WO2012008082A1 - 表示処理システム、表示処理方法、および、プログラム - Google Patents
表示処理システム、表示処理方法、および、プログラム Download PDFInfo
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H50/00—ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics
- G16H50/50—ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for simulation or modelling of medical disorders
Definitions
- the present invention relates to a display processing system, a display processing method, and a program.
- Patent Document 1 Japanese Patent Laid-Open No. 2002-183241 accepts an input of a numerical value range that is acceptable as a simulation value and each of a plurality of parameters from a user, and parameter values included in the allowable range by a computer. A system for computing is described.
- Patent Document 1 has a problem in that it cannot intuitively and efficiently accept input of values of a plurality of parameters from a user.
- An object of the present invention is to improve the usability of the user interface in the simulation system as described above.
- GUI display means for displaying a plurality of parameter parts corresponding to each of a plurality of parameters and a plurality of parameter condition parts corresponding to each of a plurality of conditions set to each of the plurality of parameters on a display , Using the display position of the first parameter part and the display position of each of the plurality of parameter condition parts, associating one parameter condition part with the first parameter part, There is provided a display processing system including condition specifying means for specifying the corresponding condition as a condition set in the parameter corresponding to the first parameter component.
- the computer displays a plurality of parameter parts corresponding to each of the plurality of parameters and a plurality of parameter condition parts corresponding to each of the plurality of conditions set to each of the plurality of parameters on the display.
- GUI display means the display position of the first parameter component, and the display position of each of the plurality of parameter condition components, and associating one parameter condition component with the first parameter component.
- a program is provided for causing the condition corresponding to the parameter condition component to function as condition specifying means for specifying the condition set in the parameter corresponding to the first parameter component.
- a GUI display for displaying a plurality of parameter parts corresponding to each of a plurality of parameters and a plurality of parameter condition parts corresponding to each of a plurality of conditions set to each of the plurality of parameters on a display
- the display position of the first parameter part, and the display position of each of the plurality of parameter condition parts one parameter condition part is associated with the first parameter part, and the parameter condition
- a display processing method including a condition specifying step of specifying the condition corresponding to a part as a condition set in the parameter corresponding to the first parameter part.
- a display processing system a display processing method, and a program that enable a user to set predetermined conditions for each parameter intuitively and efficiently are realized.
- each unit included in the display processing system of the present invention includes a CPU, a memory, and a program loaded in the memory of an arbitrary computer (a program stored in the memory in advance from the shipping stage, a storage medium such as a CD, and the Internet). (Including a program downloaded from the above server or the like), a storage unit such as a hard disk for storing the program, and a network connection interface, and any combination of hardware and software. It will be understood by those skilled in the art that there are various modifications in the implementation method and system.
- the functional block diagram used in the following description shows functional unit blocks, not hardware unit configurations.
- the display processing system is described as being realized by a single device, but the means for realizing it is not limited to this. That is, it may be configured by a combination of physically separated devices.
- the display processing system of the present invention is a simulation system
- the simulation system described in the following embodiment calculates the values of each of a plurality of parameters, where the result (simulation value) calculated based on the first simulation from the plurality of parameters becomes an expected value.
- the first simulation corresponds to any simulation in which values of a plurality of parameters are input and a result is calculated by a predetermined calculation process.
- the first simulation may be, for example, a life prediction simulation, a disease onset prediction simulation, a mortgage repayment period simulation, or an automobile insurance estimation simulation.
- the first simulation may be a prediction simulation for efficient sales in a business such as a store sales prediction simulation, a product sales prediction simulation, or a product order simulation.
- the first simulation may be a simulation for disaster prevention of natural disasters or man-made disasters such as a disaster scale prediction simulation and a total damage prediction simulation at the time of a disaster.
- the first simulation may be a design simulation of a building, a construction machine, an automobile, an electronic circuit, an antenna, or the like, or may be a radio wave propagation simulation. The above is an example, and the present invention is not limited to these.
- the first simulation is a life prediction simulation in which a predicted life is calculated as a simulation value from the values of a plurality of parameters (vegetable intake, sleep time, overtime hours, smoking amount, etc.) indicating lifestyle habits.
- a life prediction simulation in which a predicted life is calculated as a simulation value from the values of a plurality of parameters (vegetable intake, sleep time, overtime hours, smoking amount, etc.) indicating lifestyle habits.
- FIG. 1 is a functional block diagram showing an example of the configuration of the simulation system 1 of the present embodiment.
- the simulation system 1 includes a receiving unit 10, a calculation unit 20, an output unit 30, and a condition holding unit 40.
