JP6244605B2 - Image creation system - Google Patents

Description

The present invention receives a signal (hereinafter referred to as “image signal”) for displaying an image that has been continuously created, and refers to the image displayed by the image signal , and performs a new operation by operating the CAD. The present invention relates to a system for creating an image.

  When referring to images of paintings, posters, industrial designs, etc., when a third party creates an image again, if the completed image is referred to, the image is created under what motif and process. I ca n’t figure out.

Conversely, it receives the image signals that have been created to continue, with reference to the image which the image signal is displayed, in correspondence with the creation process, aiming the same arrangement as the image recipient by its own input you can create an image by, or in the case of performing the creation of images by adding corrections to the image, creating the image (hereinafter referred to as "received image".) which the image signal received by the display motifs, the elapsed etc. While specifically grasping, the receiver can create a new image.

  That is, an opportunity to create a new image based on the image can be obtained in a state completely different from the case of referring to the completed image.

Although already image region created is completed corresponds to a still image, created by continuously and the area portion is changed to reality corresponds to a video.

Therefore, an image that is continuously created can be evaluated as a partial moving image because there is an area portion that has changed due to the creation.

  The present invention is characterized in that a new image is created based on such a received image that is a partial moving image. However, there is no prior art relating to an image creation system based on such a feature.

  However, although there is some prior art relating to the correction of moving images, for example, in Patent Document 1, correction is made in a state where the moving image is stored (paragraph [0058]), and the moving image itself that is dynamically changed is corrected. I'm not.

  On the other hand, in Patent Documents 2 and 3, it is understood that the currently changing moving image is corrected (the claims 18 and 19 relating to the procedure correction 1 of Patent Document 2 and Patent Document 3). Paragraph [0116]) does not reveal any objective mechanism for the modification.

In any case, in these prior art documents, by referring to the image being created continuously, while grasping the motif and creation process of the image, the creation of the new image is quite by the prior art It would not be an exaggeration to evaluate that the disclosure and suggestion were not made.

JP 2006-157886 A JP 2004-252496 A Special table 2013-500771 gazette

The present invention receives an image signal that has been continuously created, creates a new image by referring to and grasping the creation process, and enables a comparison with the received image later. It is an object to provide a configuration of a simple image creation system.

In order to achieve the above object, the basic configuration of the present invention is to display a screen of the received image and record the image signal in a memory while displaying the image in a computer that has continuously received the image signal. An image in which a new image signal is input to a computer by a receiver who refers to the image and the new image is displayed on the same screen as the screen or a different screen, and the new image signal is already recorded. a new image creation system and recording in the area of the signal with different memory, the recording position definitive in the memory of the new image created aim to match the display area on the screen of the received image If, by comparing the recording position definitive in the memory of the received image, the number of pixels that do not match the number of pixels the display area of the received image is matched by the comparison Ratio, or of all the pixels, by calculating the ratio of matching to that pixel, consisting of an image generation system that quantifies the degree of coincidence in a display area of a new image.

In the above basic configuration, with reference to the creation process of the received image, the creation of an image by the same arrangement as the image, or by performing the creation of images by adding correction to the image, received image, which is created by continuously It is possible to create a new image while grasping the motif and the creation process.

Moreover, the received image and the new image, since each image signal is recorded in both of the different memory areas, by performing comparison between the received image and the new image, the problem of the newly created image Can also be considered.

In particular, the aim of matching the image area of the received image to create a new image, and whether both of the image by comparing the recorded position definitive in memory, and how matches per new image, the received image It is also possible to detect quantitatively.

Furthermore, as described in the first embodiment, when the speed at which the received image on the screen changes can be selected, or when the change can be paused, the receiver has his / her ability to create an image. Accordingly, a new image can be created.

