public class BackgroundLocationService extends Service implements
GoogleApiClient.ConnectionCallbacks,
GoogleApiClient.OnConnectionFailedListener,
GpsStatus.Listener,
LocationListener {
// Constants here....
private GoogleApiClient mGoogleApiClient;
private LocationRequest mLocationRequest;
private LocationManager locationManager;
// Flag that indicates if a request is underway.
private boolean mInProgress;
private NotificationManagement myNotificationManager;
private Boolean servicesAvailable = false;
//And other variables here...
@Override
public void onCreate()
{
super.onCreate();
myNotificationManager = new NotificationManagement(getApplicationContext());
myNotificationManager.displayMainNotification();
mInProgress = false;
// Create the LocationRequest object
mLocationRequest = LocationRequest.create();
// Use high accuracy
mLocationRequest.setPriority(LocationRequest.PRIORITY_HIGH_ACCURACY);
// Set the update interval
mLocationRequest.setInterval(PREFERRED_INTERVAL);
// Set the fastest update interval
mLocationRequest.setFastestInterval(FASTEST_INTERVAL);
servicesAvailable = servicesConnected();
locationManager = (LocationManager) getSystemService(Context.LOCATION_SERVICE);
locationManager.addGpsStatusListener(this);
setUpLocationClientIfNeeded();
}
/**
* Create a new location client, using the enclosing class to
* handle callbacks.
*/
protected synchronized void buildGoogleApiClient()
{
this.mGoogleApiClient = new GoogleApiClient.Builder(this)
.addConnectionCallbacks(this)
.addOnConnectionFailedListener(this)
.addApi(LocationServices.API)
.build();
}
private boolean servicesConnected()
{
// Check that Google Play services is available
int resultCode = GooglePlayServicesUtil.isGooglePlayServicesAvailable(this);
// If Google Play services is available
if (ConnectionResult.SUCCESS == resultCode)
{
return true;
}
else
{
return false;
}
}
public int onStartCommand(Intent intent, int flags, int startId)
{
super.onStartCommand(intent, flags, startId);
if (!servicesAvailable || mGoogleApiClient.isConnected() || mInProgress)
return START_STICKY;
setUpLocationClientIfNeeded();
if (!mGoogleApiClient.isConnected() || !mGoogleApiClient.isConnecting() && !mInProgress)
{
mInProgress = true;
mGoogleApiClient.connect();
}
return START_STICKY;
}
private void setUpLocationClientIfNeeded()
{
if (mGoogleApiClient == null)
buildGoogleApiClient();
}
public void onGpsStatusChanged(int event)
{
}
// Define the callback method that receives location updates
@Override
public void onLocationChanged(Location location)
{
simpleGPSFilter(location);
}
// Other fancy and needed stuff here...
/**
* "Stupid" filter that utilizes experience data to filter out location noise.
* @param location Location object carrying all the needed information
*/
private void simpleGPSFilter(Location location)
{
//Loading all the required variables
int signalPower = 0;
satellites = 0;
// Getting the satellites
mGpsStatus = locationManager.getGpsStatus(mGpsStatus);
Iterable<GpsSatellite> sats = mGpsStatus.getSatellites();
if (sats != null)
{
for (GpsSatellite sat : sats)
{
if (sat.usedInFix())
{
satellites++;
signalPower += sat.getSnr();
}
}
}
if (satellites != 0)
signalPower = signalPower/satellites;
mySpeed = (location.getSpeed() * 3600) / 1000;
myAccuracy = location.getAccuracy();
myBearing = location.getBearing();
latitude = location.getLatitude();
longitude = location.getLongitude();
Log.i("START OF CYCLE", "START OF CYCLE");
Log.i("Sat Strength", Integer.toString(signalPower));
Log.i("Locked Sats", Integer.toString(satellites));
// Do the math for the coordinates distance
/*
* Earth's radius at given Latitude.
