HU225118B1 - Device and method to present shapes and/or characters in space - Google Patents

Abstract

The present invention relates to a method for displaying stationary or moving geometric shapes, characters, text, and a realization device, the pixels of which are preferably LEDs because of their relatively inexpensive goods. Thus, the use of the present invention is a novelty of light emitting diodes from LEDs. LED Matrix Displays, LED Matrix Displays are a new, three-dimensional application that can be used for advertising and advertising purposes. for entertainment, for example, as a game, it can be used as a demo-like display device in case of a large resolution. The advantage of laser equipment is the relatively cheaper price and easier control of the LEDs. The solution expands the display capabilities of LED displays, making it a three-dimensional test, giving you more advertising opportunities for newspapers. Thus, the present invention is primarily directed to improving the display capabilities of LED builders. The present invention essentially provides a two-dimensional display with rotary axis rotation and corresponding control to a three-dimensional display. HE

Description

The present invention relates to a method of displaying shapes and / or characters in space by rotating a display surface having individually activated display elements and controlling the display elements with respect to the current position of the display surface.

The invention further relates to an apparatus for displaying shapes and / or characters in space, having a display surface rotated about an axis, display elements that are individually activated on the display surface, and a control unit for controlling the display elements taking into account the current position of the display surface.

The invention can be used for the three-dimensional display of still and / or moving images, for example, for the purpose of realizing a spatial game or advertising space, or in any area where a true, "spatial representation" is required.

There are several types of 3D publishers.

Solutions belonging to one group of publishers are not suitable for true three-dimensional rendering, they merely render the two-dimensional image more plastic. Such a viewer is described, for example, in JP 11-174376 A, in which a second screen parallel to an LCD display is created using a second screen. The main disadvantage of this solution is that there is a spatial effect only in a narrow, defined field of view, which, therefore, can only be perceived by one person in a small design.

Solutions from another group of publishers provide a true three-dimensional image. The viewer described in U.S. Patent No. 5,929,572 A actually has ΧχΥχΖ individually controllable pixels (voxels) in a three-dimensional array arrangement. Producing a display is very expensive, so you can only imagine it in an area where costs are not a priority (military equipment, space research, etc.).

The solution described in KR 2001-0077663 A also provides a true three-dimensional image. In this solution, a two-dimensional display surface consisting of individually controllable pixels (pixels) is rotated, and the pixels are controlled by a pre-programmed program, taking into account the current angular position of the display surface. At high speeds and with control in sync with the rotation, the viewer senses a true three-dimensional image due to the inertia of the eye. This solution is economically feasible, for example, using LED pixels, but modifying the information displayed requires a program exchange, which makes the equipment useless.

Significantly more versatile and thus more widely used displays could be made interactive by controlling their information, meaning that the information displayed could be transformed "on the go" without interrupting the display process.

According to the literature, the realization of interactivity with real three-dimensional displays is very difficult, mainly due to the inaccuracy of "targeting" of individual pixels (voxels) and the problem of fitting to three-dimensional controls. Therefore, an interactive 3D viewer is not known, although it would be in great demand.

It is an object of the present invention to provide a true three-dimensional display that can be economically manufactured and thus widely used, and the information displayed can be interactively influenced without interrupting the display process.

The present invention is based on the discovery that when the control of a composite rotary display surface consisting of individually activable pixels is complemented by a known device, such as a stylus, which enables interactivity with the two-dimensional viewers without substantially changing the device, becomes interactive, as evidenced by the prototype of the invention.

The invention thus relates, on the one hand, to a method of spatially displaying shapes and / or characters by rotating a display surface having individually activated display elements and controlling the display elements with respect to the current position of the display surface. The essence of the method is to interactively control the control resulting in the spatial still and / or motion picture without interrupting the display process.

Preferably, a stylus is used to interactively control the control.

The display elements can be controlled in a serial and / or parallel way.

The control can be wired or wireless and the wireless control can be optical, radio frequency or ultrasonic control.

On the other hand, the invention relates to an apparatus for displaying shapes and / or characters in space, having a display surface rotated about an axis, display elements individually activated on the display surface, and a control unit for controlling the display elements taking into account the current position of the display surface. The point of the device is that the control unit is provided with a means for interactive control of the control.

Advantageously, the apparatus may be configured such that the display surface is transparent to one side and has a luminescent or phosphorescent layer on its other side, the apparatus comprises a laser deflector and the display elements are laser excited points of the luminescent or phosphorescent layer.

The invention will now be described in more detail with reference to the drawing, wherein

Figure 1 is a schematic drawing of an embodiment of the display device, a

Figure 2 shows various ways of transmitting control signals to display elements:

HU 225 118 Β1

a) parallel wired transmission with radial contacts,

b) parallel wired transmission with axial contacts,

c) parallel wireless transmission by optical means,

d) serial wireless transmission by optical means,

(e) wireless transmission over radio frequency,

(f) wireless transmission at ultrasonic frequency, a

Figure 3 is a schematic drawing of another embodiment of the display device, and finally a

Figure 4 is a schematic diagram of a visualization device made interactive with a light pencil.

