JP3438262B2 - Information processing method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an information processing method in, for example, a hypermedia system and, more particularly, to an information processing method that exhibits a browser function that allows a user to easily recognize the relationship between an anchor and a link. .

[0002]

BACKGROUND ART characters, in addition to the multimedia system handling media commercial workstations and personal computers having a time axis such as audio and video in addition to still images, at present, hyper handle these various media to total Development of media systems is actively carried out. In a hypermedia system, information is usually basically expressed as a node, and an anchor indicating a link destination is included in the node. The link destination is indicated by the user clicking a link button indicating the anchor on the display screen. The function that the node of is displayed is prepared. Problems such as lost children and cognitive load have been pointed out in conventional hypermedia systems, and it has been recognized that it is effective to visualize and display the network structure consisting of nodes and links to solve these problems. ing. What displays this network structure is generally called a graphical browser (hereinafter referred to as a browser), and most existing hypermedia systems have this browser function.

[0003]

However, since the browser function provided in the conventional hypermedia system is provided as a separate tool regardless of the method of displaying the entity information of the node, it is possible to actually display the content. It is not possible to continuously recognize at a glance where the node the user is paying attention to is located in the hypermedia information space, that is, the relationship with other nodes at a glance, and the user has a node icon corresponding to the node that the user is paying attention to. There is a problem that you cannot pay attention to the relation with other nodes unless you search for it on the browser.

In addition, since the nodes are generally displayed as icons in the browser function provided in the conventional hypermedia system, the user cannot grasp the information held by the nodes on the browser.

Further, a link is generally extended from an area called an anchor or a link button of the link source node to the link destination node. However, in the browser function provided in the conventional hypermedia system, the node icon Since the size is not enough to display all the anchors on the node, and the node icon is not intended to display the contents of the node, etc. A line segment representing a link is directly drawn from the icon indicating the link source node to the link destination node. for that reason,
The user can find out about nodes that have multiple links.
There is a problem that the correspondence between the anchor and the link cannot be determined.

Further, since the display screen is finite, when all the nodes are displayed by the browser when the number of nodes is large, the node icons are overlapped and displayed, and it is difficult for the user to grasp the information space. There is a problem that becomes. As an effective way to solve this problem, see uttng.k.et.al, "Context and Orientation in
Hypermedia Networks ", ACM Trans.on Information Sys
In the intermedia proposed in tems7,1 (Jan 1989), there is known a so-called local map method in which only the node of interest to the user and the nodes linked to this node are displayed in a limited manner. However, this local map method is effective when there is only one node displaying an entity, but when multiple nodes can be displayed as in a multi-window environment, a browser is prepared for each display node. Therefore, it is impossible to grasp the relationship between the nodes being displayed and the relationship between the nodes across each browser.

On the other hand, although it is not an example of application to a hypermedia system, the reference: Mackinlay, J. et al, "The Perspec
tive Wall: Detail and Context Smoothly Integrated ",
In Proceedings of CHI'91, Card et al. "Perspecti
We propose an information display method called "ve wall." In this information display method, when arranging information in a limited display area,
Using a perspective method to generate a three-dimensional wall that spreads out in front of you on a two-dimensional screen, information is placed on this wall, and both sides of the wall are folded back, so the information placed on both sides of the wall is It is displayed small in perspective, and the information placed in the center of the wall is displayed large (actual size). However, in this information display method, the details of the information of interest and the outline of the entire information space can be grasped at the same time, but a dedicated high-speed image processing device for displaying a three-dimensional image is required, and Since it is premised on the display, there is a problem that the compatibility with the window system based on the two-dimensional display which is the main current user interface of the current computer is poor and the applicability to a normal window environment is poor.

The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide an information processing method by which a user can easily recognize the relationship between nodes. Another object of the present invention is to provide an information processing method that allows a user to easily recognize the relationship between an anchor and a link. The present invention also aims to provide an information processing method which can also effectively exhibit a bra c The function in a plurality of nodes capable of displaying multi-window environment. Further, it is an object of the present invention to provide an information processing method that allows a user to easily recognize the relationship between nodes and is excellent in consistency with a window system based on two-dimensional display. .

[0009]

In order to solve the above-mentioned problems of the prior art and to achieve the above-mentioned object, the information processing method of the present invention provides an image corresponding to a node having anchor information indicating a link destination node. Is displayed on a display screen, wherein the anchor information of the node or an image including an anchor image corresponding to the anchor information is displayed in a first display area on the display screen, A reduced image corresponding to the link destination node of the node displayed in the first display area is displayed in the second display area on the display screen, and the first display is performed when the link display mode is ON. An image showing a link relationship between the image displayed in the area and the reduced image displayed in the second display area is displayed on the display screen, and the link display mode is off. In case, to hide an image indicating the link relationship, the area ratio of said first display region the second display region is characterized in that it is changeable.

