New answers tagged

0

What you can do is calculate a current acceleration magnitude using the square root of the sum of the squares for x, y, and z. At rest, this value will be constant (Earth's gravitational pull) no matter how the phone is oriented. If someone hits or picks up the phone, then this magnitude will temporarily change and you can detect that delta. You may need to ...


0

Read following page. https://learn.adafruit.com/getting-started-with-the-nrf8001-bluefruit-le-breakout/pinouts It's REQ pin is considered as chip select.


0

Ended up solving the problem by using Android's PowerManager and PARTIAL_WAKE_LOCK. It consumes more battery but I really need the sampling frequency to be kept nearly constant.


3

No, the first phone with a M-series co-processor was the iPhone 5s. You can use CMPedometer.isStepCountingAvailable() to check whether step counting is available on the device.


0

You probably want to run the code which reads the accelerometer as a service instead of in an App. This is described well by AleAdam at this similar answer here: Keep UI Thread running when screen is off Several tutorials are mentioned on that other thread answer.


0

I don't want to discourage you, but getting accurate position using an accelerometer and gyroscope is not a simple matter. While the math says that integrating acceleration twice will yield position, the truth is, the noise in the system quickly dominates the true position signal (noise in the accel itself, all the little taps and jolts it takes, plus ...


0

What you can do is to write the data to a file on the device and read it from the file. // When sensor value has changed @Override public void onSensorChanged(SensorEvent event){ if(event.sensor.getType() == Sensor.TYPE_ACCELEROMETER){ //Perform a background task to store the data new SensorEventLoggerTask().execute(event); // And continue ...


0

Sadly there is no way stop it completely. It will always restart if you try to stop it


0

There are few phones comes without google play services. I believe disabling is not possible. If you try, it may break the phone.


1

Answering number 3 first, on modern iPhones (5S and later) the accelerometer is never really turned off and resides in a special motion coprocessor. On these devices, the energy cost for creating the data is constant, but getting the data is expensive. It requires a timer to routinely wake up the main processor, read the data, wake up your application and ...


0

In MPU9xxx magnetometer is physically separated from acc/gyro. So, axes are different. Just look on picture from datasheet: Z axis is mirrored, X and Y are swaped.


0

The accelerometer sensors used in cellphones today contain noise that is easily noticeable. Also, they will be very sensitive to the noise present in everyday objects, such as the table they are on which will move slightly as someone walks by. This noise and environmental noise will be in the accel output data and the way you use the values can add error to ...


0

All systems will drift, and sub-degree is considered very accurate today. If you are trying to track the locations of these animals only with inertial sensors (i.e. without GPS or some other type of geo tag), the accel and gyro sensors in modern cellphones will be dominated by noise after several minutes or 10s of minutes if you're lucky. You likely will ...


1

Try this code. Set second argument of FileWriter to true. Thus you can append your existing file File file = new File("Hello.txt"); file.createNewFile(); FileWriter writer = new FileWriter(file,true); writer.write("Writes the content to the file"); writer.flush(); writer.close();


0

Vehicles odometers are allowed to over estimate in europe by 7%. My car has about 3% over estimate. There are simple solutions, that work for cars, that have been posted here on Stackoverflow multiple times, including by myself. There is no simple solution for pedestrians.


0

After many many hours of research and fiddling I found out that nearly all electronic sensors have a bias. (bias is an offset) Now even the accelerometers apparently have serious offsets. So what I ended up doing is building a small test stand that was balanced by four screws. By running an active while loop, and outputting live data from the accelerometer ...


0

There are two small but significant things you can do: For each GPS sample, check its accuracy. If it's over some threshold (say 20 meters) - ignore it. Add a method that detects if the mobile is static or not. You can do it by reading the device's accelerometer - if the delta between two readings is bigger than some threshold - the car is moving. If ...


0

For question 1, vehicle odometer, in the US, are only required to be within 5mph of the actual speed at 50mph. My experience shows most vehicles are more erroneous than the law requires. That 10% difference could easily become the 1.5 miles you saw.


-1

Answer to question 2: problem certainly comes from the accurary of the GPS location. Android Location object comes with an estimated accuracy for the given coordinates. Suppose you stay in absolute position (0,0) without moving. The android device GPS could produce the following Locations stream: (1,1) with an accuracy of 2m (-2,3) with an accuracy of 5m ...


5

The problem in your code is: int *a; readAcc(a); … *a = (int16_t)(block[0] | block[1] << 8); In the first line, you declare a pointer to an int. This pointer points somewhere, since it is not initialized. Then, in the last line, you write to this somewhere in memory. Instead, you should write this: int16_t a[3]; readAcc(a); That way, you ...


1

You can use this formula to calculate alpha. α := dt / (T + dt) // T = 1/fc, dt = sampling interval In your case dt = 1/50Hz = 0.02 ms T = 1/fc = 1/8 = 0.125 ms α = 0.02/(0.02 + 0.125) = 0.137931034 Take a look at this link for further explanation


0

You need to activate the accelerometer, and register an eventlistener, see example below. Checkout the CocosSharp test project for more details: https://github.com/mono/CocosSharp/blob/master/tests/tests/classes/tests/AccelerometerTest/AccelerometerTest.cs GameView.Accelerometer.Enabled = true; var accelListener = new CCEventListenerAccelerometer(); ...


0

You might consider Joan's short programs for a slightly different IMU as posted here https://www.raspberrypi.org/forums/viewtopic.php?f=44&t=139584&p=949755#p949755 Have a great afternoon! :)


1

Faced this same issue and got the same cricket noises you did. I partially got around the issue by refactoring such that my detected activity is processed in it's own AsyncTask class. I then wrote a series of junits that could pass in a simulate event information to this activity detection processing class. Given that android has a limit on the number of ...


1

What you are seeing is the result of time drift. Let's assume that the accelerometer readings you are measuring have a very small error, dErr, at every time point. Once you integrate these values to get velocity, the error at each time point will be multiplied by a factor t. Integrating a second time to get position will cause the original error to be ...


0

Based on @alex's answer, here is the code snippet: private float[] gravityValues = null; private float[] magneticValues = null; @Override public void onSensorChanged(SensorEvent event) { if ((gravityValues != null) && (magneticValues != null) && (event.sensor.getType() == Sensor.TYPE_ACCELEROMETER)) { ...


0

Timer timer; MyTimerTask myTimerTask; @Override public void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); setContentView(R.layout.activity_main); sensorManager=(SensorManager) getSystemService(SENSOR_SERVICE); sensorManager.registerListener(this, sensorManager.getDefaultSensor(Sensor.TYPE_ACCELEROMETER), ...



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