- the reception unit 10 is configured to receive input from the user.
- the means for realizing the receiving unit 10 is not particularly limited, and can be realized by applying any input device such as a keyboard, a mouse, a touch panel, and an input button provided on the apparatus.
- the reception unit 10 includes an expected value reception unit 11, a condition reception unit 12, and a parameter input reception unit 13.
- the calculation unit 20 is configured to perform predetermined calculation processing according to a program.
- the means for realizing the arithmetic unit 20 is not particularly limited, and can be realized by applying a CPU or the like, for example.
- the calculation unit 20 includes a suggested value calculation unit 21, a guide value calculation unit 22, and a variable range calculation unit 23.
- the output unit 30 is configured to output a calculation result by the calculation unit 20.
- the means for realizing the output unit 30 is not particularly limited, and can be realized by applying any output device such as a display, a speaker, a printing apparatus, a mail transmission apparatus, and a fax machine. As shown in FIG. 1, the output unit 30 includes a suggested value output unit 31 and a guide value output unit 32.
- the condition holding unit 40 is a memory that stores electronic data.
- the condition holding unit 40 will be described later.
- the parameter input receiving unit 13 receives an input of a user-specified value that is a value of each of a plurality of parameters arbitrarily determined by the user.
- the user specified value is a value that can be arbitrarily determined by the user.
- the user may input a value indicating the current state of each of a plurality of parameters (vegetable intake, sleep time, overtime, smoking amount, etc.) as a user-specified value. If the value indicates the current state of the user, the user can easily grasp and input the value.
- the specific means for the parameter input receiving unit 13 to receive the user-specified value for each parameter is not particularly limited, and can be realized by applying any input device.
- FIG. 2 is a diagram showing an example of a display screen displayed on the user's display or the like in the simulation system 1 of the present embodiment.
- the user can perform predetermined operations on the display screen and input predetermined information.
- the parameter input receiving unit 13 uses the user interface shown in FIG. 2 and in the “current value” column associated with each of a plurality of parameters (vegetable intake, overtime, sleep time, smoking amount), The current value (user-specified value) may be specified from the pull-down menu.
- the guideline value calculation unit 22 calculates a guideline value using the user-specified value received by the parameter input reception unit 13.
- the reference value is a value (simulation result) calculated from a user-specified value based on the first simulation.
- the reference value calculation unit 22 performs the first simulation using the user-specified value received by the parameter input reception unit 13 and calculates the predicted life as a reference value.
- the timing at which the reference value calculation unit 22 starts calculating the reference value is not particularly limited. For example, (1) User-specified values for all of a plurality of parameters (in the column “current value” in FIG. 2) (2) Although not shown in the user interface of FIG. 2, a button for inputting an instruction to start calculation of a guideline value is provided, and the button It may be triggered by receiving an instruction to start calculation via
- the guide value output unit 32 outputs the guide value calculated by the guide value calculation unit 22.
- the specific means for the reference value output unit 32 to output the reference value is not particularly limited, and can be realized by applying any output device.
- the reference value output unit 32 may output the reference value in the “predicted life” column in the user interface shown in FIG.
- the expected value receiving unit 11 receives an input for specifying an expected value from the user.
- the expected value is a value that the user expects as a result of the first simulation (simulation value).
- the expected value receiving unit 11 accepts designation of a life value expected by the user (eg, 100 years old) as an expected value.
- the expected value is a value that can be arbitrarily determined by the user. For example, the user may determine and input a desired expected value with reference to the reference value output by the reference value output unit 32.
- the specific means for the expected value receiving unit 11 to receive the expected value is not particularly limited and can be realized by applying any input device.
- the expected value receiving unit 11 may receive the specification of the expected value from the pull-down menu in the “target life” column using the user interface shown in FIG.
- the user interface shown in FIG. 2 is further configured to accept the designation of the current age from the user from the pull-down menu in the “current age” column.
- the condition holding unit 40 holds a plurality of parameter conditions, which are conditions indicating the allowable variable degree of each of the plurality of parameters.
- the “allowable variable degree” is a degree that the user allows as a value of each of a plurality of parameters in order to obtain an expected value as a simulation value of the first simulation.
- FIG. 16 is a diagram illustrating an example of a part of the internal configuration of the condition holding unit 40 in the present embodiment.
- the “parameter condition” indicating the allowable variable degree is information in which “variable degree grasping information” and “computer condition” are associated with each other.
- Computer condition is information for specifically specifying the allowable variable degree by a numerical value. This information is used when the computer calculates the value of each of the plurality of parameters.
