+/*
+ * Accelerometer class to access the device accelerometer
+ *
+ * @author Rikhard Kuutti <rikhard.kuutti@fudeco.com>
+ * @author Kai Rasilainen
+ * @copyright (c) 2010 Speed Freak team
+ * @license http://opensource.org/licenses/gpl-license.php GNU Public License
+ */
+
#include "accelerometer.h"
#include "math.h"
initValues();
}
+/**
+ * Constructor for Accelerometer class that takes accelerometer sample rate as parameter
+ *
+ * @param p_SampleRate the desired sample rate of accelerometer in milliseconds
+ */
Accelerometer::Accelerometer(int p_SampleRate)
{
calculate = new Calculate();
* Default destructor for Accelerometer class
*
*/
-Accelerometer::~Accelerometer() {
+Accelerometer::~Accelerometer()
+{
}
/**
* Start measuring
*
*/
-void Accelerometer::start() {
+void Accelerometer::start()
+{
initValues();
calibrate();
timer->start(sampleRate);
* Init class members
*
*/
-void Accelerometer::initValues() {
- accelerationX=0;
- accelerationY=0;
- accelerationZ=0;
- trueAccelerationX=0;
- trueAccelerationY=0;
- trueAccelerationZ=0;
- previousAccelerationX=0;
- previousAccelerationY=0;
- previousAccelerationZ=0;
- previousSpeed=0;
- currentSpeed=0;
- currentAcceleration=0;
- previousAcceleration=0;
- totalAcceleration=0;
- intervalTime=0;
- totalTime=0;
- distanceTraveled=0;
- lastDistanceTraveled=0;
- averageSpeed=0;
- sampleRate=0;
- reverseAcceleration = false;
+void Accelerometer::initValues()
+{
+ calculate->reset();
+ accelerationX = 0;
+ accelerationY = 0;
+ accelerationZ = 0;
+ trueAccelerationX = 0;
+ trueAccelerationY = 0;
+ trueAccelerationZ = 0;
+ previousAccelerationX = 0;
+ previousAccelerationY = 0;
+ previousAccelerationZ = 0;
+ previousSpeed = 0;
+ currentSpeed = 0;
+ currentAcceleration = 0;
+ previousAcceleration = 0;
+ totalAcceleration = 0;
+ intervalTime = 0;
+ totalTime = 0;
+ distanceTraveled = 0;
+ lastDistanceTraveled = 0;
+ averageSpeed = 0;
+ sampleRate = 0;
+ firstRun = true;
+ calibrationX = 0;
+ calibrationY = 0;
+ calibrationZ = 0;
}
/**
* accelerometer when stationary.
*
*/
-void Accelerometer::calibrate(void) {
- QFile file(kFileName);
- if(!file.open(QIODevice::ReadOnly | QIODevice::Text)) return;
+void Accelerometer::calibrate(void)
+{
+ unsigned int iteration = 0;
- unsigned int iteration;
- iteration = 0;
- QByteArray line;
- QRegExp rx("([0-9-]+) ([0-9-]+) ([0-9-]+)");
+ do {
+ // Opening the file must be done inside the loop
+ // or else the values obtained from file.readLine();
+ // will be empty for all but the first iteration
+ QFile file(kFileName);
+ if(!file.open(QIODevice::ReadOnly | QIODevice::Text))
+ {
+ return;
+ }
+
+ QByteArray line;
+ QRegExp rx("([0-9-]+) ([0-9-]+) ([0-9-]+)");
- do{
// Read data, parse with regular expressions and process it
line = file.readLine();
rx.indexIn(line);
- int Sample_X = rx.cap(1).toInt();
- int Sample_Y = rx.cap(2).toInt();
- int Sample_Z = rx.cap(3).toInt();
+ int sampleX = rx.cap(1).toInt();
+ int sampleY = rx.cap(2).toInt();
+ int sampleZ = rx.cap(3).toInt();
- sstatex += Sample_X; // Accumulate Samples
- sstatey += Sample_Y; // for all axes.
- sstatez += Sample_Z;
+ calibrationX = calibrationX + sampleX; // Accumulate Samples
+ calibrationY = calibrationY + sampleY; // for all axes.
