ENSMM
/
HeartPulseModify
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Diff: main.cpp
- Revision:
- 2:515e6791dfe2
- Parent:
- 0:a78b08608d76
- Child:
- 3:89dc4a1464e3
diff -r 171a73d84261 -r 515e6791dfe2 main.cpp
--- a/main.cpp Sat Jan 11 12:52:56 2014 +0000
+++ b/main.cpp Fri Jan 24 11:16:30 2020 +0000
@@ -1,102 +1,138 @@
#include "mbed.h"
+#include "USBSerial.h"
+#include "Adafruit_SSD1306.h"
+#include <string>
+#include <sstream>
+#include <map>
-/*
->> Pulse Sensor Amped 1.1 <<
-This code is for Pulse Sensor Amped by Joel Murphy and Yury Gitman
- www.pulsesensor.com
- >>> Pulse Sensor purple wire goes to Analog Pin 0 <<<
-Pulse Sensor sample aquisition and processing happens in the background via Timer 2 interrupt. 2mS sample rate.
-PWM on pins 3 and 11 will not work when using this code, because we are using Timer 2!
-The following variables are automatically updated:
-Signal : int that holds the analog signal data straight from the sensor. updated every 2mS.
-IBI : int that holds the time interval between beats. 2mS resolution.
-BPM : int that holds the heart rate value, derived every beat, from averaging previous 10 IBI values.
-QS : boolean that is made true whenever Pulse is found and BPM is updated. User must reset.
-Pulse : boolean that is true when a heartbeat is sensed then false in time with pin13 LED going out.
+AnalogIn pulseIn(A0);
+using namespace std;
+USBSerial pc;
+I2C i2c(PB_9, PB_8);
+Adafruit_SSD1306_I2c oled(i2c,PC_13);
+
+
+AnalogIn pulsePin(A0); //This is signal input
-This code is designed with output serial data to Processing sketch "PulseSensorAmped_Processing-xx"
-The Processing sketch is a simple data visualizer.
-All the work to find the heartbeat and determine the heartrate happens in the code below.
-Pin 13 LED will blink with heartbeat.
-If you want to use pin 13 for something else, adjust the interrupt handler
-It will also fade an LED on pin fadePin with every beat. Put an LED and series resistor from fadePin to GND.
-Check here for detailed code walkthrough:
-http://pulsesensor.myshopify.com/pages/pulse-sensor-amped-arduino-v1dot1
+// these variables are because they are used during the interrupt service routine!
+int BPM; // used to hold the pulse rate
+int Signal; // holds the incoming raw data
+int IBI = 600; // holds the time between beats, the Inter-Beat Interval
+bool Pulse = false; // true when pulse wave is high, false when it's low
+bool QS = false; // becomes true when Arduoino finds a beat.
-Code Version 02 by Joel Murphy & Yury Gitman Fall 2012
-This update changes the HRV variable name to IBI, which stands for Inter-Beat Interval, for clarity.
-Switched the interrupt to Timer2. 500Hz sample rate, 2mS resolution IBI value.
-Fade LED pin moved to pin 5 (use of Timer2 disables PWM on pins 3 & 11).
-Tidied up inefficiencies since the last version.
-*/
+void heart_rate_test(void);
+int rate[10]; // used to hold last ten IBI values
+unsigned long sampleCounter = 0; // used to determine pulse timing
+unsigned long lastBeatTime = 0; // used to find the inter beat interval
+int P =512; // used to find peak in pulse wave
+int T = 512; // used to find trough in pulse wave
+int thresh = 512; // used to find instant moment of heart beat
+int amp = 100; // used to hold amplitude of pulse waveform
+bool firstBeat = true; // used to seed rate array so we startup with reasonable BPM
+bool secondBeat = true; // used to seed rate array so we startup with reasonable BPM
-/*
-// VARIABLES
-int pulsePin = 0; // Pulse Sensor purple wire connected to analog pin 0
-int blinkPin = 13; // pin to blink led at each beat
-int fadePin = 5; // pin to do fancy classy fading blink at each beat
-int fadeRate = 0; // used to fade LED on with PWM on fadePin
-*/
+Ticker time_up;
+// Escreve o texto passado como parâmetro no display
+void OLED_writeString(string str, int x, int y) {
+oled.clearDisplay();
+oled.setTextCursor(x, y);
+oled.fillRect(x, y, 128, 8, 0);
+ }
+
-AnalogIn pulsePin(p15); //This is signal input
-SPI blinkPin(p11,p12,p13);
-PwmOut fadePin(p26);
-int fadeRate = 0;
+void heart_rate_test()
+{
+ Signal = pulsePin.read()*1024; // read the Pulse Sensor
+ sampleCounter += 2; // keep track of the time in mS with this variable
+ int N = sampleCounter - lastBeatTime; // monitor the time since the last beat to avoid nois // find the peak and trough of the pulse wave
+ if(Signal < thresh && N > (IBI/5)*3) { // avoid dichrotic noise by waiting 3/5 of last IBI
+ if (Signal < T) { // T is the trough
+ T = Signal; // keep track of lowest point in pulse wave
+ }
+ }
+
+ if(Signal > thresh && Signal > P) { // thresh condition helps avoid noise
+ P = Signal; // P is the peak
+ } // keep track of highest point in pulse wave
+
+ // NOW IT'S TIME TO LOOK FOR THE HEART BEAT
+ // signal surges up in value every time there is a pulse
+ if (N > 250) { // avoid high frequency noise
+ if ( (Signal > thresh) && (Pulse == false) && (N > (IBI/5)*3) ) {
+ Pulse = true; // set the Pulse flag when we think there is a pulse
+ //digitalWrite(blinkPin,HIGH); // turn on pin 13 LED
+ IBI = sampleCounter - lastBeatTime; // measure time between beats in mS
+ lastBeatTime = sampleCounter; // keep track of time for next pulse
+
+ if(firstBeat) { // if it's the first time we found a beat, if firstBeat == TRUE
+ firstBeat = false; // clear firstBeat flag
+ return; // IBI value is unreliable so discard it
+ }
+ if(secondBeat) { // if this is the second beat, if secondBeat == TRUE
+ secondBeat = false; // clear secondBeat flag
+ for(int i=0; i<=9; i++) { // seed the running total to get a realisitic BPM at startup
+ rate[i] = IBI;
+ }
+ }
+
+ // keep a running total of the last 10 IBI values
+ long runningTotal = 0; // clear the runningTotal variable
+
+ for(int i=0; i<=8; i++) { // shift data in the rate array
+ rate[i] = rate[i+1]; // and drop the oldest IBI value
+ runningTotal += rate[i]; // add up the 9 oldest IBI values
+ }
+
+ rate[9] = IBI; // add the latest IBI to the rate array
+ runningTotal += rate[9]; // add the latest IBI to runningTotal
+ runningTotal /= 10; // average the last 10 IBI values
+ BPM = 60000/runningTotal; // how many beats can fit into a minute? that's BPM!