- variable degree grasping information is information for the user to intuitively grasp the numerical range (allowable variable degree) specified by the associated computer condition. This information is used when the user sets any parameter condition for each parameter.
- the variable degree grasping information is preferably not a specific numerical range (upper limit and lower limit) of each parameter value but a combination of sentences, figures, numbers, photographs, etc. that can be intuitively grasped by the user.
- the parameter conditions may include the following.
- the predetermined value (Y) may be a user-specified value (a value received by the parameter input receiving unit 13 for each parameter. In the case of FIG. 2, “current value”), or a Japanese average
- the simulation system of the present embodiment holds the average value or the like of each parameter in advance, or The value is configured to be acquired from another device at a predetermined timing, and the value is used by the variable range calculation unit 23 described below for calculation processing for calculating the variable range.
- the parameter conditions described here are merely examples, and any of the computer conditions and the variable degree grasping information can be set arbitrarily.
- examples of other parameter conditions will be described as appropriate.
- the number of parameter conditions can be set arbitrarily. However, if the number of parameter conditions becomes too large, the user will need a lot of time to grasp all the many parameter conditions. Furthermore, it may be troublesome for the user to determine an appropriate parameter condition from a large number of parameter conditions. Further, the processing of the simulation system 1 becomes complicated. Therefore, the number of parameter conditions can be reduced to a number that is easy to use in consideration of the user's operability to some extent. Further, for example, in the parameter condition shown in FIG. 16, the rate of change “25%” is defined as the computer condition for the variability grasping information “motivated”. Can be set automatically.
- the condition receiving unit 12 receives an input for setting any one of the parameter conditions for each of a plurality of parameters.
- the condition reception part 12 receives designation
- the user can grasp the allowable variable degree of each parameter condition based on the variable degree grasping information, and can determine which parameter condition is set for each parameter. In this way, even if the user is not sufficiently familiar with each parameter, the user can easily set conditions to be assigned to each parameter.
- the specific means for the condition accepting unit 12 to accept the setting of the parameter condition for each parameter is not particularly limited, and can be realized by applying any input device.
- the condition accepting unit 12 has a column of “motivation for improvement” associated with each of a plurality of parameters (vegetable intake, overtime, sleep time, smoking) from the user.
- the variable degree grasping information (parameter condition) is designated from the pull-down menu.
- one parameter condition is set as an initial setting for all parameters in advance, and from this state, the condition receiving unit 12 receives an input for changing the parameter condition set to a predetermined parameter to a desired parameter condition. May be accepted.
- the parameter conditions of all parameters are in a blank state in advance, and from this state, the condition receiving unit 12 may receive an input for setting desired parameter conditions for all parameters.
- the variable range calculation unit 23 calculates the variable range for each of the plurality of parameters based on the parameter condition specified for each parameter.
- the variable range is a specific specification of a permissible range for each parameter by a numerical value.
- the variable range calculation unit 23 calculates a variable range of the value of each parameter using a computer condition included in the parameter condition.
- a computer condition of a certain parameter condition is that “a parameter value (X) may be changed from a predetermined value (Y) to a rate of change of 25% in the direction of extending the life (Y ⁇ X ⁇ 1.25Y ⁇ A or B ⁇ 0.75Y ⁇ X ⁇ Y) ”, the variable range calculation unit 23 acquires (1) a user-specified value set for each parameter as a predetermined value (Y).
- the variable range calculation unit 23 obtains a predetermined constant value such as an average value of Japanese for each parameter from the simulation system or an external device instead of the user-specified value as the predetermined value (Y). Similar processing can be performed.
- variable range calculation unit 23 since the variable range of each parameter can be calculated based on a predetermined value (eg, Japanese average value, user's current value, etc.), the variable range of each parameter can be calculated. A reasonable value for the area can be determined.
- a predetermined value eg, Japanese average value, user's current value, etc.
- the proposed value calculation unit 21 calculates a parameter suggested value that is a value of each of a plurality of parameters whose expected result is the result of the first simulation, based on the set parameter conditions.
- “based on parameter conditions” means “according to parameter conditions”. In the case of the present embodiment, this means that the parameter condition (computer condition) set for each parameter is satisfied, and more specifically, that the variable range calculated by the variable range calculation unit 32 is satisfied for each parameter.
- the means by which the suggested value calculation unit 21 calculates the parameter suggested value is not particularly limited. For example, while changing one or more values of the plurality of parameters within the variable range until the simulation value reaches the expected value, A combination of values of a plurality of desired parameters may be calculated by repeatedly performing one simulation.
