Sanjeet Phatak
heart modes, send, receive
Dependencies: Terminal TextLCD mbed-rtos mbed
Diff: heart.cpp
- Revision:
- 7:46aeded22784
- Parent:
- 6:cc4fcc38b9f0
diff -r cc4fcc38b9f0 -r 46aeded22784 heart.cpp
--- a/heart.cpp Wed Dec 02 04:03:46 2015 +0000
+++ b/heart.cpp Wed Dec 02 05:39:01 2015 +0000
@@ -1,518 +1,763 @@
#include "mbed.h"
-#include "TextLCD.h"
#include "rtos.h"
-
-TextLCD lcd(p15, p16, p17, p18, p19, p20);
-Serial pc(USBTX, USBRX);
+#include "Terminal.h"
-InterruptIn APace(p23);
-InterruptIn VPace(p24);
+DigitalOut led1(LED1); //asense
+DigitalOut led2(LED2); //vsense
+DigitalOut led3(LED3); //apace
+DigitalOut led4(LED4); //vpace
+DigitalOut aSense(p23);
+DigitalOut vSense(p24);
+InterruptIn APace(p25);
+InterruptIn VPace(p26);
-DigitalOut ASignal(p25);
-DigitalOut VSignal(p26);
-
-DigitalOut APaceReceive(LED1);
-DigitalOut VPaceReceive(LED2);
+Terminal console(USBTX, USBRX);
-DigitalOut ASignal1(LED3);
-DigitalOut VSignal1(LED4);
-
-const int minwait_A=50;
-const int minwait_V=50;
+int heartRate, avgHeartRate, observationInterval, rateCoefficient, observationRate, waitCount, senseWaitTime, testCase, changeModeTo;
+int heartMode; //0 - Normal, 1 - Manual, 2 - Test
+bool observationChange, digitOneReceived, paceReceived, synchDone, testOn, testResult[10]={false}, digitTwoReceived, changeMode, receivedVPace;
+char ch;
+char modeString[10];
-volatile int t=0;
-volatile int k=0;
-int m=0;
-int s=0;
-int ms=0;
-int heartInterval;
-char key_input;
-int testNumber;
-bool test_result;
-const int prop_delay=15;
-int flag_key=0;
-Mutex heartmut, keymutex;
+const int nLRI=1500, nAVI = 60, nPVARP = 150, nURI = 600, nVRP = 100; //timing constraints for Normal Mode of the Pacemaker
+const int delta=20;
+
+osMutexId displayMutex;
+osMutexDef (displayMutex);
+osMutexId observationChangeMutex;
+osMutexDef(obserationChangeMutex);
+osMutexId heartRateMutex;
+osMutexDef (heartRateMuex);
-int LRI=1500;
-int URI=600;
-int heartRate;
-volatile bool Areceived=false;
-volatile bool Vreceived=false;
-bool test=false;
-int low[4] = {30,40,100,30};
-int high[4] = {60,100,175,175};
-int modeset;
-int pulses;
-//int test;
-int flag;
-int delta=15;
-int observationInterval=10000;
-const int vrp=100;
-const int pvarp=150;
-const int avi=65;
-const int pvab=10;
-
-const int sleepModeURI = 1000;
-const int sleepModeLRI = 2000;
-
-const int normalModeURI = 600;
-const int normalModeLRI = 1500;
+Thread *SerialThreadPTR;
+Thread *HeartSensePTR;
+Thread *TestModePTR;
+Thread *TestDisplayPTR;
+RtosTimer *KeyTimeOutTimer;
+RtosTimer *SenseWaitTimer;
+//testCode
+Timer t;
-const int sportsModeURI = 343;
-const int sportsModeLRI = 600;
-
-const int manualModeURI = 343;
-const int manualModeLRI = 2000;
-
-int lri=normalModeLRI;
-int uri=normalModeURI;
-int flagr=0;
+void resetDisplay()
+{
+ osMutexWait(displayMutex, osWaitForever);
+ console.cls();
+ console.locate(30, 6);
+ console.printf("Heart Display");
+ console.locate(30, 10);
+ console.printf("Heart Rate : %04d bpm", avgHeartRate);
+ console.locate(30, 12);
+ console.printf("Observation Interval : %02d seconds", observationInterval/1000);
+ console.locate(30, 14);
+ console.printf("Mode : %s", modeString);
+ osMutexRelease(displayMutex);
+}
-typedef enum Modes {
- Test,
- Normal,
- Sleep,
- Random,
- Sports,
- Manual,
- Observer
-};
-Modes mode;
-
-Mutex HeartMutex;
-
-Thread *heartreceive;
-Thread *heartsend;
-Thread *heartkeyboard;
-Thread *testmode;
-Thread *hmode;
+void updateDisplay()
+{
