FR2947661A1 - INTERACTIVE DISPLAY TERMINAL IN RELIEF - Google Patents

Abstract

The terminal has a data processing unit (3) arranged for sending data representing information to be displayed at an user interface device (2), and for receiving data representing user actions. The processing unit generates data representing images of a three-dimensional model of an object from data representing technical display characteristics of a multiscopic screen (1) and from data representing the three-dimensional model of the object. The processing unit mixes the images of the three-dimensional model of the object for displaying on the screen.

Description

ABprod / O 1 / FR Interactive 3D display terminal

The present invention relates to the field of interaction devices of at least one user with at least one relief display device. The invention aims to allow a user to control the display of at least one object on at least one relief display device. The present invention is therefore related to the field of relief displays, such as the display on multiscopic screens without glasses, such as screens with lenticular networks or parallax barrier screens for example. In the present application, these relief display devices will be designated by the term multiscopic screen. The present invention more particularly relates to an interactive display terminal in relief for a user to interact on the terminal with at least one object displayed in relief on at least one multiscopic screen. The present invention is particularly, but not exclusively, in the field of the presentation to users of copies of real objects, such as objects of high monetary or cultural value for example, in the form of virtual objects that the The user can manipulate by controlling the relief display by the present invention. For example, virtual objects, images of real objects of a national heritage, can thus be manipulated by users without any risk for the real object. A first problem in the field of relief displays concerns the visibility conditions in relief of the images displayed on multiscopic screens. Indeed, each type of multiscopic screen has technical specifications which determine the privileged positions of observation of the screen and the optimal conditions of visibility of the relief rendered. A second problem in the field of relief displays is the display of texts. The readability of the texts on a multiscopic screen is often not optimal because of the technical characteristics of multiscopic screens. For a good readability, the display of texts requires for example that they are provided in relief, this 1 ABprod / 01 / FR which complicates the user interface. Part of this second problem is partially related to the first problem because the optimal observation conditions multiscopic screens are such that they make it impractical reading texts, such as instructions for example, especially because of the distance to which the user must be placed for an optimal relief rendering. A third problem in the field of relief displays concerns the accessibility conditions for the control of the relief display by the user via an interface that must be adapted. Indeed, it is known that the relief display on multiscopic screens requires that the brains of users perceive the images in relief thanks to the fact that their two eyes perceive two different images but coherent with each other so as to obtain a relief rendered that is consistent with the intended relief. For this reason, the user generally does not have access to an area near the screen, for example at a distance of the order of a meter, so as to prevent his brain perceives aberrations that would make him temporarily lose the perception of the relief effect given by the multiscopic screen. Thus, the conditions of accessibility to a user interface allowing the user to control the display for virtually manipulating the displayed content need to take into account the phenomena underlying the perception of relief obtained through multiscopic screens. Part of this third problem is partially related to the first problem because the optimal viewing conditions are also such that they can impose constraints on the user interface. In this context, it is interesting to propose a solution allowing a user to control the display of at least one virtual object displayed in relief on at least one multiscopic screen while ensuring optimal conditions of visibility and accessibility for the user. user interaction. The present invention aims to address at least some of the problems mentioned above by providing an interactive display terminal embossed to ensure a good experience for the user.

This object is achieved by an interactive display terminal in relief, characterized in that it comprises: at least one display device with multiple points of view, said multiscopic screen, arranged to display a plurality of simultaneous views allowing the perception of a relief effect by a user, • at least one user interface device: arranged for a single point of view display and for capturing user actions, positioned relative to the multiscopic screen as a function of an optimal position of the eyes of at least one user interacting on the terminal when sitting or standing, data processing means accessing storage means and arranged to send data representative of information to be displayed to the device user interface, and receive from the latter data representative of actions of users captured, generate, from data representative of at least ins a three-dimensional model of at least one object and data representative of technical characteristics of display of the multiscopic screen, data representative of a plurality of views of said three-dimensional model, and mixing said plurality of views appropriately for their display on said multiscopic screen. 3 In another feature, the arrangement of the terminal provides said optimal position of the eyes of at least one user interacting on the terminal in a sitting or standing position, which: corresponds at least to an average height of the eyes at least one user of the terminal in a sitting or standing position and at an optimal viewing distance from the multiscopic screen which is a function of the technical characteristics of the latter, and determines the distance separating said user interface device from the the multiscopic screen, the height user interface device, as well as the inclination, with respect to the vertical, and the height of the multiscopic screen. According to another feature, the arrangement of the terminal provides an optimal position of the eyes of a plurality of users observing the multiscopic screen.

