示例#1
0
    GPIO.setup(line_pin_right, GPIO.IN)
    GPIO.setup(line_pin_middle, GPIO.IN)
    GPIO.setup(line_pin_left, GPIO.IN)
    #motor.setup()


def run():
    status_right = GPIO.input(line_pin_right)
    status_middle = GPIO.input(line_pin_middle)
    status_left = GPIO.input(line_pin_left)
    #print('R%d   M%d   L%d'%(status_right,status_middle,status_left))
    if status_middle == 1:
        move.move(100, 'forward', 'no', 1)
    elif status_left == 1:
        move.move(100, 'forward', 'right', 0.6)
    elif status_right == 1:
        move.move(100, 'forward', 'left', 0.6)
    else:
        move.move(100, 'backward', 'no', 1)


if __name__ == '__main__':
    try:
        setup()
        move.setup()
        while 1:
            run()
        pass
    except KeyboardInterrupt:
        move.destroy()
示例#2
0
class CVThread(threading.Thread):
    font = cv2.FONT_HERSHEY_SIMPLEX

    kalman_filter_X =  Kalman_filter.Kalman_filter(0.01,0.1)
    kalman_filter_Y =  Kalman_filter.Kalman_filter(0.01,0.1)
    P_direction = -1
    T_direction = -1
    P_servo = 1
    T_servo = 0
    P_anglePos = 0
    T_anglePos = 0
    cameraDiagonalW = 64
    cameraDiagonalH = 48
    videoW = 640
    videoH = 480
    Y_lock = 0
    X_lock = 0
    tor = 27

    scGear = RPIservo.ServoCtrl()
    scGear.moveInit()
    move.setup()
    switch.switchSetup()

    def __init__(self, *args, **kwargs):
        self.CVThreading = 0
        self.CVMode = 'none'
        self.imgCV = None

        self.mov_x = None
        self.mov_y = None
        self.mov_w = None
        self.mov_h = None

        self.radius = 0
        self.box_x = None
        self.box_y = None
        self.drawing = 0

        self.findColorDetection = 0

        self.left_Pos1 = None
        self.right_Pos1 = None
        self.center_Pos1 = None

        self.left_Pos2 = None
        self.right_Pos2 = None
        self.center_Pos2 = None

        self.center = None

        super(CVThread, self).__init__(*args, **kwargs)
        self.__flag = threading.Event()
        self.__flag.clear()

        self.avg = None
        self.motionCounter = 0
        self.lastMovtionCaptured = datetime.datetime.now()
        self.frameDelta = None
        self.thresh = None
        self.cnts = None

    def mode(self, invar, imgInput):
        self.CVMode = invar
        self.imgCV = imgInput
        self.resume()

    def elementDraw(self,imgInput):
        if self.CVMode == 'none':
            pass

        elif self.CVMode == 'findColor':
            if self.findColorDetection:
                cv2.putText(imgInput,'Target Detected',(40,60), CVThread.font, 0.5,(255,255,255),1,cv2.LINE_AA)
                self.drawing = 1
            else:
                cv2.putText(imgInput,'Target Detecting',(40,60), CVThread.font, 0.5,(255,255,255),1,cv2.LINE_AA)
                self.drawing = 0

            if self.radius > 10 and self.drawing:
                cv2.rectangle(imgInput,(int(self.box_x-self.radius),int(self.box_y+self.radius)),(int(self.box_x+self.radius),int(self.box_y-self.radius)),(255,255,255),1)

        elif self.CVMode == 'findlineCV':
            if frameRender:
                imgInput = cv2.cvtColor(imgInput, cv2.COLOR_BGR2GRAY)
                retval_bw, imgInput =  cv2.threshold(imgInput, 0, 255, cv2.THRESH_OTSU)
                imgInput = cv2.erode(imgInput, None, iterations=6)
            try:
                if lineColorSet == 255:
                    cv2.putText(imgInput,('Following White Line'),(30,50), cv2.FONT_HERSHEY_SIMPLEX, 0.5,(128,255,128),1,cv2.LINE_AA)
                else:
                    cv2.putText(imgInput,('Following Black Line'),(30,50), cv2.FONT_HERSHEY_SIMPLEX, 0.5,(128,255,128),1,cv2.LINE_AA)

