EP1810194A1 - Visualization of the results of a 3d by 2d stratum search engine - Google Patents

Abstract

The invention relates to a search and browser engine on intervenor data bases (P) belonging to a landscape (P), wherein the data lines characterize the intervenors (I), comprising an address coordinate field (Ca) for the intervenors (T) in the landscape (P) and a series of intervenor (I) description fields (Ci), characterized in that it comprises a 3D visualization interface representing the landscape (P) from a discontinuous limited series of topographic surfaces (Si) with a 2D user browser confined on each topographic surface (Si) and a filter for the representation of the intervenors (I) according to the address (Ca) thereof in the landscape (P) which is activated by the request of the user according to criteria corresponding to the description field (Ci).

Description

VISUALIZATION OF 2D STRATE 3D RESEARCH ENGINE RESULTS

The present invention relates to an improved device for geolocation of data and its user interface. It applies to targeted search and / or iterative and / or random search of addresses, people or services. The device proposing several data analysis grids allowing a search according to several criteria. The device provides a navigation engine in a data field including location data and its improved user interface.

There are several types of navigation engines in a data field with location data. For example, the GPS device indicates its position to the user. GPS can also indicate a path between two positions. The defect of GPS is that the user must know its destination, the user can not go on the basis of a general idea of its destination, without a specific object. User interfaces on GPS are still rather rudimentary and not very intuitive. There are also data directories, paper or electronic. A defect of these directories is also that the user must have a priori a precise idea of his research. For example, he is looking for an electrical craftsman in such a city, or in such region or department. If the user chooses for a basic criterion a city he is then limited in his answer database, if he chooses the region he has difficulty in positioning the answers and must carry out an additional work step to identify the most suitable craftsman. There are also geolocation devices, for example by mobile phone service, giving the user the closest answers according to a selected criterion of the place, therefore of the transmission terminal in the perimeter of which it is located. The defect of these devices is that the user interface is often very impractical, merely listing a list of names and addresses, which for the user is ultimately not very speaking and requires an additional step of interpretation . There is also a geolocation device by cartography, paper or electronic. The cards being plane, 2D. the user performing macro or map reductions to broaden or refine the perspective. The user can also query a database that positions the response on a map. A defect of these devices is that they also require a series of interpretation steps that are not very intuitive for the user. These devices do not allow an iterative or random search, that is to say that it is possible to choose and modify the criteria for displaying information during his search, allowing the user to immediately view the position of the corresponding places. its updated criterion of selection.

The set of solutions of the prior art has many ergonomic and data management defects that solve the invention. A main object of the invention is to provide a device for geo location location data that is practical and ergonomic and whose use is intuitive.

Another main object of the invention is that the location data belongs to a data field. The search for the user can be carried out according to any of the data belonging to the data field. The device is thus complete and can respond to an evolving user request. The user can say for example 1) I'm looking for a craftsman in such area 2) I find it easily 3) I can then see all the local activities that interest me 4) Thanks to the data engine, I determine a way and I identify several traders who are potentially interesting to discover on the way back home 5) I visualize this path and all its stops. An object of the invention is to provide an information search in visual mode suitable for a general public use.

An object of the invention is to provide a computer or electronic hardware with a user interface that is user-friendly and has varying levels of information depending on the level of research of the user and the fineness of the results it requires.

An object of the invention is to provide an evolutionary design that adapts to the understanding of the user. The invention also proposes a navigation on the data field which is also simple and intuitive. The invention provides dynamic information processing with image information, flexible configuration. The invention proposes a decision-support tool that integrates a specific database or that uses an existing database specially adapted to provide an organization compatible with its geo-location analysis principle, thus offering the a real-time decision support tool with information refresh, according to alternatives taking into account real-life situations. An object of the invention is to adapt to different media, whether they are computers, internet servers, public terminals on places of visit, or mobile phones.

An object of the invention is to be able to provide a geo-location device to users who did not use it until then. It may as well be a hotelier who conveniently indicates on his website useful addresses to customers around his hotel, or even a station that indicates through a public terminal addresses useful to its users. The invention thus having to respond to a multitude of requests according to several different criteria. In a main aspect the invention presents a user interface on an electronic screen of a computer or a terminal or a mobile phone. This interface represents first a view of the space that wants to visit the user, around this view are positioned different access buttons to the database manager. The user can first navigate in the view, depending on its position in the view it is informed on the data on which it points, the user can then query the databases and following his response get a specific view.

In one aspect of the invention the user will navigate by 2D stratum with a 3D navigation engine. The interest is that the 3D view of a 2D plane gives a much more intuitive view to the user while removing navigation constraints that are complex in 3D. In this form the user has only to move three axes ie, left, right and depth for the displacement, while in 3D the user must learn to master 4 axes that are left, right , high and deep for moving.

