brunokruse/fw-ppg-heartbeat

## fw-ppg-heartbeat
/*
  Optical Heart Rate Detection (PBA Algorithm) using the MAX30105 Breakout
  By: Nathan Seidle @ SparkFun Electronics
  Date: October 2nd, 2016
  https://github.com/sparkfun/MAX30105_Breakout

  This is a demo to show the reading of heart rate or beats per minute (BPM) using
  a Penpheral Beat Amplitude (PBA) algorithm.

  It is best to attach the sensor to your finger using a rubber band or other tightening
  device. Humans are generally bad at applying constant pressure to a thing. When you
  press your finger against the sensor it varies enough to cause the blood in your
  finger to flow differently which causes the sensor readings to go wonky.

  Hardware Connections (Breakoutboard to Arduino):
  -5V = 5V (3.3V is allowed)
  -GND = GND
  -SDA = A4 (or SDA)
  -SCL = A5 (or SCL)
  -INT = Not connected

  The MAX30105 Breakout can handle 5V or 3.3V I2C logic. We recommend powering the board with 5V
  but it will also run at 3.3V.
*/

#include <Wire.h>

// PPG
#include "MAX30105.h"
#include "heartRate.h"

MAX30105 particleSensor;

const byte RATE_SIZE = 4; //Increase this for more averaging. 4 is good.
byte rates[RATE_SIZE]; //Array of heart rates
byte rateSpot = 0;
long lastBeat = 0; //Time at which the last beat occurred

float beatsPerMinute;
int beatAvg;

// LED
#include <Adafruit_NeoPixel.h>
#ifdef __AVR__
#include <avr/power.h>
#endif

#define PIN            16
#define NUMPIXELS      1
Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800);


// BLINK WITHOUT DELAY
unsigned long previousMillis = 0;     // will store last time LED was updated
const long interval = 1000;           // interval at which to blink (milliseconds)
boolean ledState;
boolean fingerState;

void setup()
{
  Serial.begin(115200);
  Serial.println("Initializing...");

  // Initialize sensor
  if (!particleSensor.begin(Wire, I2C_SPEED_FAST)) //Use default I2C port, 400kHz speed
  {
    Serial.println("MAX30105 was not found. Please check wiring/power. ");
    while (1);
  }
  Serial.println("Place your index finger on the sensor with steady pressure.");

  particleSensor.setup(); //Configure sensor with default settings
  particleSensor.setPulseAmplitudeRed(0x0A); //Turn Red LED to low to indicate sensor is running
  particleSensor.setPulseAmplitudeGreen(0); //Turn off Green LED

  // begin the neopixels
  pixels.begin(); // This initializes the NeoPixel library.

}

void loop()
{
  long irValue = particleSensor.getIR();

  if (checkForBeat(irValue) == true)
  {
    //We sensed a beat!
    long delta = millis() - lastBeat;
    lastBeat = millis();

    beatsPerMinute = 60 / (delta / 1000.0);

    if (beatsPerMinute < 255 && beatsPerMinute > 20)
    {
      rates[rateSpot++] = (byte)beatsPerMinute; //Store this reading in the array
      rateSpot %= RATE_SIZE; //Wrap variable

      //Take average of readings
      beatAvg = 0;
      for (byte x = 0 ; x < RATE_SIZE ; x++)
        beatAvg += rates[x];
      beatAvg /= RATE_SIZE;
    }
  }

  Serial.print("IR=");
  Serial.print(irValue);
  Serial.print(", BPM=");
  Serial.print(beatsPerMinute);
  Serial.print(", Avg BPM=");
  Serial.print(beatAvg);

  Serial.println();


  // TIMER LOGIC
  // we update the interval based on the heartrate
  float calcInterval = 1000;


  if (beatAvg > 0)
    calcInterval = 60000 / beatAvg;
  else
    calcInterval = 5000;

  if (irValue < 50000) {
    calcInterval = 5000;
    fingerState = false;
  } else {
    fingerState = true;

  }
  Serial.println(calcInterval);


  if (fingerState == true) {
  unsigned long currentMillis = millis();

    if (currentMillis - previousMillis >= calcInterval) {
      previousMillis = currentMillis;

      pixels.setPixelColor(0, pixels.Color(0, 150, 0)); // Moderately bright green color.
      pixels.show();
      delay(0.2);

      pixels.setPixelColor(0, pixels.Color(0, 0, 0));
      pixels.show();
      delay(0.2);

      pixels.setPixelColor(0, pixels.Color(0, 150, 0));
      pixels.show();
      delay(0.2);

      pixels.setPixelColor(0, pixels.Color(0, 0, 0));
      pixels.show();
      delay(0.2);

      //Serial.println(ledState);

    }
  } else {
    pixels.setPixelColor(0, pixels.Color(150, 0, 0)); // Moderately bright green color.
    pixels.show();
  }

}
	/*
	Optical Heart Rate Detection (PBA Algorithm) using the MAX30105 Breakout
	By: Nathan Seidle @ SparkFun Electronics
	Date: October 2nd, 2016
	https://github.com/sparkfun/MAX30105_Breakout

	This is a demo to show the reading of heart rate or beats per minute (BPM) using
	a Penpheral Beat Amplitude (PBA) algorithm.