                cv2.line(imgInput,(self.left_Pos1,(linePos_1+30)),(self.left_Pos1,(linePos_1-30)),(255,128,64),1)
                cv2.line(imgInput,(self.right_Pos1,(linePos_1+30)),(self.right_Pos1,(linePos_1-30)),(64,128,255),)
                cv2.line(imgInput,(0,linePos_1),(640,linePos_1),(255,255,64),1)

                cv2.line(imgInput,(self.left_Pos2,(linePos_2+30)),(self.left_Pos2,(linePos_2-30)),(255,128,64),1)
                cv2.line(imgInput,(self.right_Pos2,(linePos_2+30)),(self.right_Pos2,(linePos_2-30)),(64,128,255),1)
                cv2.line(imgInput,(0,linePos_2),(640,linePos_2),(255,255,64),1)

                cv2.line(imgInput,((self.center-20),int((linePos_1+linePos_2)/2)),((self.center+20),int((linePos_1+linePos_2)/2)),(0,0,0),1)
                cv2.line(imgInput,((self.center),int((linePos_1+linePos_2)/2+20)),((self.center),int((linePos_1+linePos_2)/2-20)),(0,0,0),1)
            except:
                pass

        elif self.CVMode == 'watchDog':
            if self.drawing:
                cv2.rectangle(imgInput, (self.mov_x, self.mov_y), (self.mov_x + self.mov_w, self.mov_y + self.mov_h), (128, 255, 0), 1)

        return imgInput


    def watchDog(self, imgInput):
        timestamp = datetime.datetime.now()
        gray = cv2.cvtColor(imgInput, cv2.COLOR_BGR2GRAY)
        gray = cv2.GaussianBlur(gray, (21, 21), 0)

        if self.avg is None:
            print("[INFO] starting background model...")
            self.avg = gray.copy().astype("float")
            return 'background model'

        cv2.accumulateWeighted(gray, self.avg, 0.5)
        self.frameDelta = cv2.absdiff(gray, cv2.convertScaleAbs(self.avg))

        # threshold the delta image, dilate the thresholded image to fill
        # in holes, then find contours on thresholded image
        self.thresh = cv2.threshold(self.frameDelta, 5, 255,
            cv2.THRESH_BINARY)[1]
        self.thresh = cv2.dilate(self.thresh, None, iterations=2)
        self.cnts = cv2.findContours(self.thresh.copy(), cv2.RETR_EXTERNAL,
            cv2.CHAIN_APPROX_SIMPLE)
        self.cnts = imutils.grab_contours(self.cnts)
        # print('x')
        # loop over the contours
        for c in self.cnts:
            # if the contour is too small, ignore it
            if cv2.contourArea(c) < 5000:
                continue
     
            # compute the bounding box for the contour, draw it on the frame,
            # and update the text
            (self.mov_x, self.mov_y, self.mov_w, self.mov_h) = cv2.boundingRect(c)
            self.drawing = 1
            
            self.motionCounter += 1
            #print(motionCounter)
            #print(text)
            self.lastMovtionCaptured = timestamp
            led.setColor(255,78,0)
            led.both_off()
            led.red()
            # switch.switch(1,1)
            # switch.switch(2,1)
            # switch.switch(3,1)

        if (timestamp - self.lastMovtionCaptured).seconds >= 0.5:
            led.setColor(0,78,255)
            led.both_off()
            led.blue()
            self.drawing = 0
            # switch.switch(1,0)
            # switch.switch(2,0)
            # switch.switch(3,0)
        self.pause()


