NL1014575C2 - Method for combination of address list, of which at least several have a corresponding geographical location indication, and geographical data, such as built-up areas, on topographical chart - Google Patents

Abstract

The method is for combination of an address list, of which at least several have a corresponding geographical location indication, and geographical data, such as built-up area, on a topographical chart. Of each of the built-up areas, the geographical centroid is calculated and all geographical location indications out of the address list are linked with the geographical coordinates of all built-up surfaces. This enables it to be ascertained whether a geographical location indication falls within a built-up area and whether a location indication falls within one of the built-up areas. This enables the location indication in the address to be coupled with the respective built-up area, by means of address and built-up area data being accommodated in a specific relative table.

Description

Method for combining address data and topographic data.

The invention relates to a method for combining - an address file containing addresses, at least some of which are provided with an associated geographical location indication, and - geographical information such as construction planes present on a topographic map.

State of the art 10 Various data files are currently known in which address data are stored, among other things. Examples are: - the Kadaster address file in which not only address data is stored, but also related geographical location data, - the PTT address file in which, among other things, only address data is stored (postcode and house number).

Furthermore, all kinds of maps are available on which various data can be found. This could include: - the topographic map of our country on which roads, building surfaces, water and the like are accurately drawn in accordance with known geographical coordinates, - road maps on which roads and streets are indicated by means of line segments and which also include the names of the roads and streets are indicated, - The Large-scale Basic Map of the Netherlands, known simply as GBKN, - The Cadastral Map 25 - any other map that contains topographical or geographical information.

In itself, all of the aforementioned data files and topographic files are built up for a specific purpose and depending on that purpose, certain data are included in the file, but other data are not. For example, building planes can be found on the above topographic maps, but no 30 addresses. Place names are indicated and the names of some roads, but the name of most streets is missing. Such a map is therefore in fact unsuitable for linking descriptive data, such as, for example, address information, to geographical data, such as building surfaces.

1014575 2

There are city maps and other maps that are combined with a street name register. Such a register usually refers to a small part of the map, which is determined by a diamond grid on the map. A street name searched for in the register must generally be found quickly via the diamond network. Finding addresses (street, house number) is impossible.

Object of the invention.

There is still a need for a data set in which accurate topographic data such as building surfaces, for example, are combined with accurate address data (street name, number, zip code, city)

Brief indication of the invention - The invention now provides a method for combining - an address file containing addresses, at least some of which are provided with an associated geographical location indication, and - geographical information such as construction planes, which are present on a topographic map, that 20 - the geographical centroid of each of the building planes is calculated, - all geographical location indications from the address file are compared with the geographical coordinates of all building planes on the map in order to determine whether a geographical location indication falls within one of the building planes, and - if a location designation falls within one of the construction planes, then the location designation in the respective address is linked to the respective construction plan, by including address and construction plan data in an appropriate relationship table. The invention is based on the insight that it is possible to combine two data files with each other if both files have a geographical relationship with each other. In the present case, this is an address file in which each address, or at least a number of addresses *, is linked to a geographical location indication. In other words, the location of each address can be marked on a topographic map. Furthermore, it concerns a topographic map on which every form of building is indicated by means of building planes. The geographical coordinates of each building surface can be measured on the map and on the basis of these coordinates the address file can be searched for a corresponding address with the same coordinates.

The geographical location indication at each of the addresses in the address file 5 is generally not accurate enough to indicate exactly the built-up area on the relevant plot. In order to enable an unambiguous assignment of each address from the address file to a building surface on the topographic map, a number of algorithms have been developed, which are at least partly laid down in the subclaims.

10

Figure indications

The invention will be explained in more detail below with reference to the accompanying figures.

Figure 1a schematically shows an address file.

Figure 1b schematically shows part of a topographic map.

Figure 2 shows the direct assignment of addresses to building planes.

Figure 3 serves as an illustration of the "perpendicular algorithm" to be described.

Figure 4 serves as an illustration of the "buffer algorithm" to be described.

Figure 5a shows the creation of a new building plane for an address.

Figure 5b shows the creation of a new building surface for a number of neighboring addresses.

Detailed description of the invention 25

Figures 1a and 1b show examples of an address file (Figure 1a) on the one hand and a topographic map (Figure 1b) on the other. The address file contains at least information about postcode, house number, house number addition, street name and geographical location. The topographic map shows, inter alia, 30 roads, such as road 2, streets such as street 4 and, in connection with the invention, most importantly, topographical building surfaces such as 8a and 8b. A building surface is understood to mean a surface on which in any form there is a building, for example in the form of a house, a flat, an office building, a church, J014575 4 a factory hall, a water tower, etc. The map is further provided of a coordinate system. For this, use can be made of the latitudes and latitudes applicable all over the world, but also of a separate grid or diamond grid, which applies, for example, to a specific area, country or the like.

