Exemplo n.º 1
0
def talkerpozicija1():
    pub = rospy.Publisher('pozicija', Imu, queue_size=10)
    rospy.init_node('letjelica', anonymous=True)
    rate = rospy.Rate(1)  # 10hz
    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/virtualcom0")
    while not rospy.is_shutdown():
        board.getData(MultiWii.RAW_IMU)
        message = Imu()
        message.header.frame_id = "/map"
        message.header.stamp = rospy.Time.now()
        message.orientation_covariance[0] = -1
        message.angular_velocity_covariance[0] = -1
        message.linear_acceleration_covariance[0] = -1
        message.linear_acceleration.x = board.rawIMU['ax']
        message.linear_acceleration.y = board.rawIMU['ay']
        message.linear_acceleration.z = board.rawIMU['az']
        message.angular_velocity.x = board.rawIMU['gx']
        message.angular_velocity.y = board.rawIMU['gy']
        message.angular_velocity.z = board.rawIMU['gz']
        message.orientation.w = 1
        message.orientation.x = board.rawIMU['ax'] * 3.14159265 / 180
        message.orientation.y = board.rawIMU['ay'] * 3.14159265 / 180
        message.orientation.z = board.rawIMU['az'] * 3.14159265 / 180

        #elapsed = board.attitude['elapsed']
        #message = "ax = {:+.0f} \t ay = {:+.0f} \t az = {:+.0f} gx = {:+.0f} \t gy = {:+.0f} \t gz = {:+.0f} mx = {:+.0f} \t my = {:+.0f} \t mz = {:+.0f} \t elapsed = {:+.4f} \t" .format(float(message.linear_acceleration.x),float(message.linear_acceleration.y),float(message.linear_acceleration.z),float(message.angular_velocity.x),float(message.angular_velocity.y),float(message.angular_velocity.z),float(message.orientation.x),float(message.orientation.y),float(message.orientation.z))
        rospy.loginfo(message)
        pub.publish(message)
        rate.sleep()
Exemplo n.º 2
0
def runAttitude():
    board = MultiWii("/dev/bus/usb/001/002")
    print "MARK2"
    try:
        while True:
            board.getData(MultiWii.ATTITUDE)
            message = "angx = {:+.2f} \t angy = {:+.2f} \t heading = {:+.2f} \t elapsed = {:+.4f} \t".format(
                float(board.attitude['angx']), float(board.attitude['angy']),
                float(board.attitude['heading']),
                float(board.attitude['elapsed']))
            stdout.write("\r%s" % message)
            stdout.flush()
    except Exception, error:
        print "Error on Main: " + str(error)
Exemplo n.º 3
0
class FlightController:
    def __init__(self):
        self.im_width = 640
        self.im_height = 480
        self.board = MultiWii("COM4")

    def compute_action(self, x1, y1, x2, y2, scale_factor=0.25):
        # define the possible turning and moving action
        self.board.getData(MultiWii.RAW_IMU)
        turning, moving, vertical = self.board.rawIMU

        area = (x2 - x1) * (y2 - y1)
        center = [(x2 + x1) / 2, (y2 + y1) / 2]

        # obtain a x center between 0.0 and 1.0
        normalized_center = center[0] / self.im_width
        # obtain a y center between 0.0 and 1.0
        normalized_center.append(center[1] / self.im_height)

        if normalized_center[0] > 0.6:
            turning += scale_factor
        elif normalized_center[0] < 0.4:
            turning -= scale_factor

        if normalized_center[1] > 0.6:
            vertical += scale_factor
        elif normalized_center[1] < 0.4:
            vertical -= scale_factor

