本文整理汇总了Java中org.firstinspires.ftc.robotcore.external.navigation.AngleUnit类的典型用法代码示例。如果您正苦于以下问题:Java AngleUnit类的具体用法?Java AngleUnit怎么用?Java AngleUnit使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
AngleUnit类属于org.firstinspires.ftc.robotcore.external.navigation包,在下文中一共展示了AngleUnit类的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Java代码示例。
示例1: getVuMarkOrientation
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
public Orientation getVuMarkOrientation()
{
Orientation targetAngle = null;
VuforiaTrackable target = vuforia.getTarget(0);
RelicRecoveryVuMark vuMark = RelicRecoveryVuMark.from(target);
if (vuforia.isTargetVisible(target) && vuMark != RelicRecoveryVuMark.UNKNOWN)
{
OpenGLMatrix pose = vuforia.getTargetPose(target);
if (pose != null)
{
targetAngle = Orientation.getOrientation(
pose, AxesReference.EXTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES);
robot.tracer.traceInfo("TargetRot", "%s: xRot=%6.2f, yRot=%6.2f, zRot=%6.2f",
vuMark.toString(),
targetAngle.firstAngle, targetAngle.secondAngle, targetAngle.thirdAngle);
}
}
return targetAngle;
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:22,代码来源:VuforiaVision.java
示例2: updateLocation
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
public void updateLocation(){
OpenGLMatrix pose = ((VuforiaTrackableDefaultListener)relicVuMark.getListener()).getPose();
telemetry.addData("Pose", format(pose));
/* We further illustrate how to decompose the pose into useful rotational and
* translational components */
if (pose != null) {
VectorF trans = pose.getTranslation();
Orientation rot = Orientation.getOrientation(pose, AxesReference.EXTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES);
// Extract the X, Y, and Z components of the offset of the target relative to the robot
tX = trans.get(0);
tY = trans.get(1);
tZ = trans.get(2);
// Extract the rotational components of the target relative to the robot
rX = rot.firstAngle;
rY = rot.secondAngle;
rZ = rot.thirdAngle;
//Z is forward-backward
//x is sideways
}
}
开发者ID:SCHS-Robotics,项目名称:Team9261-2017-2018,代码行数:24,代码来源:MecanumDebug.java
示例3: getVuMarkOrientation
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
private Orientation getVuMarkOrientation()
{
Orientation targetAngle = null;
VuforiaTrackable target = vuforia.getTarget(0);
RelicRecoveryVuMark vuMark = RelicRecoveryVuMark.from(target);
if (vuforia.isTargetVisible(target) && vuMark != RelicRecoveryVuMark.UNKNOWN)
{
OpenGLMatrix pose = vuforia.getTargetPose(target);
if (pose != null)
{
targetAngle = Orientation.getOrientation(
pose, AxesReference.EXTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES);
}
}
return targetAngle;
}
开发者ID:trc492,项目名称:FtcSamples,代码行数:19,代码来源:FtcTestVuMark.java
示例4: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override public void runOpMode() {
// Set up the parameters with which we will use our IMU. Note that integration
// algorithm here just reports accelerations to the logcat log; it doesn't actually
// provide positional information.
BNO055IMU.Parameters parameters = new BNO055IMU.Parameters();
parameters.angleUnit = BNO055IMU.AngleUnit.DEGREES;
parameters.accelUnit = BNO055IMU.AccelUnit.METERS_PERSEC_PERSEC;
parameters.calibrationDataFile = "AdafruitIMUCalibration.json"; // see the calibration sample opmode
parameters.loggingEnabled = true;
parameters.loggingTag = "IMU";
parameters.accelerationIntegrationAlgorithm = new JustLoggingAccelerationIntegrator();
// Retrieve and initialize the IMU. We expect the IMU to be attached to an I2C port
// on a Core Device Interface Module, configured to be a sensor of type "AdaFruit IMU",
// and named "imu".
imu = hardwareMap.get(BNO055IMU.class, "imu");
imu.initialize(parameters);
// Set up our telemetry dashboard
composeTelemetry();
// Wait until we're told to go
waitForStart();
// Start the logging of measured acceleration
imu.startAccelerationIntegration(new Position(), new Velocity(), 1000);
// Loop and update the dashboard
while (opModeIsActive()) {
telemetry.update();
}
}
开发者ID:ykarim,项目名称:FTC2016,代码行数:34,代码来源:SensorAdafruitIMU.java
示例5: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override public void runOpMode() {
// Set up the parameters with which we will use our IMU. Note that integration
// algorithm here just reports accelerations to the logcat log; it doesn't actually
// provide positional information.
