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:
- avp2417
- Date:
- 2017-07-29
- Revision:
- 36:00d96aa14658
- Parent:
- 31:0f67acfc6236
- Child:
- 39:69b09bd87502
File content as of revision 36:00d96aa14658:
//-----------------------------------------------NEW BP code starts--------------------------------/// #include "mbed.h" #include "MAX30102.h" // BP ADD #include <string.h> #include <stdio.h> #include <time.h> #include "ds3231.h" #include "SDFileSystem.h" #include "rtc.h" #include "sdcard.h" #include "ec_bp.h" #include "bp.h" #include "display_modules.h" FILE *fpecg_bp; // file pointer in place of fpecg- Suhasini- 21/7/17 FILE *fpppg1; #include "struct.h" using namespace std; Serial bpr(USBTX,USBRX); DigitalIn INTR(PTC7); Timer t; uint16_t ecgloc = 0; // PPG and eCG maximum locations //int to uint16_t-Suhasini-21stJuly2017 uint16_t ppgloc = 0; //int to uint16_t-Suhasini-21stJuly2017 uint16_t ebp = 0; // variable for LOOP operation to read value from File i == ECG , j == PPG uint16_t pbp = 0; //int to uint16_t-Suhasini-21stJuly2017 void bp(int32_t pid) { uint8_t uch_dummy; uint32_t ppgdata; uint8_t lead_reg=0; uint32_t concatenate_value2 = 0; //int to uint32_t-Suhasini-21stJuly2017 uint8_t chk = 1; //unsigned char to uint8_t-Suhasini-21stJuly2017 //Declaration of Master structure BLEMsg_info *ptr_BLEMsg_info_bp, BLEMsg_info_bp; // A copy of master strcuture [ "BLEMsg_info" ] by name "BLEMsg_info_bp" is created ptr_BLEMsg_info_bp = &BLEMsg_info_bp; // *ptr_BLEMsg_info_bp is the pointer to local copy; // Declaration of Date Structure DateTime_info *ptr_DateTime_info_bp, DateTime_info_bp; // A copy of Master Structure "DateTime_info" created, ptr_DateTime_info_bp = &DateTime_info_bp; // Structure pointer points to that copy. // RTC operations time_t epoch_time_bp; //A copy of time_t by name epoch_time_bp is created epoch_time_bp = rtc_read(); // time is got from get epoch function. struct tm * ptr_time_info_bp, time_info_bp; // Sturucture copy of tm is created ptr_time_info_bp = localtime(&epoch_time_bp); // Structure accepts the time in local format from "time_t" type. //BELOW LINE IS TO CHECK Date and TIME bpr.printf("Time is %d: %d: %d\n", (*ptr_time_info_bp).tm_hour, (*ptr_time_info_bp).tm_min, (*ptr_time_info_bp).tm_sec); bpr.printf("Date is %d:%d:%d\n", (*ptr_time_info_bp).tm_mday, (*ptr_time_info_bp).tm_mon+1, (*ptr_time_info_bp).tm_year-100); //Copying from one structure to the other using variables DateTime_info_bp.hour = (uint8_t)(*ptr_time_info_bp).tm_hour; DateTime_info_bp.mins = (uint8_t)(*ptr_time_info_bp).tm_min; DateTime_info_bp.sec = (uint8_t)(*ptr_time_info_bp).tm_sec; DateTime_info_bp.date = (uint8_t) (*ptr_time_info_bp).tm_mday; DateTime_info_bp.month =(uint8_t)(*ptr_time_info_bp).tm_mon+1; DateTime_info_bp.year = (uint8_t)(*ptr_time_info_bp).tm_year-100; // Copying Time to Main structure BLEMsg_info_bp.date_time.hour = DateTime_info_bp.hour; BLEMsg_info_bp.date_time.mins = DateTime_info_bp.mins; BLEMsg_info_bp.date_time.sec = DateTime_info_bp.sec; BLEMsg_info_bp.date_time.date = DateTime_info_bp.date ; BLEMsg_info_bp.date_time.month = DateTime_info_bp.month ; BLEMsg_info_bp.date_time.year = DateTime_info_bp.year ; //Checking if the structure has these values bpr.printf("Time 2 is %d:%d:%d\n", DateTime_info_bp.hour, DateTime_info_bp.mins, DateTime_info_bp.sec); bpr.printf("\t Date is %d:%d:%d\n",DateTime_info_bp.date, DateTime_info_bp.month, DateTime_info_bp.year); //Loading values to of Test type test_type_info test_type_info_bp; // copy of " test_type_info" created test_type_info_bp = BP_Test; // Loaded value 00 to the test type BLEMsg_info_bp.test_type = test_type_info_bp; //Check if 00 is getting printed bpr.printf("Test Type is : %d\n", test_type_info_bp); // Loading values of Length , PID, DID, sampling frequency, number of samples, calculated data. BLEMsg_info_bp.device_id = 01; // Device ID fixed BLEMsg_info_bp.patient_id = (uint32_t)pid; // Patient ID BLEMsg_info_bp.sampling_freq = 500; // sampling frrquency BLEMsg_info_bp.length = 10774; //Total length of data in bytes 22 B+10752 B BLEMsg_info_bp.num_samples.num_sample_ppg_dummy = 1664 ;// PPG number of samples copied to master struct BLEMsg_info_bp.num_samples.num_sample_ecg_OTtyp = 1024 ; // ECG number of samples copied to master struct bpr.baud(baud_rate); freqset(); // setting the frequency setupfunc(); lead_reg=ecgsetupfunc(); // lead contact // 14/06 maxim_max30102_reset(); // PPG reset wait_ms(20); maxim_max30102_init(); chk = 1; wait(2); for(uint16_t i=0; i<500; i++) { concatenate_value2= readvalue(); maxim_max30102_read_reg(0,&uch_dummy); while(INTR.read()==1); maxim_max30102_read_fifo(&ppgdata); } // BP Finger detect Function Added Nidhin 16/6/17 // START uint32_t un_max, un_min; // Declare two VARIABLE FOR MAX AND MIN un_max = 0; un_min = 0x3FFF; for(uint16_t i=0; i<500; i++) // READS 500 SAMPLES TO SEE MAX AND MIN VAL DIFFERENCE { maxim_max30102_read_reg(0,&uch_dummy); while(INTR.read()==1); maxim_max30102_read_fifo(&ppgdata); bpr.printf("%d\n",ppgdata); if(un_min>ppgdata) un_min=ppgdata; //update signal min if(un_max<ppgdata) un_max=ppgdata; } bpr.printf("The max is %d\n", un_max); // bpr.printf("The min is %d\n", un_min); if (((un_max -un_min) > 300) && (lead_reg==0)) // Checking for threshold 300 Added Nidhin 16/6/17 { //Added Nidhin 16/6/17 sd_open_BPfilee(pid); sd_open_BP_ECGfile(pid) ; // sd_open_BP_ECGfile(123) draft file for testing sd_open_BP_PPGfile(pid) ; // sd_open_BP_PPGfile(123) draft file for testing FILE *ecg = NULL; FILE *ppg = NULL; for(uint16_t i=0; i<1024; i++) //int to uint16_t-Suhasini-21stJuly2017 { concatenate_value2 = readvalue(); ecg = sd_BP_ecgwrite(&concatenate_value2); maxim_max30102_read_reg(0,&uch_dummy); while(INTR.read()==1); maxim_max30102_read_fifo(&ppgdata); ppg = sd_BP_ppgwrite(&ppgdata); //Change by Nidhin 30/5/2017 Direct writing to SD card. } for(uint16_t i=0; i<640; i++) //int to uint16_t-Suhasini-21stJuly2017 { maxim_max30102_read_reg(0,&uch_dummy); while(INTR.read()==1); maxim_max30102_read_fifo(&ppgdata); ppg = sd_BP_ppgwrite (&ppgdata); //Change by Nidhin 30/5/2017 Direct writing to SD card. } fclose(ecg); fclose(ppg); maxim_max30102_reset(); uint16_t eloc = 0; //int to uint16_t-Suhasini-21stJuly2017 uint16_t ploc = 0; //int to uint16_t-Suhasini-21stJuly2017 eloc = sd_BP_ECGMAX(pid); // eloc = sd_BP_ECGMAX(123); ploc = sd_BP_PPGMAX(pid); // ploc = sd_BP_PPGMAX(123); bpr.printf("eloc: %d ploc: %d\n",eloc,ploc); float PWV = 0; uint32_t d = 210000; //int to uint32_t-Suhasini-21stJuly2017 uint16_t delta_t = 0; //int to uint16_t-Suhasini-21stJuly2017 float SBP = 0; float DBP = 0; delta_t = (2*(ploc - eloc)); PWV = d/delta_t; SBP = 0.0508955*PWV+62.559; DBP = (0.0494*PWV + 17.480)+10; bpr.printf("sbp: %.0f dbp: %.0f\n",SBP,DBP); BLEMsg_info_bp.cal_data.cal_sbp_dummy = (uint16_t) SBP; BLEMsg_info_bp.cal_data.cal_dbp_OTtyp = (uint16_t) DBP; if((SBP>190 || SBP<70) && (DBP>100 || DBP<40)) // checking for range below and above and then displaying error { screen_bp_error(); // checking for error out of range- nikita 10-7-17 del_ppg_ecg_BPfile(pid); // Copy ECG and PPG data to BP file } else { create_single_BPfile(pid); // Copy ECG and PPG data to BP file structure_file(ptr_BLEMsg_info_bp, pid); // Copy BP structure to main file bpfile_mainfile(pid); screen_bp1(SBP,DBP); } } //Added Nidhin 16/6/17 else //Added Nidhin 16/6/17 { //Added Nidhin 16/6/17 // Add display sequence for Finger detect fail //Added Nidhin 16/6/17 maxim_max30102_reset(); bpr.printf("no finger detect\n"); screen_ecg_lead_bp_fingerdetect(); } //Added Nidhin 16/6/17 screen_ecg_bp() ; } //------------------------------------------ //REOPEN FUNCTIONs for reading data Nidhin uint16_t sd_BP_ECGMAX(int32_t pid) { uint32_t ecgmax = 0; // changed from int to uint32_t - suhasini - 21/7/17 uint32_t a[1] = {0}; // changed from int to uint32_t - suhasini - 21/7/17 uint16_t samplesecg =0; // changed from int to uint32_t - suhasini - 21/7/17 char buffer1[32]; sprintf(buffer1,"/sd/%d_BP_ECG.csv",pid); fpecg_bp = fopen(buffer1,"r"); if(fpecg_bp == NULL) { exit(1); } else { for(ebp=0; ebp<1024; ebp++) { fread(a,sizeof(uint32_t), 1,fpecg_bp); if(a[0] > ecgmax) { ecgmax=a[0]; ecgloc= ebp +1; } else samplesecg =ebp+1; } } fclose (fpecg_bp); return ecgloc; } // Function to calculate PPG MAx and location uint16_t sd_BP_PPGMAX(int32_t pid) //int to uint16_t-Suhasini-21stJuly2017 { uint32_t ppgmax = 0; //int to uint32_t-Suhasini-21stJuly2017 uint32_t b[1] ={0}; //int to uint32_t-Suhasini-21stJuly2017 uint16_t samplesppg = 0; //int to uint16_t-Suhasini-21stJuly2017 char buffer1[32]; sprintf(buffer1,"/sd/%d_BP_PPG.csv",pid); fpppg1 = fopen(buffer1,"r"); if(fpppg1 == NULL) { exit(1); } else { for(pbp=0; pbp<1664; pbp++) { fread(b, sizeof(uint32_t),1, fpppg1); if((pbp>ecgloc) && (pbp< (ecgloc+350))) { if(b[0] > ppgmax) { ppgmax=b[0]; ppgloc= pbp+1; } else samplesppg =pbp+1; } else samplesppg = pbp+1; } } fclose (fpppg1); return ppgloc; }