        # if the area is too big move backwards
        if area > 100:
            moving += scale_factor
        elif area < 80:
            moving -= scale_factor

        return [turning, moving, vertical]

    def get_observation(self, velocities):  #imu [ax, ay, az]
        self.board.getData(MultiWii.RAW_IMU)
        imu = self.board.rawIMU
        return imu[:3] - velocities

    def send_action(self, motors):
        self.board.sendCMD(16, MultiWii.SET_MOTORS, motors)
Exemplo n.º 4
0
def talkerpozicija():
    pub = rospy.Publisher('pozicija', koordinate, queue_size=10)
    rospy.init_node('letjelica', anonymous=True)
    rate = rospy.Rate(1)  # 10hz
    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/virtualcom0")
    while not rospy.is_shutdown():
        board.getData(MultiWii.RAW_IMU)
        ax = board.rawIMU['ax']
        ay = board.rawIMU['ay']
        az = board.rawIMU['az']
        gx = board.rawIMU['gx']
        gy = board.rawIMU['gy']
        gz = board.rawIMU['gz']
        mx = board.rawIMU['mx']
        my = board.rawIMU['my']
        mz = board.rawIMU['mz']
        elapsed = board.attitude['elapsed']
        #message = "ax = {:+.0f} \t ay = {:+.0f} \t az = {:+.0f} gx = {:+.0f} \t gy = {:+.0f} \t gz = {:+.0f} mx = {:+.0f} \t my = {:+.0f} \t mz = {:+.0f} \t elapsed = {:+.4f} \t" .format(float(board.rawIMU['ax']),float(board.rawIMU['ay']),float(board.rawIMU['az']),float(board.rawIMU['gx']),float(board.rawIMU['gy']),float(board.rawIMU['gz']),float(board.rawIMU['mx']),float(board.rawIMU['my']),float(board.rawIMU['mz']),float(board.attitude['elapsed']))
        #rospy.loginfo(message)
        pub.publish(koordinate(ax, ay, az, gx, gy, gz, mx, my, mz, elapsed))
        rate.sleep()
Exemplo n.º 5
0
def talkerpid():
    pub = rospy.Publisher('pid', pid, queue_size=10)
    rospy.init_node('letjelica', anonymous=True)
    rate = rospy.Rate(1)  # 10hz
    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/virtualcom0")
    while not rospy.is_shutdown():
        board.getData(MultiWii.PID)
        message = pid()
        message.rp = board.PIDcoef['rp']
        message.ri = board.PIDcoef['ri']
        message.rd = board.PIDcoef['rd']
        message.pp = board.PIDcoef['pp']
        message.pi = board.PIDcoef['pi']
        message.pd = board.PIDcoef['pd']
        message.yp = board.PIDcoef['yp']
        message.yi = board.PIDcoef['yi']
        message.yd = board.PIDcoef['yd']

        #message = "ax = {:+.0f} \t ay = {:+.0f} \t az = {:+.0f} gx = {:+.0f} \t gy = {:+.0f} \t gz = {:+.0f} mx = {:+.0f} \t my = {:+.0f} \t mz = {:+.0f} \t elapsed = {:+.4f} \t" .format(float(message.linear_acceleration.x),float(message.linear_acceleration.y),float(message.linear_acceleration.z),float(message.angular_velocity.x),float(message.angular_velocity.y),float(message.angular_velocity.z),float(message.orientation.x),float(message.orientation.y),float(message.orientation.z))
        rospy.loginfo(message)
        pub.publish(message)
        rate.sleep()
Exemplo n.º 6
0
class Monitor():
    def __init__(self, direccion, port):
        self._s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
        self._address = (direccion,port)

    def run(self):
	self._board = MultiWii('/dev/ttyUSB0')
        while True:
            try:
                message =str(self._board.getData(MultiWii.ATTITUDE))
		print message
		self._s.sendto(message,self._address)		
            except KeyboardInterrupt:
                print 'Liberando socket...'
                self._s.close()
                break
Exemplo n.º 7
0
def main():