* Formula: Radius = sqrt( ((equatorR^2 * cos(latitude))^2 + (poleR^2 * sin(latitude))^2 ) / ((equatorR * cos(latitude))^2 + (poleR * sin(latitude))^2)
* IMPORTANT: Math lib uses radians for the trigonometry equations so do not forget to use toRadians()
*/
Log.i("Lat for Radius", Double.toString(latitude));
double earthRadius = Math.sqrt((Math.pow((EARTH_RADIUS_EQUATOR * EARTH_RADIUS_EQUATOR * Math.cos(Math.toRadians(latitude))), 2)
+ Math.pow((EARTH_RADIUS_POLES * EARTH_RADIUS_POLES * Math.cos(Math.toRadians(latitude))), 2))
/ (Math.pow((EARTH_RADIUS_EQUATOR * Math.cos(Math.toRadians(latitude))), 2)
+ Math.pow((EARTH_RADIUS_POLES * Math.cos(Math.toRadians(latitude))), 2)));
Log.i("Earth Radius", Double.toString(earthRadius));
/*
* Calculating distance between 2 points on map using the Haversine formula (arctangent writing) with the following algorithm
* latDifference = latitude - lastLatitude;
* lngDifference = longitude - lastLongitude;
* a = (sin(latDifference/2))^2 + cos(lastLatitude) * cos(latitude) * (sin(lngDifference/2))^2
* c = 2 * atan2( sqrt(a), sqrt(1-a) )
* distance = earthRadius * c
*/
double latDifference = latitude - lastLatitude;
double lngDifference = longitude - lastLongitude;
double a = Math.pow((Math.sin(Math.toRadians(latDifference / 2))), 2) + (Math.cos(Math.toRadians(lastLatitude))
* Math.cos(Math.toRadians(latitude))
* Math.pow((Math.sin(Math.toRadians(lngDifference / 2))), 2));
double c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a));
double distance = earthRadius * c;
Log.i("New point distance", Double.toString(distance));
// Filter logic
// Make an initial location log
if ((!isInit) && (myAccuracy < ACCEPTED_ACCURACY))
{
isInit = true;
lastLatitude = latitude;
lastLongitude = longitude;
logLocations(location);
}
else
{
// Satellite lock (use of GPS) on the higher level
if (satellites == 0)
{
// Accuracy filtering at the second level
if (myAccuracy < ACCEPTED_ACCURACY)
{
if ((distance > ACCEPTED_DISTANCE))
{
lastLatitude = latitude;
lastLongitude = longitude;
logLocations(location);
Log.i("Location Logged", "No Sats");
/*
// Calculate speed in correlation to perceived movement
double speed = distance / (PREFERRED_INTERVAL / 1000); // TODO: Need to make actual time dynamic as the fused location does not have fixed timing
if (speed < ACCEPTED_SPEED)
{
lastLatitude = latitude;
lastLongitude = longitude;
logLocations(location);
} */
}
}
}
else if ((satellites < 4) && (signalPower > ACCEPTED_SIGNAL))
{
if (myAccuracy < (ACCEPTED_ACCURACY + 50))
{
logLocations(location);
Log.i("Location Logged", "With Sats");
}
}
else
{
if (myAccuracy < (ACCEPTED_ACCURACY + 100))
{
lastSpeed = mySpeed;
lastBearing = myBearing;
lastLatitude = latitude;
lastLongitude = longitude;
logLocations(location);
Log.i("Location Logged", "With Good Sats");
}
}
}
Log.i("END OF CYCLE", "END OF CYCLE");
}
private void logLocations(Location location)
{
String myprovider = "false";
String temp = timestampFormat.format(location.getTime());
MySQLiteHelper dbHelper = new MySQLiteHelper(getApplicationContext());
try
{
dbHelper.createEntry(latitude, longitude, allschemes, temp, mySpeed, myAccuracy, myBearing, myprovider, satellites);
}
catch (Exception e)
{
e.printStackTrace();
}
CheckAutoArrive(String.valueOf(latitude), String.valueOf(longitude));
}
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