public AsyncDaq(ConcurrentQueue <RawData> rawDataQueue, ConcurrentQueue <RawData> saveDataQueue, DAQSettingsDTO daqSettingsDTO) { _rawDataQueue = rawDataQueue; _saveDataQueue = saveDataQueue; _daqSettingsDTO = daqSettingsDTO; _queueMode = false; }
public DeQueue(ConcurrentQueue <RawData> rawDataQueue, DAQSettingsDTO daqSettingsDTO) { _stopThread = false; _rawDataQueue = rawDataQueue; _listOfRawData = new List <double>(); _daqSettingsDTO = daqSettingsDTO; _converter = new Converter(_daqSettingsDTO); }
public CtrlOPVitalsBL(iOPVitalsDAL currentDal) { this.currentDal = currentDal; rsquaredCalculator = new RsquaredCalculator(); calibration = new Calibration(rsquaredCalculator); daqSettings = new DAQSettingsDTO(); employee = new EmployeeDTO(); this.currentDal.StartDaq(); }
public CalcPuls(DAQSettingsDTO daqDTO, AutoResetEvent dataReadyEvent, DeQueue deQueue) { _daqDTO = daqDTO; analysisList = new List <double>(); _puls = 0; _dataReadyEvent = dataReadyEvent; _deQueue = deQueue; _deQueue.Attach(this); }
public CalcMeanBloodPressure(DAQSettingsDTO daqDTO, AutoResetEvent dataReadyEvent, DeQueue deQueue) { _dataReadyEvent = dataReadyEvent; _meanBloodPressure = 0; analyselist = new List <double>(); _daqDTO = daqDTO; _deQueue = deQueue; _deQueue.Attach(this); }
public void AddDAQ(SqlCommand cmd, DAQSettingsDTO DAQ) { cmd.Parameters.AddWithValue("@Samplerate_hz", DAQ.SampleRate); cmd.Parameters.AddWithValue("@Interval_sec", DAQ.Interval_ms); cmd.Parameters.AddWithValue("@Data_Format", DAQ.Data_Format_); cmd.Parameters.AddWithValue("@Bin_or_Text", DAQ.Bin_or_text_); cmd.Parameters.AddWithValue("@Measurement_Format_Type", DAQ.Data_Format_); cmd.Parameters.AddWithValue("@ConversionConstant_mmhgprmV", DAQ.ConversionConstant_); cmd.Parameters.AddWithValue("@ZeroPoint_mmHg", DAQ.ZeroPoint_); }
public SaveDataInFile(DAQSettingsDTO daqDTO, ConcurrentQueue <RawData> saveDataQueue, FileManager fileManager, BPDataSequenceDTO bpDataSequenceDTO) { savelist = new List <double>(); _daqDTO = daqDTO; _saveDataQueue = saveDataQueue; _fileManager = fileManager; _stopThread = false; _sequenceNumber = 1; _bpDataSequenceDTO = bpDataSequenceDTO; }
public CalcSys(DAQSettingsDTO daqDTO, AutoResetEvent dataReadyEvent, DeQueue deQueue, IAlarm alarm) { analyselist = new List <double>(); _sys = 0; _daqDTO = daqDTO; _dataReadyEvent = dataReadyEvent; _deQueue = deQueue; _deQueue.Attach(this); _alarm = alarm; sys = 0; }
public void SaveMeasurement_InsertEmployee_AddEmployeeWasCalled() { var parameterBuilder = new MuckParameterBuilder(); var uut = new ClinicalDatabase(parameterBuilder); EmployeeDTO employee = new EmployeeDTO(); OperationDTO operation = new OperationDTO(); PatientDTO patient = new PatientDTO(); DAQSettingsDTO daq = new DAQSettingsDTO(); BPDataSequenceDTO bpDataSequence = new BPDataSequenceDTO(); TransdusorDTO transdusor = new TransdusorDTO(); uut.SaveMeasurement(employee, operation, patient, daq, bpDataSequence, transdusor); Assert.That(parameterBuilder.WasAddEmployeeCalled, Is.EqualTo(true)); }