At this time, according to the information processing method of the present invention, the image showing the link relationship between the anchor image included in the image corresponding to the node and the link destination node is displayed on the display screen. The user can determine the correspondence relationship between the anchor image and the node of the link destination even when is displayed. Therefore, the user can pay attention to the relationship between the focused node and the node having the link relationship with the focused node without searching the browser for the node icon corresponding to the focused node. Further, in the information processing method of the present invention, the user is paying attention and the link destination node of the designated node is displayed as a reduced image on the display screen. Therefore, the ratio of the image related to the link destination node in the display screen can be calculated. Can be made smaller. As a result, a plurality of nodes can be selected as the node of interest, and the browser function can be properly exerted even in a multi-window environment.

[0011]

EXAMPLE An example of the present invention will be described. FIG. 1 is a block diagram of a computer system in which the information processing method of this embodiment is used. As shown in FIG. 1, the computer system of this embodiment comprises an input event management unit 2, a display management unit 4, a data input / output management unit 6, a data storage unit 8 and an image reduction unit 10. The input event management unit 2
Includes operating means such as pointing devices and keyboards, manages input events in response to operations such as key presses, pointing, movement, or button press / release by users of these operating means, and detects the types and inputs of these input events. The order or the like is output in response to a request from another module such as the display management unit 4.

The display management unit 4 includes a display device such as a display, manages display objects such as display areas, line segments indicating nodes and links, and is a part that performs main processing in the information processing method of the present invention. is there. The processing in the display management unit 4 will be described in detail later with reference to FIGS. The image reduction unit 10 reduces the image data input from the display management unit 4 based on the designated reduction ratio, and outputs the reduced image data to the display management unit 4. The data input / output management unit 6 writes the instructed data to and from the data storage unit 8 based on the instructions from the display management unit 4 and the image reduction unit 10. As the data storage unit 8, for example, a file system or a database management system is used, and data necessary for the processing in the display management unit 4 is held.

The image displayed on the display of the display management unit 4 will be briefly described below. FIG. 2 is a schematic diagram of an image displayed on the display of the display management unit 4. Figure 2
As shown in FIG. 5, in the entity node display area A located near the center of the image 20, the entity of the node (hereinafter referred to as entity node), that is, the image corresponding to various nodes including information such as characters and pictures is the actual size. The node displayed in the physical node display area A is capable of modifying the content information and activating the process by operating the link button (anchor) in the same manner as the node handled in the normal hypermedia system. . For example, entity node "e"
Has link buttons "e1", "e2" and "e3".

The reduced image display area B is positioned so as to surround the physical node display area A, and
This is an area in which adjacent nodes are reduced and displayed by links with the actual node displayed in. In the reduced image display area B, the image of the reduced node is shown by a rectangle (for example, “m1” to “m3” and “p1” to “p”).
4 "), accessible nodes all reduced images directly displayed from all the nodes that are displayed in the entity node display area A. At this time, the reduction ratio can be set arbitrarily, but for example, selecting a reduction ratio of 1 / power of 2 such as 1/4 or 1/16 reduces the amount of calculation required to generate the reduced image. It is desirable to reduce the amount. What is displayed in the reduced image display area B is a reduced image of a node. In this state, it is necessary to change the contents and operate the link button like the actual node displayed in the actual node display area A. There is no. However, in an ideal situation where there is sufficient computing resources and it is possible to display each operation target on the reduced image in a size that can be operated, even in this reduced image It is also possible to change the contents of the data in the same manner as. For example, as shown in FIG. 2, in the reduced image display area B of the image 20, the reduced image “m1” of the node adjacent to the physical node “e” displayed in the physical node display area A by a link is displayed.
"M3" and reduced images "p1" to "p4" of nodes adjacent to the actual node "i" by a link are displayed.

The reduced image display area C is positioned so as to surround the reduced image display area B, and like the relationship of the reduced image display area B with the actual node display area A,
This is an area in which a reduced node (for example, “m1”) displayed in the reduced image display area B and a node (for example, “n”) that is adjacent to the reduced node by a link are displayed at a higher reduction rate than that of B. . In the image 20 shown in FIG. 2, a case where two reduced image display areas B and C are displayed so as to surround the physical node display area A is illustrated, but a reduced image display that is displayed so as to surround the physical node display area A is shown. The number of areas is arbitrary.