BNO055IMU.Parameters parameters = new BNO055IMU.Parameters();
parameters.angleUnit = BNO055IMU.AngleUnit.DEGREES;
parameters.accelUnit = BNO055IMU.AccelUnit.METERS_PERSEC_PERSEC;
parameters.calibrationDataFile = "BNO055IMUCalibration.json"; // see the calibration sample opmode
parameters.loggingEnabled = true;
parameters.loggingTag = "IMU";
parameters.accelerationIntegrationAlgorithm = new JustLoggingAccelerationIntegrator();
// Retrieve and initialize the IMU. We expect the IMU to be attached to an I2C port
// on a Core Device Interface Module, configured to be a sensor of type "AdaFruit IMU",
// and named "imu".
imu = hardwareMap.get(BNO055IMU.class, "imu");
imu.initialize(parameters);
// Set up our telemetry dashboard
composeTelemetry();
// Wait until we're told to go
waitForStart();
// Start the logging of measured acceleration
imu.startAccelerationIntegration(new Position(), new Velocity(), 1000);
// Loop and update the dashboard
while (opModeIsActive()) {
telemetry.update();
}
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:34,代码来源:SensorBNO055IMU.java
示例6: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override public void runOpMode() throws InterruptedException {
// Get a reference to the gyroscope from the hardware map
gyroscope = hardwareMap.get(Gyroscope.class, "gyro");
// Get a reference to the *implementation* of the gyroscope on the HiTechnic sensor.
// Usually, you won't need to examine internal implementation details in this way, but
// we do so to illustrate aspects of what is going on inside the sensor.
hiTechnicNxtGyroSensor = hardwareMap.get(HiTechnicNxtGyroSensor.class, "gyro");
// Alternately, we could have cast: hiTechnicNxtGyroSensor = (HiTechnicNxtGyroSensor)gyro;
// Optionally, calibrate the gyro to establish a good value for its "zero deg/s" bias
// voltage value. Calibration is not entirely necessary, as the default bias voltage
// usually does a reasonable job. While calibration is performed, the gyro must remain
// motionless. Note that for this gyro sensor, calibration data is not persistently
// written to EEPROM, but rather should be performed each run.
telemetry.log().add("calibrating...");
hiTechnicNxtGyroSensor.calibrate(3000, 100);
telemetry.log().add("...done...waiting for start...");
// wait for the start button to be pressed.
