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https://github.com/Adam-Ant/WatchedPotNeverBoils
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Readme.md
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Readme.md
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# A Watched Pot Never Boils
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This repo uses a Raspberry Pi and a 433Mhz remote controlled socket to enforce the old idiom, "A Watched Pot Never Boils".
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This code is unmaintained, and was written at 4am after seeing a video by Tom Scott that contained this very concept.
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A writeup of how this was done can be found on my blog, [here]()
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WatchPotNeverBoils.ino
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WatchPotNeverBoils.ino
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/*
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Send an n to turn on, a f to turn off
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*/
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#include <RCSwitch.h>
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RCSwitch mySwitch = RCSwitch();
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int inbyte = 0; // for incoming serial data
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void setup() {
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Serial.begin(9600);
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// Transmitter is connected to Arduino Pin #10
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mySwitch.enableTransmit(10);
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// Optional set protocol (default is 1, will work for most outlets)
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// mySwitch.setProtocol(2);
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// Optional set pulse length.
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mySwitch.setPulseLength(242);
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// Optional set number of transmission repetitions.
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// mySwitch.setRepeatTransmit(15);
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}
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void loop() {
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/* Same switch as above, but using binary code */
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if (Serial.available() > 0) {
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inbyte = Serial.read();
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switch (inbyte) {
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case 102:
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mySwitch.send("000011110000000000000000");
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case 110:
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mySwitch.send("000011110000000011000000");
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}
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}
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}
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cv.py
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cv.py
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import io
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import picamera
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import cv2
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import numpy
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import serial
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#Load a cascade file for detecting faces
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face_cascade = cv2.CascadeClassifier('/home/pi/opencv-3.3.0/data/haarcascades/haarcascade_frontalface_default.xml')
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ser = serial.Serial('/dev/ttyACM0')
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while True:
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#Create a memory stream so photos doesn't need to be saved in a file
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stream = io.BytesIO()
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#Get the picture (low resolution, so it should be quite fast)
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#Here you can also specify other parameters (e.g.:rotate the image)
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with picamera.PiCamera() as camera:
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camera.resolution = (320, 240)
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camera.capture(stream, format='jpeg')
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#Convert the picture into a numpy array
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buff = numpy.fromstring(stream.getvalue(), dtype=numpy.uint8)
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#Now creates an OpenCV image
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image = cv2.imdecode(buff, 1)
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#Convert to grayscale
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gray = cv2.cvtColor(image,cv2.COLOR_BGR2GRAY)
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#Look for faces in the image using the loaded cascade file
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faces = face_cascade.detectMultiScale(gray, 1.1, 5)
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print("Found "+str(len(faces))+" face(s)")
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if len(faces) > 0:
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ser.write(b'f')
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else:
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ser.write(b'n')
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