+ QS = true;
+ string BPM_s= static_cast<ostringstream*>( &(ostringstream() << BPM) )->str();
+ OLED_writeString(BPM_s, 1, 1);
+ // QS FLAG IS NOT CLEARED INSIDE THIS ISR
+ }
+ }
+
+ if (Signal < thresh && Pulse == true) { // when the values are going down, the beat is over
+ Pulse = false; // reset the Pulse flag so we can do it again
+ amp = P - T; // get amplitude of the pulse wave
+ thresh = amp/2 + T; // set thresh at 50% of the amplitude
+ P = thresh; // reset these for next time
+ T = thresh;
+ }
+
+ if (N > 2500) { // if 2.5 seconds go by without a beat
+ thresh = 512; // set thresh default
+ P = 512; // set P default
+ T = 512; // set T default
+ lastBeatTime = sampleCounter; // bring the lastBeatTime up to date
+ firstBeat = true; // set these to avoid noise
+ secondBeat = true; // when we get the heartbeat back
+ }
-// these variables are volatile because they are used during the interrupt service routine!
-volatile int BPM; // used to hold the pulse rate
-volatile int Signal; // holds the incoming raw data
-volatile int IBI = 600; // holds the time between beats, the Inter-Beat Interval
-//volatile boolean Pulse = false; // true when pulse wave is high, false when it's low
-//volatile boolean QS = false; // becomes true when Arduoino finds a beat.
-volatile bool Pulse = false; // true when pulse wave is high, false when it's low
-volatile bool QS = false; // becomes true when Arduoino finds a beat.
-/*
-void setup(){
- pinMode(blinkPin,OUTPUT); // pin that will blink to your heartbeat!
- pinMode(fadePin,OUTPUT); // pin that will fade to your heartbeat!
- Serial.begin(115200); // we agree to talk fast!
- interruptSetup(); // sets up to read Pulse Sensor signal every 2mS
- // UN-COMMENT THE NEXT LINE IF YOU ARE POWERING The Pulse Sensor AT LOW VOLTAGE,
- // AND APPLY THAT VOLTAGE TO THE A-REF PIN
- //analogReference(EXTERNAL);
-}
-*/
-
-void setup(){
- // Serial.begin (115200); // we agree to talk fast!
- // interruptSetup(); // sets up to read Pulse Sensor signal every 2mS
- Serial deta(p9,p10); // we agree to talk fast!
- interruptSetup(); // sets up to read Pulse Sensor signal every 2mS
-
- // UN-COMMENT THE NEXT LINE IF YOU ARE POWERING The Pulse Sensor AT LOW VOLTAGE,
- // AND APPLY THAT VOLTAGE TO THE A-REF PIN
- //analogReference(EXTERNAL);
-}
-
-void loop(){
- sendDataToProcessing('S', Signal); // send Processing the raw Pulse Sensor data
- if (QS == true){ // Quantified Self flag is true when arduino finds a heartbeat
- fadeRate = 255; // Set 'fadeRate' Variable to 255 to fade LED with pulse
- sendDataToProcessing('B',BPM); // send heart rate with a 'B' prefix
- sendDataToProcessing('Q',IBI); // send time between beats with a 'Q' prefix
- QS = false; // reset the Quantified Self flag for next time
- }
-
- ledFadeToBeat();
-
- delay(20); // take a break
+
}
-void ledFadeToBeat(){
- fadeRate -= 15; // set LED fade value
- fadeRate = constrain(fadeRate,0,255); // keep LED fade value from going into negative numbers!
- analogWrite(fadePin,fadeRate); // fade LED
- }
+int main()
+{
+ time_up.attach(&heart_rate_test, 0.002);
+ oled.clearDisplay();
+ OLED_writeString("hello world", 1, 1);
+ while(true)
+ {
+ if (QS == true)
+ {
+
+ QS = false;
+ //pc.printf("%d \n ",BPM); // reset the Quantified Self flag for next time
+ }
+ wait_ms(20);
+ }
+}
-void sendDataToProcessing(char symbol, int data ){
- Serial.print(symbol); // symbol prefix tells Processing what type of data is coming
- Serial.println(data); // the data to send culminating in a carriage return
- }
\ No newline at end of file
+
+