The display device shown in Figure 1 preferably has a transparent cover 3, below which is a display surface 4 fixed to a axis 2 of symmetry. The transparent cover 3 protects the elements beneath it, but is not necessarily required for operation, and is even preferable to the light pencil application described below. The display surface 4 is preferably flat and has display elements 5 in a defined geometry, preferably M * N matrix arrangement, when discrete elements such as LEDs are used. The shaft 2 is rotated by a motor 6 together with the associated display surface 4. The power supply of the display elements 5 of the display surface 4 can, if necessary, be solved by supply voltage contacts 7. Control of the display elements 5 on the display surface 4 is provided by a control unit 8, from which the control signals are transmitted via wire 9 to either the wireless transmission unit 10 or the control unit 2a. and 2b. 2 to the display elements 5. Designing the control of the display elements 5 is a routine task for a person skilled in the art, but the disclosure document KR 2001-0077663 A, which is mentioned in the prior art, contains specific instructions for the design of the display device and the control of the display elements. Of course, in addition to the display surface comprising discrete LEDs, a display surface of a different design can be used, such as the color integrated display described in EP 1 003 221 A2, the essential being to provide individual control of the display elements. Depending on the display elements used, the apparatus is also capable of displaying three-dimensional, high-resolution, optionally color images of still and / or moving images.

A 2c., 2d., 2e. and 2f. FIG. 4A shows some possible solutions for wirelessly transmitting the signals controlling the display elements. 2c. In the embodiment illustrated in FIG. 2A, parallel optical signal transmission is performed by means of the optical parallel transmitter element 11 and the optical parallel receiver element 12. 2d. The embodiment of FIG. 4A utilizes an optical serial transmitter 11 'and an optical serial receiver 12' for serial optical signal transmission. 2e. The embodiment of FIG. 4A is a radio frequency, typically serial, transmission with an 11 "radio transmitter and a 12" radio receiver. Finally, FIG. FIG. 6A is an ultrasonic frequency, typically serial, signal transmission with an 11 '' ultrasonic transmitter and a 12 '' ultrasonic transmitter. It is expedient to place the transmitter elements outside the transparent cover 3, while the receiving elements are positioned inside the axis 2 and the display surface 4 respectively.

Figure 3 is a schematic drawing of an embodiment of a display device capable of producing special spatial effects. In this embodiment, the planar display surface 4 is provided with a light-transmitting or transparent layer on one side and a fluorescent or phosphorescent layer on the other. The display surface 4 is rotated about an axis 2 by a motor (not shown). In this variant, the control unit 8 controls the laser deflector 13 so that the laser beam excites the desired spatial coordinates of the fluorescent or phosphorescent layer to emit light.

Figure 4 illustrates the design of the display device for interactive control. In the embodiment shown in the figure, a light pen 14 is connected to the control unit 8 to ensure interactivity. The pencil can be either passive or active. Both versions have been known and used for decades for two-dimensional displays. Experiments relating to the present invention have demonstrated that, for a given type of three-dimensional display (rotated two-dimensional display with individually activable display elements), the solutions providing interactivity for two-dimensional display are able to render virtually unchanged control of the three-dimensional display. The principle and specific embodiment of the light pencil used in the exemplary embodiment are well known in the art and are described, for example, in U.S. Patent No. 4,141,000 A.

Thus, the present invention provides a three-dimensional representation that provides an "orbit" spatial representation of arbitrary (stationary and / or moving) image information, is capable of high-resolution color display, can be economically produced, and can be interactively manipulated without interruption.

Claims (10)

A method for spatially displaying shapes and / or characters by rotating a display surface having individually activable display elements and controlling the display elements with respect to the current position of the display surface, characterized in that interrupting the displaying process resulting in a three-dimensional portrait and / or motion image. without interactively influencing it. Method according to claim 1, characterized in that a light pencil (14) is used to interactively influence the control. Method according to claim 1 or 2, characterized in that the display elements (5) are controlled in a serial and / or parallel way. HU 225 118 Β1 4. A method according to any one of claims 1 to 5, characterized in that wired control is used. 5. A method according to any one of claims 1 to 5, characterized in that wireless control is used. The method of claim 5, wherein the wireless control is optical. 7. The method of claim 5, wherein said wireless control is radio frequency. 10 The method of claim 5, wherein the wireless control is ultrasonic frequency. Apparatus for displaying shapes and / or characters in space having a display surface rotated about an axis, display means that are individually actuated on the display surface, and a control unit for controlling the display elements taking into account the current position of the display surface. equipped with a means for interactive control of the control. Apparatus according to claim 9, characterized in that the display surface (4) is transparent on one side and has a luminescent or phosphorescent layer on the other side, the device comprises a laser deflector (13) and the display elements (5) being luminescent or are laser excited points of the phosphorescent layer.