In the image 20 shown in FIG. 2, the line segment connecting the node and the rectangle representing the reduced image of the node is a display example of the links between the nodes, but the display of the node is the actual node itself and the reduced image. Therefore, it is possible to determine at a glance from which position (link button or anchor) the link is pulled out from inside the node. For example, from the link buttons “e1” to “e3” of the entity node “e”, the reduced images “m1” to “m”.
The line segments “d1” to “d3” for “3” and the line segments “q1” to “p1” to “p4” for the reduced images from the link buttons “i1” to “i3” of the actual node “i”. "Q
4 "are respectively portrayal, the user not only correspondence between the entity node from these segments reduced image, can also recognizing the correspondence between the reduced image link button entity node. Therefore, the user can pay attention to the node having the link relation of the actual node without looking for the node icon corresponding to the noticed node, that is, the actual node on the browser.

Further, the image 20 shows the case where the link display mode is the display on mode, and not only the link between the real node and the adjacent node and the link between the actual node and the adjacent node but also the same adjacent level between the displayed nodes, that is, the same display area. If there are links between certain nodes, they are also displayed. As a result, the image 20 displays all the links existing between the displayed nodes.

In the computer system of this embodiment, if the link display mode is set to the display off mode as shown in the image 22 shown in FIG. 3, it is possible to display only the node without displaying the link.

In the computer system of this embodiment, the area ratio between the areas in the image 20 shown in FIG. 2 can be changed, and the ratio of the reduced image display area B to the real node display area A can be changed. It is also possible to enlarge and display the image 24 shown in FIG.

Hereinafter, the processing in the display management unit 4 will be described in detail with reference to FIG. FIG. 5 shows the display management unit 4.
3 is a flowchart of the process in FIG. Step S7-1: When the computer system is started,
The display management unit 4 displays the display state previously saved in the data storage unit 8, that is, the initial state this time, into the data input / output management unit 6.
It is read from the data storage unit 8 via. Step S7-2: The display management unit 4 displays on the display an area window, that is, a display area corresponding to the display state read in step S7-1. At this time,
In step S7-1, the display position and size of the area window displayed on the display and the number of columns of the reduced image display area are determined based on the display state read by the display management unit 4.

Step S7-3: The display management unit 4 obtains data on the entity node data shown in the display state read in step S7-1, that is, the data relating to the entity node displayed on the display in the initial display state. Reading is sequentially performed from the data storage unit 8 via the input / output management unit 6. Step S7-4: The display management unit 4 judges whether or not all the entity node data displayed on the display in the initial display state have been read, and if it judges that the actual node data has been read, the process of step S7-7 is executed. If it is determined that it has not been read, the process of step S7-5 is performed. Step S7-5: The display management unit 4 performs step S7-3.
The actual node data read in step S7 is used.
-2 is displayed on the display area displayed. Step S7-6: The display management unit 4 performs step S7-5.
All the adjacent nodes that are adjacent to the real node displayed in and all the adjacent nodes that are further adjacent to this adjacent node are displayed in the corresponding display areas at the specified reduction ratio. The process in step S7-6 is shown in FIG. 6 and will be described later in detail.

When the display management unit 4 determines that all the entity node data have been read in step S7-4, it responds to the user's operation from the input event management unit 2 in the following steps S7-7 to 7-. The process of 18 is performed.

Step S7-7: When the display management unit 4 detects that the instruction signal indicating the anchor click is input from the input event management unit 2 by the user's operation, the display management unit 4 executes the process of Step S7-13 to execute the link destination. Is performed, and if not detected, step S7-
Process 8 is executed. The processing in step S7-13 is shown in FIG. 7 and will be described in detail later. At this time, the anchor click is determined by, for example, detecting whether or not the pointing coordinates at the time of the button press event of the pointing device of the input event management unit 2 is inside any of the anchor areas of each physical node. Done.

Step S7-8: When the display management unit 4 detects that the instruction signal indicating the movement of the reduced image between areas is input from the input event management unit 2 by the user's operation, the process of Step S7-14 is executed. Then, the reduced image node displayed in the reduced image display area on the display is moved to another reduced image display area, and if not detected, the process of step S7-9 is executed. The processing in step S7-14 is shown in FIG. 8 and will be described later in detail. Step S7-9: When the display management unit 4 detects that an instruction signal indicating that the reduced image is to be moved to the actual display area is input from the input event management unit 2 by the user's operation, it executes Step S7-15. The reduced image node displayed in the reduced image display area on the display is moved to the actual node display area, and if not detected, the process of step S7-10 is executed. Step S7-
The process at 15 is shown in FIG. 9 and will be described in detail later.