According to another particularity, the data representative of at least one three-dimensional model of at least one object are representative of the geometry and texture of at least one real object previously scanned by a three-dimensional scanner. In another feature, the user interface device is at least one touch screen. According to another particularity, the data processing means control the user interface device for displaying at least one monoscopic view of said model and / or graphic elements and / or textual information relating to at least the possible actions of the user. user on the raised display on the multiscopic screen. According to another feature, the multiscopic screen is disposed at the bottom of a box open on one side. According to another particularity, the views of said three-dimensional model generated by the data processing means correspond to pictures taken on an arc centered on the three-dimensional model ABprod / 01 / FR and separated from the latter by a distance Focusing shots. According to another feature, the views of said three-dimensional model generated by the data processing means correspond to shots arranged on at least one line separated from the three-dimensional model by a focusing distance of the shots. According to another particularity, the data representative of a plurality of views of said three-dimensional model are generated and mixed in real time by the data processing means as a function also of the data representative of user actions received by the interface device. users. According to another particularity, the terminal comprises communication means controlled by the data processing means in particular for updating the terminal with at least data representative of three-dimensional models of objects. Some embodiments of the invention thus meet all of these problems by combining the various elements described in the present application. Other features and advantages of the present invention will emerge more clearly on reading the following description, made with reference to the appended drawings, in which: FIG. 1 represents a perspective view of a terminal in a FIG. 2 shows a perspective view of a terminal according to another embodiment of the invention, FIG. 3 represents a side view of a terminal according to another embodiment. 4 schematically illustrates the communications between the various possible elements of the terminal with the manipulated data, according to one embodiment of the invention. The present invention relates to an interactive display terminal embossed. The term terminal here means a device such as, for example, a kiosk or a desk or a set of elements, which can be arranged in a suitable place and in front of which are placed users to use its various features. This term must be interpreted as illustrative and in no way limiting because it can designate any type of device. The terminal comprises at least one multi-view display device, said multiscopic screen (1), arranged to display a plurality of simultaneous views allowing the perception of a relief effect by a user, without requiring the use of glasses (temporal occultation or colorimetric) for ease and comfort of use for the general public. This multiscopic screen is therefore for example a multiscopic barrier parallax barrier or provided with a lenticular network. In some embodiments, the multiscopic screen (1) is disposed at the bottom of a box open on one side (that directed towards the users of the terminal). This box increases the relief effect obtained by masking the edges of the screen and forming a dark area around it. This box may according to various variants, have a dark or dark interior and / or rectangular parallelepiped shape or flared towards the users of the terminal. The terminal also includes at least one user interface device (2). Preferably, this user interface device (2) is at least one touch screen so as to allow the user to interact (ie, see and act) with the terminal on a single device . It will of course be possible to replace the touch screen with a non-touch screen associated with pointing and / or input means, for example of known types, the essential point being that the user interface device (2) allows a user interaction, preferably being arranged for a single point of view display and for capturing user actions. The touch screen has the advantages of reducing the number of controls on the terminal and the number of devices to be provided, as well as the number of cuts to be provided on the chassis ABprod / 01 / FR (20) of the terminal. In addition, this touch interface allows a reduction in cleaning and ensures greater ease of implementation of updates. The screen of the user interface device (2) is a so-called single-point-of-view display, that is to say that it does not make it possible to restore a relief, unlike the multiscopic screen. It will therefore preferably be a standard type screen, such as an LCD screen or other type. In addition, in the case of a touch screen, the invention provides that the latter can be of the mono-touch or multi-touch type (in the English terminology), that is to say that it allows on the one hand, the interaction of a single user or several users at the same time and that it allows, on the other hand, actions with a single pointing location (a finger for example) or with several pointing location (for example a finger can be used for manipulations in a first orientation, for example vertical, and another finger for a second orientation).

