adafruit_bno055 / examples / position / position.ino @ e5a77cdb
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#include <Wire.h> |
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#include <Adafruit_Sensor.h> |
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#include <Adafruit_BNO055.h> |
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double xPos = 0, yPos = 0, headingVel = 0; |
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uint16_t BNO055_SAMPLERATE_DELAY_MS = 10; //how often to read data from the board |
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uint16_t PRINT_DELAY_MS = 500; // how often to print the data |
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uint16_t printCount = 0; //counter to avoid printing every 10MS sample |
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//velocity = accel*dt (dt in seconds) |
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//position = 0.5*accel*dt^2 |
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double ACCEL_VEL_TRANSITION = (double)(BNO055_SAMPLERATE_DELAY_MS) / 1000.0; |
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double ACCEL_POS_TRANSITION = 0.5 * ACCEL_VEL_TRANSITION * ACCEL_VEL_TRANSITION; |
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double DEG_2_RAD = 0.01745329251; //trig functions require radians, BNO055 outputs degrees |
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// Check I2C device address and correct line below (by default address is 0x29 or 0x28) |
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// id, address |
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Adafruit_BNO055 bno = Adafruit_BNO055(55, 0x28); |
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void setup(void) |
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{
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Serial.begin(115200); |
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if (!bno.begin()) |
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{
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Serial.print("No BNO055 detected");
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while (1); |
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} |
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delay(1000); |
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} |
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void loop(void) |
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{
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// |
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unsigned long tStart = micros(); |
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sensors_event_t orientationData , linearAccelData; |
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bno.getEvent(&orientationData, Adafruit_BNO055::VECTOR_EULER); |
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// bno.getEvent(&angVelData, Adafruit_BNO055::VECTOR_GYROSCOPE); |
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bno.getEvent(&linearAccelData, Adafruit_BNO055::VECTOR_LINEARACCEL); |
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xPos = xPos + ACCEL_POS_TRANSITION * linearAccelData.acceleration.x; |
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yPos = yPos + ACCEL_POS_TRANSITION * linearAccelData.acceleration.y; |
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// velocity of sensor in the direction it's facing |
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headingVel = ACCEL_VEL_TRANSITION * linearAccelData.acceleration.x / cos(DEG_2_RAD * orientationData.orientation.x); |
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if (printCount * BNO055_SAMPLERATE_DELAY_MS >= PRINT_DELAY_MS) {
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//enough iterations have passed that we can print the latest data |
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Serial.print("Heading: ");
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Serial.println(orientationData.orientation.x); |
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Serial.print("Position: ");
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Serial.print(xPos); |
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Serial.print(" , ");
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Serial.println(yPos); |
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Serial.print("Speed: ");
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Serial.println(headingVel); |
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Serial.println("-------");
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printCount = 0; |
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} |
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else {
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printCount = printCount + 1; |
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} |
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while ((micros() - tStart) < (BNO055_SAMPLERATE_DELAY_MS * 1000)) |
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{
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//poll until the next sample is ready |
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} |
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} |
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void printEvent(sensors_event_t* event) {
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Serial.println(); |
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Serial.print(event->type); |
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double x = -1000000, y = -1000000 , z = -1000000; //dumb values, easy to spot problem |
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if (event->type == SENSOR_TYPE_ACCELEROMETER) {
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x = event->acceleration.x; |
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y = event->acceleration.y; |
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z = event->acceleration.z; |
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} |
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else if (event->type == SENSOR_TYPE_ORIENTATION) {
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x = event->orientation.x; |
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y = event->orientation.y; |
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z = event->orientation.z; |
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} |
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else if (event->type == SENSOR_TYPE_MAGNETIC_FIELD) {
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x = event->magnetic.x; |
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y = event->magnetic.y; |
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z = event->magnetic.z; |
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} |
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else if ((event->type == SENSOR_TYPE_GYROSCOPE) || (event->type == SENSOR_TYPE_ROTATION_VECTOR)) {
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x = event->gyro.x; |
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y = event->gyro.y; |
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z = event->gyro.z; |
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} |
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Serial.print(": x= ");
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Serial.print(x); |
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Serial.print(" | y= ");
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Serial.print(y); |
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Serial.print(" | z= ");
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Serial.println(z); |
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} |
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