FR3020481A1 - VISUALIZATION DEVICE WITH TOUCH SURFACE OPERATING IN A DEGRADE ENVIRONMENT - Google Patents

Abstract

The general field of the invention is that of display devices comprising a flat-screen display having a transparent tactile surface, said device comprising means for generating at least one set of interaction symbols. The display device according to the invention comprises management and control means arranged to interact with said first set of interaction symbols according to a so-called "turbulent" operating mode in which, when the surface detection means touch detects that a zone is solicited and that said solicited area moves in a given direction, said set of interaction symbols moves automatically and in the opposite direction.

Description

The field of the invention is that of display devices comprising a touch interface. This type of device is now widespread in the consumer field where are particularly concerned the field of mobile phones or "smartphones" or that of tablets. The aeronautical field is also concerned by this type of visualization device that allows for a simple, robust and ergonomic interface. However, this area and more generally that of transport is subject to particular constraints. The touch interface of the display device must in particular continue to work perfectly in a turbulent environment. This turbulent environment is mainly due to unfavorable weather conditions in civil aircraft on civil aircraft. However, in this environment, it becomes more difficult for a user to perform reliable and precise interactions with the touch surface, which is, of course, very detrimental to the proper functioning of the system. Indeed, unlike conventional control buttons, the touch surface does not offer taps, reliefs that facilitate the positioning of the fingers of the user and therefore control in a turbulent environment.

Also, application US 2013/0314328 entitled "Methods and systems for enhancing touch screen operation in a display of an aircraft" proposes a method comprising a step of detecting turbulence and a second step of adapting the touch surface and its use operational when this mode is detected.

To also solve this problem, the French application FR 2 991 070 entitled "Touchscreen display device for vibrating environment and applications" proposes to increase the size of the interactive elements. However, this necessarily reduces the number of interactive elements that can be displayed by the display device, which poses other problems. For example, it becomes difficult to display a full alphanumeric keyboard on some small display devices. The display device according to the invention does not have these disadvantages. It comprises specific means for ensuring, on command, in addition to the magnification of the interaction zone already mentioned, the additional function of moving the interaction zone according to the position and the movement of the stress. More specifically, the subject of the invention is a display device comprising a flat-screen display 10 on which a transparent tactile surface is arranged, said device comprising means for generating at least one set of interaction symbols, characterized in that said display device comprises management and control means arranged to interact with said first set of interaction symbols according to a so-called "turbulent" operating mode in which, when the detection means of the tactile surface detects when a zone is biased and said biased area moves in a given direction, said set of interaction symbols moves automatically and in the reverse direction. Advantageously, in the so-called "turbulent" operating mode, said first set of interaction symbols is enlarged according to a predetermined magnification. Advantageously, the set of interaction symbols 25 represents an alphanumeric keyboard. Advantageously, when the display comprises a first zone that can be biased and a second zone, complementary to the first zone but can not be requested in the so-called "turbulent" operating mode, when the zone requested is at the limit of the first zone, the second set of interaction symbols moves so that the interaction symbols belonging to the second zone enter the first zone, the movement movement being stopped by a particular displacement of the requested zone.

