JP3982606B2 - Message display device, message display system, message display method, and message display program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a message display device, a message display system, a message display method, and a message display program.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a system that can be used to transmit a message between a plurality of people, there are a message system using the Internet, a portable information device generically called PDA (Personal Digital Assistant), and the like.
[0003]
In these systems and apparatuses, input information input to an input member such as a keyboard is stored in a storage member, and this input information is read from the storage member and displayed on a display member. Therefore, by inputting a message from the input member, the message can be displayed as necessary. In some portable information devices, a touch panel is used as an input device, and a message can be stored as handwritten image data.
[0004]
[Problems to be solved by the invention]
However, these conventional systems and devices have the following problems.
[0005]
First, in the message system using the Internet, the viewer first opens a screen in which a large number of messages are listed in a tree structure etc., and then displays each message by selecting a predetermined message. Will do. In such a message display method, the viewer searches for a desired message by reciprocating between the list screen and the message screen. In addition, each message is often described simply, and there are many cases where the meaning content cannot be accurately grasped by itself. As a result, the viewer grasps the meaning content of the desired message by reciprocating between the list screen and the message screen.
[0006]
Second, even in the portable information device, the viewer first opens a screen on which a large number of messages are displayed in a tree structure or the like, and then displays each message by selecting a predetermined message. Become. In such a device, since the viewer and the input person generally match, there are few cases where the meaning content of the displayed message cannot be grasped alone, but when searching for old messages, the list screen is still used. And a message screen are searched for a desired message.
[0007]
Therefore, when these systems and devices are used as a message display system for notifying the absence or transmitting a message in a home or office, for example, the latest message is displayed in advance. Even so, it's very difficult to understand what it means just by glancing at it.
[0008]
Also, even when searching for past messages, it is very difficult to understand the meaning of the contents simply by browsing each message.
[0009]
As a result, these systems and devices have not been practically used as message display systems.
[0010]
The present invention is intended to solve such problems, and a message display device, a message display system, a message display method, and a message display program capable of grasping the meaning and content of a message simply by looking at it. The purpose is to obtain.
[0011]
[Means for Solving the Problems]
The message display device according to the present invention is a message display device that causes a message input from an input member to be displayed on the display member, and is an image generation unit that generates gradation image data based on input information output from the input member. And a storage member for storing a plurality of gradation image data generated by the image generation means and a predetermined number of gradation image data stored in the storage member so that the messages can be distinguished from each other. And display means for generating display image data to be displayed on the member and outputting the display image data to the display member. The display means displays the display state of each gradation image data according to the elapsed time of each gradation image data, the elapsed time of the last generated gradation image data, or the next new gradation image data generation processing. Change The display state is changed such that the older the grayscale image data is input, the smaller the size of the image displayed when superimposed on the display member, and the display position deviates from the center of the display member. .
[0013]
In the message display device according to the present invention, as the display unit is older in the input order of the gradation image data, the density, lightness, saturation, or hue when displayed on the display member is less conspicuous than the background. In this way, the display state changes.
[0015]
The message display device according to the present invention is provided with re-display means for reproducing past gradation image data by reproducing the display state of the display means.
[0016]
The message display device according to the present invention is provided with a deleting unit that deletes the gradation image data for which a predetermined holding period has elapsed from the storage member.
[0017]
The message display system according to the present invention includes: Any of the above A message display device; Concerned A liquid crystal display member that displays display image data output from the message display device, and a pressure-sensitive member that is disposed on the liquid crystal display member and outputs position information of a portion to which pressure is applied to the message display device. The image generating means of the message display device generates binary image data in which the gradation value of the part to which position information is input is different from the remaining gradation value as gradation image data.
[0018]
A message display method according to the present invention is a message display method for displaying a message input from an input member on a display member, and generates gradation image data based on input information output from the input member. Generates display image data that is stored and superimposes the stored multiple gradation image data so that the messages can be distinguished from each other, and outputs the display image data to the display member. The display state of each tone image data is changed according to the elapsed time of the last tone image data, the elapsed time of the last generated tone image data, or the next new tone image data generation process. The plurality of gradation image data to be overlaid on the display image data is older in the input order so that the size of the image displayed on the display member is smaller and the display position of the display member is Change the display state to deviate from the center I try to do it.
[0020]
In the message display method according to the present invention, the density, lightness, saturation, or hue of the plurality of gradation image data superimposed on the display image data is more conspicuous with respect to the background as the gradation image data is input in the older order. The display state is changed so that it disappears.