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(44, 10);
+ console.printf("%04d", avgHeartRate);
+ console.locate(54, 12);
+ console.printf("%02d", observationInterval/1000);
+ osMutexRelease(displayMutex);
+}
-void resett();
-void resetk();
-void VPacereceived();
-void APacereceived();
-void ASignalsend();
-void VSignalsend();
-void HeartReceive();
-void HeartSend();
-void HeartKeyBoardModeSwitch();
-void sound_lowAlarm();
-void sound_highAlarm();
-void Testmode();
-
-
-extern "C" void TIMER0_IRQHandler (void)
-{
- if((LPC_TIM0->IR & 0x01) == 0x01) { // if MR0 interrupt, proceed
- LPC_TIM0->IR |= 1 << 0; // Clear MR0 interrupt flag
- t++;
- k++;
- }
-}
-
-//Initializing the timer 0
-void timer0_init(void)
+void heartSense(const void *args)
{
-
- LPC_SC->PCONP |=1<1; //Timer0 Power On
- LPC_TIM0->MR0 = 23990; //1 msec
- LPC_TIM0->MCR = 3; //interrupt and reset control
- NVIC_EnableIRQ(TIMER1_IRQn); //Enable timer0 interrupt
- LPC_TIM0->TCR = 1; //enable Timer0
- t = 0;
- k = 0;
-}
-
-void resett()
-{
- t=0;
-}
-
-void resetk()
-{
- k=0;
-}
-
-void sound_lowAlarm()
-{
- pc.printf("lowalarm");
-}
-void sound_highAlarm()
-{
- pc.printf("highalarm");
-}
-void VPacereceived()
-{
- pc.printf("VPace received");
- VPaceReceive=1;
- wait(0.002);
- APaceReceive=0;
- //pulses++;
- Vreceived=true;
- Areceived=false;
- if(mode == Test && flag==0) {
- (*testmode).signal_set(0x04);
- }
- if(mode == Test && test) {
- if(testNumber == 2 || testNumber == 0 || testNumber == 3 || testNumber == 1) {
- test_result = false;
- } else if(testNumber == 6 || testNumber == 4) {
- test_result = true;
+ while(1)
+ {
+ if(heartMode>0)
+ {
+ Thread::signal_wait(0x02);
+ }
+ //Thread::wait(500); //chnage this
+ senseWaitTime=50+(rand()%2000);
+ SenseWaitTimer->start(senseWaitTime);
+ Thread::signal_wait(0x03);
+ if(rand()%2==0)
+ {
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ aSense=0;
+ led1=0;
+ }
+ else
+ {
+ led2=1;
+ vSense=1;
+ Thread::wait(1);
+ vSense=0;
+ led2=0;
+ osMutexWait(heartRateMutex, osWaitForever);
+ heartRate++;
+ osMutexRelease(heartRateMutex);
+
}
}
}
-void APacereceived()
-{
- pc.printf("APace received");
- APaceReceive=1;
- wait(0.002);
- APaceReceive=0;
- Areceived=true;
- if(mode == Test && test) {
- if(testNumber == 0) {
- test_result = false;
- } else if(testNumber == 4 || testNumber == 7 || testNumber == 3 || testNumber == 1) {
- test_result = true;
- }
- }
-}
-
-void ASignalsend()
+void display(const void *args)
{
- ASignal=1;
- ASignal1=1;
- wait(0.02);
- Thread::wait(1);
- ASignal1=0;
- ASignal=0;
-}
-
-void VSignalsend()
-{
- VSignal=1;
- VSignal1=1;
- wait(0.02);
- Thread::wait(1);
- VSignal1=0;
- VSignal==0;
-}
-
-void updateHeart()
-{
- int temp = 60/heartInterval;
- heartmut.lock();
- heartRate = heartRate + temp;
- heartmut.lock();
-}
-void HeartReceive(void const* args)
-{
- while(1) {
- pc.printf("HR");
- while(Areceived==false||Vreceived==false);
- if(Vreceived==true) {
- resett();
-
- } else if(Areceived==true) {
- resett();
+ while(1)
+ {
+ Thread::wait(observationInterval);
+ if(heartMode!=2)
+ {
+ waitCount++;
+ if(!observationChange)
+ {
+ avgHeartRate=heartRate*rateCoefficient/waitCount;
+ osMutexWait(heartRateMutex, osWaitForever);
+ heartRate=0;
+ osMutexRelease(heartRateMutex);
+ if(observationRate!=(observationInterval/1000))
+ {
+ resetDisplay();
+ //update observationrate after the current interval stats are displayed
+ observationInterval=observationRate*1000;
+ rateCoefficient=(60000/observationInterval);
+ }
+ else
+ {
+ updateDisplay();