In one aspect of the invention the geo-location data of the data fields are represented in the viewing space by 3D patterns. These patterns can for example take the form of sticks or tags, these rods or tags having a particular aspect depending on the family to which they belong, for example: blue sticks for restaurants and red sticks for cinemas. A user will be able to do his research for an evening with as a search criterion: cinema + restaurant, he will then appear in a very intuitive way a set of vertical rods of blue and red color on a plane in perspective. In one aspect of the invention the user navigates by 2D stratum. each stratum representing a different level of information in the data fields.

In one aspect of the invention, the user accesses with a simple mouse click the information he wishes to obtain. Indeed, by pointing to a tag, he then directly gets all the information he wants. It is therefore well understood that the invention allows the user to navigate according to different principles, that is to say, either by querying the databases, or by pointing and or clicking on tags or on specific interfaces. The navigation is therefore in a particular aspect very complete and very rich and in another aspect extremely simple and fast.

Other objects, features and advantages of the present invention will emerge more clearly from the following description of an exemplary embodiment given by way of illustration, with reference to the appended drawings in which:

FIG. 1 represents a database and its various fields according to the invention

- Figure 2 represents an example of a landscape view and its projection topographic projection

- Figure 3 represents a basic view of the different topographic surfaces of shooting FIG. 4 represents a view of the user interface in a wide mode according to a first search criterion

FIG. 5 represents a view of the user interface in a wide mode according to a second search criterion. FIG. 6 represents a view of the user interface in a median mode.

- Figure 7 shows a view of the user interface in a close mode

FIG. 8 represents a view of the user interface in a median mode after a navigation movement of the user from the view of FIG. 7.

Figure 1 represents a database and its various fields (Ci) describing each speaker (I). An intervener will be materialized by a field (Cl) of name, by a field (Ca) of address, by a series of descriptive and characterizing fields (Ci). A characteristic of the invention is to use databases with a reasonable number of speakers (I) and with a description of the activity (Ci) of the speaker which is denser and more hierarchical than that of directories. As an example, under a generic gastronomy heading, catering or catering activities or suppliers may appear. Figure 2 shows an example of a landscape view

(P) and its topographic projection (SO) according to a plan in this example. Figure 2 may for example represent the city of Paris in plan with Montmartre which is projected on the plan. While according to the invention, the actual landscapes (P) in which the speakers (I) live will preferably be projected on a plan or a topographic surface, and for reasons of navigation that we will later explain, monuments or elements landscape can be modeled in three dimensions. This is explained by the fact that the user navigates with two commands, a first rotation command and a second depth command to advance or retreat, these displacements being limited and conscribed to a topographic surface (Si), the most simple to model is often for the graphic designer a simple plan (SO) on which he poses monuments. Figure 3 shows a basic view of the different topographical surfaces of the shooting according to the invention. It comprises, for example, a first topographic landscape projection surface (SO), and in a preferred embodiment three user navigation viewpoint surfaces (Sl, S2, S3). The survey topographic surfaces (Sl, S2, S3) are positioned one above the other. The first proximity point surface (Sl) is for example a plane parallel to the landscape surface (SO) slightly elevated. In some cases, these two planes (SO) and (Sl) being even confused. The second middle view surface (S2) can for example also be a plane, which is not necessarily parallel to the proximity plane (Sl). The last wide plan surface (S3) can be a surface topographic curve adopting an ellipsoid shape that can allow a wide-plan navigation that better reflects some distance ratios on the landscape (P). Median (S2) and far (S3) topographic surfaces are designed to meet the most intuitive and effective vision for user understanding. Figure 4 shows a view of the user interface (1) in a wide mode according to a navigation and shooting surface (S3). The wide-plane operation is notably visible by the choice to actuate the wide-plane function using the plane selection buttons (22). In this figure the landscape (P) is represented symbolically with a series of details (R) such as streets or monuments containing the characteristic elements of the landscape (P). According to this figure the user has made a filter (21) according to a first search criterion which has launched the display of all speakers (I) present in the landscape (P) and meeting the criteria of the filter (21). The speakers (I) being materialized by beacons (B) perpendicular to the representation surface (SO) of the landscape (P). This form of representation allows the user both to have a panoramic view of the landscape while easily identifying the tags (B) and their position in the landscape. The tags (B) having a different appearance, for example by their color, if they are chosen according to one criterion or another, for example according to the gastronomy criterion or according to the cinema criterion. Figure 5 shows a view of the user interface in a wide mode according to lin second search criterion with a new search filter (21) and therefore with a new selection of tags (B) having both a positioning and a different appearance from that of Figure 4. In the figure 4 is also shown a second language representation filter (23) beacons (B) that responds to a request for direct polling from the user. This interface can also be selected to spontaneously display information when the tags are active, see Figure 6. Finally it appears the classic task bar (10) which allows to exit to another feature than that of the search engine and navigation. Figure 6 shows a view of the user interface in a median mode according to the second topographic surface (S2). To switch from wide mode (S3) to median mode (S2), the user can either act on the plane selection function (22) or activate (A) a beacon (B) by clicking on it with his mouse . The activation (A) of the beacon makes the beacon information of the speaker (I) appear on the interface screen. The median level (S2) showing a new level of detail (R1, R2) with a closer view of the landscape (P). Figure 7 shows a view of the user interface in a close mode (Sl). In this figure are represented the navigation buttons (41a, 41b) for the left-right rotation, the front-to-back depth being for example obtained by means of the mouse, a restaurant-type beacon (B3) being active. Figure 8 shows a view of the user interface in a median mode after a navigation movement of the user from the view of Figure 7 with in this case a new tag of the cinema type (B4) being active. The user can both navigate using the navigation buttons but also by moving from tags (B3) to tags (B4). Of course, a user can record his trip and print it according to the level of precision he wants (Sl, S2, S3).

