def __init__(self, conffile):
        Observable.__init__(self)
	cp = ConfigParser()
	cp.read(conffile)

	if not Globals.globSimulate:
	    wiringpi.wiringPiSetupGpio()

	self.md = MotorDriver([
		    cp.getint("MotorDriver", "LEFT_L"),
		    cp.getint("MotorDriver", "LEFT_R"),
		    cp.getint("MotorDriver", "RIGHT_L"),
		    cp.getint("MotorDriver", "RIGHT_R"),
		    cp.getint("MotorDriver", "VERTICAL_L"),
		    cp.getint("MotorDriver", "VERTICAL_R"),
		    ])
	self.md.start()

	self.ds = DistanceSensor(
		    cp.getint("DistanceSensor", "TRIGGER"),
		    cp.getint("DistanceSensor", "ECHO")
		    )
	self.ds.start()

	self.acl = AltitudeControlLoop(self.md, self.ds)

	self.update("MotorDriver", self.md)
	self.update("DistanceSensor", self.ds)
	self.update("AltitudeControlLoop", self.acl)

	self.md.subscribe(self.update)
	self.ds.subscribe(self.update)
	self.acl.subscribe(self.update)

	self.setCamera(False)
Exemplo n.º 2
0
class TankoService(Service):

    def __init__(self, index):
        self.start_pwm()
        self.start_dc_motors()
        value = [
        dbus.Byte(0x5A),
        dbus.Byte(0x00),
        dbus.Byte(100),
        dbus.Byte(0x5A),
        dbus.Byte(0x5A),
        dbus.Byte(0x5A),
        dbus.Byte(0x5A),
        dbus.Byte(0x5A),
        dbus.Byte(100),
        dbus.Byte(100)]
        self.move_motors(value)

        Service.__init__(self, index, SVC_UUID, True)
        self.rxCharacteristic = RxCharacteristic(self)
        self.txCharacteristic = TxCharacteristic(self)
        self.add_characteristic(self.rxCharacteristic)
        self.add_characteristic(self.txCharacteristic)

    def start_pwm(self):
        self.pwm = PCA9685(0x40, debug=False)
        self.pwm.setPWMFreq(50)

    def start_dc_motors(self):
        self.motorDriver = MotorDriver()

    def move_motors(self, value):
        print("---")
        self.value = value
        # Move servo motors
        for channel in range(0, 8):
            i = value[channel]
            self.pwm.setServoAngle(channel,i)
            print("Channel %d: %d" % (channel, i))

        # self.rxCharacteristic.send_update()

        # Move DC motors
        m1 = value[8]
        m2 = value[9]
        self.motorDriver.move(m1 - 100, m2 - 100)
Exemplo n.º 3
0
from MotorDriver import MotorDriver as Motor
from time import sleep
motor = Motor(8, 10)

while (True):
    motor.drive(50, 50)
        elif class_label == 1 and not media_player.is_playing():
            media_player.play()
            motor_driver.__start_motor__()

        print()


print("Setting everything up...")

start = time.time()

# Setting up main objects that control execution
audio_recorder = AudioRecorder()
audio_recorder.__start_audio__()

motor_driver = MotorDriver()
model_runner = ModelRunner()

media_player = vlc.MediaPlayer(LULLABY_FILE)
old_volume = media_player.audio_get_volume()
media_player.audio_set_volume(100)

end = time.time()

print("Start-up in {} seconds".format(end - start))

finish_time = datetime.datetime.now() + datetime.timedelta(seconds=30)

while datetime.datetime.now() < finish_time:
    # Actually records the audio and runs through the model
    get_and_classify_audio(audio_recorder, model_runner, media_player,
class HeliosController(Observable):
    md = None
    ds = None
    acl = None
    cam = None
    status = {}

    def __init__(self, conffile):
        Observable.__init__(self)
	cp = ConfigParser()
	cp.read(conffile)

	if not Globals.globSimulate:
	    wiringpi.wiringPiSetupGpio()

