public ControllerWithAsyncronousTelemetry( MotorMixer mixer, AxesController pid, Gyro gyro, Accelerometer accelerometer, Radio radio, ControllerLoopSettings loopSettings, MotorSettings motorSettings, ILogger logger) { _mixer = mixer; _pid = pid; _gyro = gyro; _accelerometer = accelerometer; _radio = radio; _loopSettings = loopSettings; _motorSettings = motorSettings; _logger = logger; _serialPort.DataReceived += new SerialDataReceivedEventHandler(serialPort_DataReceived); _serialPort.Open(); Thread.Sleep(1000); gyro.Zero(); accelerometer.Zero(); Start(); }
public TestController(MotorMixer mixer, AxesController pid, Gyro gyro, Radio radio, ControllerLoopSettings loopSettings, MotorSettings motorSettings, ILogger logger) { long previousTime = DateTime.Now.Ticks; long lastRadioTime = 0; while (true) { long currentTime = DateTime.Now.Ticks; if (currentTime >= (lastRadioTime + loopSettings.RadioLoopPeriod)) { Debug.Print((loopSettings.LoopUnit/(float) (currentTime - lastRadioTime)).ToString()); lastRadioTime = currentTime; radio.Update(); gyro.Update(); pid.Update(radio.Axes, gyro.Axes, (float) (currentTime - lastRadioTime)/loopSettings.LoopUnit); mixer.Update(radio.Throttle, pid.Axes); } } }
public Controller(MotorMixer mixer, PID pid, Gyro gyro, Radio radio, ControllerLoopSettings loopSettings) { long currentTime = DateTime.Now.Ticks; long previousTime = DateTime.Now.Ticks; long lastRadioTime = 0; long lastControlTime = 0; bool systemArmed = false; while (true) { if (currentTime >= (lastRadioTime + loopSettings.RadioLoopPeriod)) { lastRadioTime = currentTime; radio.Update(); systemArmed = radio.Throttle > loopSettings.MinimumThrottle; currentTime = DateTime.Now.Ticks; } if (currentTime >= (lastControlTime + loopSettings.ControlAlgorithmPeriod)) { lastControlTime = currentTime; if (systemArmed) { gyro.Update(); pid.Update(radio.AngularVelocity, gyro.AngularVelocity, (float) (currentTime - previousTime)/loopSettings.LoopUnit); mixer.Update(radio.Throttle, pid.Output); } else { mixer.SetSafe(); } previousTime = currentTime; } currentTime = DateTime.Now.Ticks; } }
public Controller(MotorMixer mixer, AxesController pid, Gyro gyro, Accelerometer accelerometer, Radio radio, ControllerLoopSettings loopSettings, MotorSettings motorSettings, ILogger logger) { TelemetryData telemetryData = new TelemetryData(); long previousTime = DateTime.Now.Ticks; long lastRadioTime = 0; long lastSensorTime = 0; long lastControlTime = 0; long lastMotorTime = 0; long lastTelemetryTime = 0; bool systemArmed = false; Thread.Sleep(1000); gyro.Zero(); accelerometer.Zero(); while (true) { long currentTime = DateTime.Now.Ticks; if (currentTime >= (lastRadioTime + loopSettings.RadioLoopPeriod)) { lastRadioTime = currentTime; radio.Update(); systemArmed = radio.Throttle > motorSettings.MinimumOutput; if (!systemArmed) logger.Flush(); } currentTime = DateTime.Now.Ticks; if (systemArmed && (currentTime >= (lastSensorTime + loopSettings.SensorLoopPeriod))) { lastSensorTime = currentTime; gyro.Update(); accelerometer.Update(); } currentTime = DateTime.Now.Ticks; if (systemArmed && (currentTime >= (lastControlTime + loopSettings.ControlAlgorithmPeriod))) { lastControlTime = currentTime; pid.Update(radio.Axes, gyro.Axes, (float) (currentTime - previousTime)/loopSettings.LoopUnit); previousTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastMotorTime + loopSettings.MotorLoopPeriod)) { if (systemArmed) mixer.Update(radio.Throttle, pid.Axes); else mixer.SetSafe(); lastMotorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (systemArmed && (currentTime >= (lastTelemetryTime + loopSettings.TelemetryLoopPeriod))) { telemetryData.Update(gyro.Axes, radio.Axes, pid.Axes, currentTime); lastTelemetryTime = currentTime; logger.Write(telemetryData); } if (!systemArmed) pid.ZeroIntegral(); } }
public ControllerWithGyroDebug(MotorMixer mixer, AxesController pid, Gyro gyro, Accelerometer accelerometer,Radio radio, ControllerLoopSettings loopSettings, MotorSettings motorSettings, ILogger logger) { long lastRadioTime = 0; long lastSensorTime = 0; long lastControlTime = 0; long lastMotorTime = 0; long lastTelemetryTime = 0; bool systemArmed = false; var serialPort = new SerialPort("COM1",115200); serialPort.Open(); while (true) { long currentTime = DateTime.Now.Ticks; if (currentTime >= (lastRadioTime + loopSettings.RadioLoopPeriod)) { radio.Update(); systemArmed = radio.Throttle > motorSettings.MinimumOutput; if (!systemArmed) logger.Flush(); lastRadioTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastSensorTime + loopSettings.SensorLoopPeriod)) { gyro.Update(); lastSensorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastControlTime + loopSettings.ControlAlgorithmPeriod)) { if (systemArmed) pid.Update(radio.Axes, gyro.Axes, (float)(currentTime - lastControlTime) / loopSettings.LoopUnit); lastControlTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastMotorTime + loopSettings.MotorLoopPeriod)) { if (systemArmed) mixer.Update(radio.Throttle, pid.Axes); else mixer.SetSafe(); lastMotorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastTelemetryTime + loopSettings.TelemetryLoopPeriod)) { Debug.Print( //byte[] buffer = System.Text.Encoding.UTF8.GetBytes( //"\r" + currentTime + //"\tR:" + radio.Axes.Pitch +); "\rP:" + gyro.Axes.Pitch + "\rR:" + gyro.Axes.Roll + "\rY:" + gyro.Axes.Yaw //"\tP" + pid.Axes.Pitch ); //serialPort.Write(buffer, 0, buffer.Length); lastTelemetryTime = currentTime; } } }
public ControllerWithAccelerometerDebug(MotorMixer mixer, AxesController pid, Gyro gyro, Accelerometer accelerometer, Radio radio, ControllerLoopSettings loopSettings, MotorSettings motorSettings, ILogger logger) { long lastRadioTime = 0; long lastSensorTime = 0; long lastControlTime = 0; long lastMotorTime = 0; long lastTelemetryTime = 0; bool systemArmed = false; Thread.Sleep(1000); gyro.Zero(); accelerometer.Zero(); var serialPort = new SerialPort("COM1",115200); serialPort.Open(); while (true) { long currentTime = DateTime.Now.Ticks; if (currentTime >= (lastRadioTime + loopSettings.RadioLoopPeriod)) { radio.Update(); systemArmed = radio.Throttle > motorSettings.MinimumOutput; if (!systemArmed) logger.Flush(); lastRadioTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastSensorTime + loopSettings.SensorLoopPeriod)) { gyro.Update(); accelerometer.Update(); lastSensorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastControlTime + loopSettings.ControlAlgorithmPeriod)) { if (systemArmed) pid.Update(radio.Axes, gyro.Axes, (float)(currentTime - lastControlTime) / loopSettings.LoopUnit); lastControlTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastMotorTime + loopSettings.MotorLoopPeriod)) { if (systemArmed) mixer.Update(radio.Throttle, pid.Axes); else mixer.SetSafe(); lastMotorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastTelemetryTime + loopSettings.TelemetryLoopPeriod)) { byte[] buffer= new byte[12]; BitConverter.ToBytes(ref buffer, 0, accelerometer.Axes.Pitch); BitConverter.ToBytes(ref buffer, 4, accelerometer.Axes.Roll); BitConverter.ToBytes(ref buffer, 8, accelerometer.Axes.Yaw); serialPort.Write(buffer, 0, buffer.Length); lastTelemetryTime = currentTime; } } }
public Sensors(Gyro gyro ) { _gyro = gyro; }
public ControllerWithLoopTimeDebug(MotorMixer mixer, AxesController pid, Gyro gyro, Radio radio, ControllerLoopSettings loopSettings, MotorSettings motorSettings, ILogger logger) { long lastRadioTime = 0; long lastSensorTime = 0; long lastControlTime = 0; long lastMotorTime = 0; long lastTelemetryTime = 0; float currentRadioFrequency = 0; float currentSensorFrequency = 0; float currentControlFrequency = 0; float currentMotorFrequency = 0; bool systemArmed = false; SerialPort serialPort = new SerialPort("COM1",115200); serialPort.Open(); while (true) { long currentTime = DateTime.Now.Ticks; if (currentTime >= (lastRadioTime + loopSettings.RadioLoopPeriod)) { currentRadioFrequency = loopSettings.LoopUnit / (float)(currentTime - lastRadioTime); radio.Update(); systemArmed = radio.Throttle > motorSettings.MinimumOutput; if (!systemArmed) logger.Flush(); lastRadioTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastSensorTime + loopSettings.SensorLoopPeriod)) { currentSensorFrequency = loopSettings.LoopUnit / (float)(currentTime - lastSensorTime); gyro.Update(); lastSensorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastControlTime + loopSettings.ControlAlgorithmPeriod)) { currentControlFrequency = loopSettings.LoopUnit / (float)(currentTime - lastControlTime); if (systemArmed) pid.Update(radio.Axes, gyro.Axes, (float)(currentTime - lastControlTime) / loopSettings.LoopUnit); lastControlTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastMotorTime + loopSettings.MotorLoopPeriod)) { currentMotorFrequency = loopSettings.LoopUnit / (float)(currentTime - lastMotorTime); if (systemArmed) mixer.Update(radio.Throttle, pid.Axes); else mixer.SetSafe(); lastMotorTime = currentTime; } currentTime = DateTime.Now.Ticks; if (currentTime >= (lastTelemetryTime + loopSettings.TelemetryLoopPeriod)) { float currentTelemetryFrequency = loopSettings.LoopUnit / (float)(currentTime - lastTelemetryTime); byte[] buffer = System.Text.Encoding.UTF8.GetBytes( "\r" + currentTime + "\tR: " + currentRadioFrequency + "\tS: " + currentSensorFrequency + "\tC: " + currentControlFrequency + "\tM: " + currentMotorFrequency + "\tT: " + currentTelemetryFrequency + "\t"); serialPort.Write(buffer, 0, buffer.Length); lastTelemetryTime = currentTime; } } }