The invention therefore relates to a database search and navigation engine of stakeholders (I) in a landscape (P), the data lines characterizing the speakers (I) comprising an address coordinate field (Ca) speakers (I) in the landscape (P) and a series of description fields (Ci) of the speakers (I), characterized in that it comprises a user 3D visualization interface (1) which represents the landscape (P). ) from a discontinuous limited series of topographic (Si) photographic surfaces with a 2D user navigation confined to each topographic shooting surface (Si) and a representation filter (21,23) of the speakers (I). ) represented by a symbol (B) at their address (Ca) in the landscape (P) on the user interface (1) which is actuated by the request of the user on the representation filter (21,23) according to criteria corresponding to the fields of description (Ci).

The invention therefore relates to a database search and navigation engine characterized in that the speaker (I) is materialized on the user interface by a symbol (B) positioned on the topographic surface (SO) but not inscribed in the surface (SO).

The invention therefore relates to a database search and navigation engine characterized in that the representation symbols (B) of the speakers (I) are beacons or rods substantially perpendicular to the projection surface (SO) of the landscape (P)

The invention therefore relates to a database search and navigation engine, characterized in that the representation tags (B) of the speakers (I) adopt a specific color or shape according to the content of the descriptive fields (Ci) that are active at through representation filters (21,23).

The invention therefore relates to a database search and navigation engine, characterized in that the topographic shooting surfaces (S1, S2, S3) are planes. The invention therefore relates to a database search and navigation engine characterized in that the navigation is activated by the action on the filters (21,23) as well as on the navigation buttons (41) as well as on the navigation controls. tags (B).

The invention therefore relates to a search engine and database navigation characterized in that the characteristics and navigation rules are different according to the topographic shooting surfaces (S1, S2, S3). It can thus be seen that many variants that may possibly be combined can be made here without ever departing from the scope of the invention as defined below.

Claims

1 - Search and navigation engine for stakeholder databases (I) in a landscape (P), the data lines characterizing the intervening parties (I) having a contact address (Ca) field of the intervening parties (I) ) in the landscape (P) and a series of description fields (Ci) speakers (I) characterized in that it comprises a user 3D viewing interface (1) which represents the landscape (P) from a discontinuous limited series of photographic topographic surfaces (Si) with a 2D user navigation confined to each topographic shooting surface (Si) and a representation filter (21,23) of the speakers (I) represented by a pictogram (B) at their address (Ca) in the landscape (P) on the user interface (1) which is actuated by the request of the user on the representation filter (21,23) according to criteria corresponding to the fields of description (Ci).

2 - Database search and navigation engine according to claim 1 characterized in that the speaker (T) is embodied on the user interface by a pictogram (B) positioned on the topographic surface (SO) representing the topography real but not inscribed in the surface (SO), to be reached at the intersection by navigation in the shooting surfaces (Si). 3 - database search and navigation engine according to claim 2 characterized in that the pictograms (B) of the speakers (I) comprise a main axis perpendicular to the projection surface (SO) of the landscape (P).

4 - Database search and navigation engine according to claim 3 characterized in that the pictograms (B) of the speakers (I) are activated by color or shape modification according to the content of descriptive fields (Ci) active to through the representation filters (21,23) and according to the navigation position on the topographic surveying surface (Si).

5 - Search engine and database navigation according to claim 1 characterized in that the topographical surfaces of shooting (S1, S2, S3) are plans.

6 - Database search and navigation engine according to claim 1 characterized in that the navigation is activated by the action on the filters (21,23) as well as on the navigation buttons (41) as well as on the tags (B). 7 - Database search and navigation engine according to claim 1 characterized in that the characteristics and navigation rules are different according to the topographic shooting surfaces (Sl, S2, S3).

8 - Database search and navigation engine according to claim 1 characterized in that the navigation breaks from a first topographic shooting surface (Si) to a second topographic shooting surface (Si) s perform by the operation of a pictogram (B).

9 - Database search and navigation engine according to claim 1 characterized in that the navigation on the topographic surface (SO) is incremental by operating the pictograms (Bi) so as to adopt the point of view obtained by the user from each of these pictograms (Bi) and read the criteria corresponding to the description fields (Ci) of the data line (C) characterizing the speaker (E) represented by the pictogram (Bi).