It explains that the system of the basic configuration is realized by one computer, (a) is a block diagram corresponding to each functional part of the computer, (b) shows the temporal relationship of each operation. FIG. It explains that the system of the basic configuration is realized by two computers, (a) is a block diagram according to each functional part of the computer, (b) shows the temporal relationship of each operation. FIG. It is a block diagram which shows transmission and reception of the image created continuously via the internet, and also transmission of the newly created image. It is a flowchart regarding the whole operation | movement of the system of the said basic composition. A plan view illustrating the creation of a new image by the operation of the CAD is aimed to create a display area that matches the screen of the display area of the received image, (a) represents, shows the creation state in the same screen (B) shows the state of creation on different screens. It is a top view which shows that the new image is produced by operation of CAD aiming at correction correction with respect to a received image on the same screen.

As shown in the flowcharts of FIGS. 4A and 4B, the present invention is an image signal continuously generated in a receiving apparatus 10 including a computer 1 (hereinafter, abbreviated as “CPU”). After starting reception, a new image is created by the input operation of the receiver referring to the image displayed by the image signal . If reception has not ended, the above reception and operation are repeated, and the reception ends. Of course, the above operation is also terminated.

The flowchart of FIG. 4 (a) corresponds to an embodiment in which two programs alternately distribute operation timings in one CPU as will be described later with reference to FIGS. 1 (a) and 1 (b). The flowchart of FIG. 4B corresponds to an embodiment in which two CPUs, which will be described later with reference to FIGS. 2A and 2B, operate in synchronization.
The input operation method can be selected as appropriate according to the function of each individual CPU. However, the method of inputting via a CAD or AD system corresponds to a typical input operation method.

Image signals that have been created to continue the reception of the object, and if created continuously in reality have already Ryosuru end is created, which the picture signals are generated continuously Both cases and cases exist.

In the basic configuration, on the same screen 4 as shown in FIG. 5A or a different screen 4 as shown in FIG. 5B, the display area of the new image is the display area on the screen 4 of the received image. aims to match the input by the recipient is performed.

By such an input, the receiver can create a new image while grasping the creation process of the received image by comparing the received image.
In order to examine the degree of coincidence of the display areas, when using the same screen 4 as shown in FIG. 5A, a new image is used to distinguish both images in appearance. However, when using a different screen 4 as shown in FIG. 5B, it is appropriate to display the same color as that of the received image for each new image. It is possible to adopt, and it is not always necessary to adopt a different color.

In the basic configuration, FIG. 5 (a), (b) and the display area on the screen 4 of the received image shown in a recording position definitive in memory 3 of the new image created aims to match, the received image and comparing the recorded position definitive in memory 3, the ratio between the number of pixels that do not match the number of pixels the display area of the received image by the contrast as a new image are the same, or of all the pixels, one By calculating the proportion of pixels that are matched, the degree of coincidence in the display area of the new image is quantified.

By such quantification, the receiver can recognize the region matching between the image created with the aim of matching the region and the target image in the new image creation process shown in FIGS. The degree can be quantitatively grasped by specific numerical values.

In the basic configuration, as a typical example of the embodiment , a method in which a new image is created on the same screen 4 as shown in FIG. 6 by an input operation by a receiver based on correction correction on the received image on the screen 4 is used. Can be mentioned.
The above correction correction is performed by inputting an additional image signal to pixels in a region where no received image exists, a modified image signal (actually a signal having a different color), and an erased image signal (pixels having different colors). (Normally zero signal) is input.

When creating a new image by current handwriting as shown in FIG. 6, inevitably, essential for synthesis of the image signal forming the received image and the image signal input I by the current handwriting However, in the case where a new image is created by correction by correction, the receiver can create an image including a creation element at his discretion.

  In the basic configuration, since the received image and the new image are stored in different areas of the memory 3, the receiver can compare both images after creation.

Figure 1 (a), (b), in one CPU, a program for receiving an image signal being created, recorded in the memory 3, and a display screen 4 to continue, a new by the recipient An embodiment in which an input of an image signal, display of an image on the screen 4 based on the input, and a program for recording the image signal in the memory 3 operate by alternately distributing operation timings. Show.

