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60ghzbreathheart.cpp
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#include "Arduino.h"
#include "60ghzbreathheart.h"
BreathHeart_60GHz::BreathHeart_60GHz(Stream *s)
: stream(s){
this->newData = false;
}
// Receive data and process
void BreathHeart_60GHz::recvRadarBytes(){
while (stream->available()) {
if(stream->read() == MESSAGE_HEAD1){ //Receive header frame 1
if(stream->read() == MESSAGE_HEAD2){ //Receive header frame 2
dataLen = stream->readBytesUntil(MESSAGE_END2, Msg, 20);
if (dataLen > 0 && dataLen < 20){
Msg[dataLen] = MESSAGE_END2;
this->newData = true;
}
}
}
}
}
//Radar transmits data frames for display via serial port
void BreathHeart_60GHz::showData(){
if(this->newData){
Serial.print(MESSAGE_HEAD1, HEX);
Serial.print(' ');
Serial.print(MESSAGE_HEAD2, HEX);
Serial.print(' ');
char charVal[4];
for (byte n = 0; n < dataLen+1; n++) {
sprintf(charVal, "%02X", Msg[n]);
Serial.print(charVal);
Serial.print(' ');
}
Serial.println();
this->newData = false;
Msg[dataLen] = {0};
}
}
// Judgment of occupied and unoccupied, approach and distance
void BreathHeart_60GHz::HumanExis_Func(){
recvRadarBytes();
reset_val();
if(this->newData){
switch(Msg[0]){
case HUMAN_PSE_RADAR:
switch(Msg[1]){
case PRESENCE_INF:
switch(Msg[4]){
case NOONE_HERE:
showData();
sensor_report = NOONE;
break;
case SOMEONE_HERE:
showData();
sensor_report = SOMEONE;
break;
}
break;
case MOVE_INF:
switch(Msg[4]){
case PSE_NONE:
showData();
sensor_report = NONEPSE;
break;
case STATIONARY:
showData();
sensor_report = STATION;
break;
case MOVEMENT:
showData();
sensor_report = MOVE;
break;
}
break;
case BODY_SIG:
showData();
sensor_report = BODYVAL;
bodysign_val = Msg[4];
break;
case DISTANCE:
showData();
sensor_report = DISVAL;
distance = (Msg[4] << 8 | Msg[5]) / 100.0; // Distance in meters
break;
case DIRECTIONS:
showData();
sensor_report = DIREVAL;
Dir_x = Byte2Int(Msg[4], Msg[5]);
Dir_y = Byte2Int(Msg[6], Msg[7]);
Dir_z = Byte2Int(Msg[8], Msg[9]);
break;
}
break;
}
}
}
//Respiratory and heart rate data analysis
void BreathHeart_60GHz::Breath_Heart(){
recvRadarBytes();
reset_val();
if(this->newData){
switch(Msg[0]){
case HEART_INF:
switch(Msg[1]){
case HEART_RATE:
showData();
sensor_report = HEARTRATEVAL;
heart_rate = Msg[4];
break;
case HEART_RATE_WAVE:
showData();
sensor_report = HEARTRATEWAVE;
heart_point_1 = Msg[4];
heart_point_2 = Msg[5];
heart_point_3 = Msg[6];
heart_point_4 = Msg[7];
heart_point_5 = Msg[8];
break;
}
break;
case BREATH_RATE_RADAR:
switch(Msg[1]){
case BREATH_INF:
switch(Msg[4]){
case BREATH_NORMAL:
showData();
sensor_report = BREATHNOR;
break;
case BREATH_RAPID:
showData();
sensor_report = BREATHRAPID;
break;
case BREATH_SLOW:
showData();
sensor_report = BREATHSLOW;
break;
case BREATH_NONE:
showData();
sensor_report = BREATHNONE;
break;
}
break;
case BREATH_VAL:
showData();
sensor_report = BREATHVAL;
breath_rate = Msg[4];
break;
case BREATH_WAVE:
showData();
sensor_report = BREATHWAVE;
breath_point_1 = Msg[4];
breath_point_2 = Msg[5];
breath_point_3 = Msg[6];
breath_point_4 = Msg[7];
breath_point_5 = Msg[8];
break;
}
break;
}
}
}
void BreathHeart_60GHz::SleepInf_Decode(){
recvRadarBytes();
reset_val();
if(this->newData){
switch(Msg[0]){
case SLEEP_INF:
switch(Msg[1]){
case INOUT_BED:
switch(Msg[4]){
case OUT_BED:
showData();
sensor_report = OUTBED;
break;
case IN_BED:
showData();
sensor_report = INBED;
break;
case INOUT_NONE:
showData();
sensor_report = NOINOUT;
break;
}
break;
case SLEEP_STATE:
switch(Msg[4]){
case AWAKE:
showData();
sensor_report = SLEEPAWAKE;
break;
case LIGHT_SLEEP:
showData();
sensor_report = SLEEPLIGHT;
break;
case DEEP_SLEEP:
showData();
sensor_report = SLEEPDEEP;
break;
case SLEEP_NONE:
showData();
sensor_report = SLEEPNONE;
break;
}
break;
case AWAKE_TIME:
showData();
sensor_report = AWAKETIME;