[0022]
A message display program according to the present invention includes: an image generation unit that causes a computer including an input member, a storage member, and a display member to generate gradation image data based on input information output from the input member and store the gradation image data in the storage member; Display image data obtained by superimposing a predetermined number of gradation image data stored in the storage member so that the messages can be distinguished from each other, and outputting the generated display image data to the display member. The display state of each tone image data is changed according to the elapsed time of the last tone image data, the elapsed time of the last generated tone image data, or the next new tone image data generation process. The display state is changed so that the older the grayscale image data is input, the smaller the size of the image displayed on the display member, and the display position deviates from the center of the display member. Display means.
[0024]
In the message display program according to the present invention, as the display unit is older in the input order of the gradation image data, the density, lightness, saturation, or hue when displayed on the display member is less conspicuous than the background. In this way, the display state changes.
[0026]
The message display program according to the present invention realizes a redisplay means for reproducing past gradation image data by reproducing the display state of the display means.
[0027]
The message display program according to the present invention is provided with a deleting means for deleting gradation image data for which a predetermined holding period has elapsed from the storage member.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a message display device, a message display system, a message display method, and a message display program according to the present invention will be described below with reference to the drawings.
[0029]
The message display program will be described in a state where it is stored in the built-in storage medium. Even if this message display program is stored in a built-in storage medium by downloading via a network such as the Internet, the message stored in a portable storage medium such as a compact disk is read by a computer. May be stored in a built-in storage medium.
[0030]
The message display device will be described as a central processing unit that executes a message display program. The message display method will be described as the operation of the central processing unit that executes the message display program.
[0031]
Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing a message display system according to Embodiment 1 of the present invention.
[0032]
This message display system includes a central processing unit 1 as a message display device for executing a program, a memory 2 used when the central processing unit 1 executes the program, and a built-in storage medium as a storage member for storing the program. 3, a video memory 4 to which the gradation image data generated by the central processing unit 1 is written, a timer 5 that measures time and outputs a timer interrupt to the central processing unit 1 at a predetermined set time, and a color liquid crystal An I / O port 8 to which peripheral devices such as a display device 6 and a touch panel 7 are connected, and a system bus 9 for connecting them to each other are provided.
[0033]
The color liquid crystal display device 6 displays a predetermined image on the basis of the gradation image data stored in the video memory 4, and in particular at a density corresponding to the gradation value in each of the three primary colors such as RGB. It can be displayed.
[0034]
The touch panel 7 is disposed so as to overlap the color liquid crystal display device 6 and outputs position information of a portion pressed by, for example, a touch pen or a finger.
[0035]
In this embodiment, the color liquid crystal display device 6 corresponds to a display member or a liquid crystal display member, and the touch panel 7 corresponds to an input member or a pressure sensitive member.
[0036]
The built-in storage medium 3 stores a system control program 10 and a handwriting input display program 11. In the first embodiment, the system control program 10 and the handwriting input display program 11 correspond to a message display program.
[0037]
The system control program 10 includes, for example, an execution program management program 12, a display control program 13, an interrupt control program 14, an input operation determination program 15, and the like. A handwritten input display program 11 that operates on the system control program 10 performs its operation. It provides various functions that can be used at the time.
[0038]
The execution program management program 12 is executed by the central processing unit 1 to realize a system control function in the message display system. This system control function manages the start / stop of all programs including other programs of the system control program 10, and performs a process of transferring data from one program to the other program. Thereby, various processes which cooperate the some program which comprises the handwriting input display program 11 are realizable.
[0039]
The display control program 13 is executed by the central processing unit 1 to realize a display control function in the message display system. The display control function periodically outputs gradation image data stored in the video memory 4 to the color liquid crystal display device 6 via the I / O port 8. Thus, the handwritten input display program 11 can display the image on the color liquid crystal display device 6 simply by writing the gradation image data of a desired image to the video memory 4.
[0040]
The interrupt control program 14 is executed by the central processing unit 1 to implement an interrupt control function in the message display system. For example, when there is a timer interrupt or the like, the interrupt control function acquires information from the peripheral device related to the interrupt and transfers the information to the execution program management program 12. Thereby, the various programs of the handwriting input display program 11 can be executed based on the input information from the peripheral device.