+ calibrationZ = calibrationZ + sampleZ;
iteration++;
- }while(iteration!=1024); // 1024 times
- sstatex = sstatex>>10; // division by 1024
- sstatey = sstatey>>10;
- sstatez = sstatez>>10;
+ file.close();
+ } while(iteration != 1024); // 1024 times
- file.close();
+ calibrationX = calibrationX>>10; // division by 1024
+ calibrationY = calibrationY>>10;
+ calibrationZ = calibrationZ>>10;
}
/**
* Stop measuring
*
*/
-void Accelerometer::stop() {
+void Accelerometer::stop()
+{
timer->stop();
}
/**
* Set the sample rate of accelerometer
*
- * @param int pSampleRate desired sample rate
+ * @param pSampleRate desired sample rate
*/
-void Accelerometer::setSampleRate(int pSampleRate) {
+void Accelerometer::setSampleRate(int pSampleRate)
+{
sampleRate = pSampleRate;
}
-int Accelerometer::getSampleRate() {
+/**
+ * Get the sample rate of accelerometer
+ *
+ * @return sampleRate the sample rate of the accelerometer in milliseconds
+ */
+int Accelerometer::getSampleRate()
+{
return sampleRate;
}
-qreal Accelerometer::getCurrentAcceleration() {
+qreal Accelerometer::getCurrentAcceleration()
+{
return currentAcceleration;
}
-qreal Accelerometer::getPreviousTotalAcceleration() {
+qreal Accelerometer::getPreviousTotalAcceleration()
+{
return previousAcceleration;
}
-qreal Accelerometer::getTotalAcceleration() {
+qreal Accelerometer::getTotalAcceleration()
+{
return totalAcceleration;
}
-qreal Accelerometer::getDistanceTraveled() {
+qreal Accelerometer::getDistanceTraveled()
+{
return distanceTraveled;
}
-qreal Accelerometer::getLastDistanceTraveled() {
+qreal Accelerometer::getLastDistanceTraveled()
+{
return lastDistanceTraveled;
}
-qreal Accelerometer::getAverageSpeed() {
+qreal Accelerometer::getAverageSpeed()
+{
return averageSpeed;
}
-qreal Accelerometer::getTrueAccelerationX() {
+qreal Accelerometer::getTrueAccelerationX()
+{
return trueAccelerationX;
}
-qreal Accelerometer::getTrueAccelerationY() {
+qreal Accelerometer::getTrueAccelerationY()
+{
return trueAccelerationY;
}
-qreal Accelerometer::getTrueAccelerationZ() {
+qreal Accelerometer::getTrueAccelerationZ()
+{
return trueAccelerationZ;
}
-qreal Accelerometer::getPreviousSpeed() {
+qreal Accelerometer::getPreviousSpeed()
+{
return previousSpeed;
}
-qreal Accelerometer::getCurrentSpeed() {
+qreal Accelerometer::getCurrentSpeed()
+{
return currentSpeed;
}
-qreal Accelerometer::getIntervalTime() {
+qreal Accelerometer::getIntervalTime()
+{
return intervalTime;
}
+qreal Accelerometer::getTotalTime()
+{
+ return totalTime;
+}
+
+int Accelerometer::getCalibrationX()
+{
+ return calibrationX;
+}
+
+int Accelerometer::getCalibrationY()
+{
+ return calibrationY;
+}
+
+int Accelerometer::getCalibrationZ()
+{
+ return calibrationZ;
+}
+
/**
* Processes Accelerometer data
*
+ * Opens the accelerometer value file for reading and reads and parses accelerometer values.