	self.md = MotorDriver([
		    cp.getint("MotorDriver", "LEFT_L"),
		    cp.getint("MotorDriver", "LEFT_R"),
		    cp.getint("MotorDriver", "RIGHT_L"),
		    cp.getint("MotorDriver", "RIGHT_R"),
		    cp.getint("MotorDriver", "VERTICAL_L"),
		    cp.getint("MotorDriver", "VERTICAL_R"),
		    ])
	self.md.start()

	self.ds = DistanceSensor(
		    cp.getint("DistanceSensor", "TRIGGER"),
		    cp.getint("DistanceSensor", "ECHO")
		    )
	self.ds.start()

	self.acl = AltitudeControlLoop(self.md, self.ds)

	self.update("MotorDriver", self.md)
	self.update("DistanceSensor", self.ds)
	self.update("AltitudeControlLoop", self.acl)

	self.md.subscribe(self.update)
	self.ds.subscribe(self.update)
	self.acl.subscribe(self.update)

	self.setCamera(False)
	#self.acl.debug = True
	#self.md.debug = True

    def shutdown(self):
	self.md.shutdown()
	self.md.join()
	self.ds.shutdown()
	self.ds.join()
	self.setCamera(False)

    def turnLeft(self):
        self.md.turnLeft()
    def turnRight(self):
        self.md.turnRight()

    def forward(self):
        self.md.forward()
    def backward(self):
        self.md.backward()
    def up(self):
        self.md.up()
    def down(self):
        self.md.down()

    def setSpeed(self, val):
    	self.md.setSpeed(val)
    def setAuto(self, val):
    	self.acl.setAuto(val)
    def setHeight(self, val):
    	self.acl.setHeight(val)
    def setForceDescent(self, val):
        self.acl.setForceDescent(val)
    def setSingleSteerMode(self, val):
    	self.md.setSingleSteerMode(val)

    def setCamera(self, val):
	if self.cam == None:
	    if val:
		print "HeliosController enabling camera"
		self.cam = Camera()
		self.cam.subscribe(self.updateImage)
		self.cam.start()
	    else:
		print "HeliosController tried to disable camera, but is not active"
	else:
	    if val:
		print "HeliosController tried to enable camera, but is already active"
	    else:
		print "HeliosController disabling camera"
		self.cam.shutdown()
		self.cam.join()
		self.cam = None
		self.status["cameraImage"] = "data:image/jpeg;base64," + base64.b64encode(open("nocam.jpg","rb").read())

	self.status["cameraActive"] = True if self.cam != None else False
	self.emit("HeliosController", self)

    def updateImage(self, id, cam):
	self.status["cameraImage"] = "data:image/jpeg;base64," + base64.b64encode(cam.getImage())

    def getImage(self):
	if self.cam != None:
	    return self.cam.getImage()
	return open("nocam.jpg","rb").read()

    def update(self, etype, src):
	if etype == "MotorDriver":
	    self.status["statLeft"] = src.statusLeft()
	    self.status["statRight"] = src.statusRight()
	    self.status["statVert"] = src.statusVert()
	    self.status["pwmValue"] = src.getPWM()
	    self.status["singleSteeringMode"] = src.getSingleSteerMode()

	if etype == "DistanceSensor":
	    self.status["currentAltitude"] = src.getCurrentDistance()
	    self.status["altitudeHistory"] = src.getDistanceHistory()

	if etype == "AltitudeControlLoop":
	    self.status["requestedAltitude"] = src.getHeight()
	    self.status["maintainAltitude"] = src.getAuto()
	    self.status["forceDescent"] = src.getForceDescent()

	self.emit("HeliosController", self)