+ }
+ waitCount=0;
+ }
}
}
}
-void HeartSend(void const* args)
+void senseWait(const void *args)
+{
+ (*HeartSensePTR).signal_set(0x03);
+}
+
+void keyTimeOut(const void *args)
{
- while(1) {
- if(flagr==1){
- int r = rand() % 2;
- pc.printf("HS");
- while(t<minwait_V && mode!=Random && (mode==Test || mode==Manual));
- pc.printf("%u",t);
- if(r==0 && mode!=Test) {
- VSignalsend();
- pc.printf("Vsignal");
- resett();
- } else if(r==1&&mode!=Test) {
- ASignalsend();
- pc.printf("ASignal");
- resett();
- }}
+ if(digitOneReceived)
+ {
+ observationChange=false;
}
- //keymutex.unlock();
- // }
+ else
+ {
+ observationChange=false;
+ }
+ resetDisplay();
}
-void HeartKeyBoardModeSwitch(void const* args)
+
+void testMode(const void *args)
{
- while(1) {
- keymutex.lock();
- if((key_input=='r'||key_input=='R')&&flag_key==1) {
- mode=Random;
- pc.printf("Random");
- flagr=1;
- HeartSend("s");
- flag_key=0;
- } else if((key_input=='m'||key_input=='M')&&flag_key) {
- mode=Manual;
- pc.printf("Manual");
- flag_key=0;
-
- } else if(mode==Manual&&(key_input=='v'||key_input=='V')&&flag_key==1) {
- mode=Manual;
- VSignalsend();
- pc.printf("Ventricular");
- flag_key=0;
+ while(1)
+ {
+ if(heartMode!=2)
+ {
+ Thread::signal_wait(0x04);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.cls();
+ osMutexRelease(displayMutex);
+ //synch with PM
+ //TestCase 1 - Asense at PVARP+; No Vpace within URI-PVARP (detected within URI-PVARP+delta)
+ testCase=0;
+ testResult[testCase]=true;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ t.start();
+ Thread::wait(nPVARP);
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ aSense=0;
+ led1=0;
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("AS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ testOn=true;
+ Thread::wait(nURI-nPVARP-delta);
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
- } else if(mode==Manual&&flag_key==1&&(key_input=='a'||key_input=='A')) {
- mode=Manual;
- ASignalsend();
- pc.printf("Atrial");
- flag_key=0;
- } else if((key_input=='o'||key_input=='O')&&flag_key==1) {
- int a = 10 + rand() % 80;
- mode=Observer;
- pc.printf("Observer and %u",a);
- heartInterval =a;
- HeartSend("s");
- flag_key=0;
+ //synch with PM
+ //TestCase 2 - Asense at URI+; Vpace within AVI+delta
+ testCase=1;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ Thread::wait(nURI);
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ aSense=0;
+ led1=0;
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("AS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ testOn=true;
+ Thread::wait(nAVI+delta);
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ //synch with PM
+ //TestCase 3 - Asense at URI+; Vsense at AVI-; No pace detected; run this 4 times
+ testCase=2;
+ testResult[testCase]=true;
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ Thread::wait(nURI);
+ testOn=true;
+ for(int i=0;i<5;i++)
+ {
+ /*osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);*/
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ aSense=0;
+ led1=0;
+ /*osMutexWait(displayMutex, osWaitForever);
+ console.printf("AS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);*/
+ Thread::wait(nAVI-delta);
+ led2=1;
+ vSense=1;
+ Thread::wait(1);
+ vSense=0;
+ led2=0;
+ /*osMutexWait(displayMutex, osWaitForever);
+ console.printf("VS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);*/
+ Thread::wait(nLRI-nAVI-delta);
+ }
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ //synch with PM
+ //TestCase 4 - No sensing;Only pacing;