waitForStart();
telemetry.log().clear();
// loop until the opmode has been asked to stop
while (opModeIsActive()) {
double raw = hiTechnicNxtGyroSensor.readRawVoltage();
double bias = hiTechnicNxtGyroSensor.getBiasVoltage();
telemetry.addData("rate", "%.4f deg/s", gyroscope.getAngularVelocity(AngleUnit.DEGREES).zRotationRate);
telemetry.addData("raw ", "%.4fv", raw);
telemetry.addData("bias", "%.4fv", bias);
telemetry.addData("volts", "%.4fv", raw-bias);
telemetry.addData("deg/s/v", "%.4f deg/s/v", hiTechnicNxtGyroSensor.getDefaultDegreesPerSecondPerVolt());
telemetry.update();
idle();
}
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:41,代码来源:SensorHTGyro.java
示例7: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
public void runOpMode() throws InterruptedException
{
setupVuforia();
lastKnownLocation = createMatrix(0,0,0,0,0,0);
waitForStart();
visionTargets.activate();
while(opModeIsActive())
{
OpenGLMatrix latestLocation = listener.getUpdatedRobotLocation();
vuMark = RelicRecoveryVuMark.from(relicVuMark);
if(latestLocation !=null)
{lastKnownLocation = latestLocation;}
float[] coordinates = lastKnownLocation.getTranslation().getData();
robotX = coordinates[0];
robotY = coordinates[1];
robotAngle = Orientation.getOrientation(lastKnownLocation, AxesReference.EXTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES).thirdAngle;
RelicRecoveryVuMark key = vuMark;
if (vuMark != RelicRecoveryVuMark.UNKNOWN) {
telemetry.addData("Navi", "%s visible", vuMark);
}else{
telemetry.addData("Navi", "not visible");
telemetry.addData("Navi Sees:", vuMark);
}
telemetry.addData("Last Known Location", formatMatrix(lastKnownLocation));
telemetry.addData("key",key.toString());
telemetry.update();
}
}
开发者ID:SCHS-Robotics,项目名称:Team9261-2017-2018,代码行数:35,代码来源:Vuforia.java
示例8: init
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override
public void init() throws InterruptedException {
motor1 = robot.hardwareMap.dcMotor.get("motor1");
motor2 = robot.hardwareMap.dcMotor.get("motor2");
motor3 = robot.hardwareMap.dcMotor.get("motor3");
motor4 = robot.hardwareMap.dcMotor.get("motor4");
motor1.setDirection(DcMotor.Direction.FORWARD);
motor2.setDirection(DcMotor.Direction.REVERSE);
motor3.setDirection(DcMotor.Direction.FORWARD);
motor4.setDirection(DcMotor.Direction.REVERSE);
modeEncoders();
BNO055IMU.Parameters parameters = new BNO055IMU.Parameters();
parameters.mode = BNO055IMU.SensorMode.IMU;
parameters.angleUnit = BNO055IMU.AngleUnit.DEGREES;
parameters.accelUnit = BNO055IMU.AccelUnit.METERS_PERSEC_PERSEC;
parameters.loggingEnabled = false;
imu = robot.hardwareMap.get(BNO055IMU.class, "imu");
imu.initialize(parameters);
robot.telemetry.addData("Mode", "calibrating...");
robot.telemetry.update();
while(!imu.isGyroCalibrated()){
sleep(50);
}
robot.telemetry.addData("Mode", "waiting for start");
robot.telemetry.addData("imu calib status", imu.getCalibrationStatus().toString());
robot.telemetry.addData("Angle", getAngle());
robot.telemetry.update();
}
开发者ID:SCHS-Robotics,项目名称:Team9261-2017-2018,代码行数:38,代码来源:Drive.java
示例9: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
public void runOpMode() throws InterruptedException
{
setupVuforia();
lastKnownLocation = createMatrix(0,0,0,0,0,0);
waitForStart();
visionTargets.activate();
while(opModeIsActive())
{
OpenGLMatrix latestLocation = listener.getUpdatedRobotLocation();
vuMark = RelicRecoveryVuMark.from(relicVuMark);
if(latestLocation !=null)
{lastKnownLocation = latestLocation;}
float[] coordinates = lastKnownLocation.getTranslation().getData();
robotX = coordinates[0];
robotY = coordinates[1];
robotAngle = Orientation.getOrientation(lastKnownLocation, AxesReference.EXTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES).thirdAngle;
if (vuMark != RelicRecoveryVuMark.UNKNOWN) {
key = vuMark;
}
}
}
开发者ID:SCHS-Robotics,项目名称:Team9261-2017-2018,代码行数:28,代码来源:BasicVuforia.java
示例10: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override public void runOpMode() throws InterruptedException {
// Set up the parameters with which we will use our IMU. Note that integration
// algorithm here just reports accelerations to the logcat log; it doesn't actually
// provide positional information.
