- From: <Simon.Cox@csiro.au>
- Date: Tue, 12 Jan 2016 21:42:53 +0000
- To: <L.Svensson@dnb.de>, <public-sdw-wg@w3.org>
I had a go at this in the recent revision of ISO 19109. Here's clause 7.2.2. The first paragraph in particular might help: 7.2.2 Coverages Many aspects of the real-world may be represented as features whose properties are single-valued and static. These conventional features provide a model of the world in terms of discrete objects located in it. However, in some applications it is more useful to use a model focussing on the variation of property values in space and time, formalized as coverages. Users of geographic information may utilize both viewpoints. While coverages are themselves strictly features as well, it is common to contrast coverages and non-coverage features when discussing the functionality provided by each viewpoint. In the following discussion the name ‘feature’ refers to non-coverage features. The feature and coverage representations may be related in several ways: — signal processing to find and characterize features: signals in coverages may provide evidence for the existence, location and type of features, detected through modelling and interpretation; EXAMPLE 1 Patterns of colour or other radiance bands within a remotely-sensed image may be used to infer the existence of specific objects or features on the ground. EXAMPLE 2 Signals in a geophysical borehole log may be used to infer the presence of particular rock-units at underground locations. — coverage-typed feature properties: feature properties whose value vary within the scope of a feature may be described as coverages whose domain extent is the geometry of the feature; EXAMPLE 3 The variation of concentration of a particular ore-mineral within a mine may be described as a spatial function or coverage within the spatial limits of the mine. — features sample a coverage: the values of a common property of a set of features provide a discrete sampling of a coverage, whose range type is the property, and whose domain is the aggregate geometry of the set of features. EXAMPLE 4 The temperature at a set of weather stations may be compiled to show the spatial variation of temperature across the region where the stations are located. A constraint in the latter two cases is that a property-type from a feature catalogue is the range-type of a coverage description in the same universe of discourse. The case of features having property values that vary within the scope of the feature can be described using the general feature model (7.5.8). While the coverage model is described in detail in ISO 19123, an application schema may include both feature- and coverage-types. NOTE The feature and coverage viewpoints are related to (though not identical with) the so-called ‘vector’ and ‘raster’ approaches from traditional GIS implementations. -----Original Message----- From: Svensson, Lars [mailto:L.Svensson@dnb.de] Sent: Wednesday, 13 January 2016 4:06 AM To: SDW WG Public List (public-sdw-wg@w3.org) <public-sdw-wg@w3.org> Subject: My BP Comment (note: singular!) Dear Linda, Jeremy and Payam, Thanks for your great work on the BP! I have but one comment (the other issues I had have been covered much better by others already): To me as a non-geospatial expert, the definition of coverage [1] is not very helpful. Since this is a core term in this context, we need to be ensure that it's understandable (the Wikipedia entry [2] isn't either). Perhaps a few examples would help. [1] http://w3c.github.io/sdw/bp/#dfn-coverage [2] https://en.wikipedia.org/wiki/Coverage_data Talk to you tomorrow, Lars *** Lesen. Hören. Wissen. Deutsche Nationalbibliothek *** -- Dr. Lars G. Svensson Deutsche Nationalbibliothek Informationsinfrastruktur Adickesallee 1 D-60322 Frankfurt am Main Telefon: +49-69-1525-1752 Telefax: +49-69-1525-1799 mailto:l.svensson@dnb.de http://www.dnb.de
Received on Tuesday, 12 January 2016 21:43:43 UTC