JP2000338951A - Display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform an expression which could not be performed in a display device having a square or rectangular display surface by deforming a display data according to the form of a display part, and driving the display element of the display part according to the deformed data. SOLUTION: A display data deforming means reads the display data of a two-dimensional dot pattern from a display data memory means according to a display schedule (combination of character, sentence, pattern, picture, and mark to be displayed or display time, display order), and enlarges it to a prescribed size. Each dot of the enlarged display data is regarded as a coordinate, and a coordinate conversion table is referred to convert the display data to an elliptic two-dimensional dot pattern according to the form of a display pattern. The display data after coordinate conversion is deformed as if it is drawn on the surface of an ellipsoid. The coordinate converted display data is extended on a video RAM, and display elements arranged in a display part are flashed through a drive circuit to display it. The display data is displayed with deformation.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device in which a plurality of display elements capable of emitting light are arranged on a printed circuit board, and each display element emits light to display predetermined characters, figures, patterns, and the like.

[0002]

2. Description of the Related Art Using a display device in which light-emitting elements such as LEDs are arranged in a matrix form, combining flashing and scrolling with pictures and simple animations as well as characters and sentences, advertisements and messages with a rich visual effect. The display is being made. This type of display device is different from a full-color large-screen display device for the purpose of direct commercial operation of advertising revenue, and is often installed mainly at stores, and therefore, of course, information transmission to pedestrians is of course possible. That is, how to catch the eyes of passers-by is required.

By the way, in recent years, this type of display device has become widespread, and there has been a remarkable increase in the number of display devices installed in a downtown area or the like. However, at the same time, it is a fact that the novel display of a general display device having a conventional square / rectangular display surface has become less novel and the so-called eye catch effect has been reduced as compared with before.

[0004]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a device for displaying characters, figures, symbols, etc., which has a display section in which display elements are arranged in a matrix and displays a conventional square or rectangular display surface. Is that it is not possible to realize a display device capable of expression that could not be achieved with a display device equipped with

[0005]

According to the present invention, there is provided an apparatus for displaying characters, figures, symbols, etc., comprising a display section in which display elements are arranged in a matrix. A display data storage unit for storing display data composed of two-dimensional dot patterns such as characters, figures, and symbols; and a display data transformation unit for transforming display data read from the display data storage unit in accordance with the shape of the display unit. A display device comprising: a display element driving unit that drives a display element of a display unit in accordance with the deformation data given to the display data deformation unit.

(2) In a device for displaying characters, figures, symbols, etc., provided with a display section in which display elements are arranged in a matrix, display data consisting of two-dimensional dot patterns of characters, figures, symbols, etc. is stored. A display data storage unit for
Display data transformation means for transforming the coordinates of the display data read from the display data storage section, and display element driving means for driving a display element of the display section according to the transformation data given to the display data transformation means, The display data deforming means proposes a display device in which a display range of a predetermined shape is set in the display unit, and coordinates of the display data are converted according to the shape of the display range.

(3) In the display device proposed above, the display data deforming means sets the coordinates of the display data composed of the two-dimensional dot pattern in accordance with the shape of the display unit or the shape of the display range set in the display unit. A display device comprising a conversion table for conversion is proposed.

(4) Further, in the display device proposed in (1) above, a display device characterized in that the shape of the display section is a circle or an ellipse.

(5) Further, in the display device proposed in (2) above, a display device characterized in that the shape of the display range set in the display unit is a circle or an ellipse.

[0010]

According to the proposal of (1), a display in which display data such as characters, graphics, and symbols formed of a two-dimensional dot pattern is read from the display data storage unit and display elements such as LEDs are arranged in a matrix. Since the display data is deformed by the display data deforming means in accordance with the shape of the portion and the display element is driven to blink in accordance with the deformed data, a special character font must be prepared even if the display portion has a shape other than a rectangle, for example. Instead, the message can be displayed using a general-purpose character generator. Also, when creating display data such as figures and symbols, the display data can be created with the same rectangular image as that of the conventional display device without being conscious of the shape of the display unit.