public void CalculatePuls_SinusSignal4point166Hz_Puls250() { DAQSettingsDTO _daqSettings = new DAQSettingsDTO(); AutoResetEvent _autoresetevent = new AutoResetEvent(false); ConcurrentQueue <RawData> _dataQueues = new ConcurrentQueue <RawData>(); DeQueue dequeue = new DeQueue(_dataQueues, _daqSettings); uut = new CalcPuls(_daqSettings, _autoresetevent, dequeue); List <double> data = Generate.Sinusoidal(6000, 1000, 4.166, 2, 1, 0, 0).ToList(); uut.CalculatePuls(data); Assert.That(uut.GetPuls(), Is.EqualTo(250)); }
public void CalcMeanBloodPressure_DC3_MeanIs3() { DAQSettingsDTO daq = new DAQSettingsDTO(); AutoResetEvent _autoresetevent = new AutoResetEvent(false); ConcurrentQueue <RawData> _dataQueues = new ConcurrentQueue <RawData>(); DeQueue dequeue = new DeQueue(_dataQueues, daq); uut = new CalcMeanBloodPressure(daq, _autoresetevent, dequeue); List <double> data = Generate.Sinusoidal(3000, 1000, 3, 0, 3, 0, 0).ToList(); uut.CalculateMean(data); Assert.That(uut.GetMeanBloodPressure(), Is.EqualTo(3)); }
public CtrlOPVitalsDAL(ref ConcurrentQueue <RawData> RawDataQueue, ref ConcurrentQueue <RawData> saveDataQueue, ref DAQSettingsDTO daqSettings) { _RawDataQueue = RawDataQueue; _saveDataQueue = saveDataQueue; _daqSettings = daqSettings; fileManager = new FileManager(); employee = new EmployeeDatabase(); DaqAsync = new AsyncDaq(_RawDataQueue, _saveDataQueue, _daqSettings); _bpDataSequenceDTO = new BPDataSequenceDTO(); _saveDataInFile = new SaveDataInFile(_daqSettings, _saveDataQueue, fileManager, _bpDataSequenceDTO); _clinicalDatabase = new ClinicalDatabase(new ParameterBuilder()); _transdusorDTO = new TransdusorDTO(); pathcomment = ""; pathoperation = ""; }
public void CalculateSys_sinusWithAmplityde5_akutalarmIsCalled() { DAQSettingsDTO daq = new DAQSettingsDTO(); AutoResetEvent _autoresetevent = new AutoResetEvent(false); ConcurrentQueue <RawData> _dataQueues = new ConcurrentQueue <RawData>(); DeQueue dequeue = new DeQueue(_dataQueues, daq); var alarm = new MuckAlarm(); uut = new CalcSys(daq, _autoresetevent, dequeue, alarm); List <double> data = Generate.Sinusoidal(3000, 1000, 1, 5, 0, 0, 0).ToList(); uut.CalculateSys(data); Assert.That(alarm.CheckAkutAlarmWasCalled, Is.EqualTo(true)); }
public void CalculateDia_sinusWithAmplityde5_diaIsminus5() { DAQSettingsDTO daq = new DAQSettingsDTO(); AutoResetEvent _autoresetevent = new AutoResetEvent(false); ConcurrentQueue <RawData> _dataQueues = new ConcurrentQueue <RawData>(); DeQueue dequeue = new DeQueue(_dataQueues, daq); var alarm = new MuckAlarm(); uut = new CalcDia(daq, _autoresetevent, dequeue, alarm); List <double> data = Generate.Sinusoidal(3000, 1000, 1, -5, 0, 0, 0).ToList(); uut.CalculateDia(data); Assert.That(uut.GetDia(), Is.EqualTo(-5)); }
public Program() { //Datakøer RawDataQueue = new ConcurrentQueue <RawData>(); SaveQueue = new ConcurrentQueue <RawData>(); //DTO'er daqSettings = new DAQSettingsDTO(); patientDTO = new PatientDTO(); currentOpVitalsDal = new CtrlOPVitalsDAL(ref RawDataQueue, ref SaveQueue, ref daqSettings); currentOpVitalsBl = new CtrlOPVitalsBL(currentOpVitalsDal, ref RawDataQueue, ref daqSettings, patientDTO); currentOpVitalsPl = new CtrlOPVitalsPL(currentOpVitalsBl); currentOpVitalsPl.StartGUI(); }
