Changes done in ECG and BT
Dependencies: SDFileSystem ds3231 eeprom_Nikita mbed testUniGraphic_150217
Fork of merged_code2_20sept_2017_4th_oct_2017 by
bp.cpp
- Committer:
- suhasini
- Date:
- 2017-03-30
- Revision:
- 5:a3ea7c82b7e1
- Parent:
- 3:9a06c2bed650
- Child:
- 8:adf2ba7e6412
File content as of revision 5:a3ea7c82b7e1:
//BP Optimised Program for Averaging the received value from PPG and ECG & Check for SD card Storage// /** ECG ADS1291 Test program. ADS1291 is a single channel ECG chip with a 24 bit Sigma-Delta ADC */ #include "mbed.h" #include "MAX30102.h" // BP ADD #include <string.h> #include <stdio.h> #include "ds3231.h" #include "SDFileSystem.h" #include "rtc.h" #include "sdcard.h" #include "ec_bp.h" #include "bp.h" #include "display_modules.h" Serial bc(USBTX,USBRX); DigitalIn INTR(PTC7); void bp() { //------------------BP ADD------------------------------//{ //int location; // BP ADD int32_t n_red_buffer_length = 1500; //data length uint32_t aun_red_buffer[1500]; //Red LED sensor data, set to 500 uint32_t red_value; uint32_t ecg_value; uint8_t uch_dummy; uint32_t ecg_buf[1000]; int32_t ecg_buffer_length = 1000; float SBP, DBP, PWV, delta_t; int d = 210; uint32_t un_min, un_max, ecg_min, ecg_max ; //variables to calculate the on-board LED brightness that reflects the heartbeats //int i, j; float ecg_location, ppg_location; //int32_t n_brightness; // n_brightness=0; un_min=0x3FFFF; un_max=0; ecg_min = 0xFFFFFF; ecg_max = 0; //---------------- BP ADD-----------------------------//} //time_t epoch_time; //int fp; int concatenate_value1 = 0; //uint32_t ecg_buf[1500]; //int32_t ecg_der[1500]; //int buff1[15]= {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15}; //int32_t sample_sum; // static int32_t avg[1500]; //int32_t count = 0; int32_t fs = 500; int32_t w=0,w1=0; unsigned char chk = 1; bc.baud(baud_rate); // mySpi.frequency(freq) ; // mySpi.format(bits, mode) ; freqset(); // Ds3231 rtc(PTC11, PTC10); //sda,scl2yy //------------------BP ADD---------------------------// { while(bc.readable()==0) { bc.printf("\x1B[2J"); //clear terminal program screen bc.printf("Press any key to start conversion\n\r"); wait(1); } wait(5); bc.printf("Start of capture, Remain CALM and Donot MOVE\n"); wait(2); //-------------------BP ADD---------------------------//} setupfunc(); ecgsetupfunc(); //--------------- BP ADD------------------------------------//{ maxim_max30102_reset(); // PPG reset maxim_max30102_init(); // PPG ADC register Initialise //---------------BP ADD ----------------------------------// } chk = 1; bc.printf("rawecg......................\n"); for(int i=0; i<N_ECG; i++) { concatenate_value1=readvalue(); ecg_buf[i] = concatenate_value1; bc.printf( "%d\n", concatenate_value1); maxim_max30102_read_reg(0,&uch_dummy); while(INTR.read()==1); maxim_max30102_read_fifo((aun_red_buffer+i)); //bc.printf( "%d\n", concatenate_value1); // bc.printf("%d\n",aun_red_buffer[i]); //sd_write(concatenate_value); - -- BP ADD commented //printf( "%d\n", concatenate_value); -- BP ADD commented // bc.printf("loop2"); } for (int w=1000; w < n_red_buffer_length; w++) // for reading extra 500 PPG samples. { //bc.printf("loop2"); while(INTR.read()==1); maxim_max30102_read_fifo((aun_red_buffer+w)); } //sd_close(); -- BP ADD commented int32_t ecg_n_denom; // 4 pt Moving Average ECG bc.printf("PRINTING ECG 4 POINT IN DECIMAL........\n"); for(int y=0; y<996; y++){ ecg_n_denom= ( ecg_buf[y]+ ecg_buf[y+1]+ ecg_buf[y+2]+ ecg_buf[y+3]); ecg_buf[y]= ecg_n_denom/(int32_t)4; } for( int l= 0; l<1000; l++){ bc.printf("%d\n",ecg_buf[l]); //PRINTING ecg AFTER AVERAGING } bc.printf("PRINTING PPG IN DECIMAL (after averaging)........\n"); int32_t ppg_n_denom; // 4 pt Moving Average PPG for(int f=0; f<1496; f++){ ppg_n_denom= ( aun_red_buffer[f]+aun_red_buffer[f+1]+ aun_red_buffer[f+2]+ aun_red_buffer[f+3]); aun_red_buffer[f]= ppg_n_denom/(int32_t)4; } for( int b = 0; b<1500; b++){ bc.printf("%d\n",aun_red_buffer[b]); } for(int f=0; f<ecg_buffer_length; f++) { if(ecg_min > ecg_buf[f]) ecg_min = ecg_buf[f]; //update signal min if(ecg_max < ecg_buf[f]) { ecg_max=ecg_buf[f]; //update signal max ecg_location = f+1; } } bc.printf( "ecg_location = %f\n", ecg_location); for(int g = ecg_location; g < (ecg_location+400); g++) // Peak detect changed to 400 samples from 500 samples { if(un_min>aun_red_buffer[g]) un_min=aun_red_buffer[g]; //update signal min if(un_max<aun_red_buffer[g]) { un_max=aun_red_buffer[g]; //update signal max ppg_location = g+1; } } bc.printf( "ppg_location = %f\n", ppg_location); delta_t = (2*(ppg_location - ecg_location))/1000; bc.printf( "delta_t = %f\n", delta_t); PWV = d/delta_t; bc.printf( "PWV = %f\n", PWV); SBP = 0.0508955*PWV+62.559; DBP = 0.0494*PWV + 17.480; bc.printf( "SBP = %f\n", SBP); bc.printf( "DBP = %f\n", DBP); screen_bp1(SBP,DBP); //-----------------WRITE ECG &PPG /* sd_open_BPfile(1); for (int w=0; w < 1000; w++) { ecg_value = ecg_buf[w]; sd_write(ecg_value); } for (int w=0; w < n_red_buffer_length; w++) { red_value = aun_red_buffer[w]; sd_write(red_value); } sd_close();*/ //----------- FINISHED WRITING ECG & PPG TO SD CARD } // End of main function