FIELD" is not working in Lollipop(moto e). How to I do this?
    – SKK
    Sep 19, 2016 at 13:23
  • 1
    @savram yes the sign of the z accelerometer component will tell the facing of the phone. Positive means face up and negative face down. Jun 29, 2021 at 5:38

The accelerometer is sufficient for checking if the phone is flat as Hoan very nicely demonstrated.

For anyone who arrives here looking to not only check if the phone flat, but what the rotation of the phone is, it can be achieved through the Rotation Vector Motion Sensor.

private double pitch, tilt, azimuth;

public void onSensorChanged(SensorEvent event) {
    //Get Rotation Vector Sensor Values
    double[] g = convertFloatsToDoubles(event.values.clone());

    double norm = Math.sqrt(g[0] * g[0] + g[1] * g[1] + g[2] * g[2] + g[3] * g[3]);
    g[0] /= norm;
    g[1] /= norm;
    g[2] /= norm;
    g[3] /= norm;

    //Set values to commonly known quaternion letter representatives
    double x = g[0];
    double y = g[1];
    double z = g[2];
    double w = g[3];

    //Calculate Pitch in degrees (-180 to 180)
    double sinP = 2.0 * (w * x + y * z);
    double cosP = 1.0 - 2.0 * (x * x + y * y);
    pitch = Math.atan2(sinP, cosP) * (180 / Math.PI);

    //Calculate Tilt in degrees (-90 to 90)
    double sinT = 2.0 * (w * y - z * x);
    if (Math.abs(sinT) >= 1)
        tilt = Math.copySign(Math.PI / 2, sinT) * (180 / Math.PI);
        tilt = Math.asin(sinT) * (180 / Math.PI);

    //Calculate Azimuth in degrees (0 to 360; 0 = North, 90 = East, 180 = South, 270 = West)
    double sinA = 2.0 * (w * z + x * y);
    double cosA = 1.0 - 2.0 * (y * y + z * z);
    azimuth = Math.atan2(sinA, cosA) * (180 / Math.PI);

private double[] convertFloatsToDoubles(float[] input)
    if (input == null)
        return null;

    double[] output = new double[input.length];

    for (int i = 0; i < input.length; i++)
        output[i] = input[i];

    return output;

Then to check if the phone is flat you can simply compare the tilt and pitch values with a tolerance values. For example

public boolean flatEnough(double degreeTolerance) {
    return tilt <= degreeTolerance && tilt >= -degreeTolerance && pitch <= degreeTolerance && pitch >= -degreeTolerance;

The advantage to doing it this way is you can check if the phone is being held in any specific rotation.

It is worth noting that the app's orientation will not affect the values of pitch, tilt, and azimuth.

  • 1
    Why is the tilt between -90 to 90? What if i need to find / tilt vs \ tilt?
    – Vairavan
    Jan 24, 2019 at 19:28
  • 1
    when i tried to compile this it failed with an ArrayIndexOutOfBounds on g[3] as length was 3... the solution i came up with for producing a value from 90 (vertical pointing upwards) to -90 (vertical pointing downwards) with 0 meaning the phone was in a horizontal position was replacing the sinT equation for sinT = (g[1] - g[2] * g[0]).toDouble()
    – davy307
    Apr 24, 2019 at 14:28
  • probably late to the party, but still... I have an issue with tilt left/right in this solution (and with @Borovez as well). When device is in portrait, I can look at variation of tilt angle and detect if device is being right or left tilted. When device is in landscape, whether the tilt is left or right, the tilt angle always goes towards 0° (whether from 90° or -90°). How can I detect left/right tilt motion in landscape? Thanks
    – superjos
    May 23, 2023 at 12:52

Working off of the perfect response from @Dan

He missed a very slight bit of information that @davy307 pointed out.

When initializing the mAccelerometer, you must define it as Sensor.TYPE_ROTATION_VECTOR otherwise, it will not have the 3rd rotation vector and throw an ArrayIndexOutOfBounds exception.

mSensorManager = (SensorManager)getSystemService(Context.SENSOR_SERVICE);
mAccelerometer = mSensorManager.getDefaultSensor(Sensor.TYPE_ROTATION_VECTOR);

Otherwise, this is a perfect solution... Appreciated!

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