public CtrlOPVitalsBL(iOPVitalsDAL currentDal, ref ConcurrentQueue <RawData> RawDataQueue, ref DAQSettingsDTO daqSettingsDto, PatientDTO patientDto) { _RawDataQueue = RawDataQueue; this.currentDal = currentDal; InitializeDataReadyEvents(); InitializeCalibrationClasses(); _daqSettings = daqSettingsDto; _patientDto = patientDto; _operationDTO = new OperationDTO(); employee = new EmployeeDTO(); _deQueue = new DeQueue(_RawDataQueue, _daqSettings); _filterSettingsDTO = new FilterSettingsDTO(); _filterFactory = new FilterFactory(_daqSettings, _filterSettingsDTO); meanfilter_ = new MeanFilter(_dataReadyEventMeanFilter, _deQueue, _filterFactory); InitializeAlarmClasses(); InitializeCalculationClasses(); zero = 0.0; }
public void AddDAQ(SqlCommand cmd, DAQSettingsDTO DAQ) { WasAddDAQCalled = true; }
public FilterFactory(DAQSettingsDTO daqDTO, FilterSettingsDTO filterSettings) { _daqDTO = daqDTO; _filterSettings = filterSettings; }
public void Setup() { _daqSettingsDto = new DAQSettingsDTO(); uut = new Converter(_daqSettingsDto); }
public ButterworthFilter(DAQSettingsDTO daqDTO) { _daqDTO = daqDTO; _CutOff = 20; }
public Converter(DAQSettingsDTO daqSettingsDTO) { _daqSettingsDTO = daqSettingsDTO; }
public bool SaveMeasurement(EmployeeDTO employee, OperationDTO operation, PatientDTO patient, DAQSettingsDTO DAQ, BPDataSequenceDTO dataSequence, TransdusorDTO transdusor, string pathcomment, string pathoperation) { long OperationID_; bool saved = true; int BPdataID_; string insertStringParamOperation = @"INSERT INTO Operation(OPNurseFirstName, OPNurseLastName, OPNurseIDNumber, NumberOFAlarms, Comments, DurationOperation_hour, DurationOperation_min, DurationOperation_sec, PatientCPR, Complikations) OUTPUT INSERTED.OperationID VALUES(@OPNurseFirstName, @OPNurseLastName, @OPNurseIDNumber, @NumberOFAlarms, @Comments, @DurationOperation_hour, @DurationOperation_min, @DurationOperation_sec, @PatientCPR, @Complikations)"; using (SqlCommand cmd = new SqlCommand(insertStringParamOperation, OpenConnection)) { parameterBuilder_.AddEmployee(cmd, employee); parameterBuilder_.AddOperation(cmd, operation); parameterBuilder_.AddComments(cmd, pathcomment); parameterBuilder_.AddPatient(cmd, patient); OperationID_ = (long)cmd.ExecuteScalar(); } string insertStringParamBPDataSequence = @"INSERT INTO BPDataSequence( Raw_Data, Samplerate_hz, Interval_sec, NumberOfSequences, SequenceDuration_sec, Data_Format, Bin_or_Text, Measurement_Format_Type, ConversionConstant_mmhgprmV, ZeroPoint_mmHg, Transdusor_Identification, OperationID ) OUTPUT INSERTED.BPdataID VALUES(@Raw_Data,@Samplerate_hz, @Interval_sec, @NumberOfSequences, @SequenceDuration_sec, @Data_Format, @Bin_or_Text, @Measurement_Format_Type,@ConversionConstant_mmhgprmV,@ZeroPoint_mmHg,@Transdusor_Identification,@OperationID)"; using (SqlCommand cmd = new SqlCommand(insertStringParamBPDataSequence, OpenConnection)) { parameterBuilder_.AddRawData(cmd, Zipfolder(pathoperation)); parameterBuilder_.AddDAQ(cmd, DAQ); parameterBuilder_.AddDataSequence(cmd, dataSequence); parameterBuilder_.AddTransdusor(cmd, transdusor); cmd.Parameters.AddWithValue("@OperationID", OperationID_); BPdataID_ = (int)cmd.ExecuteScalar(); } return(saved); }