rakha asyrofi
this is implement of uart adxl345 ble nrf51
Dependencies: BLE_API adxl345 mbed nRF51822
Fork of
ADXL345_HelloWorld
by 
Aaron Berk
main.cpp
- Committer:
- asyrofi
- Date:
- 2017-12-09
- Revision:
- 3:3ee58f31a637
- Parent:
- 2:89f008ca5911
File content as of revision 3:3ee58f31a637:
#include "mbed.h"
#include "ble/BLE.h"
#include "ble/services/UARTService.h"
#include "Serial.h"
#include "ADXL345.h"
#define NEED_CONSOLE_OUTPUT 1 /* Set this if you need debug messages on the console;
* it will have an impact on code-size and power consumption. */
#if NEED_CONSOLE_OUTPUT
#define DEBUG(...) { printf(__VA_ARGS__); }
#else
#define DEBUG(...) /* nothing */
#endif /* #if NEED_CONSOLE_OUTPUT */
ADXL345 accelerometer(p5, p6, p7, p8); // (SDA, SDO, SCL, CS);
BLEDevice ble;
DigitalOut led1(LED1);
Serial uart1(USBTX,USBRX);
UARTService *uartServicePtr;
void disconnectionCallback(const Gap::DisconnectionCallbackParams_t *params)
{
DEBUG("Disconnected!\n\r");
DEBUG("Restarting the advertising process\n\r");
ble.startAdvertising();
}
void connectionCallback(const Gap::ConnectionCallbackParams_t *params) {
DEBUG("Connected!\n\r");
}
uint8_t b[40]={'a','d','q','w'};
void onDataWritten1(const GattWriteCallbackParams *params)
{
if ((uartServicePtr != NULL) && (params->handle == uartServicePtr->getTXCharacteristicHandle())) {
uint16_t bytesRead = params->len;
DEBUG("received %u bytes %s\n\r", bytesRead,params->data);
// if(sFlag == 1)
// ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (const uint8_t*)b/*params->data*/, 4/*bytesRead*/);
}
}
void periodicCallback(void)
{
led1 = !led1;
}
int threshold =80;
int xval[10]={0};
int yval[10]={0};
int zval[10]={0};
int xavg;
int yavg;
int zavg;
int calibratex()
{
int readings[3] = {0, 0, 0};
led1=1;
long int sum1 = 0;
for (int i=0; i<10; i++)
{
accelerometer.getOutput(readings);
xval[i]=(readings[0]); //nilai x adxl345
sum1 = yval[i]+sum1;
}
xavg=sum1/10.0;
led1=0;
return xavg;
}
int calibratey()
{
int readings[3] = {0, 0, 0};
led1=1;
long int sum2 = 0;
for (int i=0; i<10; i++)
{
accelerometer.getOutput(readings);
yval[i]=(readings[1]); //nilai y adxl345
sum2 = yval[i]+sum2;
}
yavg=sum2/10.0;
led1=0;
return yavg;
}
int calibratez()
{
int readings[3] = {0, 0, 0};
led1=1;
long int sum3 = 0;
for (int i=0; i<10; i++)
{
accelerometer.getOutput(readings);
zval[i]=(readings[2]); //nilai z adxl345
sum3 = zval[i]+sum3;
}
zavg=sum3/10.0;
led1=0;
return zavg;
}
int main()
{
uart1.baud(9600);
int readings[3] = {0, 0, 0};
char buffer [20];
led1 = 1;
uart1.baud(9600);
Ticker ticker;
ticker.attach(periodicCallback, 1);
DEBUG("Initialising the nRF51822\n\r");
ble.init();
ble.onDisconnection(disconnectionCallback);
ble.onConnection(connectionCallback);
ble.onDataWritten(onDataWritten1);
/* setup advertising */
ble.accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED);
ble.setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
ble.accumulateAdvertisingPayload(GapAdvertisingData::SHORTENED_LOCAL_NAME,
(const uint8_t *)"BLE UART", sizeof("BLE UART") - 1);
ble.accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_128BIT_SERVICE_IDS,
(const uint8_t *)UARTServiceUUID_reversed, sizeof(UARTServiceUUID_reversed));
ble.setAdvertisingInterval(1000); /* 1000ms; in multiples of 0.625ms. */
ble.startAdvertising();
UARTService uartService(ble);
uartServicePtr = &uartService;
uart1.printf("Starting ADXL345 test...\n");
uart1.printf("Device ID is: 0x%02x\n", accelerometer.getDevId());
//Go into standby mode to configure the device.
