Alex Leung / Mbed OS HealthTracker

Test version

main.cpp@1:bd9f39f9d91c, 2018-03-20 (annotated)

Committer:
a2824256
Date:
Tue Mar 20 02:21:49 2018 +0000
Revision:
1:bd9f39f9d91c
Parent:
0:4be500de690c 
repair main.cpp

Who changed what in which revision?

UserRevisionLine numberNew contents of line
a2824256 0:4be500de690c 1 #include "mbed.h"
a2824256 0:4be500de690c 2 #include "algorithm.h"
a2824256 0:4be500de690c 3 #include "MAX30102.h"
a2824256 0:4be500de690c 4 #include "LEDS.h"
a2824256 0:4be500de690c 5 #include "WIFI.h"
a2824256 1:bd9f39f9d91c 6 #include "ESP8266Interface.h"
a2824256 1:bd9f39f9d91c 7 #define MAX_BRIGHTNESS 255
a2824256 0:4be500de690c 8
a2824256 1:bd9f39f9d91c 9 #define MBED_CONF_APP_NETWORK_INTERFACE WIFI_ESP8266
a2824256 1:bd9f39f9d91c 10 #define MBED_CONF_EASY_CONNECT_WIFI_ESP8266_TX PC_10
a2824256 1:bd9f39f9d91c 11 #define MBED_CONF_EASY_CONNECT_WIFI_ESP8266_RX PC_11
a2824256 0:4be500de690c 12 extern int* ReadDS1621(void);
a2824256 0:4be500de690c 13 uint32_t aun_ir_buffer[500]; //IR LED sensor data
a2824256 0:4be500de690c 14 int32_t n_ir_buffer_length; //data length
a2824256 0:4be500de690c 15 uint32_t aun_red_buffer[500]; //Red LED sensor data
a2824256 0:4be500de690c 16 int32_t n_sp02; //SPO2 value
a2824256 0:4be500de690c 17 int8_t ch_spo2_valid; //indicator to show if the SP02 calculation is valid
a2824256 0:4be500de690c 18 int32_t n_heart_rate; //heart rate value
a2824256 0:4be500de690c 19 int8_t ch_hr_valid; //indicator to show if the heart rate calculation is valid
a2824256 0:4be500de690c 20 uint8_t uch_dummy;
a2824256 0:4be500de690c 21
a2824256 0:4be500de690c 22 Serial pc(USBTX, USBRX); //initializes the serial port, TX-PA2, RX-PA3
a2824256 1:bd9f39f9d91c 23 ESP8266Interface wifi(MBED_CONF_EASY_CONNECT_WIFI_ESP8266_TX, MBED_CONF_EASY_CONNECT_WIFI_ESP8266_RX);
a2824256 0:4be500de690c 24 PwmOut pwmled(PA_10); //initializes the pwm output PB3 that connects to the LED
a2824256 0:4be500de690c 25 DigitalIn INT(PC_5); //pin PB7 connects to the interrupt output pin of the MAX30102
a2824256 0:4be500de690c 26 DigitalOut led(PC_9); //PC13 connects to the on board user LED
a2824256 0:4be500de690c 27 AnalogIn xd(PA_0);
a2824256 0:4be500de690c 28 AnalogIn yd(PA_1);
a2824256 0:4be500de690c 29 AnalogIn zd(PA_4);
a2824256 0:4be500de690c 30
a2824256 0:4be500de690c 31 // the setup routine runs once when you press reset:
a2824256 0:4be500de690c 32 int main() {
a2824256 0:4be500de690c 33 uint32_t un_min, un_max, un_prev_data; //variables to calculate the on-board LED brightness that reflects the heartbeats
a2824256 0:4be500de690c 34 int i;
a2824256 0:4be500de690c 35 int32_t n_brightness;
a2824256 0:4be500de690c 36 float f_temp;
a2824256 0:4be500de690c 37 int* temp;
a2824256 0:4be500de690c 38
a2824256 0:4be500de690c 39 maxim_max30102_reset(); //resets the MAX30102
a2824256 0:4be500de690c 40
a2824256 0:4be500de690c 41 // initialize serial communication at 115200 bits per second:
a2824256 0:4be500de690c 42 //pc.baud(115200);
a2824256 0:4be500de690c 43 //while(1);
a2824256 0:4be500de690c 44 //pc.format(8,SerialBase::None,1);
a2824256 0:4be500de690c 45 wait(5);