+ testCase=3;
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ testOn=true;
+ for(int i=0;i<1;i++)
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);
+ t.reset();
+ testResult[testCase]=false;
+ Thread::wait(nLRI-nAVI+delta);
+ if(!testResult[testCase])
+ {
+ console.printf("Here");
+ break;
+ }
+ testResult[testCase]=false;
+ Thread::wait(nAVI);
+ if(!testResult[testCase])
+ {
+ console.printf("There");
+ break;
+ }
+ }
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+
+ //synch with PM
+ //TestCase 5 - Vsense at VRP+; APace at LRI-AVI+delta
+ testCase=4;
+ testResult[testCase]=false;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ Thread::wait(nPVARP);
+ led2=1;
+ vSense=1;
+ Thread::wait(1);
+ vSense=0;
+ led2=0;
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("VS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ testOn=true;
+ Thread::wait(nLRI-nAVI+delta);
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
-
- } else if(flag_key==1&&(key_input=='t'||key_input=='T')) {
- mode=Test;
- (*testmode).signal_set(0x03);
- pc.printf("Test");
- flag_key=0;
+ //synch with PM
+ //TestCase 6 - Asense at VRP+ (within PVARP); A pace should come at LRI-AVI+delta and no VPace should come
+ testCase=5;
+ testResult[testCase]=false;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ Thread::wait(nVRP);
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ aSense=0;
+ led1=0;
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("AS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ testOn=true;
+ Thread::wait(nLRI-nAVI-nVRP+delta);
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+
+ //synch with PM
+ //TestCase 7 - Vsense at VRP-; Asense should come at LRI-AVI+delta; Asense does not come after that, which would happen if Vsense was accepted
+ testCase=6;
+ testResult[testCase]=false;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(20,testCase);
+ osMutexRelease(displayMutex);
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ t.reset();
+ Thread::wait(nVRP-delta-10); //give vSense within VRP
+ led2=1;
+ vSense=1;
+ Thread::wait(1);
+ vSense=0;
+ led2=0;
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("VS : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ testOn=true;
+ Thread::wait(nLRI-nAVI-nVRP+(2*delta)+10);
+ testOn=false;
+ if(testResult[testCase])
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d pass",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("test %d fail",testCase+1);
+ osMutexRelease(displayMutex);
+ }
+ t.stop();
+ //synch with PM
+ //TestCase 8 - Alarm High case; generate Asense and Vsense at very high rate
+ testCase=7;
+ testResult[testCase]=false;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase);
+ console.printf("Alarm High");
+ osMutexRelease(displayMutex);
+ synchDone=false;
+ Thread::signal_wait(0x05);
+ synchDone=true;
+ for(int i=0;i<5000;i++)
+ {
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ aSense=0;
+ led1=0;
+ led2=1;
+ vSense=1;
+ Thread::wait(1);
+ vSense=0;
+ led2=0;
+ }
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(0,testCase+1);
+ console.printf("Testing Complete");
+ osMutexRelease(displayMutex);
}
- keymutex.unlock();
- }
-}
-
-
-void display(void const* args)
-{
- while(1) {
- Thread::wait(observationInterval/1000);
-// if(mode!=Test) {
-// if(mode!= changeobservationinterval) {
-// avgHeartRate=pulseCount*60000/(obsInterval);
-// pulseCount = 0;
-// updateDisplay();
-//
-// }
-// }
- if(!Test) {
- heartmut.lock();
