: Public <<FeatureType>> Class
Created: 10/01/2008 15:19:52
Modified: 29/02/2012 10:44:32
Project:
Advanced:
A large number of direct in-situ hydrological observations are performed by a sensor or sensor system. Common types of sensors include rain gauges, level gauges, quality sensors such as temperature, turbidity etc. <br/>Manual procedures may be also used to make measurements at a particular sampling point. These may be ad-hoc visits to particular point that may be of interest, or continued visits to a well identified sampling point. <br/>Procedures that generate derived or synthetic results also exist, such as those produced by algorithms or simulations. Algorithms are commonly implemented in hydrological software to process data sets for reporting or other purposes. Examples include:<br/>- Temporal interpolation or aggregation;<br/>- Spatial interpolation;<br/>- Quality assurance related tasks such as automatic spike removal or gap filling;<br/>- Derivation of new observed phenomena such as calculation of volume from stage, discharge (flow) from stage etc.<br/>
Attribute
Public TM_PeriodDuration
  aggregationPeriod
Details:
sequenceNumber=6
Notes: A list of the inputs used in the process. This may be a list of references to the data sets used (e.g. model input series) or a input array to an algorithm. <br/><br/>
Public CD_VerticalDatum
  verticalDatum
Details:
sequenceNumber=10
Notes: Specifies the datum that is used as the zero point for level measurements. This can be process-specific as opposed the gauge at the actual monitoring point. <br/>
Public GenericName
  input
Details:
sequenceNumber=40
Notes: A list of the inputs used in the process. This may be a list of references to the data sets used (e.g. model input series) or a input array to an algorithm. <br/><br/>
Public CharacterString
  comment
Details:
sequenceNumber=15
Notes: Comments specific to the process from the operator. <br/>
Public NamedValue
  parameter
Details:
sequenceNumber=60
Notes: A defintion of the type of process used in the observation. This may be a Sensor, ManualMethod, Algorithm or Simulation (including models). <br/><br/>
Public GenericName
  processReference
Details:
sequenceNumber=19
Notes: Reference to an external process definition. <br/><br/>
Public ProcessTypeCode
  processType
Details:
sequenceNumber=1
Notes: A defintion of the type of process used in the observation. This may be a Sensor, ManualMethod, Algorithm or Simulation (including models). <br/>
Element Source Role Target Role
«datatype» CI_ResponsibleParty
Class  
Name:  
 
Name: operator
 
Details:
 
«FeatureType» OM_Process
Class  
Name:  
 
Name: originatingProcess
 
Details:
 
Element Source Role Target Role
«FeatureType» TimeseriesObservation
Class  
Name: generatedObservation
In this context, any generatedObservation shall be a WaterMonitoringObservation
Name: procedure
In this context, the pocedure shall be a WaterPropertyObservationProcess
Details:
 
Tag Value
byValuePropertyType false
Details:
Values: true,false
Default: false
Description: enforce the 'by value' property pattern without xl
isCollection false
Details:
Values: true,false
Default: false
Description: attribute group gml:AggregationAttributeGroup is a
noPropertyType false
Details:
Values: true,false
Default: false
Description: suppress automatic creation of *PropertyType compl
Object Type Connection Direction Notes
«FeatureType» OM_Process Class Generalization To