[0041]
The input operation determination program 15 is executed by the central processing unit 1 to realize an input operation determination function in the message display system. The input operation determination function specifies a display object displayed at a position corresponding to the position of the position information output from the touch panel 7, and starts a program (process) corresponding to the display object, or corresponds to the display object. The position information is output to a program (process) to be executed. Thereby, various programs of the handwriting input display program 11 can be operated in accordance with an input operation on the touch panel 7 or the like.
[0042]
The handwritten input display program 11 includes, for example, an application control program 16, application display data 17, a handwritten data generation program 18, a handwritten display update program 19, a handwritten data display setting program 20, a handwritten data erasure program 21, and the like, and an execution program management program. The input information input from the touch panel 7 is displayed on the color liquid crystal display device 6 in cooperation with the system control program 10 under the management of 12.
[0043]
The data generated by the central processing unit 1 in accordance with the execution of the handwriting input display program 11 includes handwritten data 22, handwritten data input time 23, handwritten data common display setting information 24, and the like.
[0044]
The application control program 16 is executed by the central processing unit 1 to realize an application control function in the message display system. This application control function manages the execution of other programs of the handwriting input display program 11 in cooperation with the system control function, and performs data communication processing between programs constituting the handwriting input display program 11. In addition, when the handwriting input display program 11 is started, an initial setting process for handwriting input is performed.
[0045]
The application display data 17 includes various display data to be displayed on the color liquid crystal display device 6 during execution of the handwriting input display program 11. As such display data, for example, as will be described later, a window for displaying data of a handwriting input button 25 for starting handwriting input, data of a setting button 26 for performing various settings, and gradation image data 27 data, background data used as these backgrounds, and the like.
[0046]
The handwritten data generation program 18 is executed by the central processing unit 1 to realize handwritten data generation means as image generation means in the message display system in cooperation with the various functions described above. The handwritten data generation unit generates binary image data based on input information input from the touch panel 7.
[0047]
Specifically, for example, during the period from when the handwriting input button 25 is operated to when the handwriting input button 25 is operated again, the position information from the touch panel 7 corresponding to the window 27 displaying the gradation image data is accumulated. Then, binary image data in which the gradation value of the part to which the plurality of position information is input is different from the gradation value of the remaining part is generated. In addition, the time is acquired from the timer 5 together with the generation processing of the binary image data. The binary image data is stored in the built-in storage medium 3 as handwritten data 22, and the time is stored in the built-in storage medium 3 as handwritten data input time 23.
[0048]
In the period of such handwritten data generation processing, for example, the handwritten data generation means writes the position information in the video memory 4 each time position information is input, for example. Thereby, the user who is writing to the touch panel 7 can grasp the message image that he / she is inputting by handwriting in real time.
[0049]
By the way, the gradation image data stored as the handwritten data 22 is not limited to binary image data, and may be so-called multi-value image data having three or more values. However, when such multi-valued image data is input by hand, information such as the pressure of the pressed part is output from the touch panel 7 together with the position information of the pressed part, and this is used for gradation. The value needs to be determined.
[0050]
The input time stored as the handwritten data input time 23 is used for subsequent display control or erasure. Therefore, it is not necessary to be a strict input time, and it is sufficient if it has a certain correlation with the time when the actual input processing is performed.
[0051]
The handwritten display update program 19 is executed by the central processing unit 1 to realize handwritten display update means in the message display system in cooperation with the various functions described above. This handwritten display update means processes a plurality of binary image data stored in the built-in storage medium 3 into different display states, and generates display image data in which these are superimposed. In the first embodiment, the display means is a combination of the handwritten display update means and the display function.
[0052]
Specifically, for example, the handwritten display update means periodically prohibits the reading of the gradation image data from the video memory 4 by the display control function, and after refreshing the video memory 4, the built-in storage medium 3, each binary image data is read in order from the oldest input time, and each is processed based on the handwritten data common display setting information and sequentially written in the video memory 4.
[0053]
If reading of gradation image data from the video memory 4 by the display control function cannot be prohibited, a storage area of the same size as the video memory 4 is secured on the memory 2 and the same processing is performed on the memory 2. Then, it is preferable to write to the video memory 4 at once.