    board = MultiWii("/dev/ttyACM0")
    """Creation de la video"""
    # Video Resolution
    VIDEO_HEIGHT = 960
    VIDEO_WIDTH = 1280
    # Cross Hair Image
    crossHair = Image.new("RGBA", (VIDEO_WIDTH, VIDEO_HEIGHT), (0, 0, 0, 0))
    crossHairPixels = crossHair.load()
    with picamera.PiCamera() as camera:
        camera.resolution = (VIDEO_WIDTH, VIDEO_HEIGHT)
        camera.framerate = 30
        camera.led = False
        overlay_renderer = None
        camera.start_preview(fullscreen=True, window=(0, 0, 720, 1280))
        #Add cockpit
        img = Image.open('cockpit.png')
        img = img.resize((1280, 960))
        # Create an image padded to the required size with
        # mode 'RGB'
        pad = Image.new('RGBA', (
            ((img.size[0] + 31) // 32) * 32,
            ((img.size[1] + 15) // 16) * 16,
        ))
        pad.paste(img, (0, 0))
        # Add the overlay with the padded image as the source,
        # but the original image's dimensions
        topOverlay = camera.add_overlay(pad.tobytes(), size=img.size)
        topOverlay.alpha = 128
        topOverlay.layer = 3
        time.sleep(0.5)
        """Connection de la board Inav Mavlink"""

        board.getData(MultiWii.ATTITUDE)
        #print board.attitude #uncomment for regular printing
        message = "angx = {:+.2f} \t angy = {:+.2f} \t heading = {:+.2f} \t elapsed = {:+.4f} \t".format(
            float(board.attitude['angx']), float(board.attitude['angy']),
            float(board.attitude['heading']), float(board.attitude['elapsed']))
        stdout.write("\r%s" % message)
        print "\r"
        """Connection du IR RX"""
        irRxPin = 16
        irRx = IRModule.IRRemote(callback='DECODE')
        GPIO.setwarnings(False)
        GPIO.setmode(GPIO.BCM)  # uses numbering outside circles
        GPIO.setup(irRxPin, GPIO.IN)  # set irPin to input
        print(
            'Starting IR remote sensing using DECODE function and verbose setting equal True '
        )
        GPIO.add_event_detect(irRxPin, GPIO.BOTH, callback=irRx.pWidth)
        irRx.set_verbose(False)
        irRx.set_callback(remote_callback)
        print('Use ctrl-c to exit program')
        """Connection du IR TX"""
        irTxPin = 21  # --> PIN11/GPIO17
        GPIO.setmode(GPIO.BCM)
        GPIO.setup(irTxPin, GPIO.OUT)
        GPIO.output(irTxPin, GPIO.HIGH)
        """----"""

        try:
            while True:
                if (hit >= 4):
                    print "PERDU drone a terre"
                    GPIO.output(irTxPin, GPIO.LOW)
                    break
                time.sleep(0.5)

        except KeyboardInterrupt:
            camera.remove_overlay(topOverlay)
            print "Cancelled"
Exemplo n.º 8
0
"""show-attitude.py: Script to ask the MultiWii Board attitude and print it."""

__author__ = "Aldo Vargas"
__copyright__ = "Copyright 2017 Altax.net"

__license__ = "GPL"
__version__ = "1.1"
__maintainer__ = "Aldo Vargas"
__email__ = "*****@*****.**"
__status__ = "Development"

from pymultiwii import MultiWii
from sys import stdout

if __name__ == "__main__":

    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/tty.SLAB_USBtoUART")
    try:
        while True:
            board.getData(MultiWii.ATTITUDE)
            #print (board.attitude) #uncomment for regular printing

            # Fancy printing (might not work on windows...)
            message = "angx = {:+.2f} \t angy = {:+.2f} \t heading = {:+.2f} \t elapsed = {:+.4f} \t".format(float(board.attitude['angx']),float(board.attitude['angy']),float(board.attitude['heading']),float(board.attitude['elapsed']))
            stdout.write("\r%s" % message )
            stdout.flush()
            # End of fancy printing
    except Exception,error:
        print ("Error on Main: "+str(error))
Exemplo n.º 9
0
"""show-attitude.py: Script to ask the MultiWii Board attitude and print it."""