BNO055IMU.Parameters parameters = new BNO055IMU.Parameters();
parameters.angleUnit = BNO055IMU.AngleUnit.DEGREES;
parameters.accelUnit = BNO055IMU.AccelUnit.METERS_PERSEC_PERSEC;
parameters.calibrationDataFile = "AdafruitIMUCalibration.json"; // see the calibration sample opmode
parameters.loggingEnabled = true;
parameters.loggingTag = "IMU";
parameters.accelerationIntegrationAlgorithm = new JustLoggingAccelerationIntegrator();
// Retrieve and initialize the IMU. We expect the IMU to be attached to an I2C port
// on a Core Device Interface Module, configured to be a sensor of type "AdaFruit IMU",
// and named "imu".
imu = hardwareMap.get(BNO055IMU.class, "imu");
imu.initialize(parameters);
// Set up our telemetry dashboard
composeTelemetry();
// Wait until we're told to go
waitForStart();
// Start the logging of measured acceleration
imu.startAccelerationIntegration(new Position(), new Velocity(), 1000);
// Loop and update the dashboard
while (opModeIsActive()) {
telemetry.update();
idle();
}
}
开发者ID:forgod01,项目名称:5094-2016-2017,代码行数:35,代码来源:SensorAdafruitIMU.java
示例11: runPeriodic
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override
public void runPeriodic(double elapsedTime)
{
dashboard.displayPrintf(1, "Angle:x=%6.1f,y=%6.1f,z=%6.1f",
imu.imu.getAngularOrientation(AxesReference.INTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES).firstAngle,
imu.imu.getAngularOrientation(AxesReference.INTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES).secondAngle,
imu.imu.getAngularOrientation(AxesReference.INTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES).thirdAngle);
dashboard.displayPrintf(2, "Heading: x=%6.1f,y=%6.1f,z=%6.1f",
imu.gyro.getXHeading().value,
imu.gyro.getYHeading().value,
imu.gyro.getZHeading().value);
dashboard.displayPrintf(3, "TurnRate: x=%6.1f,y=%6.1f,z=%6.1f",
imu.gyro.getXRotationRate().value,
imu.gyro.getYRotationRate().value,
imu.gyro.getZRotationRate().value);
dashboard.displayPrintf(4, "Accel: x=%6.1f,y=%6.1f,z=%6.1f",
imu.accel.getXAcceleration().value,
imu.accel.getYAcceleration().value,
imu.accel.getZAcceleration().value);
dashboard.displayPrintf(5, "Vel: x=%6.1f,y=%6.1f,z=%6.1f",
imu.accel.getXVelocity().value,
imu.accel.getYVelocity().value,
imu.accel.getZVelocity().value);
dashboard.displayPrintf(6, "Dist: x=%6.1f,y=%6.1f,z=%6.1f",
imu.accel.getXDistance().value,
imu.accel.getYDistance().value,
imu.accel.getZDistance().value);
dashboard.displayPrintf(7, "Touch=%s", touchSensor.isActive());
dashboard.displayPrintf(8, "Color=%x,rgb=%f/%f/%f",
colorSensor.getRawData(0, FtcColorSensor.DataType.COLOR_NUMBER).value.intValue(),
colorSensor.getRawData(0, FtcColorSensor.DataType.RED).value,
colorSensor.getRawData(0, FtcColorSensor.DataType.GREEN).value,
colorSensor.getRawData(0, FtcColorSensor.DataType.BLUE).value);
dashboard.displayPrintf(9, "HSV=%f/%f/%f",
colorSensor.getRawData(0, FtcColorSensor.DataType.HUE).value,
colorSensor.getRawData(0, FtcColorSensor.DataType.SATURATION).value,
colorSensor.getRawData(0, FtcColorSensor.DataType.VALUE).value);
dashboard.displayPrintf(10, "Range=%f",
rangeSensor.getRawData(0, FtcDistanceSensor.DataType.DISTANCE_INCH).value);
}
开发者ID:trc492,项目名称:FtcSamples,代码行数:41,代码来源:FtcTestRevHub.java
示例12: runOpMode
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
@Override public void runOpMode() throws InterruptedException {
// Set up the parameters with which we will use our IMU. Note that integration
// algorithm here just reports accelerations to the logcat log; it doesn't actually
// provide positional information.