[0054]
The handwritten data common display setting information 24 is display information for superimposing so that at least the binary image data displayed in an overlapping manner can be distinguished from each other and visually recognized. Specifically, for example, the display gradation value (density) according to the elapsed time from the input time, the color saturation according to the elapsed time from the input time, and the brightness of the color according to the elapsed time from the input time The display size (display magnification) according to the elapsed time from the input time, the display position (origin position of the binary image data) according to the elapsed time from the input time, and the like. In addition, there is a display color (hue) of binary image data according to the input order. In the message display system according to the first embodiment, only handwriting input is possible. However, in the case of a system configuration that allows input from a keyboard or the like, for example, the type and size of the font are also handwritten. The data common display setting information 24 may be set.
[0055]
The plurality of binary image data processed based on the handwritten data common display setting information 24 may basically be superimposed so that at least they can be distinguished from each other as described above. Preferably, the older the input time, the better it is not to stand out in the display image data. As a result, the latest information can be clearly and easily discriminated despite the overlapping of a plurality of binary image data. In particular, when the display is controlled based on the elapsed time from the input time, unlike the case where the display state is changed only in the input order, the age of each binary image data is compared with the background. And intuitive determination based on the size and position of the image.
[0056]
Specifically, for example, as the binary image data has a longer elapsed time from the input time, the density becomes less conspicuous with respect to the background (density with a small density difference), and the lightness becomes less noticeable with respect to the background (lightness difference is smaller). Binary image data with a long elapsed time from the input time, using saturation (saturation with low saturation difference) or hue (slight hue difference) that does not stand out with respect to the background. The handwritten data common display setting information 24 may be set so that the display size is smaller or the display position is shifted from the center and closer to the end.
[0057]
Alternatively, in accordance with the relative input order of a plurality of binary image data, the older the input order, the less conspicuous the background (density with a small density difference) and the less conspicuous lightness (lightness difference). (Small density), Saturation that does not stand out against the background (Density with little saturation difference), or Hue that does not stand out against the background (Density that has little hue difference). The handwritten data common display setting information 24 may be set so that the display position is shifted from the center and close to the end.
[0058]
When the density, brightness, saturation, or hue of the display image is set as described above, the density, brightness, saturation, or hue of the background data may be set together.
[0059]
In the first embodiment, the handwritten data common display setting information 24 for controlling the display state based on the elapsed time from the input time and the input order is set. The handwritten data common display setting information 24 for controlling the display state based on the person or the like may be set. Accordingly, it is possible to easily determine who is the input message by simply looking at the display state without inputting the name of the input person in the handwritten message.
[0060]
In this way, by sequentially overwriting the old binary image data on the video memory 4, the newer binary image data is displayed with priority, and the latest handwritten input is displayed with priority. Can be made.
[0061]
The handwritten data display setting program 20 is executed by the central processing unit 1 to realize handwritten data display setting means in the message display system in cooperation with the various functions described above. This handwritten data display setting means sets handwritten data common display setting information 24.
[0062]
Specifically, for example, when position information is input from the touch panel 7 in a period from when the setting button 26 is operated to when the setting button 26 is operated again, the setting item displayed at the position is displayed. The handwritten data common display setting information 24 is updated. Note that if the setting information updated by the handwritten data display setting means is written in the video memory 4 during such a setting process period, the user who is setting the setting information input by himself / herself in real time. I can grasp it.
[0063]
Note that the display image data update cycle, the holding time for storing each binary image data in the built-in storage medium 3, and the like may be set.
[0064]
The handwritten data erasing program 21 is executed by the central processing unit 1 to realize handwritten data erasing means as deleting means in the message display system in cooperation with the various functions described above. The handwritten data erasing means erases the binary image data from the built-in storage medium 3 when a predetermined holding period has elapsed from the input time. As a result, the binary image data stored in the built-in storage medium 3 is automatically organized, eliminating the need for the user to perform a cumbersome process of erasing each binary image data. Since the erased binary image data is not reflected in the next display image data, only the necessary handwritten message can be displayed on the color liquid crystal display device 6. It is not necessary to display all the binary image data stored in the built-in storage medium 3 on the color liquid crystal display device 6. For example, only the latest several binary image data may be displayed.
[0065]
In the first embodiment, the input time is stored for each binary image data, and the binary image data is deleted after a lapse of a predetermined elapsed time from the input time. An erasure algorithm such as For example, when the elapsed time from the last handwriting input time exceeds a certain value, the oldest one is deleted in order, or the specified number of binary image data is accumulated, and the oldest one at the time of the next handwriting input It may be deleted.
[0066]
Next, the overall operation of the message display system according to Embodiment 1 will be described.