accelerometer.setPowerControl(0x00);
//Full resolution, +/-16g, 4mg/LSB.
accelerometer.setDataFormatControl(0x0B);
//3.2kHz data rate.
accelerometer.setDataRate(ADXL345_3200HZ);
//Measurement mode.
accelerometer.setPowerControl(0x08);
int avg1 = calibratex();
int avg2 = calibratey();
int avg3 = calibratez();
//inisiliasi
int steps=0;
int flag=0;
int acc=0;
int totvect [20] = {0};
int totave [20] = {0};
int totvel [20] = {0};
int totdist [20] = {0};
int totheight [20] = {0};
//float sum1, sum2, sum3 = 0
int xaccl[20];
int yaccl[20];
int zaccl[20];
// Test Daata
memset(&buffer, 0, sizeof(buffer));
/* int16_t reading_1= 0;
int16_t reading_2= 0;
int16_t reading_3= 0;
int16_t avg_1= 0;
int16_t avg_2= 0;
int16_t avg_3= 0;*/
int16_t lang = 0;
int16_t perc = 0;
int16_t kec = 0;
int16_t jar = 0;
int16_t ting = 0;
snprintf(buffer, 20, "data: %d,%d,%d,%d,%d\n",(int16_t)lang,(int16_t)perc,(int16_t)kec,(int16_t)jar,(int16_t)ting);
/* snprintf(buffer, 20, "data: %d,%d,%d,%d,%d,%d\n",(int16_t)reading_1,(int16_t)reading_2,(int16_t)reading_3,(int16_t)avg_1,(int16_t)avg_2,(int16_t)avg_3);*/
while (1)
{
ble.waitForEvent();
wait(0.1);
accelerometer.getOutput(readings);
uart1.printf("\n%i, %i, %i\n", (int16_t)readings[0], (int16_t)readings[1], (int16_t)readings[2]);
/* memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "data: %d,%d,%d\n\n", (int16_t)readings[0],(int16_t)readings[1],(int16_t)readings[0]);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);*/
uart1.printf("\n%i, %i, %i\n", (int16_t)avg1, (int16_t)avg2, (int16_t)avg3);
/* memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "data: %d,%d,%d\n\n", (int16_t)avg1,(int16_t)avg2,(int16_t)avg3);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);*/
wait(0.1);
//float x,y,z
for (int i=0; i<10; i++)
{
xaccl[i]=(readings[0]);
wait(0.1);
yaccl[i]=(readings[1]);
wait(0.1);
zaccl[i]=(readings[2]);
wait(0.1);
//formula
totvect[i] = sqrt((double)((xaccl[i]-xavg)* (xaccl[i]-xavg))+(double) ((yaccl[i] - yavg)*(yaccl[i] - yavg)) +(double) ((zaccl[i] - zavg)*(zaccl[i] - zavg)));
totave[i] = (totvect[i] + totvect[i-1]) / 2 ;
uart1.printf("\t acc: %i\n", (int16_t)totave[i]);
memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "\t acc: %d\n", (int16_t)totave[i]);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);
totvel[i]=(totave[i]*0.2);
uart1.printf("\t vel: %i\n", (int16_t)totvel[i]);
memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "\t vel: %d\n", (int16_t)totvel[i]);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);
totdist[i]=(totvect[i]*(0.2*0.2)/2);
uart1.printf("\t dist: %i\n", (int16_t)totdist[i]);
memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "\tdist: %d\n", (int16_t)totdist[i]);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);
totheight[i]=sqrt((((xaccl[i]-xavg)* (xaccl[i]-xavg))+ ((yaccl[i] - yavg)*(yaccl[i] - yavg)))*(0.2*0.2)/2);
uart1.printf("\thght: %i\n", (int16_t)totheight[i]);
memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "\thght: %d\n", (int16_t)totheight[i]);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);
acc=acc+totave[i];
//cal steps
if (totave[i] > threshold && flag==0)
{
steps = steps+1;
flag=1;
}
else if (totave[i] > threshold && flag == 1)
{
// do nothing
}
if (totave[i] < threshold && flag == 1)
{flag=0;}
uart1.printf("steps: %i\n", (int16_t)steps);
memset(&buffer, 0, sizeof(buffer));
snprintf(buffer, 20, "\nsteps: %d\t", (int16_t)steps);
ble.updateCharacteristicValue(uartServicePtr->getRXCharacteristicHandle(), (uint8_t*)buffer, sizeof(buffer), false);
}
}
}