BNO055IMU.Parameters parameters = new BNO055IMU.Parameters();
parameters.angleUnit = BNO055IMU.AngleUnit.DEGREES;
parameters.accelUnit = BNO055IMU.AccelUnit.METERS_PERSEC_PERSEC;
parameters.calibrationDataFile = "AdafruitIMUCalibration.json"; // see the calibration sample opmode
parameters.loggingEnabled = true;
parameters.loggingTag = "IMU";
parameters.accelerationIntegrationAlgorithm = new JustLoggingAccelerationIntegrator();
// Retrieve and initialize the IMU. We expect the IMU to be attached to an I2C port
// on a Core Device Interface Module, configured to be a sensor of type "AdaFruit IMU",
// and named "imu".
imu = hardwareMap.get(BNO055IMU.class, "imu");
imu.initialize(parameters);
// Set up our telemetry dashboard
composeTelemetry();
// Wait until we're told to go
waitForStart();
// Start the logging of measured acceleration
imu.startAccelerationIntegration(new Position(), new Velocity(), 1000);
// Loop and update the dashboard
while (opModeIsActive()) {
telemetry.update();
}
}
开发者ID:MHS-FIRSTrobotics,项目名称:RadicalRobotics2017,代码行数:34,代码来源:SensorAdafruitIMU.java
示例13: formatAngle
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
String formatAngle(AngleUnit angleUnit, double angle) {
return formatDegrees(AngleUnit.DEGREES.fromUnit(angleUnit, angle));
}
开发者ID:ykarim,项目名称:FTC2016,代码行数:4,代码来源:SensorAdafruitIMU.java
示例14: formatDegrees
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
String formatDegrees(double degrees){
return String.format(Locale.getDefault(), "%.1f", AngleUnit.DEGREES.normalize(degrees));
}
开发者ID:ykarim,项目名称:FTC2016,代码行数:4,代码来源:SensorAdafruitIMU.java
示例15: getRawXData
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
/**
* This method returns the raw data of the specified type for the x-axis.
*
* @param dataType specifies the data type.
* @return raw data of the specified type for the x-axis.
*/
@Override
public SensorData<Double> getRawXData(DataType dataType)
{
final String funcName = "getRawXData";
double value = 0.0;
long currTagId = FtcOpMode.getLoopCounter();
if (dataType == DataType.ROTATION_RATE)
{
if (currTagId != turnRateTagId)
{
turnRateData = imu.getAngularVelocity();
turnRateTagId = currTagId;
}
value = turnRateData.xRotationRate;
}
else if (dataType == DataType.HEADING)
{
if (currTagId != headingTagId)
{
if (USE_QUATERNION)
{
getEulerAngles(eulerAngles);
}
else
{
headingData = imu.getAngularOrientation(
AxesReference.INTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES);
}
headingTagId = currTagId;
}
if (USE_QUATERNION)
{
value = eulerAngles[0];
}
else
{
value = headingData.firstAngle;
}
}
SensorData<Double> data = new SensorData<>(TrcUtil.getCurrentTime(), value);
if (debugEnabled)
{
dbgTrace.traceEnter(funcName, TrcDbgTrace.TraceLevel.API);
dbgTrace.traceExit(funcName, TrcDbgTrace.TraceLevel.API,
"=(timestamp:%.3f,value:%f", data.timestamp, data.value);
}
return data;
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:59,代码来源:FtcBNO055Imu.java
示例16: getRawYData
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
/**
* This method returns the raw data of the specified type for the y-axis.
*
* @param dataType specifies the data type.
* @return raw data of the specified type for the y-axis.
