To make the tilt controlled robot responsive, it’s important to speed up the while True loop’s repeat rate. The changes are simple, just remove print statements and reduce sleep(500) to sleep(50). This will help prevent delays between tilting the controller and the cyber:bot’s response. Without the print statements, plan to use the LED displays to verify radio communication between the tilt controller and the cyber:bot.
# radio_tilt_transmit_rapid from microbit import * import math import radio radio.on() radio.config(channel=7, queue=1, length=64) sleep(1000) while True: x = accelerometer.get_x() y = accelerometer.get_y() angle = round( math.degrees( math.atan2(y, x) ) ) needle = ( angle + 90 + 15 ) // 30 display.show(Image.ALL_CLOCKS[needle]) dictionary = { } dictionary['x'] = x dictionary['y'] = y dictionary['needle'] = needle packet = str(dictionary) radio.send(packet) sleep(50)
The radio_tilt_transmit_rapid script is almost identical to radio_tilt_transmit_test from the previous activity. The only differences are that the print statements were removed and the sleep(500) at the end of the loop was changed to sleep(50) to make it more responsive.
Why not just completely remove the sleep call? Probably the most important reason is to not flood the airwaves with unnecessary radio activity. The sleep(50) call reduces the radio transmissions to around 20 times per second. The difference between letting the micro:bit transmit as fast as it can and repeating with a 50 ms pause will not be noticeable as you tilt the micro:bit to make the cyber:bot move.