    def findLineCtrl(self, posInput, setCenter):#2
        if posInput:
            if posInput > (setCenter + findLineError):
                # move.motorStop()
                #turnRight
                error = (posInput-320)/3
                outv = int(round((pid.GenOut(error)),0))
                CVThread.scGear.moveAngle(2,-outv)
                if CVRun:
                    move.motor_left(1, 0, 80)
                    move.motor_right(1, 0, 80)
                else:
                    move.motorStop()
                pass
            elif posInput < (setCenter - findLineError):
                # move.motorStop()
                #turnLeft
                error = (320-posInput)/3
                outv = int(round((pid.GenOut(error)),0))
                CVThread.scGear.moveAngle(2,outv)
                if CVRun:
                    move.motor_left(1, 0, 80)
                    move.motor_right(1, 0, 80)
                else:
                    move.motorStop()
                pass
            else:
                if CVRun:
                    move.motor_left(1, 0, 80)
                    move.motor_right(1, 0, 80)
                else:
                    move.motorStop()
                #forward
                pass
        else:
            pass


    def findlineCV(self, frame_image):
        frame_findline = cv2.cvtColor(frame_image, cv2.COLOR_BGR2GRAY)
        retval, frame_findline =  cv2.threshold(frame_findline, 0, 255, cv2.THRESH_OTSU)
        frame_findline = cv2.erode(frame_findline, None, iterations=6)
        colorPos_1 = frame_findline[linePos_1]
        colorPos_2 = frame_findline[linePos_2]
        try:
            lineColorCount_Pos1 = np.sum(colorPos_1 == lineColorSet)
            lineColorCount_Pos2 = np.sum(colorPos_2 == lineColorSet)

            lineIndex_Pos1 = np.where(colorPos_1 == lineColorSet)
            lineIndex_Pos2 = np.where(colorPos_2 == lineColorSet)

            if lineColorCount_Pos1 == 0:
                lineColorCount_Pos1 = 1
            if lineColorCount_Pos2 == 0:
                lineColorCount_Pos2 = 1

            self.left_Pos1 = lineIndex_Pos1[0][lineColorCount_Pos1-1]
            self.right_Pos1 = lineIndex_Pos1[0][0]
            self.center_Pos1 = int((self.left_Pos1+self.right_Pos1)/2)

            self.left_Pos2 = lineIndex_Pos2[0][lineColorCount_Pos2-1]
            self.right_Pos2 = lineIndex_Pos2[0][0]
            self.center_Pos2 = int((self.left_Pos2+self.right_Pos2)/2)

            self.center = int((self.center_Pos1+self.center_Pos2)/2)
        except:
            center = None
            pass

        self.findLineCtrl(self.center, 320)
        self.pause()


    def servoMove(ID, Dir, errorInput):
        if ID == 1:
            errorGenOut = CVThread.kalman_filter_X.kalman(errorInput)
            CVThread.P_anglePos += 0.35*(errorGenOut*Dir)*CVThread.cameraDiagonalW/CVThread.videoW

            if abs(errorInput) > CVThread.tor:
                CVThread.scGear.moveAngle(ID,CVThread.P_anglePos)
                CVThread.X_lock = 0
            else:
                CVThread.X_lock = 1
        elif ID == 0:
            errorGenOut = CVThread.kalman_filter_Y.kalman(errorInput)
            CVThread.T_anglePos += 0.35*(errorGenOut*Dir)*CVThread.cameraDiagonalH/CVThread.videoH

            if abs(errorInput) > CVThread.tor:
                CVThread.scGear.moveAngle(ID,CVThread.T_anglePos)
                CVThread.Y_lock = 0
            else:
                CVThread.Y_lock = 1
        else:
            print('No servoPort %d assigned.'%ID)


