Duy tran
Graduation Thesis, use Nucleo and X-Nucleo BLE
Dependencies: PulseSensor GSM Thermometer KalmanFilter
Application/main.cpp
- Committer:
- DuyLionTran
- Date:
- 2018-05-24
- Revision:
- 18:a9d67c51715e
- Parent:
- 17:b7c2db3e7282
- Child:
- 19:a4f3328e9d09
File content as of revision 18:a9d67c51715e:
/**
* This is the project for "BLE HealthCare". The device is attached on any patient's body at will.
* Revision:
* version 0.8 02-12-2018
* version 0.8.5 02-14-2018
* version 0.9 02-15-2018 Pulse sensor and thermometer added
* version 0.9.5 02-16-2018 Calculation for pulse sensor and thermometer. GSM library added
* version 0.9.6 02-21-2018 Update mbed-os
* version 0.9.6 02-21-2018 Some modification for LM35
* version 0.9.8 03-04-2018 Data receiving from client device added
* version 1.0 03-09-2018 Some minor bugs fixed
* version 1.0.5 03-09-2018 Some minor bugs fixed
/* ======================== INCLUDES ========================= */
#include <events/mbed_events.h>
#include <mbed.h>
#include "ble/BLE.h"
#include "ble_healthcare_service.h"
#include "GSM.h"
#include "LM35.h"
#include "PulseSensor.h"
/* ======================== DEFINES ========================== */
#define PULSE_SENSOR_PIN A0
#define THERM_SENSOR_PIN A1
/* ======================= VARIABLES ========================= */
/* GLOBAL VARIABLES */
static float currentTemperature = 39.6;
static uint16_t currentHRMCounter = 80;
static float sendCombinedTempAndHR;
static uint16_t sendCombinedHRAndTemp;
/* PRIVATE VARIABLES */
uint8_t HRM_increasement = 1;
uint8_t cnt;
uint8_t startSendFloat = 0;
uint8_t saveFloat;
/* No need to display the device name */
//const static char DEVICE_NAME[] = "BODY SENSOR";
static const uint16_t uuid16_list[] = {GattService::UUID_HEART_RATE_SERVICE,
GattService::UUID_HEALTH_THERMOMETER_SERVICE,
HealthCareService::USER_DATA_SERVICE_UUID,
HealthCareService::DEVICE_INFO_SERVICE_UUID
};
uint8_t htsPosition = HealthCareService::HealthCareService::TEMPERATURE_LOCATION_FINGER;
uint8_t hrmPosition = HealthCareService::HealthCareService::HRM_LOCATION_FINGER;
/* STRUCTS/CLASSESS */
HealthCareService *HealthCareServicePtr;
//PulseSensor PulseSensor();
static EventQueue eventQueue(EVENTS_EVENT_SIZE * 20);
Serial serial(USBTX, USBRX);
/* ================== FUNCTION PROTOTYPES ==================== */
void connectionCallback(const Gap::ConnectionCallbackParams_t *);
void disconnectionCallback(const Gap::DisconnectionCallbackParams_t *);
void onBleInitError(BLE &ble, ble_error_t error);
void bleInitComplete(BLE::InitializationCompleteCallbackContext *params);
void onDataWrittenCallback(const GattWriteCallbackParams *params);
void scheduleBleEventsProcessing(BLE::OnEventsToProcessCallbackContext* context);
void updatePayload(void);
void main_event(void);
void periodicCallback(void);
/* ==================== FUNCTION DETAILS ===================== */
/* Restart Advertising on disconnection*/
void disconnectionCallback(const Gap::DisconnectionCallbackParams_t *) {
BLE::Instance().gap().startAdvertising();
printf("Device disconnected with mobile/table\r\n");
}
void connectionCallback(const Gap::ConnectionCallbackParams_t *) {
printf("Deviced connected");
startSendFloat = 0;
}
void updatePayload(void) {
// Update the count in the SERVICE_DATA field of the advertising payload
cnt++;
uint8_t service_data[8];
/* first 2 bytes are for service UUID */
service_data[0] = HealthCareService::USER_DATA_SERVICE_UUID & 0xFF;
service_data[1] = HealthCareService::USER_DATA_SERVICE_UUID >> 8;
/* next 4 bytes are for client ID */
service_data[2] = 0x07;
service_data[3] = 0x09;
service_data[4] = 0x9A;
service_data[5] = 0xAC;
/* last 2 bytes are sensor data */
service_data[6] = cnt;
service_data[7] = cnt;
ble_error_t err = BLE::Instance().gap().updateAdvertisingPayload(GapAdvertisingData::SERVICE_DATA, (uint8_t *)service_data, sizeof(service_data));
}
void main_event(void) {
/* Do blocking calls or whatever is necessary for sensor polling.