Step S7-10: When the display management unit 4 detects that an instruction signal for moving the physical node to the reduced image area is input from the input event management unit 2 by the user's operation, the display management unit 4 executes Step S7-16. After execution, the physical node displayed in the physical node display area on the display is moved to the reduced image display area, and if not detected, the processing of step S7-11 is executed. The processing in step S7-16 is shown in FIG. 10 and will be described later in detail. Step S7-11: When the display management unit 4 detects that an instruction signal indicating deletion of the physical node has been input from the input event management unit 2 by a user operation, Step S7-1
7 is executed to delete the actual node, and if not detected, the process of step S7-12 is executed. Step S7-
The process at 17 is shown in FIG. 11 and will be described in detail later.

Step S7-12: When the display management unit 4 detects that an instruction signal indicating the end of the operation has been input from the input event management unit 2 by the user's operation, the display management unit 4 proceeds to Step S7-12.
The process of 7-18 is executed, and when not detected, the process of step S7-7 is performed again. Step S7-18: The display management unit 4 causes the data storage unit 8 to store information regarding the display state when the above-described processing is completed, via the data input / output management unit 6. The information about the display state stored at this time is read as the initial state information the next time the computer system is restarted, and based on this read initial state information, the same information as at the time of the previous end is displayed. The display state is reproduced.

The display processing of the adjacent node will be described below. FIG. 6 is a flowchart of the adjacent node display processing performed by the display management unit 4 in step S7-6 in FIG. 5 described above. Step S12-1: The display management unit 4 determines whether or not to perform the display process of the next-stage adjacent node. If it is determined to be performed, the process of step S12-2 is performed. Ends the process of step S7-6 in FIG. 5 and performs the process of step S7-3 shown in FIG. 5 again. Step S12-2: The display management unit 4 is provided inside the display management unit 4 with a link from the actual node (hereinafter referred to as the origin node) displayed in step S7-5 shown in FIG. Sequentially fetch from main memory.

Step S12-3: The display management unit 4 judges whether or not there is a link to be taken out in step S12-2. If it is judged that there is no link, the display processing of the adjacent node is terminated and the process shown in FIG. When the process of step S7-3 shown in FIG.
-4 is executed. Step S12-4: The display management unit 4 performs step S12-
The link destination node is extracted for the link extracted in step 2. This link destination node exists in the main memory of the display management unit 4 when it is already displayed, and exists in the data storage unit 8 when it has not been displayed yet. Step S12-5: The display management unit 4 performs step S12-
If it is determined that the link destination node extracted in 4 is already displayed, and if it is determined that it is displayed, the process of step S12-14 is executed, and if it is determined that it is not displayed. Executes the process of step S12-6.

Step S12-6: The display management unit 4 judges whether or not the display position in the display area of the next-stage adjacent node (the display area outside by one from the starting node) is saved, and it is saved. If it is determined that step S1
If the process of 2-8 is executed and it is determined that the file is not stored, the process of step S12-7 is executed. here,
If the node of the link destination to be displayed this time has been previously displayed in the display area of the next adjacent node,
The display position at that time has already been saved. Step S12-7: The display management unit 4 determines the display position of the link destination node in the display area of the next-stage adjacent node. As a method of determining this, the user may
There are a method of interactively specifying and determining using I (Graphical User Interface) and a method of automatically determining by the system according to a display state in the display area. Step S12-8: The display management unit 4 reduces the link destination node data at the reduction ratio set for the display area of the next adjacent node.

Step S12-9: The display management unit 4 displays the node image corresponding to the link destination node data reduced in step S12-8 at the position determined in step S12-7 in the display area of the next adjacent node. To display. At this time, the display position is saved. Step S12-10: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode, and if the link display mode is the display on mode, the process of step S12-11 is executed to display the display off mode. If there is, the process of step S12-13 is executed.
Step S12-11: For the link which is being processed, the display management unit 4 has an anchor area which issues the link which is being processed in the origin node, and Step S12-9.
To portrayal a line segment on the display connecting the reduced image of the indicated destination node in. For example, in the image 20 shown in FIG. 2, a line segment q 1 indicating a link is displayed between the anchor region i 1 of the actual node i and the reduced image p 1 of the link destination node, and the user is informed of the anchor and the link. You can easily know the relationship. Thus, in the information processing method of this embodiment, an anchor region has issued a link, by portrayal <br/> a line segment between the reduced image of the destination node, a convenient work for the user Can provide the environment.