According to the proposal (2), display data such as characters, graphics, and symbols formed of a two-dimensional dot pattern is read from the display data storage unit, and display elements such as LEDs are arranged in a matrix. A display range of a predetermined shape is set in the unit, the read display data is deformed according to the shape of the display range, and the display element is driven to blink according to the deformed data. Even if the display range is set, an elliptical deformed message can be displayed using a general-purpose character generator without preparing a special character font.
Also, when creating display data such as figures and symbols, the display data can be created with the same rectangular image as that of the conventional display device without being conscious of the shape of the display unit.

According to the proposal of (3), the display data transformation means refers to the coordinate conversion table registered in advance, and displays
The coordinates of the display data composed of the dimensional dot information are converted according to the shape of the display unit or the shape of the display range set in the display unit. Therefore, during the display processing from reading the display data from the display data storage unit to displaying the data on the display unit, coordinate conversion can be performed without using a function equation or the like, and the processing time can be reduced.

According to the proposals (4) and (5), since the shape of the display unit or the shape of the display range set in the display unit is a circle or an ellipse, a fresh impression that cannot be obtained with a conventional display device is obtained. Can be given. In addition, although the display unit or display range is actually formed of a flat surface, it can be deformed and displayed in a three-dimensional image on the assumption that it is a sphere or an elliptical sphere, so that an excellent eye catching effect can be obtained.

[0014]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram showing a configuration of a display device according to an embodiment of the present invention. Reference numeral 1 denotes a display controller comprising a microcomputer, a system program for starting up the system of the entire display device, a display data creation program for creating display data using an input device such as a remote controller, a PC memory card 2 inserted from outside, or an external device. And an interface program for interfacing with the remote controller 3. Reference numeral 4 denotes a drive circuit as a display element driving means, which is configured by a switching element such as a transistor. Reference numeral 5 denotes a display unit in which display elements such as LEDs are arranged in a matrix on a printed circuit board, and characters, figures, symbols, and the like are displayed in a dot pattern. In the illustrated example, display elements are arranged at equal intervals on an elliptical printed circuit board so as to fill the inside of the ellipse.

FIG. 2 is a structural explanatory diagram for explaining the display controller 1 in more detail. 6 is a CPU, 7 is a display data storage unit, 8 is a driver controller for driving the drive circuit 4 according to the display data, and 14 is a video RA.
M and 9 are interfaces connected to the PC card 2 and the remote controller 3, and 15 is display unit 5 for displaying display data (two-dimensional dot pattern) read from the display data storage unit 7.
This is a display data deforming means for deforming and deforming according to the shape (elliptical shape). The display data storage unit 7 includes a data ROM 10, a data RAM 11, a character generator 12, and a work RAM 13. Note that data R
The OM 10 and the data RAM 11 store a display sentence and a graphic in which an arbitrary figure, picture, or symbol is represented by a dot pattern. In particular, the data ROM 10 includes a coordinate conversion table described later. The character generator 12 is a character generator that stores character patterns such as hiragana, kanji, numbers, and alphabets.
Reference numeral 3 denotes access to each memory and operation of the system according to a remote control operation input through the interface 9. The display data stored in the display data storage unit 7 is developed in the video RAM 14 provided on the driver controller 8 side and displayed on the display unit 5 via the drive circuit 4.

