What graphical classes should be annoted on a cadastral map to automatise their processing ?

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We propose a minimalistic ontology containing five classes that are shared between all historical cadasters :

  1. Buildings, including city blocks, detached houses, walls, etc. ;
  2. Road network, including roads, streets, railroads, bridges, etc.
  3. Water, i.e. rivers, canals, bodies of water, reservoirs, lakes, fountains, and sea;
  4. Non-built, which includes all unbuilt land except water and road network, including courtyards, parks, enclosed squares or inner courtyards, crops, forests, wasteland, meadows, etc. ;
  5. Contours, i.e. parcels or any object delimitation, even when the shape is not strictly closed.

The background, which is not counted, includes all the non-cartographic content of the image, such as the background of the scanner, the map frame, the title, the legend or potential illuminations. Each of the five classes in the ontology is clearly distinct. Together, they also constitute the essential building blocks for urban analysis and historical 4D reconstruction. Moreover, their colors (see below) can be mixed easily when a multilabel annotation is needed, for example to annotate a portico (buildings and road network), a bridge (road network and water), a marsh (water and non-built), or a building on piles (buildings and water).

Class
Color
HEX code
Wikidata

Buildings
Magenta
#FF00FF
Q41176

Road network
Yellow
#FFFF00
Q358078

Water
Dark blue
#0000FF
Q283

Non-built
Cyan
#00FFFF

Contours
White
#FFFFFF

Background
Black
#000000
Q13217555

Other classes, such as forest, field type or road network could be hierarchically subordinated by means of wikidata tags, for the needs of specific researches, without altering the interoperability.

This annotation ontology is conceived in order to prevent the limitations potentially caused by the difficult distinction of the graphical elements, such as parcel boundaries or nature of the unbuilt areas, as discussed above. Indeed, by proposing to handle all contours as a single class, for instance, we prevent the arduous work to differentiate all types of contours found in Figs. 1.1-1.3 for example, which we consider would be both too ambitious in the context of collaborative annotation and inadequate for neural-network-based semantic segmentation. This relative simplicity is undoubtedly necessary in order to allow a strong coherence between the annotations produced, given the number of people who could potentially be involved in this process.

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I think you are conflating multiple separate things. The fact you’re speaking about an annotation-ontology possibly exacerbates the possible confusion.

I agree that for computer-vision algorithms, we need to come up with the classes to be identified. I am not convinced the extraction of the geometries and the identification / classification of the different types should be together in 1 process. I think there is a good case to be made for extraction of the geometries as a single process, and then an additional processing with a CNN (Convolutional Neural Network). This would allow for both the computer-vision to be very narrow in its goals, and the CNN to be broad enough for all of the specifics. With enough and consistent training data, a CNN with a lot more classes should be quite feasible, especially if they pertain to graphical properties of a scanned cadastral map. For example, small circles on parcel-boundaries to indicate a woody hedgerow with trees. You could then even employ a Recurrent Neural Network (RNN) to use some streaming-information of maps, for example in determining the manifestation of the entity that was delineated in the CV-part of finding the geometries. Simply said: a CV-parcel-boundary with a RNN-detected row of circles next to it, is a woody parcel boundary.

I understand that using CV for determining the types, requires a pixelated translation of the types described into hard classes, as few as possible. I did that five years ago with a simple (based on some ImageMagick scripting) processing in determining only 5 colours: white for background, black for boundaries, green for text, red for buildings and blue for water. I regard that as the poor-man’s take on AI; some ImageMagick-scripting, without genuine neural networks, and any CV more refined than the pixel-array-masks that the CIA already used in the eighties to digitize fingerprint-recognition.

I don’t think the wording “annotation ontology” is appropriate. What you lay out is more of a taxonomy, not a real ontology. Although you allow for combining entities, such a limited set will never be able to fully grasp the width of entities on those maps, and the possible subclasses you could be able to specify if those features are marked differently on the maps. That kind of clarity for mutual dependencies in types perhaps is key in coming up with a global model to fit this task. A hands-on example to illustrate this are sheds. Normally, sheds are drawn just like houses. You can’t really distinguish between them, in general. In some cases in The Netherlands, especially hay-sheds (grange à foin) are coloured an unsaturated golden-gray/yellow color. So, in some cases you could distinguish them from normal sheds based on their color, particularly often having a pentagram-shape. That should then be seen as a subtype of building. You could leave this division out completely, but distinguishing them perhaps is necessary for CV-purposes, because of their deviating colour.

More content-related I do see a problem in the Road-network-class. In my experience, this most often is not clear at all. There are cases where the roads are indeed some brownish-yellow, But in most cases, the roads aren’t coloured in at all, and they can’t be distinguished whatsoever, apart from their shape, but even then this is extremely hard. Especially since the road-network overlaps with the non-built environment. There are tree-lanes (allées), and public roads in private property, thus carrying a parcel number.

There also are a lot of edge-cases. One very common occurrence is a pier; a heightened wooden causeway (jetée). This could be water, built or road-network. The combination of water + road does not suffice, as this could also be a dredged-out transect of a river, “vaargeul” (fairway), for example for a “overzetpont” (ferry / traversier over a river) that is drawn on a map as a marked piece of the river.

Also, I think instead of roads, “dijken” (dike / dyke / digue / rempart) should be mentioned as a separate category, because they are often visualised through shading, and not always apparent from the register (OAT), so classification of those with CV is crucial, I think. That works both ways; it is important to know in a CV context that those lines are shading, and the other way around: those lines on the map are the only place where that entity-definition is visible / deducible.

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