[0067]
FIG. 2 is a flowchart showing the overall operation of the message display system shown in FIG.
[0068]
When the power of the message display system is turned on, each program of the system control program 10 is executed by the central processing unit 1, and the application control program 16 is executed by the central processing unit 1 to perform an initial setting process. . More specifically, background data, window 27 data, handwriting input button 25 data, setting button 26 data, and the like stored as application display data 17 are written into the video memory 4. As a result, gradation image data in which the window 27, the handwriting input button 25, the setting button 26, etc. are arranged at predetermined positions on the background is generated in the video memory 4 and displayed on the color liquid crystal display device 6 ( Step: ST01).
[0069]
When this initial setting process is completed, the central processing unit 1 that executes the application control program 16 enters a state of waiting for input information from the touch panel 7 and a state of waiting for an interrupt from the timer 5 or the like (step: ST02). , ST03, ST04, ST05).
[0070]
In such a waiting state, when position information of a part corresponding to the setting button 26 is output from the touch panel 7 (step: ST02), the handwritten data display setting program 20 is executed by the central processing unit 1 based on this position information. The handwritten data display setting process is executed. Specifically, various setting items for displaying handwritten data, buttons for setting the respective values, current setting values, and the like are displayed. In this state, the part corresponding to the button on the touch panel 7 is pressed. Then, the button operation is determined based on the position information, and the setting value of the setting item is updated. The updated setting value is written in the video memory 4, and the user can check the latest setting state on the color liquid crystal display device 6 (step: ST06).
[0071]
When this handwritten data display setting process ends, the central processing unit 1 executes the handwritten display update program 19. In this handwritten display update process, specifically, each setting information is extracted from the handwritten data common display setting data based on the elapsed time of each binary image data at that time, and this extracted setting information is used. Each binary image data is written into the video memory 4 in the oldest order. In this handwritten display update process, the next display update time is set in the timer 5. As a result, a plurality of binary image data stored in the built-in storage medium 3 can be superimposed and displayed in the window of the color liquid crystal display device 6. If the setting is made before handwritten input, there is no binary image data itself, so nothing is displayed in the window 27 (step: ST07).
[0072]
When the handwritten data display setting process and the handwritten display update process are completed, the central processing unit 1 that executes the application control program 16 waits for input information from the touch panel 7 and waits for an interrupt from the timer 5 or the like. (Steps: ST02, ST03, ST04, ST05).
[0073]
When the position information of the part corresponding to the handwriting input button 25 is output from the touch panel 7 (step: ST03), the handwritten data generation program 18 is executed by the central processing unit 1 based on this position information, and the handwritten data generation process is performed. Is done. Specifically, the position information from the touch panel 7 corresponding to the window 27 is accumulated to generate binary image data. Next, when the handwriting input button 25 is operated, the binary image data is stored in the built-in storage medium 3 together with the input time (step: ST08).
[0074]
After this handwritten data generation processing, handwritten display update processing is executed (step: ST07), and when these processing ends, the central processing unit 1 that executes the application control program 16 receives input information from the touch panel 7. An input wait state and an interrupt wait state from the timer 5 or the like are entered (steps: ST02, ST03, ST04, ST05).
[0075]
When the display update time comes and a timer interrupt is output from the timer 5, the central processing unit 1 executes a handwritten display update process (step: ST07). Then, by periodically repeating the handwriting display update process in this way, each binary image data is displayed on the color liquid crystal display device 6 while changing its display state.
[0076]
Thus, when the handwritten data display setting process (step: ST06), the handwritten data generation process (step: ST08), and the handwritten display update process (step: ST07) are executed, for example, during the handwritten data generation process, The timer 5 is set with the erase time of the generated binary image data. This erasing time is a time obtained by adding a holding period to the input time. When a timer interrupt is output from the timer 5 at this erasing time, the central processing unit 1 executes the handwritten data erasing program 21. Specifically, the binary image data stored in the built-in storage medium 3 when setting the erase time is erased from the built-in storage medium 3 (step: ST09).
[0077]
Further, after the handwritten data erasing process, a handwritten display update process is executed (step: ST07). Thereby, the erased binary image data is also erased from the display of the color liquid crystal display device 6. When these processes are completed, the central processing unit 1 that executes the application control program 16 enters a state of waiting for input information from the touch panel 7 and a state of waiting for an interrupt from the timer 5 or the like (step: ST02, ST03, ST04, ST05).