In our case, we simply update the Temperature measurement. */
/* TODO Read temperature */
currentTemperature = (currentTemperature + 0.16 > 42.79) ? 35.69 : currentTemperature + 1.18;
/* TODO Read Heart Rate */
currentHRMCounter = (currentHRMCounter + 1 > 120) ? 75 : (currentHRMCounter + HRM_increasement);
/* TODO Update Service data */
updatePayload();
/* sendCombinedTempAndHR = (currentTemperature * 100)* 1000 + currentHRMCounter */
sendCombinedTempAndHR = currentTemperature * 1000; /* Temperature float to int conversion */
sendCombinedTempAndHR = sendCombinedTempAndHR + (float)(currentHRMCounter/100.0);
switch (startSendFloat) {
case 0: /* sendCombinedHRAndTemp = (currentHRMCounter * 100) + currentTemperature */
/* Because the maximum size of HRM Value is 2 bytes */
sendCombinedHRAndTemp = currentHRMCounter * 100;
uint16_t tempTemp = currentTemperature * 100;
saveFloat = tempTemp % 100;
sendCombinedHRAndTemp = sendCombinedHRAndTemp + (uint8_t)currentTemperature;
break;
case 1: sendCombinedHRAndTemp = currentHRMCounter * 100;
sendCombinedHRAndTemp = sendCombinedHRAndTemp + (uint8_t)13;
break;
case 2: sendCombinedHRAndTemp = currentHRMCounter * 100;
sendCombinedHRAndTemp = sendCombinedHRAndTemp + (uint8_t)10;
break;
case 3: sendCombinedHRAndTemp = currentHRMCounter * 100;
sendCombinedHRAndTemp = sendCombinedHRAndTemp + (uint8_t)saveFloat;
break;
case 4: sendCombinedHRAndTemp = currentHRMCounter * 100;
sendCombinedHRAndTemp = sendCombinedHRAndTemp + (uint8_t)20;
startSendFloat = 0;
break;
default: break;
}
// printf("sendCombinedTempAndHR %d\r\n", sendCombinedTempAndHR);
// printf("sendCombinedTempAndHR %.2f\r\n\r\n", (float)sendCombinedTempAndHR);
// printf("currentHRMCounter %d\r\n", currentHRMCounter);
// printf("currentTemperature %d\r\n", (uint8_t)currentTemperature);
// printf("sendCombinedHRAndTemp %d\r\n", sendCombinedHRAndTemp);
if (BLE::Instance().gap().getState().connected) {
HealthCareServicePtr->updateTemperature(sendCombinedTempAndHR);
HealthCareServicePtr->updateHeartRate(sendCombinedHRAndTemp);
}
startSendFloat++;
}
void periodicCallback(void) {
/* call main_event immediately */
eventQueue.call(main_event);
}
void printMacAddress() {
/* Print out device MAC address to the console*/
Gap::AddressType_t addr_type;
Gap::Address_t address;
BLE::Instance().gap().getAddress(&addr_type, address);
printf("DEVICE MAC ADDRESS: ");
for (int i = 5; i >= 1; i--) {
printf("%02x:", address[i]);
}
printf("%02x\r\n", address[0]);
}
void onBleInitError(BLE &ble, ble_error_t error) {
/* Initialization error handling should go here */
printf("BLE init error!\r\n");
}
/**
* This callback allows the HealthCareService to receive updates to the controlState Characteristic.