Step S12-12: The display management unit 4 selects the step S12 among the anchors of all the displayed nodes.
For all of the anchor with a link to the destination node destination in -11 to portrayal <br/> a line segment on the display connecting the reduced image of the anchor and the destination node. Step S12-13: Step S12 described above
By the processing up to -12, it means that the reduced image display for one adjacent node linked from the origin node in step S12-2 is completed, and the display management unit 4 displays the reduced image newly displayed in step S12-13. The display processing of the adjacent node is recursively performed with the as a starting point node. In this way, by performing the restart processing, the display processing of the adjacent nodes is sequentially executed from the start node, and finally the display processing of the nodes directly and indirectly linked from the start node is performed. All display processing is executed.

Step S12-14: If the link destination node has already been displayed in step S12-5, the display management unit 4 executes the processing of step S12-14, and the display area of the link destination node causes the display area of the link destination node to change to the next adjacent node. Area and the step S 12-1 if it exists inside this area
6 is executed, and if it exists outside, step S
The processing of 12-15 is executed. Step S12-15:
The display management unit 4 once erases the reduced image displayed in the current display area and the reduced images of all the nodes linked from this reduced image, and then the above-described step S1.
The processing of 2-6 is executed. That is, when the link destination node of the starting node is displayed outside the display area of the next-stage adjacent node, the display management unit 4 temporarily displays the display image and the link of the node related to this link destination node. The represented line segment is deleted, and steps S12-6 to 23-1
By performing the process of 3, the images are displayed again in order. The processing in step S12-15 is shown in FIG. 11 and will be described later in detail.

Step S12-16: The display management unit 4 determines in step S12-14 that the display area of the link destination node is
When it is determined that the node exists in the next-stage adjacent node and inside this region, the process of step S12-16 is executed, and the same process as the above-described process of step S12-10 is executed. Step S12-17: The display management unit 4 executes the same processing as the processing in step S12-11 described above.

The display processing of the link destination entity node will be described below. FIG. 7 shows the above-described step S7- of FIG.
13 is a flowchart of a link destination entity node display process called by an anchor click performed by the display management unit 4 in FIG. Step S8-1: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S8-2 is executed to display the link in the display off mode. If there is, the process of step S8-3 is executed. Step S8-2: The display management unit 4 deletes the line segment representing the link drawn from the clicked anchor to the reduced image of the link destination node. Step S8-3: The display management unit 4 erases the reduced image of the link destination node and all the reduced images linked to the destination node. The processing in step S8-3 is shown in FIG. 11 and will be described later in detail.

Step S8-4: The display management unit 4 displays the link destination node of the clicked anchor as a physical node. At this time, since the node of this link destination is adjacent to the node having the clicked anchor, it was already displayed as a reduced image before being erased in step S8-3. Has already been read from the data storage unit 8 and held in the main memory. Step S8-5: The display management unit 4 identifies the link display mode as in step S8-1. Step S8-6: This is executed when it is determined in step S8-5 that the display-on mode is set, and the display management unit 4 draws a line segment from the clicked anchor to the link destination node displayed in step S8-4. Is drawn, and a line segment is drawn for this link destination node from all anchors of the displayed node that has a link for this link destination node.

Step S8-7: The display management unit 4 displays the reduced image of the node adjacent to the physical node displayed in step S8-4 and the subsequent nodes based on the process shown in FIG. Step S8-8: Similar to step S8-1, the link display mode is identified. Step S8-9: The display management unit 4 checks whether there is a link in the outermost display area where the reduced image is displayed, and if there is a link, draws a line segment corresponding to the link. The line segment corresponding to the link other than the outermost display area has already been drawn in step S8-7.

The movement of the reduced image between areas will be described below. FIG. 8 shows the above-described step S 7-14 of FIG.
7 is a flowchart of processing performed by the display management unit 4 to move the reduced image displayed in the reduced image display area on the display to another reduced image display area beyond the area. Step S9-1: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S9-2 is executed, and the display off mode is executed. If there is, the process of step S9-3 is executed. Step S9-2: The display management unit 4 erases all the line segments drawn for the moving reduced image. Step S9-3: The display management unit 4 erases the moving reduced image node. The processing in this step SS9-3 is shown in FIG.

Step S9-4: The display managing unit 4 converts the data of the moving reduced image into the image reducing unit 10 shown in FIG.
And converts this data according to the reduction ratio set in the display area of the moving destination. Step S9-5: A reduced image corresponding to the reduced image data converted in step S9-4 is displayed in the destination display area. Step S9-6: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode, and if the link display mode is the display on mode, the process of step S9-7 is executed to display the link in the display off mode. If there is, the process of step S9-8 is executed. Step S9-7: This is executed when it is determined in step S9-6 that the display-on mode is set, and the display management unit 4 displays the reduced image node displayed in the destination display area in step S9-5. Draw a line segment that represents a link.