[0078]
FIG. 3 is a display screen example showing the transition of the display screen displayed on the color liquid crystal display device 6 in the message display system shown in FIG.
[0079]
In this display screen example, a handwriting input button 25 and a setting button 26 are displayed on the left side of the display screen, and a window 27 for displaying gradation image data is displayed on the right side of the display screen. The window 27 is a display area for display image data, and the area overlapping the display area is position information for handwriting input.
[0080]
As shown in FIG. 3A, after the binary image data is generated by the first handwritten data generation process, the first binary image data is gradually reduced as time passes and the window 27 Move to the upper left side of. Thereby, the viewer who has seen the color liquid crystal display device 6 can visually and intuitively determine the freshness (oldness) of each handwritten message based on the size of the handwritten message.
[0081]
Then, when the second binary image data is generated by the second handwritten data generation process when the predetermined time has elapsed, as shown in FIG. The display is such that the first binary image data is superimposed on the upper left side of the binary image data. By reducing the size of the binary image data displayed in this way and moving it to the corner, even if an old handwritten message is displayed in the window 27, an area for writing a new message is automatically generated. . Therefore, it is possible to input a new handwritten message and an old handwritten message so that they can be easily distinguished. Also, although not shown in the drawing, since the hue of each handwritten message is changed according to the input order, etc., these two handwritten messages are overlapped even if two handwritten messages overlap. Even so, they can be easily distinguished from each other.
[0082]
Further, when the third binary image data is generated by the third handwritten data generation process at the time when a predetermined time has passed, as shown in FIG. The first binary image data and the second binary image data are displayed superimposed on the upper left side of the binary image data. Since the sizes of the binary image data shifted to the upper left also differ depending on the elapsed time from the input time, even if three handwritten messages are displayed in the window 27 in an overlapping manner, they are easily distinguished from each other. Each content can be easily grasped. Further, although not shown in the drawing, since the hue of each handwritten message is changed according to the input order, etc., these three handwritten messages are included even if the three handwritten messages are within a short period of time. Even if they are input and overlapped, they can be easily distinguished from each other.
[0083]
As in the first embodiment, the binary image data relating to a plurality of handwritten messages are displayed in a superimposed manner with different sizes and colors according to the elapsed time from each input time. Even if a series of handwritten messages are superimposed and displayed on the color liquid crystal display device 6, they can be distinguished from each other and visually recognized.
[0084]
In particular, since a plurality of handwritten messages are displayed on the color liquid crystal display device 6 at the same time, it is possible to easily grasp the exchange between messages. Even if the message is simply input by handwriting, Each semantic content can be easily and accurately determined based on the relationship with the message.
[0085]
Embodiment 2. FIG.
FIG. 4 is a block diagram showing a message display system according to Embodiment 2 of the present invention.
[0086]
In this message display system, a handwritten data redisplay program 28 is added as the handwritten input display program 11, and handwritten data individual display setting information 29 is generated instead of the handwritten data input time 23 when the handwritten data generation program 18 is operated.
[0087]
The handwritten data individual display setting information 29 is a database in which various information regarding the binary image data is stored together with the generation time of the binary image data. Specifically, for example, individual display setting information, a display period, an erasing time, and the like are stored for each binary image data, together with an input time, a location on the built-in storage medium 3, and the like. The individual display setting information is generated by, for example, loading the setting information of the handwritten data common display setting information 24 as an initial value, and then correcting the input information as necessary after handwriting input. As a result, there is no setting operation when inputting a normal message. For important messages and urgent messages, the display period and display status can be changed according to the importance and urgency of each message. Can be changed.
[0088]
Note that the display start time, the input person, and the like may be set as individual display setting information. Thus, for example, even when the house is absent, various messages can be stored in advance and displayed at a predetermined timing, or past binary image data can be searched for each input person. it can.
[0089]
The handwritten data redisplay program 28 is executed by the central processing unit 1 to realize handwritten data redisplay means as redisplay means in the message display system in cooperation with various functions. This handwritten data re-display means displays past binary image data in order from the newest one each time a history display button (not shown) displayed on the color liquid crystal display device 6 is operated, for example.
[0090]
When displaying the binary image data in the past, it is preferable to display the binary image data that is older than the binary image data, rather than displaying them individually. In this way, the past binary image data is displayed in an overlapping manner, and in the initial display, the past binary image data is also overlapped to form a picture as display image data. The image of the picture seen in the past can be reproduced as it is on the color liquid crystal display device 6, and the user can efficiently and reliably search for the handwritten message intended for the picture without reading the message itself. .