__author__ = "Aldo Vargas"
__copyright__ = "Copyright 2017 Altax.net"

__license__ = "GPL"
__version__ = "1"
__maintainer__ = "Aldo Vargas"
__email__ = "*****@*****.**"
__status__ = "Development"

from pymultiwii import MultiWii
from sys import stdout

if __name__ == "__main__":

    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/tty.SLAB_USBtoUART")
    try:
        while True:
            board.getData(MultiWii.RAW_IMU)
            #print (board.attitude) #uncomment for regular printing

            # Fancy printing (might not work on windows...)
            message = "ax = {:+.0f} \t ay = {:+.0f} \t az = {:+.0f} gx = {:+.0f} \t gy = {:+.0f} \t gz = {:+.0f} mx = {:+.0f} \t my = {:+.0f} \t mz = {:+.0f} \t elapsed = {:+.4f} \t" .format(float(board.rawIMU['ax']),float(board.rawIMU['ay']),float(board.rawIMU['az']),float(board.rawIMU['gx']),float(board.rawIMU['gy']),float(board.rawIMU['gz']),float(board.rawIMU['mx']),float(board.rawIMU['my']),float(board.rawIMU['mz']),float(board.attitude['elapsed']))
            stdout.write("\r%s" % message )
            stdout.flush()
            # End of fancy printing
    except Exception,error:
        print ("Error on Main: "+str(error))
Exemplo n.º 10
0
from pymultiwii import MultiWii
from sys import stdout
import time
if __name__ == "__main__":
    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/serial0")
    try:
        while True:
            board.getData(MultiWii.ATTITUDE)
            print board.attitude
            time.sleep(1)
    except Exception, error:
        print "Error on Main: " + str(error)
Exemplo n.º 11
0
from pymultiwii import MultiWii
import struct
import time

serialPort = "/dev/tty.usbmodem1411"
board = MultiWii(serialPort)
while True:
    # print board.sendCMD(4,MultiWii.SET_RAW_RC,[1500,1500,1500,1599])  #MSP_SET_RAW_RC
    print board.getData(MultiWii.STATUS)
    print board.getData(MultiWii.RAW_IMU)
    print board.getData(MultiWii.ATTITUDE)
    print board.getData(MultiWii.ALTITUDE)
    print board.getData(MultiWii.MOTOR)
    print board.getData(MultiWii.RC)
    print board.getData(MultiWii.ANALOG)

    print board.getData(MultiWii.RC_TUNING)
    print board.getData(MultiWii.DEBUG)
    # board.arm()
#
# board.sendCMD(8,214,[1500])
# data = [1000,2000]
# checksum = 0
# total_data = ['$', 'M', '<', 100, 214] + data
# for i in struct.pack('<2B%dH' % len(data), *total_data[3:len(total_data)]):
#     checksum = checksum ^ ord(i)
#     print checksum
# total_data.append(checksum)
# print total_data
# print len(data)
#
Exemplo n.º 12
0
__maintainer__ = "Aldo Vargas"
__email__ = "*****@*****.**"
__status__ = "Development"

from pymultiwii import MultiWii
from sys import stdout
import time

if __name__ == "__main__":

    board = MultiWii("/dev/ttyACM0")
    i = 0
    try:
        while True:
            print "\r ####Boucle ", i
            v = board.getData(MultiWii.RC)
            r = board.rcChannels['roll']
            p = board.rcChannels['pitch']
            y = board.rcChannels['yaw']
            t = board.rcChannels['throttle']
            aux1 = board.rcChannels['aux1']
            aux2 = board.rcChannels['aux2']
            aux3 = board.rcChannels['aux3']
            aux4 = board.rcChannels['aux4']
            print "V==>", v
            if (i > 5 and i < 15 and v != None):
                print "\r\r#########\r"
                datas = [1500, 1500, 1800, 1500]
                print "\rsend =", datas
                board.sendCMDreceiveATT(16, MultiWii.SET_RAW_RC, datas)
                print "###########\r\r"
Exemplo n.º 13
0
		placa.arm()
		arm = 1
	elif boton_up == 12 and arm ==1:
		placa.disarm()
		arm = 0
	if arm ==1:
		data =[roll,pitch,yaw,trothle,1000,1000,1000,1000]
		placa.sendCMDreceiveATT(16,MultiWii.SET_RAW_RC,data)
		x = int(placa.attitude['angx'])
		y = int(placa.attitude['angy'])
		z = int(placa.attitude['heading'])
		array = [x,y,z,bat]
		msg = pickle.dumps(array)
		sock.sendto(msg, (UDP_HOST,UDP_PORT))
	elif arm ==0:
		placa.getData(MultiWii.ATTITUDE)
		x = int(placa.attitude['angx'])
		y = int(placa.attitude['angy'])
		z = int(placa.attitude['heading'])
		array = [x,y,z,bat]
		msg = pickle.dumps(array)
		sock.sendto(msg, (UDP_HOST,UDP_PORT))
	HayDatosSocket = select.select([sock],[],[],0.5)
	if HayDatosSocket[0]:
		Socketdata = sock.recv(bufer)  
		mando = pickle.loads(Socketdata)
	roll = ROLL + mando[3]
	pitch = PITCH + mando[2]
	yaw = YAW + mando[1]
	trothle = TROTHLE + mando[0]
	boton_up = mando[5]
Exemplo n.º 14
0
from pymultiwii import MultiWii