That is, as shown in FIG. 1A, one program receives an image signal at the input / output unit 2, displays an image on the screen 4 via the arithmetic and control unit 6, and the memory 3. while the recording of the image signal to the other programs, receives an image signal input from the operation unit 5 I by the recipient by the input-output section 2, a screen 4 via the arithmetic and control unit 6 After the image based on the image signal is displayed, the operation of recording the image signal in the memory 3 is performed, and the operations of both programs are performed by alternating time distribution as shown in FIG. Realized by time sharing.

Figure 2 (a), (b) is, after assuming different image display, such as in FIG. 5 (b), the reception of the image signal being generated continuously, into the memory 3 of the recording and the screen 4 In addition to displaying, the other computer 1 synchronized with the one computer 1 inputs a new image signal by the receiver, displays an image based on the image signal on the screen 4 based on the input, and the memory 3. An embodiment is described in which the image signal is recorded on the camera .

As shown in FIG. 2 (a), one CPU receives an image signal at the input / output unit 2, displays the received image on the screen 4 via the arithmetic and control unit 6, and stores it in the memory 3. The other CPU, which records the image signal , receives the image signal input from the operation unit 5 by the receiver by the input / output unit 2 and displays the received image on the screen 4 through the arithmetic and control unit 6. After that, the operation of recording the image signal in the memory 3 is performed, and the operations of both the CPUs are realized in a synchronized state as shown in FIG.

  Although the embodiment shown in FIGS. 1A and 1B is very simple, the time interval for alternately repeating the operations of two programs by time sharing in one CPU is within 1/10 second. It can be set, and the judgment with the naked eye of the user can give the impression that the display of the received image on the screen 4 and the display of the screen 4 by the input of each signal are performed almost simultaneously. .

In contrast, the embodiment shown in FIGS. 2A and 2B is somewhat complicated in configuration in that it includes two CPUs, but can provide finer or more accurate image changes. Yes, it is possible to avoid a slight error due to time sharing that may occur in the embodiment of FIGS. 1 (a) and 1 (b).
In the embodiment shown in FIGS. 2 (a) and 2 (b), when the retouching correction method as shown in FIG. 6 is adopted, the display of the received image is displayed on one screen 4 exclusively. On the other screen 4, correction correction is performed.

  In any of the embodiments of FIGS. 1 (a), 1 (b) and 2 (a), 2 (b), by grasping the creation process of the received image, the image creation motif, production process, While grasping the formation process of the color distribution, a new image can be created by an input operation by the receiver, and the received image can be compared with the newly created image.

  The image reception in the basic configuration can naturally be used in a communication network between CPUs in a specific area such as a LAN.

  However, in practice, as shown in FIG. 3, by realizing the basic configuration via Internet communication from a specific client or server 20, the opportunity for exhibiting the above-described effects can be expanded. be able to.

FIG. 3 shows a case where an image signal continuously generated from the client A is transmitted to the client B, and a new operation is performed in the client B by an input operation aimed at matching display areas as shown in FIG. A situation is shown in which an image is created and the created image is transmitted to the server 20 and the client C.

The specific processing order in transmission and reception is as follows.
(1) Storage based on a predetermined real-time time unit setting of an image signal continuously created in an application of client A (2) Real-time image signal stored in (1) by operation of client A Transmission to server 20 based on (3) Storage of image signal transmitted in (2) in server 20 (4) Reception by download of image signal stored in (3) from server 20 by client B (5) ) Display of the received image on the screen 4 according to (4) and recording of the image signal forming the received image in the memory 3 (6) Aim to coincide with the display area on the screen 4 of (5) creating a new image by the input operation was, and display on the screen 4, and an image signal forming the received image Comprising recording of an image signal which forms a new image to the area of the memory 3 (7) server 20 transmission by a new image transmission to the server 20 of the newly created image (8) (7) Storage and distribution to client A and client C

The reception of the image signal continuously created in the present invention is not limited to the transmission method via the server 20 as shown in FIG.
That is, the image signal already received by the client itself is recorded in an HDD (Hard Disk Drive: a hard disk to be subjected to a predetermined operation), and the image signal is input from the HDD to the CPU of the client. (4) The following processes can also be realized.
A description will be given according to the embodiment.