awake_time = Msg[4] << 8 | Msg[5]; // Time: minutes
break;
case LIGHTSLEEP_TIME:
showData();
sensor_report = LIGHTTIME;
light_time = Msg[4] << 8 | Msg[5]; // Time: minutes
break;
case DEEPSLEEP_TIME:
showData();
sensor_report = DEEPTIME;
deep_time = Msg[4] << 8 | Msg[5]; // Time: minutes
break;
case SLEEP_SCORE:
showData();
sensor_report = SLEEPSCORE;
sleep_score = Msg[4];
break;
case SLEEP_STATUE:
showData();
sensor_report = SLEEPSTATUE;
switch(Msg[4]){
case SOMEONE_HERE:
existence = true;
break;
case NOONE_HERE:
existence = false;
break;
}
switch(Msg[5]){
case DEEP_SLEEP:
sleep_status = SLEEPDEEP;
break;
case LIGHT_SLEEP:
sleep_status = SLEEPLIGHT;
break;
case AWAKE:
sleep_status = SLEEPAWAKE;
break;
case SLEEP_NONE:
sleep_status = SLEEPNONE;
break;
}
breath_rate = Msg[6];
heart_rate = Msg[7];
turn_num = Msg[8];
substantial_move_ratio = Msg[9];
samll_move_ratio = Msg[10];
apnea_num = Msg[11];
break;
case SLEEP_QUALITY:
showData();
sensor_report = SLEEPQUALITY;
sleep_score = Msg[4];
sleep_time = Msg[5] << 8 | Msg[6];
awake_time_radio = Msg[7];
light_time_radio = Msg[8];
deep_time_radio = Msg[9];
outbed_time = Msg[10];
outbed_num = Msg[11];
turn_num = Msg[12];
breath_rate = Msg[13];
heart_rate = Msg[14];
apnea_num = Msg[15];
break;
case SLEEP_ERROR:
switch(Msg[4]){
case SLEEP_LESS4H:
showData();
sensor_report = SLEEPLESS4H;
break;
case SLEEP_OVER12H:
showData();
sensor_report = SLEEPOVER12H;
break;
case SLEEP_LONGTIMENOONE:
showData();
sensor_report = LONGTIMENOONE;
break;
case SLEEP_ERRORNONE:
showData();
sensor_report = ERRORNONE;
break;
}
break;
}
break;
}
}
}
//Send data frame
void BreathHeart_60GHz::send_func(const unsigned char* buff, int len, bool cyclic /*=false*/){
if(cyclic || count < checkdata_len){
if(cyclic || count < 1){
stream->write(buff, len);
stream->flush();
}
do{
recvRadarBytes();
delay(20);
}while(!(this->newData));
if(cyclic || count < 1){
Serial.print(" Sent ---> ");
data_printf(buff, len);
}
if(count%2 == 1){
Serial.print("Receive <--- ");
showData();
}
this->newData = false;
}
count++;
}
//Transfer mode selection
void BreathHeart_60GHz::ModeSelect_fuc(int mode){
if (mode == 1){
stream->write(realtime_mode_frame, mode_frame_len);
stream->flush();
Serial.println("Real-time data transfer mode ON!");
}
else if (mode == 2){
stream->write(sleepstatus_mode_frame, mode_frame_len);
stream->flush();
Serial.println("Sleep state transfer mode ON!");
}
else Serial.println("Input error, please reselect the mode - 1: indicates real-time transmission mode, 2: indicates sleep state mode.");
}
//Reset radar
void BreathHeart_60GHz::reset_func(){
stream->write(breath_reset_frame, reset_frame_len);
stream->flush();
Serial.println("Radar reset!");
}
//Two Byte to signed integer
float BreathHeart_60GHz::Byte2Int(unsigned int x, unsigned int y){
float z = ((x << 8 | y) & 0x7FFF) / 100.00;
if (((x << 8 | y) & 0x8000) == 0x8000)z = -z;
return z;
}
//print redirect
void BreathHeart_60GHz::data_printf(const unsigned char* buff, int len){
char charVal[4];
for(int i=0; i<len; i++){
sprintf(charVal, "%02X", buff[i]);
Serial.print(charVal);
Serial.print(' ');
}
Serial.println();
}
//reset the radar values
void BreathHeart_60GHz::reset_val(){
sensor_report = 0x00;
bodysign_val = 0x00;
distance = 0x00;
Dir_x = 0x00;
Dir_y = 0x00;
Dir_z = 0x00;
heart_rate = 0x00;
heart_point_1 = 0x00;
heart_point_2 = 0x00;
heart_point_3 = 0x00;
heart_point_4 = 0x00;
heart_point_5 = 0x00;
breath_rate = 0x00;
breath_point_1 = 0x00;
breath_point_2 = 0x00;
breath_point_3 = 0x00;
breath_point_4 = 0x00;
breath_point_5 = 0x00;
awake_time = 0x00;
light_time = 0x00;
deep_time = 0x00;
sleep_score = 0x00;
sleep_status = 0x00;
turn_num = 0x00;
substantial_move_ratio = 0x00;
samll_move_ratio = 0x00;
apnea_num = 0x00;
sleep_time = 0x00;
awake_time_radio = 0x00;
light_time_radio = 0x00;
deep_time_radio = 0x00;
outbed_time = 0x00;
outbed_num = 0x00;
}