serialPort = "/dev/ttyACM0"
board = MultiWii(serialPort)
while True:
    print(board.getData(MultiWii.ATTITUDE))
Exemplo n.º 15
0
def main():
    global laserOverlay, camera, hit, vivant
    laserShot = None
    board = MultiWii("/dev/ttyACM0")
    """Creation de la video"""
    # Video Resolution
    VIDEO_HEIGHT = 960
    VIDEO_WIDTH = 1280
    # Cross Hair Image
    crossHair = Image.new("RGBA", (VIDEO_WIDTH, VIDEO_HEIGHT), (0, 0, 0, 0))
    crossHairPixels = crossHair.load()
    with picamera.PiCamera() as camera:
        camera.resolution = (VIDEO_WIDTH, VIDEO_HEIGHT)
        camera.framerate = 30
        camera.led = False
        overlay_renderer = None
        camera.start_preview(fullscreen=True, window=(0, 0, 720, 1280))
        #Add cockpit
        img = Image.open('cockpit.png')
        img = img.resize((1280, 960))

        # Add cockpit Image to FPV feed
        pad = Image.new('RGBA', (
            ((img.size[0] + 31) // 32) * 32,
            ((img.size[1] + 15) // 16) * 16,
        ))
        pad.paste(img, (0, 0))
        topOverlay = camera.add_overlay(pad.tobytes(), size=img.size)
        topOverlay.alpha = 128
        topOverlay.layer = 3

        #Add Laser PNG for fire
        imgLaser = Image.open('laser-fire.png')
        imgLaser = imgLaser.resize((1280, 960))
        laser = Image.new('RGBA', (
            ((img.size[0] + 31) // 32) * 32,
            ((img.size[1] + 15) // 16) * 16,
        ))
        laser.paste(imgLaser, (0, 0))
        laserOverlay = camera.add_overlay(laser.tobytes(),
                                          size=imgLaser.size,
                                          layer=1)
        laserOverlay.alpha = 128
        #laserOverlay.layer = 2

        #Add Explosion layer
        imgExpl = Image.open('explosion.png')
        imgExpl = imgExpl.resize((1280, 960))
        explosion = Image.new('RGBA', (
            ((img.size[0] + 31) // 32) * 32,
            ((img.size[1] + 15) // 16) * 16,
        ))
        explosion.paste(imgExpl, (0, 0))
        explOverlay = camera.add_overlay(explosion.tobytes(),
                                         size=imgExpl.size,
                                         layer=1)
        explOverlay.alpha = 128

        time.sleep(0.1)
        """Connection de la board Inav Mavlink"""