In the following it is assumed that the geographical location indications in the address file of figure 1a are based on the same grid as applied on the map of figure 1b. If this is not the case, it will be clear that data from one system can be converted to another.

Figure 2 shows very schematically two building planes 10a and 10b. These building planes are located somewhere on a topographic map and the coordinates of the building centroid 12a and 12b can be calculated from each of the building planes using the map coordinates.

After all this has been done, the address file checks whether there are addresses whose associated geographical location indication falls within one of the 15 construction planes 10a or 10b. In this example, it appears that there is an address whose geographic location indication 14a is within the building plane 10a, while another address exists whose location indication 14b is within the building plane 10b. In an appropriate relationship file, the address associated with the location designation 14a from the address file is now coupled to the building surface 10a while the address associated with the location designation 14b is linked to the building surface 10b. This establishes the relationship between the relevant addresses and the relevant building surfaces.

Because the geographical location indications in the address file are not always very accurate, only a part of these location indications will fall within a construction area. The inaccuracy in these location indications is caused by the fact that, in part in the address file used by the land registry, it is sufficient to have a geographical indication of a point located somewhere in the plot on which the buildings are present and this indication does not necessarily have to coincide with the actual building surface.

Various algorithms have now been developed to be able to link addresses that cannot be directly related to a building surface in the manner indicated above.

For starters, a further file can be called up, namely a file consisting of a map, on which streets and streets are indicated by line segments; J 14575 5 roads, with each line segment the name of the relevant street or road in a name file is included. Such maps are used, for example, for road maintenance or for car navigation. Assuming that both the topographic map with the building planes and the topographic map 5 with the line segments are drawn at the same geographic coordinates, both maps can, as it were, be superimposed, so that a combined map is created, covering both roads and construction planes indicates.

In the example of Figure 3, the construction planes 10e and 10F can be found somewhere on such a combined map with respective building centroids 12e and 10f. Furthermore, it is possible to draw on this map a geographic location indication 14x associated with a specific address, which, after carrying out the steps described above, has not yet been unambiguously assigned to a specific construction surface. The map also contains two roads 18e and 18f, the street names of which are known. The geographical location indication 14x belongs to an address of which at least the 15 street name is known.

It is now being examined whether this street name corresponds to the name of the road 18th or 18f. In the example, suppose that the street name associated with the location indication 14x is identical to the street name of the road 18th. Then a line is drawn from the location indication 14x to the road 18e and perpendicular thereto, such as the perpendicular 20 in figure 3. This line 20 intersects the building plane 10e and on the basis of that fact it is now assumed that the location indication 14x belongs to this construction area 10th. The location indication 14x in the address file is now linked in the relation file to the geographic data of the building surface 10e, as a result of which this address is also linked to a building surface.

Another method of allocating addresses that do not directly coincide with building planes consists of buffering addresses. This algorithm will be illustrated with reference to figure 4.

Figure 4 shows the building planes 10g and 10h, each with a building center 12g and 12h respectively. and located near an 18g road. Furthermore, there is an address location designation 14y of an address not yet allocated. A perpendicular to road 18g has been drawn from the location indication 14y, but it does not intersect any construction surface. However, there are two building areas 10g and 10h in the vicinity. A circle 16y is now drawn around the location indication, of which the radius Ry is gradually increased. It is now examined which of the building planes 10g and 10h first comes into contact with the circle 16y. Figure 4 shows that the building plane is 10g that is hit at the moment when the radius of the circle 16y is equal to Rg. It is now assumed that the location indication 14y belongs to the building plane 10g. In the address file, the location indication 14y is now related to the data of the construction area 10g. This also links this address to a building area

Because the address file will generally be more up-to-date than the topographic map with building planes, it may happen that there are address coordinates 10 for which no building planes have yet been drawn. This will often be the case in new housing estates. During the process, these addresses are recognized by maintaining a maximum length of the perpendicular in the algorithm according to Figure 3 and maintaining a maximum radius of the circle in the algorithm according to Figure 4.

Temporary or provisional building surfaces are now created for the addresses remaining in this way. If it concerns an address that should be located between two well-known building surfaces, then a single building surface is made. This is drawn in figure 5 a. The address 14q lies somewhere between the building planes 10p and 10or which are related to the respective addresses 14p and 14r. A perpendicular from address 14q to road 18q does not yield any results and the distance between address 14q and the two 20 building planes 10 and lOr is greater than the maximum allowed radius R. A new building plane 10q is now being made around address 14q. the data in the relationship table are related to the address 14q.