    def findColor(self, frame_image):
        hsv = cv2.cvtColor(frame_image, cv2.COLOR_BGR2HSV)
        mask = cv2.inRange(hsv, colorLower, colorUpper)#1
        mask = cv2.erode(mask, None, iterations=2)
        mask = cv2.dilate(mask, None, iterations=2)
        cnts = cv2.findContours(mask.copy(), cv2.RETR_EXTERNAL,
            cv2.CHAIN_APPROX_SIMPLE)[-2]
        center = None
        if len(cnts) > 0:
            self.findColorDetection = 1
            c = max(cnts, key=cv2.contourArea)
            ((self.box_x, self.box_y), self.radius) = cv2.minEnclosingCircle(c)
            M = cv2.moments(c)
            center = (int(M["m10"] / M["m00"]), int(M["m01"] / M["m00"]))
            X = int(self.box_x)
            Y = int(self.box_y)
            error_Y = 240 - Y
            error_X = 320 - X
            CVThread.servoMove(CVThread.P_servo, CVThread.P_direction, -error_X)
            CVThread.servoMove(CVThread.T_servo, CVThread.T_direction, -error_Y)

            if CVThread.X_lock == 1 and CVThread.Y_lock == 1:
                led.setColor(255,78,0)
                led.both_off()
                led.red()
                print('locked')
            else:
                led.setColor(0,78,255)
                led.both_off()
                led.blue()
                print('unlocked')
        else:
            self.findColorDetection = 0
            move.motorStop()
        self.pause()


    def pause(self):
        self.__flag.clear()

    def resume(self):
        self.__flag.set()

    def run(self):
        while 1:
            self.__flag.wait()
            if self.CVMode == 'none':
                continue
            elif self.CVMode == 'findColor':
                self.CVThreading = 1
                self.findColor(self.imgCV)
                self.CVThreading = 0
            elif self.CVMode == 'findlineCV':
                self.CVThreading = 1
                self.findlineCV(self.imgCV)
                self.CVThreading = 0
            elif self.CVMode == 'watchDog':
                self.CVThreading = 1
                self.watchDog(self.imgCV)
                self.CVThreading = 0
            pass
示例#3
0
async def recv_msg(websocket):
	global speed_set, modeSelect
	move.setup()
	direction_command = 'no'
	turn_command = 'no'

	while True: 
		response = {
			'status' : 'ok',
			'title' : '',
			'data' : None
		}

		data = ''
		data = await websocket.recv()
		try:
			data = json.loads(data)
		except Exception as e:
			print('not A JSON')

		if not data:
			continue

		if isinstance(data,str):
			robotCtrl(data, response)

			switchCtrl(data, response)

			functionSelect(data, response)

			configPWM(data, response)

			if 'get_info' == data:
				response['title'] = 'get_info'
				response['data'] = [info.get_cpu_tempfunc(), info.get_cpu_use(), info.get_ram_info()]

			if 'wsB' in data:
				try:
					set_B=data.split()
					speed_set = int(set_B[1])
				except:
					pass

			elif 'AR' == data:
				modeSelect = 'AR'
				screen.screen_show(4, 'ARM MODE ON')
				try:
					fpv.changeMode('ARM MODE ON')
				except:
					pass

			elif 'PT' == data:
				modeSelect = 'PT'
				screen.screen_show(4, 'PT MODE ON')
				try:
					fpv.changeMode('PT MODE ON')
				except:
					pass

			#CVFL
			elif 'CVFL' == data:
				flask_app.modeselect('findlineCV')

			elif 'CVFLColorSet' in data:
				color = int(data.split()[1])
				flask_app.camera.colorSet(color)

			elif 'CVFLL1' in data:
				pos = int(data.split()[1])
				flask_app.camera.linePosSet_1(pos)

			elif 'CVFLL2' in data:
				pos = int(data.split()[1])
				flask_app.camera.linePosSet_2(pos)

			elif 'CVFLSP' in data:
				err = int(data.split()[1])
				flask_app.camera.errorSet(err)

			elif 'defEC' in data:#Z
				fpv.defaultExpCom()

		elif(isinstance(data,dict)):
			if data['title'] == "findColorSet":
				color = data['data']
				flask_app.colorFindSet(color[0],color[1],color[2])

		if not functionMode:
			if OLED_connection:
				screen.screen_show(5,'Functions OFF')
		else:
			pass

		print(data)
		response = json.dumps(response)
		await websocket.send(response)
示例#4
0
 def setup():
     move.setup()