        board.getData(MultiWii.ATTITUDE)
        #print board.attitude #uncomment for regular printing
        message = "angx = {:+.2f} \t angy = {:+.2f} \t heading = {:+.2f} \t elapsed = {:+.4f} \t".format(
            float(board.attitude['angx']), float(board.attitude['angy']),
            float(board.attitude['heading']), float(board.attitude['elapsed']))
        stdout.write("\r%s" % message)
        print "\r"
        """Connection du IR RX"""
        irRxPin = 16
        irRx = IRModule.IRRemote(callback='DECODE')
        GPIO.setwarnings(False)
        GPIO.setmode(GPIO.BCM)  # uses numbering outside circles
        GPIO.setup(irRxPin, GPIO.IN)  # set irPin to input
        print(
            'Starting IR remote sensing using DECODE function and verbose setting equal True '
        )
        GPIO.add_event_detect(irRxPin, GPIO.BOTH, callback=irRx.pWidth)
        irRx.set_verbose(False)
        irRx.set_callback(remote_callback)
        print('Use ctrl-c to exit program')
        """Connection du IR TX"""
        irTxPin = 21  # --> PIN11/GPIO17
        GPIO.setmode(GPIO.BCM)
        GPIO.setup(irTxPin, GPIO.OUT)
        GPIO.output(irTxPin, GPIO.HIGH)
        """----"""

        try:
            while True:
                while vivant == 1:
                    if (hit >= 4):
                        GPIO.output(irTxPin, GPIO.LOW)
                        explOverlay.layer = 5
                        vivant = 0
                        print "Fin - Toucher #", hit, "fois"

        except KeyboardInterrupt:
            camera.remove_overlay(topOverlay)
            print "Cancelled"
Exemplo n.º 16
0
from pymultiwii import MultiWii
import time
#serialPort = "/dev/ttyAMA0"
serialPort = "/dev/tty.SLAB_USBtoUART"
board = MultiWii(serialPort)
print("woken up")
#board.sendCMD(0,MultiWii.REBOOT,[],'')
time.sleep(1)
board.setVTX(5, 5, 1)
time.sleep(3)
test = board.getData(MultiWii.ATTITUDE)
print(test)

while True:
    test = board.getData(MultiWii.ATTITUDE)
    #print board.getData(MultiWii.STATUS)
    print(board.getData(MultiWii.VTX_CONFIG))
    test = 1
Exemplo n.º 17
0
from pymultiwii import MultiWii
from sys import stdout
import time
if __name__ == "__main__":
    #board = MultiWii("/dev/ttyUSB0")
    board = MultiWii("/dev/serial0")
    try:
        print("start")
        board.arm()
        print("armed")
        while True:
            data = [1500, 1550, 1600, 1560, 1000, 1040, 1000, 1000]
            board.sendCMDreceiveATT(16, MultiWii.SET_RAW_RC, data)
            #board.sendCMD(16,MultiWii.SET_RAW_RC,data)
            print board.getData(MultiWii.RC)
            time.sleep(0.5)
    except Exception, error:
        print "Error on Main: " + str(error)
        print("end")
Exemplo n.º 18
0
__status__ = "Development"

from pymultiwii import MultiWii
from sys import stdout
import time

if __name__ == "__main__":

    board = MultiWii("/dev/ttyACM0")
    i=0
    #board = MultiWii("/dev/serial0")
    #board.sendCMD(8,MultiWii.RESET_CONF,[])

    try:
        while True:
            board.getData(MultiWii.ATTITUDE)
            #print board.attitude #uncomment for regular printing
            # Fancy printing (might not work on windows...)
            message = "angx = {:+.2f} \t angy = {:+.2f} \t heading = {:+.2f} \t elapsed = {:+.4f} \t".format(float(board.attitude['angx']),float(board.attitude['angy']),float(board.attitude['heading']),float(board.attitude['elapsed']))
            stdout.write("\r ATTITUDE: %s" % message )
            print "\r"
            board.getData(MultiWii.RAW_IMU)
            message = "ax = {:+.0f} \t ay = {:+.0f} \t az = {:+.0f} gx = {:+.0f} \t gy = {:+.0f} \t gz = {:+.0f} mx = {:+.0f} \t my = {:+.0f} \t mz = {:+.0f} \t elapsed = {:+.4f} \t" .format(float(board.rawIMU['ax']),float(board.rawIMU['ay']),float(board.rawIMU['az']),float(board.rawIMU['gx']),float(board.rawIMU['gy']),float(board.rawIMU['gz']),float(board.rawIMU['mx']),float(board.rawIMU['my']),float(board.rawIMU['mz']),float(board.attitude['elapsed']))
            stdout.write("\r RAW IMU: %s" % message )

            print "\r GPS",board.getData(MultiWii.RAW_GPS)
            #board.arm()
            # End of fancy printing
            #print "-->debut rc channel"
            #       ROLL/PITCH/YAW/THROTTLE/AUX1/AUX2/AUX3AUX4
            #data = [1500,1550,1600,1560,1800,1800,1800,1800]
Exemplo n.º 19
0
def main():

    laserShot=None
    board = MultiWii("/dev/ttyACM0")
    """Creation de la video"""

