Ejemplo n.º 1
0
def car_control(conn):
    car = DRV8835()  # if Pololulu Motoredriver is used
    car.stop()
    SPEED = 60
    LEFT = 1.0
    RIGHT = 1.0
    car.forward(LEFT * SPEED * 1.0, RIGHT * SPEED * 1.0)
    while True:
        message = conn.recv()
        dx_mm, dy_mm, total_x, total_y, elapsed, dt = map(
            float, message.split())
        if message == "END":
            break
        elif total_y >= 200:  # Car is stopped when it moves 20 cm.
            car.stop()
        print("Vastaanotettu viesti {}, {}, {}, {}, {}, {}, {}, v_y={}".format(
            dx_mm, dy_mm, total_x, total_y, elapsed, dt, 1 / dt, dy_mm / dt))
Ejemplo n.º 2
0
KERNEL_SIZE = 9  #default value 15
LOW_THRESHOLD = 50  #default value 40
HIGH_THRESHOLD = 150  #default value 120

RHO = 10  #default 10
THRESHOLD = 10  #default 15
THETA = np.pi / 180
MIN_LINE_LENGTH = 80  #default 10
MAX_LINE_GAP = 1

camera = picamera.PiCamera()
camera.vflip = True  # Depending how picamera installed on the car
camera.hflip = True
camera.resolution = (640, 480)

car = DRV8835()  # if Pololulu Motoredriver is used
car.stop()
SPEED = 45
LEFT = 1.0
RIGHT = 1.0

while True:
    rawCapture = picamera.array.PiRGBArray(camera)
    time.sleep(0.1)
    camera.capture(rawCapture, format="bgr")
    frame = rawCapture.array

    #Convert to Grayscale
    gray = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY)

    #Blur image to reduce noise. The bigger the KERNEL_SIZE, more blurry the image
Ejemplo n.º 3
0
from time import sleep
import RPi.GPIO as GPIO
GPIO.setmode(GPIO.BCM)
GPIO.setwarnings(False)

from drv8835 import DRV8835
#import control_servos
import input_handling
from servos import SERVOS

CAR = DRV8835()
CAR.stop()
SPEED = 60
TURNING_SPEED = 30

SERVOS = SERVOS()


def drive_forward():
    CAR.forward(SPEED, SPEED)


def drive_backward():
    CAR.backward(SPEED, SPEED)


# TODO: miten kääntyy sujuvasti vasemmalle/oikealle
def drive_left():
    CAR.forward(SPEED, TURNING_SPEED)

Ejemplo n.º 4
0
import iot
from time import sleep
# from l293d_pwm import L293DPWM
from drv8835 import DRV8835
# from testing_motor import TestingMotorDriver

# car = L293DPWM(17, 27, 26, 23, 24, 6)
# car = L293DPWM(24, 12, 26, 13, 5, 6)
car = DRV8835()

car.stop()


@iot.subscribe("automessages")
def new_message(message):
    if (message == "moveforward"):
        car.forward(100, 100)
        sleep(2)
        car.stop()
    elif (message == "movebackward"):
        car.backward(100, 100)
        sleep(2)
        car.stop()
    elif (message == "moveright"):
        car.backward(100, 25)
        sleep(2)
        car.stop()
    elif (message == "moveleft"):
        car.backward(25, 100)
        sleep(2)
        car.stop()
Ejemplo n.º 5
0
from threading import Thread

# Maariteellaan Arduinon merkkilaitteen sijainti
# testaa komennolla ls -l /deb/tty* microbitin usb-kytkennalla ja ilman!
laite = "/dev/ttyACM0"

# Luodaan Serial-olio
ser = serial.Serial(laite, baudrate=115200, timeout=1)

# Luodaan valmis Re-olio
# dataRe = re.compile(r"^(\d{1,4}),(\d{1,4}),([01])$")
dataRe = re.compile(r"^\s*(-?\d+[?:[.]\d+]?)\s+(-?\d+[?:[.]\d+]?)$")

# car = L293DPWM(17, 27, 26, 23, 24, 6)
# car = L293DPWM(24, 12, 26, 13, 5, 6)
car = DRV8835()  # if Polulu motor driver for raspberry is used


def maxmin(arvo, maks, minn):
    return max(min(arvo, maks), minn)


arvot = []
active = True


def serial_read():
    print("Serial_thread kaynnistetty")
    global arvot
    while active:
        # Luetaan sarjaliikennetta