a2824256 0:4be500de690c 46 //init wifi
a2824256 0:4be500de690c 47 scan_demo(&wifi);
a2824256 0:4be500de690c 48 int ret = wifi.connect("Wo4G-YDL0", "by353006", NSAPI_SECURITY_WPA_WPA2);
a2824256 0:4be500de690c 49 if (ret != 0) {
a2824256 0:4be500de690c 50 pc.printf("\r\nConnection error\r\n");
a2824256 0:4be500de690c 51 return -1;
a2824256 0:4be500de690c 52 }
a2824256 0:4be500de690c 53
a2824256 0:4be500de690c 54 //wifi.disconnect();
a2824256 0:4be500de690c 55 //read and clear status register
a2824256 0:4be500de690c 56 maxim_max30102_read_reg(0,&uch_dummy);
a2824256 0:4be500de690c 57
a2824256 0:4be500de690c 58 maxim_max30102_init(); //initializes the MAX30102
a2824256 0:4be500de690c 59
a2824256 0:4be500de690c 60
a2824256 0:4be500de690c 61 n_brightness=0;
a2824256 0:4be500de690c 62 un_min=0x3FFFF;
a2824256 0:4be500de690c 63 un_max=0;
a2824256 0:4be500de690c 64
a2824256 0:4be500de690c 65 n_ir_buffer_length=500; //buffer length of 100 stores 5 seconds of samples running at 100sps
a2824256 0:4be500de690c 66
a2824256 0:4be500de690c 67 //read the first 500 samples, and determine the signal range
a2824256 0:4be500de690c 68 for(i=0;i<n_ir_buffer_length;i++)
a2824256 0:4be500de690c 69 {
a2824256 0:4be500de690c 70 while(INT.read()==1); //wait until the interrupt pin asserts
a2824256 0:4be500de690c 71
a2824256 0:4be500de690c 72 maxim_max30102_read_fifo((aun_red_buffer+i), (aun_ir_buffer+i)); //read from MAX30102 FIFO
a2824256 0:4be500de690c 73
a2824256 0:4be500de690c 74 if(un_min>aun_red_buffer[i])
a2824256 0:4be500de690c 75 un_min=aun_red_buffer[i]; //update signal min
a2824256 0:4be500de690c 76 if(un_max<aun_red_buffer[i])
a2824256 0:4be500de690c 77 un_max=aun_red_buffer[i]; //update signal max
a2824256 0:4be500de690c 78 //pc.printf("red=%i", aun_red_buffer[i]);
a2824256 0:4be500de690c 79 //pc.printf(", ir=%i\n", aun_ir_buffer[i]);
a2824256 0:4be500de690c 80 wait(0.01);
a2824256 0:4be500de690c 81 }
a2824256 0:4be500de690c 82 un_prev_data=aun_red_buffer[i];
a2824256 0:4be500de690c 83
a2824256 0:4be500de690c 84
a2824256 0:4be500de690c 85 //calculate heart rate and SpO2 after first 500 samples (first 5 seconds of samples)
a2824256 0:4be500de690c 86 maxim_heart_rate_and_oxygen_saturation(aun_ir_buffer, n_ir_buffer_length, aun_red_buffer, &n_sp02, &ch_spo2_valid, &n_heart_rate, &ch_hr_valid);
a2824256 0:4be500de690c 87
a2824256 0:4be500de690c 88 //Continuously taking samples from MAX30102. Heart rate and SpO2 are calculated every 1 second
a2824256 0:4be500de690c 89 while(1)
a2824256 0:4be500de690c 90 {
a2824256 0:4be500de690c 91 i=0;
a2824256 0:4be500de690c 92 un_min=0x3FFFF;
a2824256 0:4be500de690c 93 un_max=0;
a2824256 0:4be500de690c 94
a2824256 0:4be500de690c 95 //dumping the first 100 sets of samples in the memory and shift the last 400 sets of samples to the top
a2824256 0:4be500de690c 96 for(i=100;i<500;i++)
a2824256 0:4be500de690c 97 {
a2824256 0:4be500de690c 98 aun_red_buffer[i-100]=aun_red_buffer[i];
a2824256 0:4be500de690c 99 aun_ir_buffer[i-100]=aun_ir_buffer[i];
a2824256 0:4be500de690c 100
a2824256 0:4be500de690c 101 //update the signal min and max
a2824256 0:4be500de690c 102 if(un_min>aun_red_buffer[i])