    # Cross Hair Image
    crossHair = Image.new("RGBA", (VIDEO_WIDTH, VIDEO_HEIGHT),(0, 0, 0, 0))
    crossHairPixels = crossHair.load()

    #Add cockpit
    img = Image.open('cockpit.png')
    img = img.resize((1280,960))
    # Create an image padded to the required size with
    # mode 'RGB'
    pad = Image.new('RGBA', (
       ((img.size[0] + 31) // 32) * 32,
       ((img.size[1] + 15) // 16) * 16,
       ))
    pad.paste(img, (0, 0))
    # Add the overlay with the padded image as the source,
    # but the original image's dimensions
    topOverlay = camera.add_overlay(pad.tobytes(), size=img.size)
    topOverlay.alpha = 128
    topOverlay.layer = 3


    imgLaser = Image.open('laser-fire.png')
    imgLaser = imgLaser.resize((1280,960))
    # Create an image padded to the required size with
    # mode 'RGB'
    laser = Image.new('RGBA', (
        ((img.size[0] + 31) // 32) * 32,
        ((img.size[1] + 15) // 16) * 16,
        ))
    laser.paste(imgLaser, (0, 0))
    laserOverlay = camera.add_overlay(laser.tobytes(), size=imgLaser.size)
    laserOverlay.alpha = 128
    laserOverlay.layer = 2

    time.sleep(0.5)
    #camera.remove_overlay(laserOverlay)

    """Connection de la board Inav Mavlink"""

    board.getData(MultiWii.ATTITUDE)
    #print board.attitude #uncomment for regular printing
    message = "angx = {:+.2f} \t angy = {:+.2f} \t heading = {:+.2f} \t elapsed = {:+.4f} \t".format(float(board.attitude['angx']),float(board.attitude['angy']),float(board.attitude['heading']),float(board.attitude['elapsed']))
    stdout.write("\r%s" % message )
    print "\r"


    """Connection du IR RX"""
    irRxPin = 16
    irRx = IRModule.IRRemote(callback='DECODE')
    GPIO.setwarnings(False)
    GPIO.setmode(GPIO.BCM)      # uses numbering outside circles
    GPIO.setup(irRxPin,GPIO.IN)   # set irPin to input
    print('Starting IR remote sensing using DECODE function and verbose setting equal True ')
    GPIO.add_event_detect(irRxPin,GPIO.BOTH,callback=irRx.pWidth)
    irRx.set_verbose(False)
    irRx.set_callback(remote_callback)
    print('Use ctrl-c to exit program')

    """Connection du IR TX"""
    irTxPin = 21 # --> PIN11/GPIO17
    GPIO.setmode(GPIO.BCM)
    GPIO.setup(irTxPin, GPIO.OUT)
    GPIO.output(irTxPin, GPIO.HIGH)

    """----"""
Exemplo n.º 20
0
    for i in range(100):
        getTheta()

    print((time.time() - t1) / 100.)


