コード例 #1
0
int main(int argc, char* argv[]){
	char deviceName[GOIO_MAXSIZE_DEVICE_NAME];
	gtype_int32 vendorId;
	gtype_int32 productId;
	gtype_int32 rawMeasurements[MAX_NUM_MEASUREMENTS];
	gtype_real64 volts[MAX_NUM_MEASUREMENTS];
	gtype_real64 calbMeasurements[MAX_NUM_MEASUREMENTS];
	gtype_int32 numMeasurements, i;
	gtype_real64 measureperiod = 0.004;
	gtype_uint16 MajorVersion;
	gtype_uint16 MinorVersion;

	//	Initialize the library
	GoIO_Init();
	GoIO_GetDLLVersion(&MajorVersion, &MinorVersion);
	printf("Using library version %d.%d \n", MajorVersion, MinorVersion);
	bool bFoundDevice = GetAvailableDeviceName(deviceName, GOIO_MAXSIZE_DEVICE_NAME, &vendorId, &productId);
	if(!bFoundDevice)
		printf("No sensor Detected\n");
	else{
		GOIO_SENSOR_HANDLE hDevice = GoIO_Sensor_Open(deviceName, vendorId, productId, 0);
		if(hDevice != NULL){
			printf("Sensor Opened Succesfully \n");
			//Preparing to collect data from the device
			GoIO_Sensor_SetMeasurementPeriod(hDevice,measureperiod,SKIP_TIMEOUT_MS_DEFAULT);
			GoIO_Sensor_SendCmdAndGetResponse(hDevice, SKIP_CMD_ID_START_MEASUREMENTS,NULL,0,NULL,NULL,SKIP_TIMEOUT_MS_DEFAULT);
			OSSleep(8000);
			numMeasurements = GoIO_Sensor_ReadRawMeasurements(hDevice, rawMeasurements, MAX_NUM_MEASUREMENTS);
			printf("Recorded %d measurements \n", numMeasurements);
			// Begin outputting data to file to be processed further
			FILE * fp;
			fp = fopen("ekgdata.txt","w+");
			for (i = 0; i < numMeasurements; i++){
				volts[i]= GoIO_Sensor_ConvertToVoltage(hDevice, rawMeasurements[i]);
				calbMeasurements[i] = GoIO_Sensor_CalibrateData(hDevice,volts[i]);
				fprintf(fp,"%f\n",calbMeasurements[i]);
			}
			fclose(fp);
			printf("Closing Sensor \n");
			GoIO_Sensor_Close(hDevice);
		}
		else{
			printf("Unable to open Sensor, exiting.");
			return 0;
		}
	GoIO_Uninit();
	}
}
コード例 #2
0
int main(int argc, char* argv[])
{
	char deviceName[GOIO_MAX_SIZE_DEVICE_NAME];
	gtype_int32 vendorId;		//USB vendor id
	gtype_int32 productId;		//USB product id
	char tmpstring[100];
	gtype_uint16 MajorVersion;
	gtype_uint16 MinorVersion;
	char units[20];
	char equationType = 0;

	gtype_int32 rawMeasurements[MAX_NUM_MEASUREMENTS];
	gtype_real64 volts[MAX_NUM_MEASUREMENTS];
	gtype_real64 calbMeasurements[MAX_NUM_MEASUREMENTS];
	gtype_int32 numMeasurements, i;
	gtype_real64 averageCalbMeasurement;

	printf("GoIO_DeviceCheck version 1.0\n");
	
	GoIO_Init();

	GoIO_GetDLLVersion(&MajorVersion, &MinorVersion);
	printf("This app is linked to GoIO lib version %d.%d .\n", MajorVersion, MinorVersion);

	bool bFoundDevice = GetAvailableDeviceName(deviceName, GOIO_MAX_SIZE_DEVICE_NAME, &vendorId, &productId);
	if (!bFoundDevice)
		printf("No Go devices found.\n");
	else
	{
		GOIO_SENSOR_HANDLE hDevice = GoIO_Sensor_Open(deviceName, vendorId, productId, 0);
		if (hDevice != NULL)
		{
			printf("Successfully opened %s device %s .\n", deviceDesc[productId], deviceName);

			unsigned char charId;
			GoIO_Sensor_DDSMem_GetSensorNumber(hDevice, &charId, 0, 0);
			printf("Sensor id = %d", charId);

			GoIO_Sensor_DDSMem_GetLongName(hDevice, tmpstring, sizeof(tmpstring));
			if (strlen(tmpstring) != 0)
				printf("(%s)", tmpstring);
			printf("\n");

			GoIO_Sensor_SetMeasurementPeriod(hDevice, 0.040, SKIP_TIMEOUT_MS_DEFAULT);//40 milliseconds measurement period.
			GoIO_Sensor_SendCmdAndGetResponse(hDevice, SKIP_CMD_ID_START_MEASUREMENTS, NULL, 0, NULL, NULL, SKIP_TIMEOUT_MS_DEFAULT);
			OSSleep(1000); //Wait 1 second.

			numMeasurements = GoIO_Sensor_ReadRawMeasurements(hDevice, rawMeasurements, MAX_NUM_MEASUREMENTS);
			printf("%d measurements received after about 1 second.\n", numMeasurements);
			averageCalbMeasurement = 0.0;
			for (i = 0; i < numMeasurements; i++)
			{
				volts[i] = GoIO_Sensor_ConvertToVoltage(hDevice, rawMeasurements[i]);
				calbMeasurements[i] = GoIO_Sensor_CalibrateData(hDevice, volts[i]);
				averageCalbMeasurement += calbMeasurements[i];
			}
			if (numMeasurements > 1)
				averageCalbMeasurement = averageCalbMeasurement/numMeasurements;

			GoIO_Sensor_DDSMem_GetCalibrationEquation(hDevice, &equationType);
			if (equationType != kEquationType_Linear)
				strcpy(units, "volts");
			else
			{
				gtype_real32 a, b, c;
				unsigned char activeCalPage = 0;
				GoIO_Sensor_DDSMem_GetActiveCalPage(hDevice, &activeCalPage);
				GoIO_Sensor_DDSMem_GetCalPage(hDevice, activeCalPage, &a, &b, &c, units, sizeof(units));
			}
			printf("Average measurement = %8.3f %s .\n", averageCalbMeasurement, units);

#ifdef TARGET_OS_WIN
			getchar();
#endif

			GoIO_Sensor_Close(hDevice);
		}
	}
	GoIO_Uninit();
	return 0;
}