Exemplo n.º 1
0
def main():
  arduino = Arduino()
  pid_client = PidClient()

  if(LOG):
    timestr = time.strftime("%Y%m%d-%H%M%S")
    filename = "pid_log-" + timestr + ".txt"
    file = open(filename,"w+")
    loglines = 0

  while(True):
    print("waiting for state...")
    state = arduino.waitForState() # blocking
    newControl = pid_client.determineControl(state)

    if(LOG):
      logLine = str(state) + "," + str(newControl) + "\n"
      logLine = logLine.strip("[]")
      file.write(logLine)
      loglines += 1
      if(loglines % 1000 == 0):
        print("loglines: {}".format(loglines))
        file.flush()

    arduino.accelerateMotorPower(newControl)
Exemplo n.º 2
0
class World(BaseWorld):
    MAX_EPISODE_DURATION = 10  # seconds
    MAX_ANGLE = 0.25  # in radians. ~> 14.3 degrees
    MAX_DISTANCE = 30  # in radians

    def __init__(self):
        self.state = State()
        self.arduino = Arduino()
        self.observation_space = SomeSpace(4)
        self.action_space = SomeSpace(1, 1.0, -1.0)
        self.episodeStartTime = datetime.datetime.now()
        self.arduino.resetRobot()

        # Pin Setup:
        self.buttonPin = 4
        GPIO.setmode(GPIO.BCM)
        GPIO.setup(self.buttonPin, GPIO.IN, pull_up_down=GPIO.PUD_UP)

    # returns four states
    def getObservation(self):
        self.state = self.arduino.getState()
        self.observation = self.state[:4]
        self.outerDt = self.state[4]
        self.targetRPS = self.state[5]
        return self.observation

    # returns observation, reward, done
    def step(self, action):
        self.accelerateMotors(action)
        observation = self.getObservation()
        if observation == False:
            return False, False, False

        return observation, self.__reward(), self.isDone()

    def reset(self):
        print("initiating reset...")
        self.arduino.stopMotors()
        self.arduino.resetRobot()  # primarily setting xPos = 0
        print('\a')
        print("waiting on reset button...")
        while 1:
            if GPIO.input(self.buttonPin):  # button is released
                a = 1
                # do Nothing
            else:  # button is pressed:
                print("button pressed! Here we go!")
                break

        self.episodeStartTime = datetime.datetime.now()
        return self.getObservation()

    def updateMotors(self, newPower):
        self.arduino.updateMotorPower(newPower)

    def accelerateMotors(self, acc):
        self.arduino.accelerateMotorPower(acc)

    # determines if episode is done
    # conditions:
    # 0) Robot has fallen over
    # 1) Robot is too far from center-balanced
    # 2) Episode is over MAX_EPISODE_DURATION
    def isDone(self):
        return self.__isFallen() or self.__isFarAway() or self.__isRetired()

    def __reward(self):
        return 1

    def __stopMotors(self):
        self.arduino.stopMotors()

    # Is the robot angle or x position too ugly?
    def __isFallen(self):
        if (math.fabs(self.observation[0]) > self.MAX_ANGLE):
            print("!!!!!!!!!!!!!!!isFallen. Angle: {} > {}".format(
                self.observation[0], self.MAX_ANGLE))
            return True
        else:
            return False

    def __isFarAway(self):
        if (math.fabs(self.observation[2]) > self.MAX_DISTANCE):
            print("!!!!!!!!!!!!!!!isFarAway. Distance: {} > {}".format(
                self.observation[2], self.MAX_DISTANCE))
            return True
        else:
            return False

    # Is the episode over MAX_EPISODE_DURATION
    def __isRetired(self):
        delta = datetime.datetime.now() - self.episodeStartTime
        if (delta.seconds > self.MAX_EPISODE_DURATION):
            print("!!!!!!!!!!!!!!!isRetired {} > {}".format(
                delta.seconds, self.MAX_EPISODE_DURATION))
            return True
        else:
            return False