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102 lines
5.2 KiB
102 lines
5.2 KiB
# extended from https://github.com/WorldFamousElectronics/PulseSensor_Amped_Arduino
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import time
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import threading
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from gpiozero import MCP3008
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class Pulsesensor:
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def __init__(self, channel = 0, bus = 0, device = 0):
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self.channel = channel
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self.BPM = 0
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self.adc = MCP3008(bus, device)
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def getBPMLoop(self):
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# init variables
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rate = [0] * 10 # array to hold last 10 IBI values
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sampleCounter = 0 # used to determine pulse timing
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lastBeatTime = 0 # used to find IBI
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P = 512 # used to find peak in pulse wave, seeded
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T = 512 # used to find trough in pulse wave, seeded
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thresh = 525 # used to find instant moment of heart beat, seeded
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amp = 100 # used to hold amplitude of pulse waveform, seeded
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firstBeat = True # used to seed rate array so we startup with reasonable BPM
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secondBeat = False # used to seed rate array so we startup with reasonable BPM
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IBI = 600 # int that holds the time interval between beats! Must be seeded!
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Pulse = False # "True" when User's live heartbeat is detected. "False" when not a "live beat".
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lastTime = int(time.time()*1000)
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while not self.thread.stopped:
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Signal = self.adc.raw_value
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currentTime = int(time.time()*1000)
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sampleCounter += currentTime - lastTime
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lastTime = currentTime
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N = sampleCounter - lastBeatTime
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# find the peak and trough of the pulse wave
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if Signal < thresh and N > (IBI/5.0)*3: # avoid dichrotic noise by waiting 3/5 of last IBI
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if Signal < T: # T is the trough
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T = Signal # keep track of lowest point in pulse wave
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if Signal > thresh and Signal > P:
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P = Signal
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# signal surges up in value every time there is a pulse
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if N > 250: # avoid high frequency noise
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if Signal > thresh and Pulse == False and N > (IBI/5.0)*3:
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Pulse = True # set the Pulse flag when we think there is a pulse
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IBI = sampleCounter - lastBeatTime # measure time between beats in mS
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lastBeatTime = sampleCounter # keep track of time for next pulse
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if secondBeat: # if this is the second beat, if secondBeat == TRUE
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secondBeat = False; # clear secondBeat flag
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for i in range(len(rate)): # seed the running total to get a realisitic BPM at startup
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rate[i] = IBI
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if firstBeat: # if it's the first time we found a beat, if firstBeat == TRUE
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firstBeat = False; # clear firstBeat flag
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secondBeat = True; # set the second beat flag
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continue
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# keep a running total of the last 10 IBI values
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rate[:-1] = rate[1:] # shift data in the rate array
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rate[-1] = IBI # add the latest IBI to the rate array
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runningTotal = sum(rate) # add upp oldest IBI values
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runningTotal /= len(rate) # average the IBI values
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self.BPM = 60000/runningTotal # how many beats can fit into a minute? that's BPM!
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if Signal < thresh and Pulse == True: # when the values are going down, the beat is over
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Pulse = False # reset the Pulse flag so we can do it again
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amp = P - T # get amplitude of the pulse wave
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thresh = amp/2 + T # set thresh at 50% of the amplitude
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P = thresh # reset these for next time
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T = thresh
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if N > 2500: # if 2.5 seconds go by without a beat
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thresh = 512 # set thresh default
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P = 512 # set P default
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T = 512 # set T default
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lastBeatTime = sampleCounter # bring the lastBeatTime up to date
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firstBeat = True # set these to avoid noise
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secondBeat = False # when we get the heartbeat back
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self.BPM = 0
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time.sleep(0.005)
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# Start getBPMLoop routine which saves the BPM in its variable
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def startAsyncBPM(self):
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self.thread = threading.Thread(target=self.getBPMLoop)
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self.thread.stopped = False
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self.thread.start()
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return
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# Stop the routine
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def stopAsyncBPM(self):
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self.thread.stopped = True
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self.BPM = 0
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return
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