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Evita obstáculos

Programa

El núcleo del programa es la función api

get_distance(unit: str = 'cm')

Es sorprendente el sensor TOF como puede leer no sólo diréctamente sino a los lados :

  • left_tof: 45° to the left object distance
  • center_left_tof: 22° to the left object distance
  • center_tof: center object distance
  • center_right_tof: 22° to the right object distance
  • right_tof: 45° to the right object distance

El programa es extraido de https://docs.arduino.cc/tutorials/alvik/getting-started/ AuthorJose Garcia

from arduino_alvik import ArduinoAlvik
from time import sleep_ms
import sys

alvik = ArduinoAlvik()
alvik.begin()
sleep_ms(5000)  # waiting for the robot to setup
distance = 20
degrees = 45.00
speed = 50.00

while (True):

    distance_l, distance_cl, distance_c, distance_r, distance_cr  = alvik.get_distance()
    sleep_ms(50)
    print(distance_c)

    if distance_c < distance:
        alvik.rotate(degrees, 'deg')
    elif distance_cl < distance:
        alvik.rotate(degrees, 'deg')
    elif distance_cr < distance:
        alvik.rotate(degrees, 'deg')
    elif distance_l < distance:
        alvik.rotate(degrees, 'deg')
    elif distance_r < distance:
        alvik.rotate(degrees, 'deg')
    else:
        alvik.drive(speed, 0.0, linear_unit='cm/s')
Resultado