    def getStatus(self):
        return self.status
Exemplo n.º 6
0
'''Initialization of i2c, shares, queues, and objects used across multiple tasks'''
i2c = I2C(1, freq=200000)  #Uses bus 3 because of the pins it is connected to
TOF1Share = task_share.Share('l')
TOF2Share = task_share.Share('l')
q0 = task_share.Queue('I',
                      68,
                      thread_protect=False,
                      overwrite=False,
                      name="Queue_0")
IRShare = task_share.Share('i')
shareIMU = task_share.Share('f')
shareLine = task_share.Share('i')
encoderR = EncoderDriver('PB6', 'PB7', 4, direction='clockwise')
encoderL = EncoderDriver('PC6', 'PC7', 8, direction='counterclockwise')
controllerR = ClosedLoopDriver(0, 0, .2, 100)
motorR = MotorDriver()
controllerL = ClosedLoopDriver(0, 0, .2, 20)
motorL = MotorDriver('PC1', 'PA0', 'PA1', 5, 100)

if __name__ == "__main__":

    print('\033[2JTesting scheduler in cotask.py\n')
    task1 = cotask.Task(MotorControlTask,
                        name='Task1 MC',
                        priority=6,
                        period=50,
                        profile=True,
                        trace=False)
    task2 = cotask.Task(LineSensorTask,
                        name='Task2 LS',
                        priority=5,
Exemplo n.º 7
0
        # try:
        #      distance = sensor.get_average_distance()
        # except BadDistanceException:
        #      pass

        qualifier, distance = sensor.get_average_distance()
        if qualifier == 1:
            if distance < 20:
                drive.stop()
                time.sleep(0.01)
                drive.reverse(duty_cycle - 2)
                time.sleep(0.25)
                drive.left(duty_cycle - 2)
                time.sleep(0.25)
                drive.forward(duty_cycle)
            else:
                drive.forward()

        else:
            pass


if __name__ == "__main__":
    try:
        ultrasonic = UltrasonicRanger()
        led = LED()
        robot_drive = MotorDriver()
        loop(ultrasonic, robot_drive, led)
    except KeyboardInterrupt:
        ultrasonic.destroy()
from HaptogramService import HaptogramService
from I2CVibrationDevice import I2CVestDevice
from MotorDriver import MotorDriver
import json
import time


class TactileBoardListener:
    def __init__(self, message_bus, haptogram_service):
        self.hs = haptogram_service
        message_bus.add_listener("suitceyes/tactile-board/play",
                                 self._handle_message)

    def _handle_message(self, data):
        payload = json.loads(data.payload)
        self.hs.enqueue(payload)
        return


if __name__ == "__main__":
    with I2CVestDevice(0x40) as vest_device, MqttMessageService() as mb:
        motor_driver = MotorDriver(vest_device)
        vpp = VibrationPatternPlayer(motor_driver)
        hs = HaptogramService(vpp, 2.0, 0.1)
        hs.start()
        listener = TactileBoardListener(mb, hs)

        while True:
            time.sleep(1)

        hs.stop()
# 1.create socket object:socket=socket.socket(family,type)
socket_tcp = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
print("TCP server listen @ %s:%d!" % (HOST_IP, HOST_PORT))
host_addr = (HOST_IP, HOST_PORT)
# 2.bind socket to addr:socket.bind(address)
socket_tcp.bind(host_addr)
# 3.listen connection request:socket.listen(backlog)
socket_tcp.listen(3)
# 5.handle

context = zmq.Context()  #init tcp trans to send opencv catched camera frame.
footage_socket = context.socket(zmq.PUB)  # zmq的广播模式
footage_socket.bind("tcp://*:5555")

# control 2 motor flags
Motor = MotorDriver()
# control 2 Servo flags
Ser = Servo()
#a PID controler.
RPID = PID(0.006, 0.0001, 0.005)
#Globale variables
l_speed = 100
r_speed = 100
global_message = ""
auto_tracer = False  # a controlable flag.
land_mode = False
global_color = ""
is_saving = False

i2c_bus = board.I2C()
Exemplo n.º 10
0
from HCSR04 import HCSR04
from MotorDriver import MotorDriver
	
class State(Enum) :
    Search = 0
    Forward = 1
    
if __name__ == "__main__":
    triggerPin = 18
    echoPin = 23
    state = State.Search
        
    if input("Running pre-flight tests. Proceed? [Y/n] ") == "n" : exit()
    
    hcsr04 = HCSR04(triggerPin, echoPin)
    motorDriver = MotorDriver()

    print("Testing sensor...")
    