Next, a description will be given of a display data transformation process performed by the display data transformation means 15. FIG. Here, FIG. 3 shows a processing procedure of the transformation by taking up a case of displaying in a three-dimensional expression on an elliptical display portion, taking a standard character font “A” as an example. First, the character "A" is read from the character generator 12 (a), and a dot pattern represented by 16 dots vertically and 16 dots horizontally is enlarged to a predetermined size (b). Next, assuming that the elliptical display section 5 is a three-dimensional elliptical sphere, “A” is enlarged on the surface of the elliptical sphere.
(C). Here, the assumed elliptical sphere is represented in a polar coordinate system, and “A” attached to the surface of the elliptical sphere is projected onto a YZ plane from a predetermined position on the X axis (d). That is, a two-dimensional dot pattern is converted to a polar coordinate system (three-dimensional dot pattern).
Is converted to a two-dimensional dot pattern by projecting from a fixed point on the X axis in the polar coordinate system.
By performing such processing, it is possible to obtain a deformation effect as if a character is drawn on a three-dimensional elliptical sphere surface despite the two-dimensional dot pattern.

In an actual display device, a display text (composed of characters read from a character generator) or a graphic is read from the display data storage means 7 and the read content (display data) is stored in a video R.
The display is developed by flashing the display element of the display unit 5 through the driver controller 8 and the drive circuit 4 in the AM14, and the deformation processing shown in FIG. When the processing is executed in real time by using, a great deal of processing time is required for the transformation processing, and it takes several minutes to finish displaying one display sentence. Therefore, in the present invention, each dot in the two-dimensional dot pattern constituting the display data is regarded as a coordinate, and the positional relationship with respect to the two-dimensional dot pattern obtained as a result of performing the deformation process shown in FIG. Then, a method of storing as a coordinate conversion table is adopted. That is, each dot of the two-dimensional dot pattern read from the display data storage means 7 is converted into an elliptical two-dimensional dot pattern corresponding to the shape of the display unit with reference to the coordinate conversion table. By doing so, there is no need to calculate using a functional equation, and the deformation processing time is greatly reduced.

Next, the display operation of the display device according to the embodiment of the present invention will be described with reference to FIG. First, display schedules (characters, sentences, figures, pictures,
The display data of the two-dimensional dot pattern is read from the display data storage means 7 in accordance with the combination of symbols and the like, the display time, and the display order (S11), and is expanded to a predetermined size (S12). At this time, the size of the display data stored in the display data storage means is 16 dots × 16 dots per character in the case of a character font, and 40 dots × horizontal in the case of a graphic representing a figure / picture / symbol. 50
These dots are enlarged to 80 dots vertically and 100 dots horizontally. Next, each dot of the enlarged display data is regarded as a coordinate, and replaced with coordinates corresponding to the display elements arranged on the display unit 5 with reference to the coordinate conversion table (S
13). The display data subjected to the coordinate conversion is deformed as if drawn on the surface of the elliptical sphere as described above. The display data subjected to the coordinate conversion is developed in the video RAM 14 (S14), and the drive circuit is operated. The display elements arranged on the display unit 5 are driven to blink through the display unit 4 to perform display (S15) (S16). Next, it is determined whether or not all the read display data (for example, "OPEN") has been displayed (S17). If the display is being performed, the process returns to S12. When the display is completed, the next display data is displayed according to the display schedule. Perform the action.

FIG. 5 shows a state in which the display data is displayed on the display unit while being deformed as described above.
It is. That is, FIG. 5A shows display data before coordinate conversion, and FIG. 5B shows how display data is coordinate-converted by the display data transformation means and is actually displayed on the display unit 5. In this way, by using a general-purpose character generator, a three-dimensional impression is displayed without any special editing or processing by a human. Of course, not only characters stored in the character generator but also graphics such as figures, pictures, and symbols that are arbitrarily created can be stored in a data RAM in a rectangular dot pattern when displayed in a three-dimensional manner. Deformation is given.

Although the present invention is configured as described above, it is not limited to the above embodiment. For example,
The display unit may be a shape or a part of a shape other than an ellipse, and the assumed solid may be a cylinder or the like. Furthermore, the position at which the display data is pasted on the three-dimensional object and the direction of projection can be arbitrarily set. Alternatively, for example, an elliptical display range may be assumed in a conventional rectangular display unit, and the present invention may be applied to the display range.