Step S9-8: The display management unit 4 displays the reduced image of the node adjacent to the reduced image node displayed in step S9-5 and the reduced image of the subsequent node based on the processing shown in FIG. . Step S9-9: Similar to step S9-1, the link display mode is identified. Step S9-10: The display management unit 4 checks whether there is a link in the outermost display area where the reduced image is displayed, and if there is a link, draws a line segment corresponding to the link. The line segment other than the outermost display area has already been drawn in step S9-8.

The movement of the reduced image to the actual display area will be described below. FIG. 9 is a flowchart of the processing performed by the display management unit 4 in step S7-15 of FIG. 5 described above to move the reduced image displayed in the reduced image display area on the display beyond the area to the real node display area. is there. Step S11-1: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S11-2 is executed to display the link in the display off mode. If there is, step S11-
Process 3 is executed. Step S11-2: The display management unit 4 erases all the line segments drawn for the moving reduced image. For example, when moving the reduced image “m1” shown in FIG. 2 to the actual node display area A, the line segment “d1” drawn with respect to the reduced image “m1” is deleted. Step S11-3: The display management unit 4 erases the moving reduced image node. The process in step S11-3 is shown in FIG. For example, when the reduced image “m1” shown in FIG. 2 is moved to the actual node display area A, the reduced image “m1”, the reduced image “n” and the line segment “c” shown in FIG. 2 are deleted.

Step S11-5: The display management unit 4 displays the moving reduced image node in the physical node display area as a physical node. For example, when the reduced image “m1” shown in FIG. 2 is moved to the actual node display area A, the actual node “m1” is displayed in the actual node display area A as shown in FIG. Step S11-6: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S11-7 is executed and the display off mode is executed. If there is, step S11-
Process 8 is executed. Step S11-7: This is executed when it is determined in step S11-6 that the display is on mode, and the display management unit 4
Draws a line segment representing a link to the physical node displayed in the movement destination physical node display area in step S11-5. For example, when the reduced image “m1” shown in FIG. 2 is moved to the physical node display area A, a link from the anchor “e1” of the physical node “e” to the physical node “m1” is displayed as shown in FIG. Draw the line segment "f" that represents it.

Step S11-8: The display management unit 4 shows a reduced image of the node adjacent to the real node displayed in step S11-5 and the nodes following it.
Display based on the processing shown in. For example, as shown in FIG. 12, the reduced image “n” of the node directly adjacent to the actual node “m1” is displayed in the reduced image display area B, and the actual node “m1” and the reduced image “n” are separated from each other. A line segment g indicating a link is drawn. Then, the reduced image linked to the reduced image “n” is displayed in the reduced image display area C. Step S11-9: Similar to step S11-1, the link display mode is identified. Step S11-10: The display management unit 4 checks whether there is a link in the outermost display area where the reduced image is displayed, and if there is a link, draws a line segment corresponding to the link. Note that the links other than the outermost display area have already been rendered in step S11-8. When the above-described processing is performed on the reduced image “m1” shown in FIG. 2, an image as shown in FIG. 12 is displayed.

The movement of the physical node to the reduced image display area will be described below. FIG. 10 is a flowchart of the process performed by the display management unit 4 in step S7-16 in FIG. 5 described above to move the physical node displayed in the physical node display area on the display to the reduced image display area. Step S10-1: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S10-2 is executed to display the link in the display off mode. If there is, step S10-
Process 3 is executed. Step S10-2: The display management unit 4 erases all the line segments drawn for the moving physical node. For example,
The actual node "i" shown in FIG.
When moving to, all the line segments drawn to the entity node “i” are deleted. Step S10-3: The display management unit 4 erases the moving physical node. The processing in step S10-3 is shown in FIG. For example, when moving the entity node “i” shown in FIG. 2 to the reduced image display area B,
The substance node "i" and the node adjacent to the substance node "i" are deleted.

Step S10-4: The display management unit 4 converts the data of the moving physical node into the image reduction unit 10 shown in FIG.
And the data is converted according to the reduction ratio set in the destination reduced image display area. Step S10-5: A reduced image corresponding to the data converted in step S10-4 is displayed in the reduced image display area of the moving destination. For example, when moving the entity node “i” shown in FIG. 2 to the reduced image display area B,
According to the data converted in step S10-4, the reduced image “i” corresponding to the actual node “i” in FIG. 2 is displayed in the reduced image display area B as shown in FIG.
To display. Step S10-6: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S10-7 is executed to display the display off mode. If there is, step S10-
Process 8 is executed.