    for i in range(0, 19) :
        print ("Range: " + str(hcsr04.getRangeInCentimeters()))
        time.sleep(0.5)
        
    if input("Success? [Y/n] ") == "n" : exit() 
    
    print ("Testing motor driver...")

    motorDriver.forward(0.1)
    if input("Moving forward...success? [Y/n] ") == "n" : exit()

    motorDriver.reverse(0.1)
Exemplo n.º 11
0
from MotorDriver import MotorDriver as Motor
from time import sleep
motor = Motor(8,10)

while(True):
	motor.drive(50,50)


Exemplo n.º 12
0
from MotorDriver import MotorDriver
import time
import board
from adafruit_ina219 import ADCResolution, BusVoltageRange, INA219

Motor = MotorDriver()

i2c_bus = board.I2C()

k = 0

ina1 = INA219(i2c_bus, addr=0x40)
ina2 = INA219(i2c_bus, addr=0x41)
ina3 = INA219(i2c_bus, addr=0x42)
ina4 = INA219(i2c_bus, addr=0x43)
print("ina219 test")

ina1.bus_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina1.shunt_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina1.bus_voltage_range = BusVoltageRange.RANGE_16V

ina2.bus_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina2.shunt_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina2.bus_voltage_range = BusVoltageRange.RANGE_16V

ina3.bus_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina3.shunt_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina3.bus_voltage_range = BusVoltageRange.RANGE_16V

ina4.bus_adc_resolution = ADCResolution.ADCRES_12BIT_32S
ina4.shunt_adc_resolution = ADCResolution.ADCRES_12BIT_32S
    def getForceDescent(self):
        return self.forceDescent

    def getHeight(self):
        return self.height

    def update(self, etype, src):
	if self.auto and etype == "DistanceSensor":
	    alt = src.getCurrentDistance()
	    diff = alt - self.height
	    if self.debug:
		print "Alt: %f, Height: %f, Diff: %f" % (alt, self.height, diff)

	    if self.forceDescent and diff > 5:
		return self.motorDriver.down()
	    if diff < -5:
	        return self.motorDriver.up()
	    
	    self.motorDriver.stopVertical()

if __name__ == '__main__':
    md = MotorDriver([1,2,3,4,5,6])
    ds = DistanceSensor(7,8)
    acl = AltitudeControlLoop(md, ds)
    acl.debug = True
    ds.lastValue = 100
    md.start()
    ds.start()
    acl.keepThisHeight()
Exemplo n.º 14
0
 def start_dc_motors(self):
     self.motorDriver = MotorDriver()
Exemplo n.º 15
0
    def __init__(self):
        """SmartMTk class constructor
        """

        # Init motors
        self.motors = MotorDriver(22, 27, 17, 24, 23, 18, 25)
Exemplo n.º 16
0
class SmartMTk:
    """This class manage an RC monstrer truck powered by a RaspberryPI
    """
    def __init__(self):
        """SmartMTk class constructor
        """

        # Init motors
        self.motors = MotorDriver(22, 27, 17, 24, 23, 18, 25)

    def forward(self):
        """Move forward the monster truck
        """
        self.motors.a_forward(100)

    def backward(self):
        """Move backward the monster truck
        """
        self.motors.a_backward(100)

    def shortBrake(self):
        """Short brake
        """
        self.motors.a_shortBrake()

    def turnRight(self):
        """Turn the wheels to the right
        """
        self.motors.b_forward(100)

    def turnLeft(self):
        """Move forward the monster truck
        """
        self.motors.b_backward(100)

    def straight(self):
        """Go straight
        """
        self.motors.b_stop()