def getLateralVelocity():
    global data1, board
    board.getData(MultiWii.RAW_IMU)


if __name__ == '__main__':
    global data1, board
    board = MultiWii("/dev/tty.SLAB_USBtoUART")
    t0 = time.time()
    deltaT = 0
    velocity = 0
    position = 0
    for i in range(1000):
        board.getData(MultiWii.RAW_IMU)
        velocity += board.rawIMU['az'] * (time.time() - t0)
        position += velocity * (time.time() - t0)
        t0 = time.time()
        if i % 10 == 0:
            print("acceleration: ", board.rawIMU['az'], "velocity: ", velocity,
                  "position ", position)
    #print(getTheta(), "degrees")
    getTheta()
    #print("rotationalV",get_dtheta_dt())
    #print(getTime())
Exemplo n.º 21
0
class pi_drone_driver():
    def __init__(self):
        self.board = MultiWii("/dev/ttyACM0")
        rospy.init_node("pi_drone", anonymous=True)
        self.imu_pub = rospy.Publisher("/pi_drone/imu", Imu, queue_size=1)
        self.attitude_pub = rospy.Publisher("/pi_drone/rpy", Vector3, queue_size=1)
        rospy.Subscriber("/pi_drone/RC_in", sendRC, self.send_rc_callback)
        rospy.Subscriber("/pi_drone/arm", Bool, self.arm_callback)
        self.imu_msg = Imu()
        self.rpy_msg = Vector3()
        self.rc_channels = [1500, 1500, 1500, 1000, 1000, 1000, 1000, 1000]
        self.arm = False
        self.prev_imu_time = 0
        self.prev_attitude_time = 0

        while not rospy.is_shutdown():
            self.attitude_publisher(30)
            self.imu_publisher(50)

    def deg2rad(self, deg):
        rad = (3.14159/180.0) * deg
        return rad

    def attitude_publisher(self, rate):
        if ((time.time() - self.prev_attitude_time) >= (1.0 / rate)):
            self.prev_attitude_time = time.time()
            self.board.getData(MultiWii.ATTITUDE)
            self.rpy_msg.x = self.board.attitude['angx']
            self.rpy_msg.y = self.board.attitude['angy']
            self.rpy_msg.z = self.board.attitude['heading']
            self.attitude_pub.publish(self.rpy_msg)


    def imu_publisher(self, rate):
        if ((time.time() - self.prev_imu_time) >= (1.0 / rate)):
            self.prev_imu_time = time.time()
            self.board.getData(MultiWii.RAW_IMU)

            ax = self.board.rawIMU['ax']
            ay = self.board.rawIMU['ay']
            az = self.board.rawIMU['az']
            gx = self.board.rawIMU['gx']
            gy = self.board.rawIMU['gy']
            gz = self.board.rawIMU['gz']


            self.imu_msg.header.stamp = rospy.Time.now()
            self.imu_msg.header.frame_id = "imu_link"

            self.imu_msg.orientation_covariance = [-1.0, 0.0, 0.0,
                                                    0.0, 0.0, 0.0,
                                                    0.0, 0.0, 0.0]
            self.imu_msg.angular_velocity_covariance = [-1.0, 0.0, 0.0,
                                                         0.0, 0.0, 0.0,
                                                         0.0, 0.0, 0.0]
            self.imu_msg.linear_acceleration_covariance = [-1.0, 0.0, 0.0,
                                                            0.0, 0.0, 0.0,
                                                            0.0, 0.0, 0.0]

            self.imu_msg.linear_acceleration.x = 9.81 * ax/512
            self.imu_msg.linear_acceleration.y = 9.81 * ay/512
            self.imu_msg.linear_acceleration.z = -9.81 * az/512

            self.imu_msg.angular_velocity.x = self.deg2rad(gx/4.096)
            self.imu_msg.angular_velocity.y = self.deg2rad(gy/4.096)
            self.imu_msg.angular_velocity.z = self.deg2rad(gz/4.096)
            #rospy.loginfo(imu_msg)
            self.imu_pub.publish(self.imu_msg)


    def send_rc_callback(self, rc_data):
        self.rc_channels[0] = rc_data.channels[0]
        self.rc_channels[1] = rc_data.channels[1]
        self.rc_channels[2] = rc_data.channels[2]
        self.rc_channels[3] = rc_data.channels[3]
        if self.arm:
            self.rc_channels[4] = 2000
        else:
            self.rc_channels[4] = 1000
        #print(self.rc_channels)

        self.board.sendCMD(16,MultiWii.SET_RAW_RC, self.rc_channels)

    def arm_callback(self, msg):
        if msg.data:
            self.arm = True
        else:
            self.arm = False