Ejemplo n.º 1
0
def ultrasonics():
    while True:
        dist = running_average.update(
            ultrasonic_distance.distance(trig1, echo1))
        left = running_average.update(
            ultrasonic_distance.distance(trig2, echo2))
        right = running_average.update(
            ultrasonic_distance.distance(trig3, echo3))
        time.sleep(0.05)
Ejemplo n.º 2
0
def thread_function(name):
    while True:
        print(ultrasonic_distance.distance(trig1, echo1))
        #print(ultrasonic_distance.distance(trig2, echo2))
        #print(ultrasonic_distance.distance(trig3, echo3))
        print("")
        time.sleep(1)
Ejemplo n.º 3
0
def motor1(x):
    dist = distance()
    if dist < 20:
        print 'stop...'
    if x == 'True':
        GPIO.output(Motor1_A, GPIO.LOW)
        GPIO.output(Motor1_B, GPIO.HIGH)
    elif x == 'False':
        GPIO.output(Motor1_A, GPIO.HIGH)
        GPIO.output(Motor1_B, GPIO.LOW)
Ejemplo n.º 4
0
def doggy_detected():
    import ultrasonic_distance
    import pygame

    x = 0
    totalDistance = 0
    averageDistance = 0

    while x < 50:
        x = x + 1
        time.sleep(.01)
        totalDistance = ultrasonic_distance.distance() + totalDistance

    averageDistance = totalDistance / x
    inchesDistance = averageDistance / 2.54

    if inchesDistance < detectionDistance:
        pygame.mixer.music.play()
        while pygame.mixer.music.get_busy() == True:
            continue

    print(averageDistance)
    print(inchesDistance)
Ejemplo n.º 5
0
def ultrasonic1():
    while True:
        global dist
        dist = running_average.update(
            ultrasonic_distance.distance(trig1, echo1))
        time.sleep(SENSOR_DELAY)
Ejemplo n.º 6
0
import dhhht
import ultrasonic_distance
import time
import moto
from firebase import firebase

firebase=firebase.FirebaseApplication('https://farming-48619.firebaseio.com/')
while True:
	b=firebase.get('/iot','motor')
	print(b)
	moto.mot(17)
        
	a1=soil1.soil(2)
	print(a1)
	firebase.put('iot','soil moisture',a1)
	#firebase.get('/iot','soil moisture')
	a2,a3=dhhht.dh(3)
	firebase.put('iot','temp',a2)
	firebase.put('iot','humidity',a3)
	a=ultrasonic_distance.distance(18,24)
	print(a)
	firebase.put('iot','distance',a)
	a4=soil1.soil(4)
	print(a4)
	firebase.put('iot','light',a4)
	
       
##        else:
##                pass
	time.sleep(1)
Ejemplo n.º 7
0
WINDOW_LENGTH = 5

if __name__ == '__main__':
    try:
	print ("Starting")
        motors.enable()
        motors.setSpeeds(0, 0)
	Lspeed = 0
	Rspeed = 0
	lst = [MIN_DIST] * WINDOW_LENGTH
	running_average.average_init(lst)
	ultrasonic_distance.init(trig1, echo1)
#	ultrasonic_distance.init(trig2, echo2)
#	ultrasonic_distance.init(trig3, echo3)
        while True:
            dist = running_average.update(ultrasonic_distance.distance(trig1, echo1))
#	    left = running_average.update(ultrasonic_distance.distance(trig2, echo2))
#	    right = running_average.update(ultrasonic_distance.distance(trig3, echo3))
            #stop if too close
            if dist < MIN_DIST and DEC == False:
		print ("TOO CLOSE")
                DEC = True
                ACC = False
	    # start if in range
	    elif dist >= MIN_DIST and ACC == False:
		ACC = True
                DEC = False
            # reached max speed
            elif ACC == True and (Lspeed >= FORWARD_SPEED or Rspeed >= FORWARD_SPEED):
		print ("CRUISING FORWARD")
                ACC = False
Ejemplo n.º 8
0
def motor_forward(request):
    motor.forward()
    dist = distance()
    if dist < 20:
        print 'Motor stop'
    return HttpResponse("Motor forward")
Ejemplo n.º 9
0
try:
    print("Starting")
    motors.enable()
    motors.setSpeeds(0, 0)
    Lspeed = 0
    Rspeed = 0
    lst = [MIN_DIST] * WINDOW_LENGTH
    running_average.average_init(lst)
    ultrasonic_distance.init(trig1, echo1)
    ultrasonic_distance.init(trig2, echo2)
    ultrasonic_distance.init(trig3, echo3)
    while True:
        #	    dist = ultrasonic_distance.distance(trig1, echo1)
        time.sleep(.25)
        dist = running_average.update(
            ultrasonic_distance.distance(trig1, echo1))
        time.sleep(.25)
        left = running_average.update(
            ultrasonic_distance.distance(trig2, echo2))
        time.sleep(.25)
        right = running_average.update(
            ultrasonic_distance.distance(trig3, echo3))
        #stop if too close
        if dist < MIN_DIST and DEC == False:
            print("TOO CLOSE")
            DEC = True
            DECELERATE = list(range(
                Lspeed, -REVERSE_SPEED, DEC_VALUE)) + list(
                    range(-REVERSE_SPEED, 0, -DEC_VALUE))
            #		L_DECELERATE = list(range(Lspeed, -REVERSE_SPEED, DEC_VALUE)) + list(range(-REVERSE_SPEED, 0, -DEC_VALUE))
            #		R_DECELERATE = list(map(lambda x: Rspeed if