Step S10-7: Step S10-6
It is executed when it is determined to be the display on mode in
The display management unit 4 draws a line segment representing a link to the reduced image displayed in the destination reduced image display area in step S10-5. Step S10-8: The display management unit 4 performs step S10-
The reduced image of the node adjacent to the reduced image displayed in 5 and the subsequent nodes is displayed based on the processing shown in FIG. For example, when moving the entity node “i” shown in FIG. 2 to the reduced image display area B,
The reduced image linked from the entity node “i” displayed in the reduced image display area B in FIG. 2 is displayed in the reduced image display area C. Step S10-9: Similar to step S10-1, the link display mode is identified. Step S10-10: The display management unit 4 checks whether there is a link in the outermost display area in which the reduced image is displayed, and if there is a link, draws a line segment corresponding to the link. Note that the links other than the outermost display area have already been drawn in step S10-8. When the above-described processing is performed on the entity node “i” shown in FIG. 2, an image as shown in FIG. 13 is displayed.

The node erasing process will be described below. The node erasing process performed by the display management unit 4 starts from a designated physical node or a node such as a reduced node, and all the nodes (reduced images) linked from the node that is the starting point and the linked nodes. This is a process of erasing a line segment representing a link involved in the process, and is performed according to the procedure shown in FIG. This node erasing process includes steps S12-15 of FIG. 6, step S8-3 of FIG. 7, step S9-3 of FIG. 8, step S11-3 of FIG. 9, step S10-3 of FIG.
1 is performed in step S13-6.

Step S13-1: The display management unit 4 sequentially takes out the links output from the node designated as the node to be deleted (hereinafter referred to as the origin node). Step S13-2: The display management unit 4 determines whether or not the extraction of all the links output from the origin node has been completed. If it is determined that the extraction has been completed, the process of step S13-9 is executed, and the process is terminated. If it is determined that it is not, the process of step S13-3 is executed. That is, if the processing has been completed for all links originating from the origin node, all links directly or indirectly related to the origin node and all link destination nodes have been deleted.

Step S13-3: The display management unit 4 extracts the link destination node of the link extracted in step S13-1. Step S13-4: The display management unit 4 determines whether or not the node extracted in step S13-3 is displayed in the outermost area of the display area displayed on the display, and displays it in the outermost area. If it is determined that it has been performed, the process of step S13-5 is executed, and if not, the process of step S13-6 is executed. Step S13-5: display management unit 4, step
In step S13-3, it is determined whether the link destination node of the extracted node is displayed in any of the display areas, and if it is determined that it is displayed, the processing of step S13-7 is executed and displayed. If it is determined that it is not, the process of step S13-1 is performed again. That is, when the link destination node of the origin node is displayed in the outermost display area, the link from the link destination node to the destination is not normally displayed, but between the link destination node and other displayed nodes. Since the line segment indicating the link relationship may be drawn in the above, if the line segment indicating the link is not drawn, the display management unit 4 does nothing and executes the process of step S13-1 again, If the line segment indicating is drawn, the process of step S13-7 is performed.

Step S13-6: The entire process shown in FIG. 11 is recursively performed. That is, the display management unit 4 sequentially takes out the links originating from the designated starting node in step S13-1, and when the link destination node is not the outermost one in step S13-4, that is, the target When the target link node is not the leaf (the lowest layer) of the displayed link structure, the link destination node deletion process is recursively performed to deepen the node group that follows the link destination node of the origin node. When the leaf node is reached and the leaf node is reached, links and nodes are sequentially deleted in the direction in which the leaf node search path is returned. Step S13-7: The display management unit 4 determines whether the link display mode is the display on mode or the display off mode. If the link display mode is the display on mode, the process of step S13-8 is executed to display the display off mode. If there is, step S13-
The process 1 is executed again. Step S13-8: The display management unit 4 erases all the line segments drawn for the node to be erased.

On the other hand, when the extraction of all the links from the origin node is completed in step S13-2, the processes of steps S13-9 and 13-10 are executed. Step S13-9: The display management unit 4 determines whether or not the node to be processed is a link destination of another displayed node, and when it is determined that the node is to be processed, the processing is terminated, When it is determined that the value is not satisfied, step S13
The process of -10 is executed. Step S13-10: The display management unit 4 erases the display image of the node to be processed.

According to the present invention, a reduced image of a node directly or indirectly linked to the focused physical node is displayed in the reduced image display area, and a link button of the physical node or a link between the anchor image and the reduced image is displayed. The information processing method is not limited to the above-described embodiment as long as it is an information processing method for displaying an image showing a relationship. The physical node display area and the reduced image display area on the display screen may have any shape and arrangement. Further, the image showing the link relationship between the anchor image and the reduced image is not limited to the line segment described above, and may be another image. Further, the reduced image may further include an anchor image, and a line segment indicating a link may be drawn from the anchor image included in the reduced image for the reduced image having a link relationship with the reduced image.

