PyRobovision: Difference between revisions
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This page is simply to show off the MVP using Python, OpenCV, [[Firmata]] | This page is simply to show off the MVP using Python, OpenCV, [[Firmata]], Flask. | ||
<source lang="python"> | <source lang="python"> | ||
Revision as of 18:43, 21 February 2016
This page is simply to show off the MVP using Python, OpenCV, Firmata, Flask.
import cv2
import numpy as np
import signal
import sys
from flask import Flask, render_template, Response
from collections import deque
from datetime import datetime
from time import time, sleep
from threading import Thread
from PyMata.pymata import PyMata
class Motors(Thread):
MOTOR_1_PWM = 2
MOTOR_1_A = 3
MOTOR_1_B = 4
MOTOR_2_PWM = 5
MOTOR_2_A = 6
MOTOR_2_B = 7
MOTOR_3_PWM = 8
MOTOR_3_A = 9
MOTOR_3_B = 10
def __init__(self):
Thread.__init__(self)
self.daemon = True
self.board = PyMata("/dev/ttyACM1")
def signal_handler(sig, frame):
self.stop_motors()
self.board.reset()
sys.exit(0)
signal.signal(signal.SIGINT, signal_handler)
self.board.set_pin_mode(self.MOTOR_1_PWM, self.board.PWM, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_1_A, self.board.OUTPUT, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_1_B, self.board.OUTPUT, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_2_PWM, self.board.PWM, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_2_A, self.board.OUTPUT, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_2_B, self.board.OUTPUT, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_3_PWM, self.board.PWM, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_3_A, self.board.OUTPUT, self.board.DIGITAL)
self.board.set_pin_mode(self.MOTOR_3_B, self.board.OUTPUT, self.board.DIGITAL)
self.dx, self.dy = 0, 0
def stop_motors(self):
self.board.digital_write(self.MOTOR_1_B, 0)
self.board.digital_write(self.MOTOR_1_A, 0)
self.board.digital_write(self.MOTOR_2_B, 0)
self.board.digital_write(self.MOTOR_2_A, 0)
self.board.digital_write(self.MOTOR_3_B, 0)
self.board.digital_write(self.MOTOR_3_A, 0)
def run(self):
while True:
# Reset all direction pins to avoid damaging H-bridges
self.stop_motors()
dist = abs(self.dx)
if dist > 2:
if self.dx > 0:
print("Turning left")
self.board.digital_write(self.MOTOR_1_B, 1)
self.board.digital_write(self.MOTOR_2_B, 1)
self.board.digital_write(self.MOTOR_3_B, 1)
else:
print("Turning right")
self.board.digital_write(self.MOTOR_1_A, 1)
self.board.digital_write(self.MOTOR_2_A, 1)
self.board.digital_write(self.MOTOR_3_A, 1)
self.board.analog_write(self.MOTOR_1_PWM, int(dist ** 0.7 + 25))
self.board.analog_write(self.MOTOR_2_PWM, int(dist ** 0.7 + 25))
self.board.analog_write(self.MOTOR_3_PWM, int(dist ** 0.7 + 25))
elif self.dy > 30:
print("Going forward")
self.board.digital_write(self.MOTOR_1_B, 1)
self.board.digital_write(self.MOTOR_3_A, 1)
self.board.analog_write(self.MOTOR_1_PWM, int(self.dy ** 0.5 )+30)
self.board.analog_write(self.MOTOR_2_PWM, 0)
self.board.analog_write(self.MOTOR_3_PWM, int(self.dy ** 0.5 )+30)
sleep(0.03)
class FrameGrabber(Thread):
BALL_LOWER = ( 5, 140, 140)
BALL_UPPER = (30, 255, 255)
def __init__(self, width=320, height=240):
Thread.__init__(self)
self.daemon = True
self.video = cv2.VideoCapture(0)
self.video.set(3, width)
self.video.set(4, height)
self.timestamp = time()
self.frames = 0
self.fps = 50
self.current_frame = None
def run(self):
while True:
self.frames += 1
timestamp_begin = time()
if self.frames > 10:
self.fps = self.frames / (timestamp_begin - self.timestamp)
self.frames = 0
self.timestamp = timestamp_begin
success, frame = self.video.read()
frame = cv2.flip(frame, 1)
original = frame
blurred = cv2.blur(frame, (4,4))
hsv = cv2.cvtColor(blurred, cv2.COLOR_BGR2HSV)
mask = cv2.inRange(hsv, self.BALL_LOWER, self.BALL_UPPER)
mask = cv2.dilate(mask, None, iterations=2)
cutout = cv2.bitwise_and(frame,frame, mask= mask)
cnts = cv2.findContours(mask, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)[-2]
if len(cnts) > 0:
c = max(cnts, key=cv2.contourArea)
(x, y), radius = cv2.minEnclosingCircle(c)
M = cv2.moments(c)
center = (int(M["m10"] / M["m00"]), int(M["m01"] / M["m00"]))
if radius > 5:
cv2.circle(frame, (int(x), int(y)), int(radius),
(0, 255, 255), 2)
cv2.circle(frame, center, 5, (0, 0, 255), -1)
radius = 1/radius
radius = round(radius*100*11.35, 2)
cv2.putText(original,str(radius),(int(x),int(y)), cv2.FONT_HERSHEY_SIMPLEX, 0.7,(255,255,255),1,cv2.LINE_AA)
cv2.putText(original,str(radius),(int(x+3),int(y)), cv2.FONT_HERSHEY_SIMPLEX, 0.59,(0,0,0),1,cv2.LINE_AA)
delta = int((x-160)/5.0)
motors.dx, motors.dy = delta, 240-y
cv2.putText(frame,"%.01f fps" % self.fps, (10,20), cv2.FONT_HERSHEY_SIMPLEX, 0.3,(255,255,255),1,cv2.LINE_AA)
self.current_frame = np.hstack([original, cutout])
motors = Motors()
grabber = FrameGrabber()
motors.start()
grabber.start()
app = Flask(__name__)
@app.route('/')
def index():
return render_template('index.html')
@app.route('/video_feed')
def video_feed():
def generator():
while True:
if grabber.current_frame != None:
ret, jpeg = cv2.imencode('.jpg', grabber.current_frame, (cv2.IMWRITE_JPEG_QUALITY, 10))
yield b'--frame\r\nContent-Type: image/jpeg\r\n\r\n' + jpeg.tobytes() + b'\r\n\r\n'
sleep(0.2)
return Response(generator(),
mimetype='multipart/x-mixed-replace; boundary=frame')
if __name__ == '__main__':
app.run(host='0.0.0.0', debug=True,use_reloader=False,threaded=True)