- pc.printf("Avg Heart Rate: %02d bpm", heartRate);
- heartmut.unlock();
- while(!Vreceived||!VSignal==0) {
- updateHeart();
+ if(changeMode)
+ {
+ changeMode=false;
+ if(changeModeTo==0)
+ {
+ heartMode=0;
+ strcpy(modeString,"Random");
+ osMutexWait(displayMutex, osWaitForever);
+ console.cls();
+ console.locate(30, 10);
+ console.printf("Heart Rate : %03d bpm", avgHeartRate);
+ console.locate(30, 12);
+ console.printf("Observation Interval : %02d seconds", observationInterval/1000);
+ console.locate(30, 14);
+ console.printf("Mode : %s", modeString);
+ osMutexRelease(displayMutex);
+ (*HeartSensePTR).signal_set(0x02);
}
- while(k<=heartInterval*1000);
- if(heartRate>high[mode]) {
- sound_highAlarm();
- heartmut.lock();
- heartRate=0;
- heartmut.unlock();
- resetk();
- } else if(heartRate<low[mode]) {
- sound_lowAlarm();
- heartmut.lock();
- heartRate=0;
- heartmut.unlock();
- resetk();
- } else if(heartRate >= low[mode] && heartRate <= high[mode]) {
- heartmut.lock();
- heartRate=0;
- heartmut.unlock();
- resetk();
+ else
+ {
+ heartMode=1;
+ strcpy(modeString,"Manual");
+ osMutexWait(displayMutex, osWaitForever);
+ console.cls();
+ console.locate(30, 10);
+ console.printf("Heart Rate : %03d bpm", avgHeartRate);
+ console.locate(30, 12);
+ console.printf("Observation Interval : %02d seconds", observationInterval/1000);
+ console.locate(30, 14);
+ console.printf("Mode : %s", modeString);
+ osMutexRelease(displayMutex);
}
-
-
+
}
}
}
-
-void Testmode(void const* args)
+void aPace()
{
- Thread::wait(0x03);
- test = true;
- switch(test) {
- case 1:
- flag=0;
- Thread::signal_wait(0x04);
- flag=1;
- t = 0;
- Thread::wait(vrp);
- ASignalsend();
- test = true;
- Thread::wait(lri-avi-vrp);
- test_result=false;
- if(test_result) {
- pc.printf("Test %u passed",test);
- test=2;
- } else {
- pc.printf("Test %u failed",test);
- test=2;
- }
- break;
-
- case 2:
- flag=0;
- Thread::signal_wait(0x04); //Send A after PVARP
- flag=1;
- t = 0;
- Thread::wait(pvarp);
- ASignalsend();
-
- Thread::wait(uri-pvarp-delta);
-
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=3;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=3;
- }
- break;
-
- case 3:
- flag=0;
- Thread::signal_wait(0x04);
- flag=1;
- t = 0;
- Thread::wait(uri);
- for(int i = 0; i<7; i++) {
- ASignalsend();
- Thread::wait(avi-delta);
- VSignalsend();
- Thread::wait(lri-avi-delta);
- }
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=4;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=4;
- }
- break;
- case 4:
- flag=0;
- Thread::signal_wait(0x04); //Send A after PVARP
- flag=1;
- t = 0;
- Thread::wait(pvarp);
- ASignalsend();
-
- Thread::wait(uri-pvarp-delta);
+ if(heartMode==0)
+ {
+ SenseWaitTimer->start(50+(rand()%2000)); //TODO move this
+ }
+ led3=1;
+ wait(0.01);
+ led3=0;
+ if(heartMode==2 && testOn)
+ {
+ receivedVPace=false;
+ (*TestDisplayPTR).signal_set(0x06);
+ if(testCase==2)
+ {
+ testResult[testCase]=false;
+ }
+ else if(testCase==3 || testCase==4 || testCase==5 || testCase==6)
+ {
+ testResult[testCase]=true;
+ }
+ }
+}
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=5;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=5;
- }
- break;
- case 5:
- flag=0;
- Thread::signal_wait(0x04); //Heart is dead
- flag=1;
- t = 0;
-
- Thread::wait(lri);
- Thread::wait(lri);
- test = false;
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=6;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=6;
- }
- break;
-
- case 6:
- flag=0;
- Thread::signal_wait(0x04); //Heart beating very fast. ASig, VSig