The invention will be better understood and other advantages will become apparent on reading the following description given by way of non-limiting example and with reference to the appended figures in which: FIGS. 1, 2 and 3 represent the implementation of the means 5 according to the invention in the case of a touch keyboard; Figures 4 and 5 show the implementation of the means according to the invention in the case of inaccessible areas of a touch screen. The display device according to the invention essentially comprises a flat-screen display on which is disposed a transparent tactile surface and means for generating interaction or control symbols that can be controlled, validated or modified by means of the interface. touch. In the absence of turbulence, the control by the touch surface can be done either conventionally, or in the same way as in turbulent mode. The display device according to the invention further comprises means for controlling in a particular way all or part of the symbols when said device is in a turbulent environment. The turbulent environment conditions may be decided manually by a user or by the system itself depending on external parameters such as the level of vibration. This level can be detected, for example, by accelerometers arranged in the display device itself. These means used in a turbulent environment are essentially software means. They perform two functions that can be implemented, depending on the type of symbol, together or separately. These functions are: Magnification of the symbol or symbols present in the interaction zone; 30 - Displacement of the interaction zone according to the position of the element of the zone requested by the user. As a first nonlimiting example, FIGS. 1, 2 and 3 show the implementation of the means according to the invention in the case of a touch-sensitive keyboard displayed. To simplify the figures, Figure 1 shows only the keyboard portion C. This keyboard is of the type "Qwerty". When the display device switches to turbulent mode either manually or automatically, the keyboard does not change appearance until the user touches it. As soon as the user touches any point of the keyboard symbolized by the dashed ellipse T in FIG. 1, the keyboard expands around this zone. This enlargement is symbolized by dashed rectangles in Figure 1. The enlargement is constant perimeter so that the enlarged area does not occupy more space than the initial keyboard. The result is that only a fraction of the keyboard is apparent as can be seen in FIG. 2. If the symbols displayed do not correspond to the keys that the user wants to implement, by moving his finger on the zone requested, the enlarged zone the keyboard moves to show the hidden keys. Displacements are indicated by chevrons in Figure 2. The white chevrons surrounded by black indicate the movement of the symbols and the dotted chevrons indicate the movement of the user's fingers. In the example of Figures 2 and 3, the user initially placed his finger on the key "6", when he moves to the key "T", the enlarged area moves as seen in Figure 3 Whenever the user requests a symbol, such as the symbols "6" and "T" in Figures 2 and 3, visual feedback is indicated. In the case of the figures, the symbols appear in bold lines. Various visual returns can be implemented. The color change of the symbol, the increase of its luminance, a change of appearance, a flicker or a framing of the symbol. When the user validates a key, the keyboard can resume its normal size. It is however preferable that the enlargement remains as long as the user validates a succession of keys to enter alphanumeric information. The return to normal size is then done by pressing the "EXEC" key, meaning that complete information has been entered. Validation of the keys can be done in different ways such as, for example, releasing the support and confirm it immediately with a second press.

As a second non-limiting example, Figures 4 and 5 show the implementation of the means according to the invention in the case where the display can hardly be solicited in full in case of turbulent environment. This is, for example, the case when the user is forced to put his hand or wrist on a dedicated support zone when the vibrations are too strong. In this case, if the display is of a certain size, the parts remote from the support zone remain inaccessible to the user. An accessibility zone ZA is then defined on the display. It corresponds to the dashed rounded area in FIG. 4. When the stressed zone symbolized by a tight dashed ellipse T is at the limit of the accessibility zone ZA, the interaction symbols B present in the inaccessible zone move. to enter the first accessibility zone ZA. Displacements are indicated by chevrons in Figure 4. As before, the white chevrons surrounded by black indicate the movement of the symbols and the dotted chevrons indicate the movement of the fingers of the user. When the interaction symbols pass in the accessibility zone ZA, as seen in FIG. 5, the movement of movement of the symbols can be stopped by a particular displacement of the biased zone which can be an inverse movement of the fingers of the the user towards the back of the ZA accessibility zone. The validation conditions of the interaction symbols B are the same as above.

Claims (4)

REVENDICATIONS1. Display device comprising a flat-screen display 5 on which is disposed a transparent tactile surface, said device comprising means for generating at least one set of interaction symbols, characterized in that said display device comprises management means and control arranged to interact with said first set of interaction symbols according to a so-called "turbulent" operating mode in which, when the touch surface detection means detects that a zone is being requested and the said As the biased area moves in a given direction, said set of interaction symbols moves automatically and in the reverse direction. 2. Display device according to claim 1, characterized in that in said operating mode "turbulent", said first set of interaction symbols is enlarged to a predetermined magnification. 3. Display device according to claim 2, characterized in that the set of interaction symbols represents an alphanumeric keyboard (C). 25 4. Display device according to one of the preceding claims, characterized in that, when the display comprises a first zone that can be biased and a second zone, complementary to the first zone but can not be solicited in said operating mode. "Turbulent", when the requested area is at the edge of the first area, the second set of interaction symbols moves so that the interaction symbols belonging to the second area enter the first area, the moving movement being stopped by a particular displacement of the area requested. 35