*
* @param[in] params
* Information about the characterisitc being updated.
*/
void onDataWrittenCallback(const GattWriteCallbackParams *params) {
// printf("Write callback, value %d\r\n", *(params->data));
if ((params->handle == HealthCareServicePtr->getTypeHandle()) && (params->len >= 1)) {
uint8_t oldPosition = htsPosition;
htsPosition = *(params->data);
printf("Old type: %d, New type %d\r\n", oldPosition, htsPosition);
HealthCareServicePtr->updateType(htsPosition);
}
if ((params->handle == HealthCareServicePtr->getLocationHandle()) && (params->len >= 1)) {
uint8_t oldPosition = hrmPosition;
hrmPosition = *(params->data);
printf("Old location: %d, New location %d\r\n", oldPosition, hrmPosition);
HealthCareServicePtr->updateLocation(hrmPosition);
}
}
/**
* @brief Callback triggered when the ble initialization process has finished
*/
void bleInitComplete(BLE::InitializationCompleteCallbackContext *params) {
BLE& ble = params->ble;
ble_error_t error = params->error;
if (error != BLE_ERROR_NONE) {
onBleInitError(ble, error);
return;
}
/* Ensure that it is the default instance of BLE */
if(ble.getInstanceID() != BLE::DEFAULT_INSTANCE) {
return;
}
uint8_t initial_HRMIncreasement = 1;
ble.gap().onConnection(connectionCallback);
ble.gap().onDisconnection(disconnectionCallback);
ble.gattServer().onDataWritten(onDataWrittenCallback);
HealthCareServicePtr = new HealthCareService(ble, currentTemperature, htsPosition,
currentHRMCounter, hrmPosition,
initial_HRMIncreasement);
/* setup advertising */
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, (uint8_t *)uuid16_list, sizeof(uuid16_list));
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::GENERIC_THERMOMETER );
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::GENERIC_HEART_RATE_SENSOR);
/* No need to display the device name */
// ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME , (uint8_t *)DEVICE_NAME, sizeof(DEVICE_NAME));
uint8_t service_data[8];
/* first 2 bytes are for service UUID */
service_data[0] = HealthCareService::USER_DATA_SERVICE_UUID & 0xFF;
service_data[1] = HealthCareService::USER_DATA_SERVICE_UUID >> 8;
/* next 4 bytes are for client ID */
service_data[2] = 0x07;
service_data[3] = 0x09;
service_data[4] = 0x89;
service_data[5] = 0xAB;
/* last 2 bytes are sensor data */
service_data[6] = cnt;
service_data[7] = cnt;
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::SERVICE_DATA , (uint8_t *)service_data, sizeof(service_data));
ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
ble.gap().setAdvertisingInterval(1000); /* 1000ms. */
ble.gap().startAdvertising();
printMacAddress();
printf("BLE init successfully\r\n");
}
void scheduleBleEventsProcessing(BLE::OnEventsToProcessCallbackContext* context) {
BLE &ble = BLE::Instance();
eventQueue.call(Callback<void()>(&ble, &BLE::processEvents));
}
/* MAIN FUNCTION */
int main() {
serial.baud(115200);
printf("\r\n BODY WIRELESS SENSOR NETWORK\r\n");
/* call periodicCallback every 500ms */
eventQueue.call_every(1000, periodicCallback);
/* init BLE */
BLE &ble = BLE::Instance();
ble.onEventsToProcess(scheduleBleEventsProcessing);
ble.init(bleInitComplete);
/* dispatch the event queue */
eventQueue.dispatch_forever();
return 0;
}