[0021]

As described above, according to the present invention, display data such as characters, graphics, and symbols formed of a two-dimensional dot pattern is read from the display data storage unit, and display elements such as LEDs are arranged in a matrix. The display data is deformed three-dimensionally by the display data deforming means in accordance with the configuration of the configured display section, and the display element is driven to blink in accordance with the deformed data. Therefore, for example, even if the display unit is formed in a shape other than a rectangle, a message with a rich visual effect, which has not been available in the past, can be displayed using a general-purpose character generator without preparing a special character font. Also, when creating display data such as figures and symbols, the display data can be created with the same rectangular image as that of the conventional display device without being conscious of the shape of the display unit.

Also, display data such as characters, figures, and symbols composed of a two-dimensional dot pattern is read from a display data storage unit, and a display element such as an LED is arranged in a matrix in a display unit having a predetermined shape. Set the display range.
Then, the read display data is three-dimensionally deformed in accordance with the shape of the display range, and the display element is driven to blink in accordance with the deformed data. For example, an elliptical display range is set in a rectangular display unit which has been conventionally used. Even so, the same effect as described above can be obtained.

Further, the display data transformation means refers to a coordinate conversion table registered in advance and converts the coordinates of the display data consisting of two-dimensional dot information into the shape of the display unit or the shape of the display range set in the display unit. The coordinate conversion is performed three-dimensionally in response. Therefore, during the display process from reading out the display data from the display data storage unit to displaying it on the display unit, coordinate conversion can be quickly performed without using a function equation or the like, and processing time can be reduced. Therefore, speedy and smooth display can be realized.

Further, since the shape of the display unit or the shape of the display range set in the display unit is a circle or an ellipse, a fresh impression that cannot be obtained with a conventional display device can be given. In addition, although the display unit or display range is actually formed of a flat surface, it can be deformed and displayed in a three-dimensional image on the assumption that it is a sphere or an elliptical sphere, so that an excellent eye catching effect can be obtained.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram illustrating a configuration of a display device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram illustrating a configuration of a display controller.

FIG. 3 is an explanatory diagram showing a display data transformation processing procedure according to an embodiment of the present invention.

FIG. 4 is an explanatory diagram showing a display operation of the display device according to one embodiment of the present invention.

FIG. 5 is an explanatory diagram illustrating a state where display data is displayed on a display unit.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 display controller 4 drive circuit as display element driving means 5 display section 7 display data storage section 15 display data transformation means

 ──────────────────────────────────────────────────続 き Continued on the front page F-term (reference) GG26

Claims (5)

[Claims] 1. An apparatus for displaying characters, figures, symbols, etc., comprising a display section in which display elements are arranged in a matrix, and displaying data consisting of two-dimensional dot patterns of characters, figures, symbols, etc. A storage unit, a display data deforming unit that deforms the display data read from the display data storage unit according to the shape of the display unit, and a display element of the display unit is driven according to the deformation data given to the display data deforming unit. A display device comprising: a display element driving unit. 2. An apparatus for displaying characters, figures, symbols, and the like, comprising a display unit in which display elements are arranged in a matrix, and displaying data comprising two-dimensional dot patterns of characters, figures, symbols, etc. A storage unit, a display data deforming unit that converts coordinates of the display data read from the display data storage unit, and a display element driving unit that drives a display element of the display unit according to the deformation data given to the display data deforming unit. Wherein the display data transformation means comprises:
A display device, wherein a display range of a predetermined shape is set in a display unit, and coordinates of display data are converted according to the shape of the display range. 3. The display device according to claim 1, wherein the display data deforming unit changes the coordinates of the display data composed of the two-dimensional dot pattern according to the shape of the display unit or the shape of the display range set in the display unit. A display device comprising a conversion table for performing coordinate conversion. 4. The display device according to claim 1, wherein the shape of the display section is a circle or an ellipse. 5. The display device according to claim 2, wherein the shape of the display range set in the display section is a circle or an ellipse.