If it concerns several addresses that are all located next to each other in the same street, a relatively large building area will already be made, which will already comprise these addresses, at least for the time being. This is schematically illustrated in Figure 5b. It shows the consecutive addresses 14k, 141, 14m and 14n, all located in the same street 18k. The algorithm now ensures that a building plane 12k is created that includes all addresses 14k, 141, 14m and 14n. In the relationship table, the address data is then coupled to the data of the newly formed building surface 12k. It will be clear that it must be prevented that the new building surface would end up on a road or street, for example. It is also a condition that there must be no line segment (road, street, etc.) between the address coordinate and the construction site to which the address in question is assigned. After all, with a few exceptions, a building is always on one side of the road.

Geographic data will not be available for all addresses in the address file. A delay must be expected between the creation of 5 new addresses and the processing thereof by the cadastre. A link between such an address and a new or already existing building surface can also be made (or at least checked) on the basis of administrative address data. It is assumed that an address is known, the 6 position postcode, the house number and a possible house number addition, for example 5212XG12b. Furthermore, addresses 5212XG12 and 5212XG14 are known, which are each related to a building surface. On the basis of this data, it can be decided with high probability that 5121XG12b should be related to the same building surface as address 5212XG12.

Another file 15, known per se, can be called upon to check the combinations formed, in which address data are linked to building type data. The well-known GEO file can be used for this. For each address in this file, it is indicated what type of building the address belongs to. As a type, for example, a distinction can be made between: 0 = unknown 20 1 = detached / bungalows 2 = semi-detached 3 = terraced houses / single-family 4 = flats 4 or fewer floors 5 = flats more than 4 floors 25 6 = storey house / maisonette 7 = floor / flats canal house 8 = mansion canal house 9 «self-contained retirement home 10 = farm / garden 30 11 = student house / flat 12 = houseboats 13 = trailers 14 = various» 'J) 4575 8

Any building surface that is related to only one address can only be of type 1, 9 or 10. This can be checked with the file mentioned. If so, the link made between the address and the construction site can be verified as correct. However, if another house type is found, it may be best that the link made between address and building surface is not correct.

If two addresses are related to a building surface, then it should be a house of the above type 2. This can again be checked using the latter file.

If more than two addresses are related to a building surface, the 10 concerned buildings can be of type 3, 4, 5, 6, 7 or 8. This can also be checked again using the aforementioned file.

The above describes details of a method of linking an address file with the data of a topographic map, in particular the construction planes that appear on it. The invention extends not only to such a method, but also to the product of the method, namely the relationship file in which relationships between addresses and building planes are stored, or a database provided with such a relationship file.

1014575

Claims (8)

Method for combining - an address file containing addresses, at least some of which are provided with an associated geographic location indication, and 5. geographic information such as construction planes present on a topographic map, characterized in that - the geographical centroid of each of the construction planes is calculated, - all geographical location indications from the address file are compared with the geographic coordinates of all construction planes on the map in order to determine whether a geographical location indication falls within one of the construction planes, and if a location indication falls within one of the construction planes, the location indication in the respective address linked to the respective building plane, by including address and building plane data in a dedicated relationship table Method according to claim 1, characterized in that if a location indication does not fall within one of the construction planes, further data are retrieved from a further file, namely: a line segment file in which data relating to roads are stored, the data of the construction planes and of the roads are combined with each other such that a perpendicular to the nearest road can be drawn from a location indication and it can be determined whether this perpendicular, without reaching a predetermined maximum length, intersects a building surface, whereby if a building surface is intersected then the location indication in the respective address is linked to the respective building plane, by including address and building plane data in a dedicated relationship table 3. Method according to claim 1, characterized in that if a location designation does not fall within one of the building planes, an initially small circle is drawn around each address location that is not yet coupled to a building plane, after which the radius of the circle is gradually increased to the circle touches a building surface, without reaching a predetermined maximum radius, after which the location indication in the respective address is linked to the respective building surface, by including address and building surface data in a dedicated relationship table. 1014575 Method according to claim 2 or 3, characterized in that if no relationship is found between the address and a building surface, a new building surface is made with the location indication as the center of the building surface. 5 Method according to claim 2 or 3, characterized in that if for a number of neighboring addresses no relationship is found between the addresses and at least one building surface, a new building surface is made, the location indications of all these addresses being within this new building surface. . 6. A method according to any one of the preceding claims, characterized in that for addresses not yet related to a building surface, the address data (postal code) (house number, house number addition) are compared with neighboring address data, wherein if only difference is determined with a different address. in the house number addition the address that has not yet been allocated is related to the same building surface that is also related to the other address. A method according to any one of the preceding claims, characterized in that the established relations are checked by using a file known per se, in which at least a number of postcodes are recorded, which of a number of predetermined types of buildings are present. 8. Relation file built up by one of the preceding methods and characterized by the presence of address data related to construction plane data. A data file of which the relation file according to claim 8 forms a part.