The present invention provides various arrangements of elements constituting the terminal and in particular at least one embodiment in which the terminal comprises a console comprising the device (2) of user interface and in front of which the users will stand and at least one embodiment wherein the terminal comprises at least one seat placed in front of the user interface device (2) and on which users can sit to interact with the terminal. The invention therefore provides so-called console-type embodiments, an example of which is shown in FIG. 1, comprising a frame (20) for users in a standing position and so-called wheelchair-type embodiments, an example of which is represented in FIG. 2, comprising a frame (20) for users in a seated position. In the various arrangements of the terminal, the user interface device (2) is preferably positioned relative to the multiscopic screen (1) according to an optimal position (PO) of the eyes of at least one user interacting on the terminal while sitting or standing. Indeed, the multiscopic screens have technical characteristics that impose optimal viewing areas in which the perception of relief will be the best. For example, in the case of a lenticular array screen, the orientation of the optical beams through the lenticular array and the size of the screen will determine the preferred viewing positions of the screen. . Thus, it is thus clear that the invention makes it possible in certain embodiments to optimize the conditions of visibility and use of the terminal, both as regards the perception of relief rendered by the multiscopic screen (1). and with regard to the interaction on the interface device (2) by one or more users in an area around the terminal, particularly if the interface device (2) is of sufficient size and / or comprises several touch screens for example.

The terminal of the invention is interactive because it allows the user to control, through the device (2) user interface, the display that is made on the multiscopic screen (1). For this, the terminal comprises data processing means (3) accessing storage means (4) (which can be integrated in the terminal or remote in another device). FIG. 4 diagrammatically represents the operations performed and the data manipulated by the processing means (3) during data transmissions with the various elements (1, 2, 4, 5) possible for the terminal during its operation, as detailed below. These data processing means (3) may, in a manner known per se, comprise for example computer means such as a central unit (for example at least one electronic card and / or at least one processor, but preferably a card mother, at least one processor and at least one graphics card to manage the displays). In addition, according to various embodiments, depending in particular on the power and size required for the processing means (3), the latter may be deported outside the frame (20) of the terminal, as long as the connectors ( 31, 32, 34) makes it possible to connect them to the other devices of the terminal. These data processing means (3) are arranged, on the one hand, to send data (DI) representative of information to be displayed to the user interface device (2), and to receive from the latter data ( UA) representative 8 ABprod / 01 / FR of captured user actions. On the other hand, these data processing means (3) are arranged to generate, from data (MO) representative of at least one three-dimensional model of at least one object and data (CT) representative of technical characteristics. display of the multiscopic screen (1), data (W) representative of a plurality of views of said three-dimensional model. Finally, these data processing means (3) are also arranged to mix said plurality of views appropriately for their display on said multiscopic screen (1).