*/
@Override
public SensorData<Double> getRawYData(DataType dataType)
{
final String funcName = "getRawYData";
double value = 0.0;
long currTagId = FtcOpMode.getLoopCounter();
if (dataType == DataType.ROTATION_RATE)
{
if (currTagId != turnRateTagId)
{
turnRateData = imu.getAngularVelocity();
turnRateTagId = currTagId;
}
value = turnRateData.yRotationRate;
}
else if (dataType == DataType.HEADING)
{
if (currTagId != headingTagId)
{
if (USE_QUATERNION)
{
getEulerAngles(eulerAngles);
}
else
{
headingData = imu.getAngularOrientation(
AxesReference.INTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES);
}
headingTagId = currTagId;
}
if (USE_QUATERNION)
{
value = eulerAngles[1];
}
else
{
value = headingData.secondAngle;
}
}
SensorData<Double> data = new SensorData<>(TrcUtil.getCurrentTime(), value);
if (debugEnabled)
{
dbgTrace.traceEnter(funcName, TrcDbgTrace.TraceLevel.API);
dbgTrace.traceExit(funcName, TrcDbgTrace.TraceLevel.API,
"=(timestamp:%.3f,value:%f", data.timestamp, data.value);
}
return data;
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:59,代码来源:FtcBNO055Imu.java
示例17: getRawZData
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
/**
* This method returns the raw data of the specified type for the z-axis.
*
* @param dataType specifies the data type.
* @return raw data of the specified type for the z-axis.
*/
@Override
public SensorData<Double> getRawZData(DataType dataType)
{
final String funcName = "getRawZData";
double value = 0.0;
long currTagId = FtcOpMode.getLoopCounter();
if (dataType == DataType.ROTATION_RATE)
{
if (currTagId != turnRateTagId)
{
turnRateData = imu.getAngularVelocity();
turnRateTagId = currTagId;
}
value = turnRateData.zRotationRate;
}
else if (dataType == DataType.HEADING)
{
if (currTagId != headingTagId)
{
if (USE_QUATERNION)
{
getEulerAngles(eulerAngles);
}
else
{
headingData = imu.getAngularOrientation(
AxesReference.INTRINSIC, AxesOrder.XYZ, AngleUnit.DEGREES);
}
headingTagId = currTagId;
}
if (USE_QUATERNION)
{
value = -eulerAngles[2];
}
else
{
//
// The Z-axis returns positive heading in the anticlockwise direction, so we must negate it for
// our convention.
//
value = -headingData.thirdAngle;
}
}
SensorData<Double> data = new SensorData<>(TrcUtil.getCurrentTime(), value);
if (debugEnabled)
{
dbgTrace.traceEnter(funcName, TrcDbgTrace.TraceLevel.API);
dbgTrace.traceExit(funcName, TrcDbgTrace.TraceLevel.API,
"=(timestamp:%.3f,value:%f", data.timestamp, data.value);
}
return data;
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:63,代码来源:FtcBNO055Imu.java
示例18: FtcBNO055Imu
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
/**
* Constructor: Creates an instance of the object.
*
* @param hardwareMap specifies the global hardware map.
* @param instanceName specifies the instance name.
*/
public FtcBNO055Imu(HardwareMap hardwareMap, String instanceName)
{
if (debugEnabled)
{
dbgTrace = new TrcDbgTrace(moduleName + "." + instanceName, tracingEnabled, traceLevel, msgLevel);
}
//
// Initialize the BNO055 IMU.
//
BNO055IMU.Parameters imuParams = new BNO055IMU.Parameters();
if (USE_QUATERNION)
{
imuParams.mode = BNO055IMU.SensorMode.IMU;
imuParams.useExternalCrystal = true;
imuParams.pitchMode = BNO055IMU.PitchMode.WINDOWS;
}
else
{
imuParams.calibrationDataFile = "BNO055IMUCalibration.json";
}
imuParams.angleUnit = BNO055IMU.AngleUnit.DEGREES;
imuParams.accelUnit = BNO055IMU.AccelUnit.METERS_PERSEC_PERSEC;
imuParams.loggingEnabled = true;
imuParams.loggingTag = "IMU";
imuParams.accelerationIntegrationAlgorithm = new JustLoggingAccelerationIntegrator();
imu = hardwareMap.get(BNO055IMU.class, instanceName);
imu.initialize(imuParams);
//
// Create the gyro object of the IMU.