a2824256 0:4be500de690c 103 un_min=aun_red_buffer[i];
a2824256 0:4be500de690c 104 if(un_max<aun_red_buffer[i])
a2824256 0:4be500de690c 105 un_max=aun_red_buffer[i];
a2824256 0:4be500de690c 106 }
a2824256 0:4be500de690c 107
a2824256 0:4be500de690c 108 //take 100 sets of samples before calculating the heart rate.
a2824256 0:4be500de690c 109 for(i=400;i<500;i++)
a2824256 0:4be500de690c 110 {
a2824256 0:4be500de690c 111 un_prev_data=aun_red_buffer[i-1];
a2824256 0:4be500de690c 112 while(INT.read()==1);
a2824256 0:4be500de690c 113 maxim_max30102_read_fifo((aun_red_buffer+i), (aun_ir_buffer+i));
a2824256 0:4be500de690c 114
a2824256 0:4be500de690c 115 if(aun_red_buffer[i]>un_prev_data)//just to determine the brightness of LED according to the deviation of adjacent two AD data
a2824256 0:4be500de690c 116 {
a2824256 0:4be500de690c 117 f_temp=aun_red_buffer[i]-un_prev_data;
a2824256 0:4be500de690c 118 f_temp/=(un_max-un_min);
a2824256 0:4be500de690c 119 f_temp*=MAX_BRIGHTNESS;
a2824256 0:4be500de690c 120 n_brightness-=(int)f_temp;
a2824256 0:4be500de690c 121 if(n_brightness<0)
a2824256 0:4be500de690c 122 n_brightness=0;
a2824256 0:4be500de690c 123 }
a2824256 0:4be500de690c 124 else
a2824256 0:4be500de690c 125 {
a2824256 0:4be500de690c 126 f_temp=un_prev_data-aun_red_buffer[i];
a2824256 0:4be500de690c 127 f_temp/=(un_max-un_min);
a2824256 0:4be500de690c 128 f_temp*=MAX_BRIGHTNESS;
a2824256 0:4be500de690c 129 n_brightness+=(int)f_temp;
a2824256 0:4be500de690c 130 if(n_brightness>MAX_BRIGHTNESS)
a2824256 0:4be500de690c 131 n_brightness=MAX_BRIGHTNESS;
a2824256 0:4be500de690c 132 }
a2824256 0:4be500de690c 133
a2824256 0:4be500de690c 134 pwmled.write(1-(float)n_brightness/256);//pwm control led brightness
a2824256 0:4be500de690c 135 if(n_brightness<120)
a2824256 0:4be500de690c 136 led=1;
a2824256 0:4be500de690c 137 else
a2824256 0:4be500de690c 138 led=0;
a2824256 0:4be500de690c 139
a2824256 0:4be500de690c 140 //send samples and calculation result to terminal program through UART
a2824256 0:4be500de690c 141 //pc.printf("red=");
a2824256 0:4be500de690c 142 //pc.printf("%i", aun_red_buffer[i]);
a2824256 0:4be500de690c 143 //pc.printf(", ir=");
a2824256 0:4be500de690c 144 //pc.printf("%i", aun_ir_buffer[i]);
a2824256 0:4be500de690c 145 temp = ReadDS1621();
a2824256 0:4be500de690c 146 http_demo(&wifi);
a2824256 0:4be500de690c 147 LightLEDs(n_heart_rate);
a2824256 0:4be500de690c 148 //pc.printf("HR=%i, temperature=%i:%i,SpO2=%i,x=%f,y=%f,z=%f\n", n_heart_rate,temp[0],temp[1],n_sp02,xd.read(),yd.read(),zd.read());
a2824256 0:4be500de690c 149 //pc.printf("HR=%i\n", n_heart_rate);
a2824256 0:4be500de690c 150 //pc.printf("HRvalid=%i, ", ch_hr_valid);
a2824256 0:4be500de690c 151 //pc.printf("SpO2=%i, ", n_sp02);
a2824256 0:4be500de690c 152 //pc.printf("SPO2Valid=%i\n\r", ch_spo2_valid);
a2824256 0:4be500de690c 153 }
a2824256 0:4be500de690c 154 maxim_heart_rate_and_oxygen_saturation(aun_ir_buffer, n_ir_buffer_length, aun_red_buffer, &n_sp02, &ch_spo2_valid, &n_heart_rate, &ch_hr_valid);
a2824256 0:4be500de690c 155 wait(0.01);
a2824256 0:4be500de690c 156 }
a2824256 0:4be500de690c 157 }