- flag=1;
- t = 0;
- for(int i = 0; i<50; i++) {
- ASignalsend();
- VSignalsend();
- }
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=7;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=7;
- }
- break;
-
- case 7:
- flag=0;
- Thread::signal_wait(0x04); //Wait for VPace to be received
- flag=1;
- t= 0;
- Thread::wait(uri);
- ASignalsend();
- Thread::wait(avi+delta);
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=8;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=8;
- }
-
- break;
-
- case 8:
- flag=0;
- Thread::signal_wait(0x04); //Send an extra V to see if LRI starts then
- flag=1;
- t = 0;
- Thread::wait(pvarp);
- VSignalsend();
- Thread::wait(lri-avi-delta);
- if(test_result) {
- pc.printf("Test %u passed", &test_result);
- test=0;
- } else {
- pc.printf("Test %u failed", &test_result);
- test=0;
- }
- break;
-
+void vPace()
+{
+ if(heartMode==0)
+ {
+ SenseWaitTimer->start(50+(rand()%2000)); //TODO move this
+ }
+ led4=1;
+ wait(0.01);
+ led4=0;
+ osMutexWait(heartRateMutex, osWaitForever);
+ heartRate++;
+ osMutexRelease(heartRateMutex);
+ if(heartMode==2 && !synchDone)
+ {
+ (*TestModePTR).signal_set(0x05);
+ }
+ if(heartMode==2 && testOn)
+ {
+ receivedVPace=true;
+ (*TestDisplayPTR).signal_set(0x06);
+ if(testCase==0 || testCase==2 || testCase==5 || testCase==6)
+ {
+ testResult[testCase]=false;
+ }
+ else if(testCase==1 || testCase==3)
+ {
+ testResult[testCase]=true;
+ }
}
}
+void testDisplay(const void *args)
+{
+ while(1)
+ {
+ Thread::signal_wait(0x06);
+ if(receivedVPace)
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("VP : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ osMutexWait(displayMutex, osWaitForever);
+ console.printf("AP : %d ",t.read_ms());
+ osMutexRelease(displayMutex);
+ }
+ }
+}
+
+
+void serialThread(const void *args)
+{
+ while(1)
+ {
+ Thread::signal_wait(0x01);
+ if((((ch=='a')||(ch=='A')) && heartMode==1) && !observationChange)
+ {
+ //fire A Signal
+ led1=1;
+ aSense=1;
+ Thread::wait(1);
+ led1=0;
+ aSense=0;
+ }
+ else if((((ch=='v')||(ch=='V')) && heartMode==1) && !observationChange)
+ {
+ //fire V Signal
+ led2=1;
+ vSense=1;
+ Thread::wait(1);
+ vSense=0;
+ led2=0;
+ osMutexWait(heartRateMutex, osWaitForever);
+ heartRate++;
+ osMutexRelease(heartRateMutex);
+ }
+ else if(((((ch=='r')||(ch=='R'))&& heartMode!=0) && !observationChange) && !changeMode)
+ {
+ if(heartMode==2)
+ {
+ changeMode=true;
+ changeModeTo=0;
+ console.locate(30, 14);
+ console.printf("Mode : %s (Pending - Random)", modeString);
+ }
+ else
+ {
+ heartMode=0;
+ strcpy(modeString,"Random");
+ resetDisplay();
+ (*HeartSensePTR).signal_set(0x02);
+ }
+ }
+ else if(((((ch=='m')||(ch=='M')) && heartMode!=1) && !observationChange) && !changeMode)
+ {
+ if(heartMode==2)
+ {
+ changeMode=true;
+ changeModeTo=1;
+ console.locate(30, 14);
+ console.printf("Mode : %s (Pending - Manual)", modeString);
+ }
+ else
+ {
+ heartMode=1;
+ strcpy(modeString,"Manual");
+ resetDisplay();
+ }
+ }
+ else if((((ch=='t')||(ch=='T')) && heartMode!=2) && !observationChange)
+ {
+ heartMode=2; //spawn Test Thread
+ strcpy(modeString,"Test");
+ resetDisplay();
+ (*TestModePTR).signal_set(0x04);
+ }
+ else if((((ch=='o')||(ch=='O')) && !observationChange) && heartMode!=2)
+ {
+ observationChange=true;
+ digitOneReceived=false;
+ digitTwoReceived=false;
+ //spawn a timer for 3 seconds
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(29, 16);
+ console.printf("Observation Interval change : -- seconds");