	It is best to attach the sensor to your finger using a rubber band or other tightening
	device. Humans are generally bad at applying constant pressure to a thing. When you
	press your finger against the sensor it varies enough to cause the blood in your
	finger to flow differently which causes the sensor readings to go wonky.

	Hardware Connections (Breakoutboard to Arduino):
	-5V = 5V (3.3V is allowed)
	-GND = GND
	-SDA = A4 (or SDA)
	-SCL = A5 (or SCL)
	-INT = Not connected

	The MAX30105 Breakout can handle 5V or 3.3V I2C logic. We recommend powering the board with 5V
	but it will also run at 3.3V.
	*/

	#include <Wire.h>

	// PPG
	#include "MAX30105.h"
	#include "heartRate.h"

	MAX30105 particleSensor;

	const byte RATE_SIZE = 4; //Increase this for more averaging. 4 is good.
	byte rates[RATE_SIZE]; //Array of heart rates
	byte rateSpot = 0;
	long lastBeat = 0; //Time at which the last beat occurred

	float beatsPerMinute;
	int beatAvg;

	// LED
	#include <Adafruit_NeoPixel.h>
	#ifdef __AVR__
	#include <avr/power.h>
	#endif

	#define PIN 16
	#define NUMPIXELS 1
	Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800);


	// BLINK WITHOUT DELAY
	unsigned long previousMillis = 0; // will store last time LED was updated
	const long interval = 1000; // interval at which to blink (milliseconds)
	boolean ledState;
	boolean fingerState;

	void setup()
	{
	Serial.begin(115200);
	Serial.println("Initializing...");

	// Initialize sensor
	if (!particleSensor.begin(Wire, I2C_SPEED_FAST)) //Use default I2C port, 400kHz speed
	{
	Serial.println("MAX30105 was not found. Please check wiring/power. ");
	while (1);
	}
	Serial.println("Place your index finger on the sensor with steady pressure.");

	particleSensor.setup(); //Configure sensor with default settings
	particleSensor.setPulseAmplitudeRed(0x0A); //Turn Red LED to low to indicate sensor is running
	particleSensor.setPulseAmplitudeGreen(0); //Turn off Green LED

	// begin the neopixels
	pixels.begin(); // This initializes the NeoPixel library.

	}

	void loop()
	{
	long irValue = particleSensor.getIR();

	if (checkForBeat(irValue) == true)
	{
	//We sensed a beat!
	long delta = millis() - lastBeat;
	lastBeat = millis();

	beatsPerMinute = 60 / (delta / 1000.0);

	if (beatsPerMinute < 255 && beatsPerMinute > 20)
	{
	rates[rateSpot++] = (byte)beatsPerMinute; //Store this reading in the array
	rateSpot %= RATE_SIZE; //Wrap variable

	//Take average of readings
	beatAvg = 0;
	for (byte x = 0 ; x < RATE_SIZE ; x++)
	beatAvg += rates[x];
	beatAvg /= RATE_SIZE;
	}
	}

	Serial.print("IR=");
	Serial.print(irValue);
	Serial.print(", BPM=");
	Serial.print(beatsPerMinute);
	Serial.print(", Avg BPM=");
	Serial.print(beatAvg);

	Serial.println();


	// TIMER LOGIC
	// we update the interval based on the heartrate
	float calcInterval = 1000;


	if (beatAvg > 0)
	calcInterval = 60000 / beatAvg;
	else
	calcInterval = 5000;

	if (irValue < 50000) {
	calcInterval = 5000;
	fingerState = false;
	} else {
	fingerState = true;

	}
	Serial.println(calcInterval);


	if (fingerState == true) {
	unsigned long currentMillis = millis();

	if (currentMillis - previousMillis >= calcInterval) {
	previousMillis = currentMillis;

	pixels.setPixelColor(0, pixels.Color(0, 150, 0)); // Moderately bright green color.
	pixels.show();
	delay(0.2);

	pixels.setPixelColor(0, pixels.Color(0, 0, 0));
	pixels.show();
	delay(0.2);

	pixels.setPixelColor(0, pixels.Color(0, 150, 0));
	pixels.show();
	delay(0.2);

	pixels.setPixelColor(0, pixels.Color(0, 0, 0));
	pixels.show();
	delay(0.2);

	//Serial.println(ledState);

	}
	} else {
	pixels.setPixelColor(0, pixels.Color(150, 0, 0)); // Moderately bright green color.
	pixels.show();
	}

	}