[0091]
Therefore, even if the same handwritten message is repeatedly input as in the case where this message display system is used as an electronic bulletin board device used at home, the content of the message is almost the same. Even if it exists, it becomes possible to distinguish these easily. And by enabling re-display in the image of the picture in this way, even if it is an infant with a low awareness of the date and time, even if it is not possible to remember exactly when the message was seen The desired message can be retrieved and redisplayed. That is, such a redisplaying method is more effective than a method of displaying the input time in binary image data, for example.
[0092]
Next, overall control by the central processing unit 1 that executes the application control program 16 will be described.
[0093]
FIG. 5 is a flowchart showing the overall operation of the message display system shown in FIG.
[0094]
When the initial processing after power-on is completed, the central processing unit 1 that executes the application control program 16 waits for input information from the touch panel 7 and waits for an interrupt from the timer 5 or the like (step: ST02, ST03, ST04, ST05, ST10).
[0095]
When the position information of the part corresponding to the history display button is output from the touch panel 7 (step: ST10), the handwritten data redisplay program 18 is executed by the central processing unit 1 based on this position information, and the handwritten data Redisplay processing is performed. Specifically, every time the history display button is operated, the binary image data immediately before the currently displayed binary image data is displayed. At this time, the binary image data immediately before is superimposed on each binary image data and displayed. Thereby, the user can search the past binary image data efficiently (step: ST11).
[0096]
It should be noted that other overall operations of the message display system in the second embodiment are partly changed from the entire operations in the first embodiment. Specifically, in the second embodiment, the display period is set as the handwritten data individual display setting information 29 together with the erasure time, and the binary image data is not already displayed when the binary image data is erased. As soon as the handwritten data erasing process (step: ST09) ends, the input information from the touch panel 7 is waited for input and the timer 5 is waiting for an interrupt (steps: ST02, ST03, ST04, ST05, ST10). ).
[0097]
Other components and operations are the same as those in the first embodiment, and a description thereof is omitted.
[0098]
As in the second embodiment, binary image data relating to a plurality of handwritten messages are displayed in a superimposed manner with different sizes and colors according to the elapsed time from each input time. Even if a series of handwritten messages are superimposed and displayed on the color liquid crystal display device 6, each message can be recognized by distinguishing them from each other.
[0099]
In particular, since multiple handwritten messages are displayed at the same time, it is possible to easily grasp the exchange between messages. Even if the message is simply input by handwriting, it is based on the relationship with past messages. Therefore, it is possible to easily and accurately determine the meaning contents of each.
[0100]
The above embodiment is a preferred embodiment of the present invention, but can be appropriately changed without departing from the gist of the present invention.
[0101]
For example, in the above embodiment, the display state of each binary image data is basically controlled only according to the elapsed time from the input time, but the display state is controlled according to the next input of handwritten data. Alternatively, the display state may be controlled based on both the time and the next input.
[0102]
In addition, although the case where the number of binary image data to be displayed in a superimposed manner is set to three is described as an example, the number of binary image data to be superimposed may be two or four or more. . However, when the number of binary image data to be displayed in an overlapping manner increases, the color liquid crystal display device 6 can be used even if the size, position, color information, density, etc. of each binary image data is controlled to be distinguished. Since it becomes difficult to distinguish each other in the display, the window 27 itself is divided in order to display more messages, or the input time, the message input person, and the designated viewer for the image more than a certain amount before And the like, and a message selected from the tree may be displayed on the window 27.
[0103]
Next, in the above embodiment, the case of controlling the hue, brightness, brightness, saturation, density, size, and position of binary image data to be displayed in a superimposed manner has been described, but it is necessary to make all of them different from each other. In the case of using a monochromatic liquid crystal display device or the like, only the density may be controlled.
[0104]
Furthermore, in the above embodiment, the upper limit of the binary image data that can be stored in the built-in storage medium 3 is not provided, but an upper limit may be set.
[0105]
【The invention's effect】
In the present invention, it is possible to grasp the meaning of the content by just looking at the message.
[Brief description of the drawings]
FIG. 1 is a configuration diagram illustrating a message display system according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing the overall operation of the message display system shown in FIG.
3 is a display screen example showing a transition of a display screen displayed on a color liquid crystal display device in the message display system shown in FIG. 1. FIG.