// Note that the heading data on the z-axis is in Ordinal system with a range of -180 to 180 degrees.
// So we need to initialize the Cartesian converter with the range values.
//
gyro = new Gyro(instanceName);
//
// Note:
// We can convert only X (roll) and Z (yaw) axes to Cartesian.
// For Y (pitch), when pointing upright, it will return 90-degree but pitching forward or backward will
// yield the same decrement. So one can't tell if it is rotating forward or backward. This makes it
// impossible to do the Cartesian conversion.
//
gyro.setXValueRange(-180.0, 180.0);
gyro.setZValueRange(-180.0, 180.0);
//
// Create the accelerometer object of the IMU.
//
accel = new Accelerometer(instanceName);
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:54,代码来源:FtcBNO055Imu.java
示例19: composeTelemetry
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
void composeTelemetry() {
// At the beginning of each telemetry update, grab a bunch of data
// from the IMU that we will then display in separate lines.
telemetry.addAction(new Runnable() { @Override public void run()
{
// Acquiring the angles is relatively expensive; we don't want
// to do that in each of the three items that need that info, as that's
// three times the necessary expense.
angles = imu.getAngularOrientation(AxesReference.INTRINSIC, AxesOrder.ZYX, AngleUnit.DEGREES);
gravity = imu.getGravity();
}
});
telemetry.addLine()
.addData("status", new Func<String>() {
@Override public String value() {
return imu.getSystemStatus().toShortString();
}
})
.addData("calib", new Func<String>() {
@Override public String value() {
return imu.getCalibrationStatus().toString();
}
});
telemetry.addLine()
.addData("heading", new Func<String>() {
@Override public String value() {
return formatAngle(angles.angleUnit, angles.firstAngle);
}
})
.addData("roll", new Func<String>() {
@Override public String value() {
return formatAngle(angles.angleUnit, angles.secondAngle);
}
})
.addData("pitch", new Func<String>() {
@Override public String value() {
return formatAngle(angles.angleUnit, angles.thirdAngle);
}
});
telemetry.addLine()
.addData("grvty", new Func<String>() {
@Override public String value() {
return gravity.toString();
}
})
.addData("mag", new Func<String>() {
@Override public String value() {
return String.format(Locale.getDefault(), "%.3f",
Math.sqrt(gravity.xAccel*gravity.xAccel
+ gravity.yAccel*gravity.yAccel
+ gravity.zAccel*gravity.zAccel));
}
});
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:59,代码来源:SensorBNO055IMU.java
示例20: composeTelemetry
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit; //导入依赖的package包/类
void composeTelemetry() {
// At the beginning of each telemetry update, grab a bunch of data
// from the IMU that we will then display in separate lines.
telemetry.addAction(new Runnable() { @Override public void run()
{
// Acquiring the angles is relatively expensive; we don't want
// to do that in each of the three items that need that info, as that's
// three times the necessary expense.
angles = imu.getAngularOrientation(AxesReference.INTRINSIC, AxesOrder.ZYX, AngleUnit.DEGREES);
}
});
telemetry.addLine()
.addData("status", new Func<String>() {
@Override public String value() {
return imu.getSystemStatus().toShortString();
}
})
.addData("calib", new Func<String>() {
@Override public String value() {
return imu.getCalibrationStatus().toString();
}
});
telemetry.addLine()
.addData("heading", new Func<String>() {
@Override public String value() {
return formatAngle(angles.angleUnit, angles.firstAngle);
}
})
.addData("roll", new Func<String>() {
@Override public String value() {
return formatAngle(angles.angleUnit, angles.secondAngle);
}
})
.addData("pitch", new Func<String>() {
@Override public String value() {
return formatAngle(angles.angleUnit, angles.thirdAngle);
}
});
}
开发者ID:trc492,项目名称:Ftc2018RelicRecovery,代码行数:43,代码来源:SensorBNO055IMUCalibration.java
注:本文中的org.firstinspires.ftc.robotcore.external.navigation.AngleUnit类示例整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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