public IBB() { leftPreDist = 40; rightPreDist = 40; leftMotor = new ContinuousRotationServo(IntelliBrain.getServo(1), false, 14); rightMotor = new ContinuousRotationServo(IntelliBrain.getServo(2), true, 14); statusLED = IntelliBrain.getStatusLed(); faultLED = IntelliBrain.getFaultLed(); buzzer = IntelliBrain.getBuzzer(); try { leftRangeFinder = new SharpGP2D12(IntelliBrain.getAnalogInput(1), null); rightRangeFinder = new SharpGP2D12(IntelliBrain.getAnalogInput(2), null); leftLightSensor = IntelliBrain.getAnalogInput(6); rightLightSensor = IntelliBrain.getAnalogInput(7); } catch (Throwable t) { t.printStackTrace(); } }
public static void run(String args[]) { try { System.out.println("WheelWatcher WW-01"); // Get the user interface objects Display display = IntelliBrain.getLcdDisplay(); AnalogInput thumbwheel = IntelliBrain.getThumbWheel(); // Get the servo object and give it a Motor interface by encapsulating it // in a ContinuousRotationServo object. Motor motor = new ContinuousRotationServo(IntelliBrain.getServo(3), true); motor.setPower(1); motor.setPower(0); motor.setPower(-1); Thread.sleep(2000); // Get a shaft encoder object and initialize it with the two digital inputs it uses. IntelliBrainShaftEncoder encoder = IntelliBrain.getShaftEncoder(1); encoder.initialize(IntelliBrain.getDigitalIO(11), IntelliBrain.getDigitalIO(10)); int previousCounts = 0; int power = 0; int rpm = 0; long time = System.currentTimeMillis(); while (true) { // Calculate RPM (Revolutions Per Minute) // RPM = countsThisIteration * iterationsPerMinute / countsPerRevolution // countsThisIteration - current encoder counts minus previous count // iterationsPerMinute = 600 - ten loops per second // countsPerRevolution = 128 - fixed by design of sensor/codewheel int counts = encoder.getCounts(); display.print(1, "RPM: " + ((counts - previousCounts) * 600) / 128); previousCounts = counts; // Read the thumbwheel and scale the value to set the motor power. int velocity = (thumbwheel.sample() - 512) / 31; while (velocity == 3 || velocity == 4) { if (velocity == 3) velocity = (thumbwheel.sample() - 512) / 31; else velocity = -(thumbwheel.sample() - 512) / 31; // counts and rpm logic counts = encoder.getCounts(); previousCounts = counts; rpm = ((counts - previousCounts) * 600) / 128; display.print(0, "RPM: " + rpm); // governer logic power += (velocity - (rpm / 16.25)); // limiter if (power > 16) power = 16; if (power < -16) power = -16; display.print(0, "Power: " + power); // set power motor.setPower(power); time += 100; Thread.sleep(time - System.currentTimeMillis()); } motor.setPower(velocity); display.print(0, "Power: " + velocity); // Calculate sleep time so the next iteration starts 1/2 second after the // the previous one. time += 100; Thread.sleep(time - System.currentTimeMillis()); } } catch (Throwable t) { // Display a stack trace if an exception occurs. t.printStackTrace(); } }