+ osMutexRelease(displayMutex);
+ KeyTimeOutTimer=new RtosTimer(keyTimeOut, osTimerOnce, (void *)0);
+ KeyTimeOutTimer->start(3000);
+ }
+ else if((observationChange) && ((ch>=48) && (ch<=57)) && !digitTwoReceived)
+ {
+ if(!digitOneReceived)
+ {
+ KeyTimeOutTimer->start(3000); //key time out is 3 seconds
+ osMutexWait(observationChangeMutex, osWaitForever); //mutex to be released either on time out or if 2 digits are received
+ observationRate=ch-'0';
+ osMutexRelease(observationChangeMutex);
+ digitOneReceived=true;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(60, 16);
+ console.printf("%02d", observationRate);
+ osMutexRelease(displayMutex);
+ }
+ else
+ {
+ KeyTimeOutTimer->stop();
+ digitTwoReceived=true;
+ osMutexWait(observationChangeMutex, osWaitForever);
+ observationRate=(observationRate*10)+(ch-'0');
+ osMutexRelease(observationChangeMutex);
+ observationChange=false;
+ osMutexWait(displayMutex, osWaitForever);
+ console.locate(60, 16);
+ console.printf("%02d", observationRate);
+ osMutexRelease(displayMutex);
+ }
+ }
+ }
+}
+
+// Interupt Routine to read in data from serial port and call the serial thread
+void Rx_interrupt()
+{
+ if(console.readable())
+ {
+ ch=LPC_UART0->RBR; //read uart buffer data and clear the interrupt flag
+ (*SerialThreadPTR).signal_set(0x01); //initiate the serial thread to change the state of the timer
+ }
+
+}
-int main()
+int main()
{
- pc.baud(9600);
- VPace.rise(&VPacereceived);
- APace.rise(&APacereceived);
- timer0_init();
- Thread heartreceive(HeartReceive);
- Thread heartsend(HeartSend);
- Thread heartkeyboard(HeartKeyBoardModeSwitch);
- hmode = &heartkeyboard;
- Thread disPlay(display);
- Thread tmode(Testmode);
- testmode = &tmode;
-
- while(1) {
- if(pc.readable()) {
- key_input=pc.getc(); //read uart buffer data and clear the interrupt flag
- //initiate the serial thread to change the state of the timer
- pc.printf("setting");
- flag_key=1;
- if(key_input=='o'||key_input=='O'||key_input=='m'||key_input=='M'||key_input=='t'||key_input=='T')
- flagr=0;
- pc.printf("set");
- }
- }
+ console.attach(&Rx_interrupt, Serial::RxIrq); //attach a uart interrupt for uart
+ console.cls();
+ console.locate(30, 6);
+ console.printf("Heart Display");
+ console.locate(30, 10);
+ console.printf("Heart Rate : ---- bpm");
+ console.locate(30, 12);
+ console.printf("Observation Interval : -- seconds");
+ console.locate(30, 14);
+ console.printf("Mode : Random ");
+
+ //initialize variables
+ heartMode=0;
+ heartRate=0;
+ avgHeartRate=0;
+ waitCount=0;
+ observationInterval=5000;
+ rateCoefficient=(60000/observationInterval);
+ observationChange=false;
+ observationRate=5;
+ digitOneReceived=false;
+ strcpy(modeString,"Random");
+ synchDone=true;
+ testCase=0;
+ testOn=false;
+ digitTwoReceived=false;
+ changeMode=false;
+ changeModeTo=0;
+ receivedVPace=false;
+
+ SenseWaitTimer=new RtosTimer(senseWait, osTimerOnce, (void *)0);
+ Thread SerialThread(serialThread);
+ SerialThreadPTR=&SerialThread;
+ SerialThread.set_priority(osPriorityRealtime);
+ Thread HeartSense(heartSense);
+ HeartSensePTR=&HeartSense;
+ HeartSense.set_priority(osPriorityHigh);
+ Thread Display(display);
+ Display.set_priority(osPriorityAboveNormal);
+ Thread TestMode(testMode);
+ TestModePTR=&TestMode;
+ TestMode.set_priority(osPriorityAboveNormal);
+ Thread TestDisplay(testDisplay);
+ TestDisplayPTR=&TestDisplay;
+ TestDisplay.set_priority(osPriorityHigh);
+ APace.fall(&aPace);
+ VPace.fall(&vPace);
+
+ while(1);
}
\ No newline at end of file