Example 1, it in continuation to the display screen 4 of the image signals that have been created and received is the rate of change of the display screen 4 can be selected, and it is also possible pause change in the display screen 4 It is characterized by.

In the case of the first embodiment, the user of the receiving device 10 freely adjusts the generation speed of the received image, and if necessary, after changing the image to a paused state, A new image can be created, and a new image can be created corresponding to the recipient's own ability to create.

Example 2 following the image signals that have been created continuously, also receives description information about the content of the information and / or the image signal relating to the operation of the software necessary to create the image signal It is characterized by that.

In the case of the second embodiment, in the receiver, what kind of software operation the image creator creates the image signal for the image and / or how the image signal is. This makes it possible to understand the meaning of this, and it is possible to grasp related information that cannot be detected only by an image signal.

  The system of the present invention can be widely used via Internet communication.

DESCRIPTION OF SYMBOLS 1 Computer 2 Input / output part 3 Memory 4 Screen 5 CAD operation part 6 Arithmetic and control part 10 Receiving device 20 which the client which is a user has Server 21 Memory in server →: Shows moving direction of received image signal Indicates the direction of movement of the new image input signal by the receiver

Claims (9)

In a computer that has received a signal (hereinafter referred to as “image signal”) for displaying an image that is continuously created, a screen of an image (hereinafter referred to as “received image”) that is displayed by the image signal related to the reception. While displaying and recording the image signal in the memory, a new image signal is input to the computer by a receiver who refers to the displayed image, and the image displayed by the new image signal (hereinafter referred to as “new image”). Is displayed on the same screen as the screen or on a different screen, and the new image signal is recorded in a different memory area from the already recorded image signal. a system, a recording position definitive in the memory of the new image created aim to match the display area on the screen of the received image, definitive in the memory of the received image serial And comparing the position, the ratio between the number of pixels that do not match the number of pixels the display area of the received image is matched by the comparison, or of all the pixels, calculated proportion of matches to that pixel By doing so, an image creation system that quantifies the degree of coincidence in the display area of a new image.   The image according to claim 1, wherein an input is performed by a recipient so that a display area of a new image matches a display area on the screen of the received image on the same screen or different screens. Creation system.   The image creation system according to claim 1, wherein a new image is created on the same screen by an input operation by a receiver based on correction of correction on the received image on the screen. In one computer, continuing to receive image signals have been created, recorded in the memory of the image signal, and a program for screen display, the input of a new image signal by the recipient, screen based on the input 4. The image creation system according to claim 1, wherein the image creation system operates by alternately distributing an operation timing to a program for displaying and recording the image signal in a memory. . One computer continuously receives an image signal that has been created, records the image signal in a memory, and displays a screen, and the other computer that is synchronized with the one computer allows the receiver to 4. The image creation system according to claim 1, wherein a new image signal is input, a screen is displayed based on the input, and the image signal is recorded in a memory. Continuous image signal being created via the Internet, image creation according to any one of claims 1, 2, 3, 4, characterized in that it is transmitted from the other client or server system. 7. The image creation system according to claim 6, wherein the newly created image signal is transmitted to another client or server via the Internet . The display screen of a continuously generated received image can select a speed of change of the display screen and can also temporarily stop the change of the display screen. The image creation system according to any one of 4, 5, 6, and 7. Following the image signal that has been continuously created, information relating to software operations necessary to create the image signal and / or explanatory information relating to the content of the image signal are also received. The image creation system according to any one of claims 1, 2, 3, 4, 5, 6, 7, and 8.

Images