Moreover, in certain embodiments, the data (W) representative of a plurality of views of said three-dimensional model are preferably generated and mixed in real time by the data processing means (3) as a function also of the data (UA). ) representative of user actions picked up by the user interface device (2). This embodiment is preferred to other modes where the views would be generated beforehand because the amount of information needed and very important. During this generation of data (W) representative of a plurality of views of said three-dimensional model, the data processing means (3) use, for example by means of a rendering engine, the data (MO) representative of least a three-dimensional model of at least one object, comprising a definition of shapes, colorimetry and / or luminosities and / or textures. The data processing means (3) also use data (CT) representative of the technical characteristics of the display of the multiscopic screen (1) of the terminal, so that said plurality of views of said three-dimensional model is generated by depending on the type of multiscopic screen (1) present in the terminal. These technical characteristics define the dimensions of a useful area and the preferred observation positions of the multiscopic screen (1). The dimensions of the multiscopic screen (1) can be expressed in width and height for example, but also in terms of ratio (for example, of the 16/9 or 4/3 type) and dimension of the diagonal (for example in inches: 9 ABprod / 01 / EN 42 ") The preferred observation positions can be defined by the spectator's optimal positioning (PO) (for example at an optimal viewing distance), one or more dips (or zeniths) For example, these positions can be expressed by their distance from the plane of the screen and their lateral and vertical offsets from the center of the screen, so that a plurality of positions can be defined, in particular to predict a plurality of users viewing the display of the screen at the same time on the terminal From these definitions, the data processing means (3) use at least one imaging algorithm. algorithm comes down to considering projections of the three-dimensional model on a plurality of virtual cameras positioned in the model appropriately according to the desired overall viewing angle. In some embodiments, the views of said three-dimensional model generated by the data processing means (3) correspond to images (virtual cameras) arranged on an arc of a circle centered on the three-dimensional model and separated from the latter. a focus distance of the shots. In other embodiments, which are more advantageous in terms of the fidelity of the relief rendered by the multiscopic screen, the views of said three-dimensional model generated by the data processing means (3) correspond to pictures taken on at least one separate line of the three-dimensional model of a focusing distance of the shots. Thus, a plurality of views can be obtained which, when properly mixed, can be restored on the multiscopic screen (1) by offering the user a relief effect of the image (image or image sequences since the views can of course be animated, especially depending on the actions of the user on the device (2) user interface). The data processing means (3) can then use at least one mixing algorithm (AM) which also depends on the technical characteristics of the multiscopic screen (1) present on the terminal. These characteristics may, depending on the type of screen concerned, correspond to the spatial modalities of the mixing, the masks for mixing the images on the useful zone, etc. In addition, in some embodiments, the data processing means (3) controls the user interface device (2) to display at least a monoscopic view of said model and / or graphics and / or information. textual relating to at least the possible actions of the user on the raised display on the multiscopic screen (1). Thus, the data processing means (3) make it possible to display on the user interface device (2) various information and in particular information and elements enabling the user to manipulate the virtual object in relief. displayed on the multiscopic screen. The data processing means (3) may execute a graphical user interface (GUI), for example a software application generating a virtual agent guiding the user on the actions he or she is performing. can achieve. Note that the graphical user interface may be able to display on a user interface device (2) a two-dimensional version of the object, that is to say a monoscopic projection of the model of the object displayed on the multiscopic screen (1) or simply graphic elements, such as keys and / or arrows, for example, explicit of the action to which they correspond. In addition, the various information that may be displayed may advantageously be text and / or images, including advertisements for example or explanations concerning the object displayed on the multiscopic screen (1). Thus, thanks to the graphical user interface of the user interface device (2), data (UA) representative of user actions received by the user interface device (2) are sent to the means data processing to control the views to be generated. In some embodiments, the data (MO) representative of at least one three-dimensional model of at least one object are representative of the geometry and texture of at least one real object scanned beforehand by a scanner (S) three-dimensional. In other embodiments, the kiosk uses a three-dimensional model obtained by image synthesis, without necessarily having to resort to any capture device. In some embodiments, the terminal comprises communication means (5) controlled by the data processing means (3), in particular for updating the terminal with at least data (MO) representative of three-dimensional models of objects. Thus, for example, the means (4) for storing the terminal (or accessible to the terminal) may comprise a plurality of object models (scanned or not) and propose several choices of objects with which to interact, this plurality being able to evolve over time. Such means of communication (5) can of course allow other types of updates, such as for example the update of the graphical user interface. Similarly, such means of communication may, in certain variants, make it possible to move the storage means (4) out of the terminal and to send the data contained in these storage means (4) to the means (3). data processing.

FIGS. 1 and 2 represent a terminal of the console type and of the chair type, respectively, with the data processing means (3) connected to the multiscopic screen (1), to the user interface device (2) and to the means storage (4), via their respective connections (31, 32, 34) (eg cable for HD video, broadband connections, etc.). In these examples the chassis (20) is extended by a housing (21) putting the interface device (2) at a good distance and protecting the connection (31) of the multiscopic screen (1) which is mounted on a rack (21). In the example of FIG. 3, the connection (31) and the fixing of the multiscopic screen (1) are integrated in the places in which the terminal is located and the distance of the desk is imposed. The various arrangements can therefore be understood from the combinations of elements and means described herein. The arrangement of the terminal provides an optimum position (PO) for the eyes of a plurality of users observing the multiscopic screen (1). For example 12 ABprod / 01 / FR in Figure 2 illustrating the chair mode, but also in other embodiments, several users can view on the multiscopic screen the result of the interaction on the device (2) of user interface because the configuration of the terminal provides their respective positions optimally. Fig. 3 shows the measurements in the example of a single user of a console type embodiment. In this example, the optimal position (PO) of the eyes corresponds at least to an average height (HM) of the eyes of at least one user of the terminal while sitting or standing and at an optimal distance (DO) of viewing the multiscopic screen (1) which is a function of technical characteristics of the latter (especially the size, as mentioned above) and determines the following measures: the distance (D) separating said user interface device (2) from the multiscopic screen (1), - the height (H2) of the user interface device (2) - the inclination (Al) of the multiscopic screen (1) with respect to the vertical - the height (H1) of the multiscopic screen (1) - the inclination (A2) of the user interface device (2) relative to the vertical.