FIG. 4 is a configuration diagram showing a message display system according to a second embodiment of the present invention.
FIG. 5 is a flowchart showing an overall operation of the message display system shown in FIG. 4;
[Explanation of symbols]
1 Central processing unit (message display unit)
2 memory
3 Built-in storage media
4 Video memory
5 Timer
6 Color liquid crystal display device (display member, liquid crystal display member)
7 Touch panel (input material, pressure sensitive material)
8 I / O ports
9 System bus
10 System control program (message display program)
11 Handwriting input display program (message display program)
12 Execution program management program
13 Display control program
14 Interrupt control program
15 Input operation judgment program
16 Application control program
17 Application display data
18 Handwritten data generation program
19 Handwritten display update program
20 Handwritten data display setting program
21 Handwritten data deletion program
22 Handwritten data
23 Handwritten data input time
24 Handwritten data common display setting information
25 Handwriting input button
26 Setting button
27 windows
28 Handwritten data redisplay program
29 Handwritten data individual display setting information

Claims (11)

A message display device for displaying a message input from an input member on a display member,
Image generating means for generating gradation image data based on input information output from the input member;
A storage member for storing a plurality of gradation image data generated by the image generation means;
Display image data for causing the display member to display a predetermined number of gradation image data stored in the storage member so that the messages can be distinguished from each other is generated and output to the display member Display means for
The display means displays the display state of each gradation image data according to the elapsed time of each gradation image data, the elapsed time of the last generated gradation image data, or the next generation processing of new gradation image data. The older the grayscale image data in the input order, the smaller the size of the image when displayed on the display member, and the display position is shifted from the center of the display member. A message display device characterized in that the state changes .   The display means changes its display state so that the older the grayscale image data is input, the darker the density, lightness, saturation, or hue when displayed superimposed on the display member. The message display device according to claim 1, wherein: 3. The message display device according to claim 1, further comprising a re-display unit that displays past gradation image data by reproducing the display state of the display unit. Message display device according to any one of the three gradation image data of a predetermined holding period has elapsed from claim 1, characterized in that a deleting means for deleting from the storage member. The message display device according to any one of claims 1 to 4 , and
A liquid crystal display member for displaying display image data output from the message display device;
A pressure-sensitive member disposed on the liquid crystal display member and outputting position information of a portion to which pressure is applied to the message display device,
The image generation means of the message display device generates, as gradation image data, binary image data in which the gradation value of the portion where the position information is input is different from the remaining gradation value. Message display system. A message display method for displaying a message input from an input member on a display member,
Generate gradation image data based on the input information output from the input member and save it,
Display image data generated by superimposing a plurality of stored gradation image data so that messages can be distinguished from each other,
Outputting the display image data to the display member;
Elapsed time gradation image data, the elapsed time of the gradation image data generated at the end or, depending on the generation process of the next new gradation image data, to change the display state of the gradation image data, the display As the plurality of gradation image data to be overlaid in the image data are older in the input order, the size of the image when displayed on the display member is reduced, and the display position is the display member. message display method for Rukoto, the features to change the display state to be shifted from the center of. The plurality of gradation image data superimposed in the display image data have a display state such that the older the gradation image data is in the input order, the less the density, brightness, saturation, or hue becomes conspicuous with respect to the background. The message display method according to claim 6 , wherein the message is changed. In a computer comprising an input member, a memory member and a display member,
Image generation means for generating gradation image data based on the input information output from the input member and storing it in the storage member;
Display image data is generated by superimposing a predetermined number of gradation image data stored in the storage member so that the messages can be distinguished from each other, and this is output to the display member. Depending on the elapsed time of the data, the elapsed time of the last generated gradation image data, or the generation process of the next new gradation image data, the display state of each gradation image data is changed, and the gradation image data as the older in the order of input, and display means so that the size of the image is reduced, and display position Ru changing the display state so as to shift from the center of the display member when displayed superimposed on the display member ,
Message display program for realizing The display means changes its display state so that the older the grayscale image data is input, the darker the density, lightness, saturation, or hue when displayed over the display member becomes less conspicuous. The message display program according to claim 8, wherein: 9. The message display program according to claim 8 , wherein a re-display unit that reproduces and displays past gradation image data by reproducing a display state of the display unit is realized. The message display program according to any one of claims 8 to 10 , further comprising deletion means for deleting from the storage member gradation image data for which a predetermined retention period has elapsed.

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