+ * Forwards data to Calculate class for processing
+ *
*/
void Accelerometer::processData()
{
QFile file(kFileName);
- if(!file.open(QIODevice::ReadOnly | QIODevice::Text)) return;
+ if(!file.open(QIODevice::ReadOnly | QIODevice::Text))
+ {
+ return;
+ }
// Read data, parse with regular expressions and process it
QByteArray line = file.readLine();
- //QByteArray line;
QRegExp rx("([0-9-]+) ([0-9-]+) ([0-9-]+)");
rx.indexIn(line);
smoothData(rx.cap(1).toInt(), rx.cap(2).toInt(), rx.cap(3).toInt());
- // Add calibration
- trueAccelerationX = accelerationX - sstatex;
- trueAccelerationY = accelerationY - sstatey;
- trueAccelerationZ = accelerationZ - sstatez;
+ // Apply calibration
+ accelerationX = accelerationX - calibrationX;
+ accelerationX = accelerationY - calibrationY;
+ accelerationX = accelerationZ - calibrationZ;
+
+ // If the function is run the first time, make sure that there
+ // are no differences with previous and current acceleration
+ if (firstRun) {
+ previousAccelerationX = accelerationX;
+ previousAccelerationY = accelerationY;
+ previousAccelerationZ = accelerationZ;
+ firstRun = false;
+ }
// Discrimination window for acceleration values
- if (trueAccelerationX <= 30 && trueAccelerationX >= -30) { trueAccelerationX = 0; }
- if (trueAccelerationY <= 30 && trueAccelerationY >= -30) { trueAccelerationY = 0; }
- if (trueAccelerationZ <= 30 && trueAccelerationZ >= -30) { trueAccelerationZ = 0; }
+ /*if ( fabs(accelerationX) < 20 ) { accelerationX = 0; }
+ if ( fabs(accelerationY) < 20 ) { accelerationY = 0; }
+ if ( fabs(accelerationZ) < 20 ) { accelerationZ = 0; }*/
+
+ // Calculate the current acceleration for each axis
+ trueAccelerationX = (accelerationX - previousAccelerationX) /*/ 1000 * kGravity*/;
+ trueAccelerationY = (accelerationY - previousAccelerationY) /*/ 1000 * kGravity*/;
+ trueAccelerationZ = (accelerationZ - previousAccelerationZ) /*/ 1000 * kGravity*/;
- trueAccelerationX = (accelerationX - previousAccelerationX) / 1000 * kGravity;
- trueAccelerationY = (accelerationY - previousAccelerationY) / 1000 * kGravity;
- trueAccelerationZ = (accelerationZ - previousAccelerationZ) / 1000 * kGravity;
+ // Discrimination window for acceleration values
+ if ( fabs(trueAccelerationX) < 20 ) { trueAccelerationX = 0; }
+ if ( fabs(trueAccelerationY) < 20 ) { trueAccelerationY = 0; }
+ if ( fabs(trueAccelerationZ) < 20 ) { trueAccelerationZ = 0; }
previousAccelerationX = accelerationX;
previousAccelerationY = accelerationY;
trueAccelerationY * trueAccelerationY +
trueAccelerationZ * trueAccelerationZ );
- totalAcceleration = currentAcceleration - previousAcceleration;
- previousAcceleration = currentAcceleration;
+ // Discrimination window for currentAcceleration
+ if ( fabs(currentAcceleration) < 20 ) { currentAcceleration = 0; }
// Measure time interval
- intervalTime = now.restart(); // millisecs to secs
- intervalTime = intervalTime/1000;
+ intervalTime = now.restart();
+ intervalTime = intervalTime/1000; // millisecs to secs
totalTime = totalTime + intervalTime;
- // Filter out acceleration caused by noise.
- if (fabs(currentAcceleration) < 0.09) {
- return;
- }
-
// Using calculate class to calculate velocity and distance etc.
- calculate->CalculateParameters(currentAcceleration,intervalTime );
+ calculate->calculateParameters(currentAcceleration,intervalTime );
+
+ currentSpeed = calculate->getCurrentSpeed();
+ distanceTraveled = calculate->getDistanceTraveled();
- currentSpeed = calculate->CurrentSpeed();
- distanceTraveled = calculate->DistanceTraveled();
file.close();
}
/**
* Smooths Accelerometer data
*
- * @param qreal x Accelerometers x-axis raw input
- * @param qreal y Accelerometers y-axis raw input
- * @param qreal z Accelerometers z-axis raw input
+ * @param x accelerometer's x-axis input
+ * @param y accelerometer's y-axis input
+ * @param z accelerometer's z-axis input
*/
-void Accelerometer::smoothData(qreal x, qreal y, qreal z) {
+void Accelerometer::smoothData(qreal x, qreal y, qreal z)
+{
accelerationX = x;
accelerationY = y;
accelerationZ = z;
- if(sampleIndex>0) {
+ if (sampleIndex > 0)
+ {
accelerationX = previousAccelerationX + (accelerationX-previousAccelerationX) * kFilteringFactor;
accelerationY = previousAccelerationY + (accelerationY-previousAccelerationY) * kFilteringFactor;
accelerationZ = previousAccelerationZ + (accelerationZ-previousAccelerationZ) * kFilteringFactor;
}
sampleIndex++;
}
+