from PiMotor import Sensor
import time
go = "true"
while go == "true":
us = Sensor("ULTRASONIC", 15)
us.trigger()
if us.Triggered:
print("Bremsen")
import PiMotor
from PiMotor import Sensor
import time
m1 = PiMotor.Motor("MOTOR1", 1)
m2 = PiMotor.Motor("MOTOR2", 1)
m3 = PiMotor.Motor("MOTOR3", 1)
m4 = PiMotor.Motor("MOTOR4", 1)
#Names for Individual Arrows
ab = PiMotor.Arrow(1)
al = PiMotor.Arrow(2)
af = PiMotor.Arrow(3)
ar = PiMotor.Arrow(4)
us = Sensor("ULTRASONIC", 120)
irFront = Sensor("IR1", 1)
irBack = Sensor("IR2", 1)
irLeft = Sensor("IR3", 1)
irRight = Sensor("IR4", 1)
#To drive all motors together
motorAll = PiMotor.LinkedMotors(m1, m2, m3, m4)
rightMotors = PiMotor.LinkedMotors(m1, m2)
leftMotors = PiMotor.LinkedMotors(m3, m4)
def trigIR():
irFront.trigger()
irBack.trigger()
if irFront.Triggered:
import PiMotor
from PiMotor import Sensor
import time
m1 = PiMotor.Motor("MOTOR1",1)
m2 = PiMotor.Motor("MOTOR2",1)
m3 = PiMotor.Motor("MOTOR3",1)
m4 = PiMotor.Motor("MOTOR4",1)
us=Sensor("ULTRASONIC",60)
ir1=Sensor("IR2",10)
ir2=Sensor("IR1",10)
#To drive all motors together
motorAll = PiMotor.LinkedMotors(m1,m2,m3,m4)
x=0
def trigIR():
ir1.trigger()
ir2.trigger()
if ir1.Triggered:
motorAll.reverse(100)
time.sleep(0.7)
motorAll.stop()
print("Front Line Detected")
if ir2.Triggered:
motorAll.forward(100)
time.sleep(0.7)
motorAll.stop()
import PiMotor
from PiMotor import Sensor
import time
m1 = PiMotor.Motor("MOTOR1", 1)
m2 = PiMotor.Motor("MOTOR2", 1)
m3 = PiMotor.Motor("MOTOR3", 1)
m4 = PiMotor.Motor("MOTOR4", 1)
us = Sensor("ULTRASONIC", 45)
ir1 = Sensor("IR2", 10)
ir2 = Sensor("IR1", 10)
#To drive all motors together
motorAll = PiMotor.LinkedMotors(m1, m2, m3, m4)
leftMotors = PiMotor.LinkedMotors(m1, m2)
rightMotors = PiMotors.LinkedMotors(m3, m4)
try:
leftMotors.forward(80)
rightMotors.reverse(80)
time.sleep(5)
motorAll.stop()
except KeyboardInterrupt:
GPIO.cleanup()
import PiMotor
from PiMotor import Sensor
import time
m1 = PiMotor.Motor("MOTOR1", 1)
m2 = PiMotor.Motor("MOTOR2", 1)
m3 = PiMotor.Motor("MOTOR3", 1)
m4 = PiMotor.Motor("MOTOR4", 1)
us = Sensor("ULTRASONIC", 45)
ir1 = Sensor("IR2", 10)
ir2 = Sensor("IR1", 10)
ir3 = Sensor("IR3", 10)
#To drive all motors together
motorAll = PiMotor.LinkedMotors(m1, m2, m3, m4)
def trigIR():
ir1.trigger()
ir2.trigger()
if ir1.Triggered:
motorAll.reverse(100)
time.sleep(0.7)
motorAll.stop()
print("Front Line Detected")
if ir2.Triggered:
motorAll.forward(100)
time.sleep(0.7)
motorAll.stop()
print("Back Line Detected")
#!/usr/bin/python
from PiMotor import Sensor
us = Sensor("ULTRASONIC", 10)
while True:
us.sonicCheck()
if us.Triggered:
print("Sonic detected obtstruction")
from PiMotor import Sensor
import time
go = "true"
while go == "true":
us1 = Sensor("IR1", 1)
us1.trigger()
us2 = Sensor("IR2", 1)
us2.trigger()
if us1.Triggered and us2.Triggered:
print("stop")
elif us1.Triggered:
print("rechts")
elif us2.Triggered:
print("links")
import time
import sys
sys.path.append("/home/pi/MotorShield")
from PiMotor import Arrow
from PiMotor import Sensor
from PiMotor import Motor
m1 = Motor("MOTOR1",1)
m2 = Motor("MOTOR2",1)
m3 = Motor("MOTOR3",1)
m4 = Motor("MOTOR4",1)
us = Sensor("ULTRASONIC", 10)
ls1 = Sensor("IR1",0)
ls2 = Sensor("IR2",0)
while True:
ls1.iRCheck()
if ls1.Triggered:
print("IR1 detected black line")
ls2.iRCheck()
if ls2.Triggered:
print("IR2 detected black line")
import PiMotor
from PiMotor import Sensor
import time
m1 = PiMotor.Motor("MOTOR1", 1)
m2 = PiMotor.Motor("MOTOR2", 1)
m3 = PiMotor.Motor("MOTOR3", 1)
m4 = PiMotor.Motor("MOTOR4", 1)
us = Sensor("ULTRASONIC", 30)
ir1 = Sensor("IR1", 4)
ir2 = Sensor("IR2", 4)
#M1 = BL #M2 = BR #M3 = FR #M4 = FL
# #To drive all motors together
motorAll = PiMotor.LinkedMotors(m1, m2, m3, m4)
try:
#To turn around: # m1.forward(100)
m2.reverse(100)
m3.reverse(100)
m4.forward(100)
time.sleep(0.9)
motorAll.stop()
#To do a 90 degree turn right:
m1.forward(100)
m2.reverse(100)
m3.reverse(100)
m4.forward(100)
time.sleep(0.46)
motorAll.stop()
#To do a 90 degree turn left:
import sys
sys.path.append("/home/pi/MotorShield")
from PiMotor import Arrow
from PiMotor import Sensor
from PiMotor import Motor
m1 = Motor("MOTOR1", 1)
m2 = Motor("MOTOR2", 1)
m3 = Motor("MOTOR3", 1)
m4 = Motor("MOTOR4", 1)
us = Sensor("ULTRASONIC", 10)
ir1 = Sensor("IR1", 0)
ir2 = Sensor("IR2", 0)
while True:
ir1.trigger()
if ir1.Triggered:
print("No Line Detected - IR1")
else:
print("Black Line Detected - IR1")
ir2.trigger()
if ir2.Triggered:
print("No Line Detected - IR2")
else:
print("Black Line Detected - IR2")
# except KeyboardInterrupt:
# GPIO.cleanup()
from PiMotor import Motor, Sensor
import Compass
import time, math, keyboard
import numpy as np
# definicja globalnych zmiennych
mL = Motor("MOTOR1", 1)
mR = Motor("MOTOR4", 1)
sen = Sensor("ULTRASONIC", 10)
start_Time = 0.0
end_Time = 0.0
speed = 50
direction = 0.0
realSpeed = 13.5
def DistanceToCheck():
realDistance = realSpeed * (end_Time - start_Time)
print("estimated distance traveled: " + str(realDistance))
return realDistance
# robot control methods
def Forward():
mL.forward(speed)
mR.forward(speed)
def Revers():
mL.reverse(speed)
mR.reverse(speed)