/** * Returns channel identifier (component 1). This is a convenience method that saves you from * casting and handling an exception. */ public WVI getCd1_ChannelIdentifier() { return getTyped(0, WVI.class); }
/** * Creates a new CD type */ public CD(Message message) { super(message); init(); }
private void init() { data = new Type[6]; data[0] = new WVI(getMessage()); data[1] = new WVS(getMessage()); data[2] = new CSU(getMessage()); data[3] = new CCP(getMessage()); data[4] = new NM(getMessage()); data[5] = new NR(getMessage()); }
private void init() { data = new Type[6]; data[0] = new WVI(getMessage()); data[1] = new WVS(getMessage()); data[2] = new CSU(getMessage()); data[3] = new CCP(getMessage()); data[4] = new NM(getMessage()); data[5] = new NR(getMessage()); }
/** * Returns electrode names (component 2). This is a convenience method that saves you from * casting and handling an exception. */ public WVS getCd2_ElectrodeNames() { return getTyped(1, WVS.class); }
/** * Creates a new CD type */ public CD(Message message) { super(message); init(); }
/** * Returns channel sensitivity/units (component 3). This is a convenience method that saves you from * casting and handling an exception. */ public CSU getChannelSensitivityUnits() { return getTyped(2, CSU.class); }
/** * Returns minimum/maximum data values (component 6). This is a convenience method that saves you from * casting and handling an exception. */ public NR getMinimumMaximumDataValues() { return getTyped(5, NR.class); }
/** * Returns minimum/maximum data values (component 6). This is a convenience method that saves you from * casting and handling an exception. */ public NR getCd6_MinimumMaximumDataValues() { return getTyped(5, NR.class); }
/** * Returns channel sensitivity/units (component 3). This is a convenience method that saves you from * casting and handling an exception. */ public CSU getChannelSensitivityUnits() { return getTyped(2, CSU.class); }
/** * Returns minimum/maximum data values (component 6). This is a convenience method that saves you from * casting and handling an exception. */ public NR getCd6_MinimumMaximumDataValues() { return getTyped(5, NR.class); }
/** * Returns channel sensitivity/units (component 3). This is a convenience method that saves you from * casting and handling an exception. */ public CSU getCd3_ChannelSensitivityUnits() { return getTyped(2, CSU.class); }
/** * Returns calibration parameters (component 4). This is a convenience method that saves you from * casting and handling an exception. */ public CCP getCalibrationParameters() { return getTyped(3, CCP.class); }
/** * Returns sampling frequency (component 5). This is a convenience method that saves you from * casting and handling an exception. */ public NM getSamplingFrequency() { return getTyped(4, NM.class); }
/** * Returns minimum/maximum data values (component 6). This is a convenience method that saves you from * casting and handling an exception. */ public NR getMinimumMaximumDataValues() { return getTyped(5, NR.class); }
/** * Returns electrode names (component 2). This is a convenience method that saves you from * casting and handling an exception. */ public WVS getElectrodeNames() { return getTyped(1, WVS.class); }
/** * Returns electrode names (component 2). This is a convenience method that saves you from * casting and handling an exception. */ public WVS getCd2_ElectrodeNames() { return getTyped(1, WVS.class); }
/** * Returns calibration parameters (component 4). This is a convenience method that saves you from * casting and handling an exception. */ public CCP getCd4_CalibrationParameters() { return getTyped(3, CCP.class); }
/** * Returns channel identifier (component 1). This is a convenience method that saves you from * casting and handling an exception. */ public WVI getChannelIdentifier() { return getTyped(0, WVI.class); }
/** * Returns channel identifier (component 1). This is a convenience method that saves you from * casting and handling an exception. */ public WVI getCd1_ChannelIdentifier() { return getTyped(0, WVI.class); }