Abstract
Sensor technologies and capabilities have an effect on observational data quality. Typically, data management begins, at best, when a data manager obtains the data and needs to describe it sufficiently to data consumers. Often, the sensing methods are not adequately described and the data manager does not know the appropriate questions to ask or where to direct questions about sensors, their configuration, and the deployment. Consequently, knowledge often remains buried in sensor manuals and field operator logs. Thus, most metadata requirements have been simplified to accommodate this gap in knowledge.When information is captured where it is best understood and tools are created to easily capture this knowledge, machine-actionable descriptions can be provided to adequately describe the processes taken in generating observations. The information can be associated with the data and thus be accessible, discoverable and used in data quality control by data providers and in data quality assessment by the data consumers.Here, we define actors and actions to promote role-based creation of fully-described, standards-based documents. These documents can be created in SensorML (OGC SWE) that includes links to resolvable term definitions (W3C Semantic Web), enabling the creation of associated mappings and ontologies to extend and resolve the meaning of each term.
Highlights
Since the inception of the world-wide web, geo-scientists have been putting data online for sharing and discovery
We recognized that the first step in the capture of the observational provenance is to encourage the manufacturer to describe the sensor in machine-harvestable SensorML
Interested communities can participate by joining the Earthcube Cross-Domain Observational Metadata for EnvironSensing (X-DOMES) Network or through the Earth Science Information Partnership (ESIP) Enviro-Sensing Cluster
Summary
Since the inception of the world-wide web, geo-scientists have been putting data online for sharing and discovery. A complete description of the content-rich model is described in [5] From this activity, we recognized that the first step in the capture of the observational provenance is to encourage the manufacturer to describe the sensor in machine-harvestable SensorML. These descriptions must include capabilities (e.g., operational ranges), characteristics, input (observable properties), output (including units, accuracy and precision), as well as manufacturer contact information. The content can be used to enable automated QC, such as selection of appropriate precision and accuracy, as well as validating data using specified operational ranges It is a small but significant step in automating the capture of observational provenance
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