[0052]

According to the information processing method of the present invention, since the link destination node linked to the node of interest is displayed as a reduced image with a small display area, it has a link relationship with the node of interest. Images of many nodes can be displayed, and the user can easily recognize the position of the node of interest in the hypermedia information space. According to the information processing method of the present invention, the user can easily recognize the link relationship between the nodes by looking at the image showing the link relationship between the anchor image and the reduced image. Further, according to the information processing method of the present invention, the user can easily recognize the relationship between the anchor and the link. Further, according to the information processing method of the present invention, it can be effectively exhibited bra c The function in multiple nodes capable of displaying multi-window environment. Furthermore, according to the information processing method of the present invention, it is possible to provide a display image that allows a user to easily recognize the relationship between nodes by using a window system based on highly versatile two-dimensional display.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a computer system that implements an information processing method according to an embodiment.

FIG. 2 is a schematic diagram of an image displayed on a display of a display management unit.

FIG. 3 is a schematic diagram of an image displayed on a display of a display management unit in a link display off mode.

FIG. 4 is an image displayed when the area ratio between regions in the image shown in FIG. 2 is changed on the display of the display management unit.

FIG. 5 is a flowchart of processing in a display management unit.

FIG. 6 is a flowchart of display processing of an adjacent node performed by the display management unit in step S7-6 of FIG.

FIG. 7 is a flowchart of a link destination node display process performed by the display management unit in step S7-13 of FIG. 5;

FIG. 8 is a flowchart of a process performed by the display management unit for moving the reduced image on the display to another reduced image area in step S714 of FIG.

9 is a flowchart of a process performed by the display management unit in step S7-15 of FIG. 5 for moving the reduced image on the display to the real node display area.

10 is a flowchart of a process performed by the display management unit in step S7-16 of FIG. 5 for moving a physical node on a display to a reduced image display area.

FIG. 11 is a flowchart of a node deletion process performed by the display management unit.

FIG. 12 is an image when the reduced image displayed in the image of FIG. 2 is moved to the real node display area.

FIG. 13 is an image when the entity node displayed in the image of FIG. 2 is moved to the reduced image display area.

[Explanation of symbols]

2 ... Input event management unit 4 ... Display management unit 6 ... Data input / output management unit 8 ... Data storage unit 10 ... Image reduction unit A ... Entities formed on image of display Node display areas B, C ... Reduced image display areas i, e formed on the image on the display ... Real nodes i1 to i4, e1 to e3 ... Link buttons m1 to m3, p1 to p4 ... Reduced images d1 to d3, q1 to q4 ... Line segments showing link relationships

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ identification code FI G06F 17/30 380 G06F 17/30 380D (58) Fields investigated (Int.Cl. ⁷ , DB name) G06T 11/80 G06F 3 / 00 G06F 3/14 G06F 12/00 G06F 17/30

Claims (7)

(57) [Claims] 1. An information processing method for displaying an image corresponding to a node having anchor information indicating a link destination node on a display screen, including the anchor information of the node or an anchor image corresponding to the anchor information. An image is displayed in a first display area on the display screen, and a reduced image corresponding to a link destination node of the node displayed in the first display area is displayed in a second display area on the display screen. And displaying an image showing a link relationship between the image displayed in the first display area and the reduced image displayed in the second display area on the display screen when the link display mode is on. When the link display mode is off,
An information processing method, wherein the image showing the link relationship is hidden, and the area ratio of the first display area and the second display area can be changed. 2. A reduced image corresponding to a link destination node whose link source node is the reduced image displayed in the second display area is displayed in a third display area on the display screen. The information processing method according to claim 1. 3. The reduction rate of the reduced image corresponding to the link destination node is set higher than the reduction rate of the image corresponding to the link source node or the reduced image. Information processing method described. 4. The reduced image corresponding to the link destination node is displayed in a display area outside the display area in which the image corresponding to the link source node or the reduced image is displayed. 3. The information processing method according to any one of 3. 5. The position for displaying an image or a reduced image corresponding to the node in the display area is automatically determined based on a predetermined procedure. Or the information processing method described. 6. The position for displaying the image or reduced image corresponding to the node in the display area is determined again based on an instruction from the user. Information processing method. 7. The information on the display state of the image or the reduced image is stored, the stored information is read out as initial state information when the computer system is restarted, and based on the read out information, the same display as at the time of the previous end The information processing method according to claim 1, wherein the state is reproduced.