It is thus clear that the technical choices made for the various means used in the present invention respond to a specific problem which is the control of graphical interfaces and / or interactive objects on a multiscopic screen. Some embodiments of the terminal according to the invention thus achieves the goal it has set itself to solve at least one of the technical problems known in the field, with the following advantages: Allow a comfortable interaction of the user in particular with objects displayed in relief from images of real objects, allow good readability of texts to compensate for the disadvantages of multiscopic screens and display instructions and / or explanations in a manner that is comfortable for the user, 13 ABprod / O 1 / FR to provide optimal viewing comfort, for example by setting the distance between the user and a multiscopic screen of 42 inches (diagonal), about 3m.

It should be obvious to those skilled in the art that the present invention allows embodiments in many other specific forms without departing from the scope of the invention as claimed. Therefore, the present embodiments should be considered by way of illustration, but may be modified within the scope defined by the scope of the appended claims, and the invention should not be limited to the details given above. 14 10 15 20 25

Claims (11)

REVENDICATIONS1. An interactive display terminal embossed, characterized in that it comprises s • at least one multi-view display device, said multiscopic screen (1), arranged to display a plurality of simultaneous views allowing the perception of a user embossed effect, • at least one user interface device (2): arranged for a single point of view display and for capturing user actions, positioned relative to the multiscopic screen (1). ) according to an optimum position (PO) of the eyes of at least one user interacting on the terminal when sitting or standing, • means (3) for data processing accessing storage means (4) and arranged for: sending data (DI) representative of information to be displayed to the user interface device (2), and receiving therefrom data (UA) representative of the actions of captured users, generating, from data (MO) rep resentatives of at least one three-dimensional model of at least one object and of data (CT) representative of technical characteristics of display of the multiscopic screen (1), data (W) representative of a plurality of views of said model three-dimensional, and - mix said plurality of views appropriately for their display on said multiscopic screen (1). 15ABprod / O l / FR 2. Terminal according to claim 1, characterized in that its arrangement provides said optimum position (PO) of the eyes of at least one user interacting on the terminal when sitting or standing, which: corresponds at least to an average height (HM ) the eyes of at least one user of the terminal while sitting or standing and at an optimum distance (DO) for viewing the multiscopic screen (1) which is a function of the technical characteristics of the latter, and determines the distance ( D) separating said user interface device (2) from the multiscopic screen (1), the inclination (A2), with respect to the vertical, and the height (H2) of the interface device (2) users, as well as the inclination (Al), with respect to the vertical, and the height (H1) of the multiscopic screen (1). 3. Terminal according to one of claims 1 and 2, characterized in that its arrangement provides an optimum position (PO) eyes of a plurality of users observing the multiscopic screen (1). 4. Terminal according to one of claims 1 to 3, characterized in that the data (MO) representative of at least one three-dimensional model of at least one object are representative of the geometry and texture of at least one real object scanned beforehand by a scanner (S) three-dimensional. Terminal according to one of claims 1 to 4, characterized in that the user interface device (2) is at least one touch screen. Terminal according to one of claims 1 to 5, characterized in that the data processing means (3) controls the user interface device (2) to display at least one monoscopic view of said model and / or elements. graphics and / or text information relating to at least the possible actions of the user on the raised display on the multiscopic screen (1). 7. Terminal according to one of claims 1 to 6, characterized in that the multiscopic screen (1) is disposed at the bottom of a box open on one side. 16ABprod / 01 / EN 8. Terminal according to one of claims 1 to 7, characterized in that the views of said three-dimensional model generated by the data processing means (3) correspond to shots arranged on an arc of a circle centered on the three-dimensional and separate model. of the latter of a focusing distance of the shots. 9. Terminal according to one of claims 1 to 8, characterized in that the views of said three-dimensional model generated by the data processing means (3) correspond to shots arranged on at least one line separated from the three-dimensional model of a focusing distance of shots. 10. Terminal according to one of claims 1 to 5, characterized in that the data (W) representative of a plurality of views of said three-dimensional model are generated and mixed in real time by the means (3) for data processing also function data (UA) representative of user actions received by the user interface device (2). 11. Terminal according to one of claims 1 to 9, characterized in that it comprises means (5) for communication controlled by the means (3) for data processing including the update of the terminal with at least data (MO) representative of three-dimensional models of objects. 17