- timing at which the proposed value calculation unit 21 starts calculating the parameter suggested value is not particularly limited. For example, (1) designation of an expected value (in the column “target life” in FIG. 2) and a plurality of parameters Either one of the parameter conditions ("willingness to improve" in FIG. 2) is set as a trigger for all, or (2) Although not shown in the user interface of FIG. A button for inputting an instruction for starting the calculation of the parameter proposal value may be provided, and the trigger for receiving the instruction for starting the calculation via the button may be used.
- the proposed value calculation unit 21 accepts a condition in a state where (3) the expected value (“target life” in FIG. 2) is specified and any parameter condition is set for all of the plurality of parameters.
- the unit 12 receives a change in the parameter condition of one or more parameters, the calculation of the parameter proposal value may be started using the change as a trigger. In such a case, the proposed value calculation unit 21 calculates the parameter value of each of the plurality of parameters, reflecting the change.
- the proposed value output unit 31 outputs the parameter suggested value calculated by the proposed value calculation unit 21.
- the specific means by which the proposed value output unit 31 outputs the parameter suggested value is not particularly limited, and can be realized by applying any output device.
- the suggested value output unit 31 proposes a parameter in the “recommended value” column associated with each of a plurality of parameters (vegetable intake, overtime, sleep time, smoking amount). Output the value.
- a plurality of expected values can be obtained as simulation values.
- the user does not input the condition to be satisfied as the value of each parameter as a numerical value range, but the information (variable degree grasping information) that can intuitively grasp the allowable variable degree Can be set by designation. For this reason, the user can easily set a desired condition for each parameter.
- FIG. 3 is a flowchart showing an example of a processing procedure of the simulation system 1 in the present embodiment.
- the process procedure demonstrated below is an example to the last, and the process procedure of the simulation system 1 is not limited to this.
- description will be given with reference to FIGS.
- the parameter input receiving unit 13 receives an input of a user specified value (S10).
- the parameter input receiving unit 13 can select from the pull-down menu in the “current value” column associated with each of the plurality of parameters (vegetable intake, overtime hours, sleep time, smoking amount) of the user interface shown in FIG. A value indicating the current state of the user of each parameter is accepted as a user-specified value.
- the reference value calculation unit 22 calculates a simulation value (reference value) from the user-specified value received in S10 based on the first simulation (S20).
- the standard value output unit 32 outputs the standard value calculated in S20 (S30).
- the reference value output by the reference value output unit 32 is displayed, for example, in the “expected life” column of the user interface shown in FIG.
- the expected value reception unit 11 receives an input of an expected value (S40).
- the expected value receiving unit 11 receives the target life as an expected value from the pull-down menu in the “target life” column of the user interface shown in FIG. 2, for example.
- the user refers to the user-specified value input in S10 (the “current value” field) and the reference value output in S30 (the “predicted life” field), and determines a desired expected value. Can do.
- the proposed value calculation unit 21 specifies parameter conditions set for each parameter (S50).
- the following processes may be sufficient as the process in which the proposal value calculation part 21 implement
- the condition holding unit 40 holds a table in which the parameter conditions set for each parameter are associated with each parameter, and dynamically changes the contents of the table according to the contents received by the condition receiving unit 12. change.
- the proposal value calculation part 21 specifies the parameter conditions set to each parameter with reference to this table.
- timing at which the proposed value calculation unit 21 specifies the parameter conditions set for each parameter by referring to the above table is not particularly limited, for example, triggered by receiving an expected value input in S40. Alternatively, it may be triggered by setting parameter conditions for all parameters.
- variable range calculation unit 23 calculates the variable range of each of the plurality of parameters based on the parameter condition designated for each parameter. Then, the proposed value calculation unit 21 calculates a combination of the values of each of the plurality of parameters (parameter proposed values) that are the expected values received in S40 as the result of the first simulation so as to satisfy the calculated variable range. (S60). Next, the proposed value output unit 31 outputs the parameter suggested value calculated in S60 (S70). In the present embodiment, the parameter suggested value output by the suggested value output unit 31 is associated with each of a plurality of parameters (vegetable intake, overtime hours, sleep time, smoking amount) of the user interface shown in FIG. 2, for example. Is displayed in the "Recommended value" column.
- the simulation system 1 waits for an input to change the parameter condition of one or more parameters.
- condition receiving unit 12 When the condition receiving unit 12 receives an input for changing the parameter condition of one or more parameters (S90), the process returns to S50 and repeats the same processing as described above.
- the condition receiving unit 12 receives an input for changing the parameter condition of one or more parameters (S90)
- the condition holding unit 40 holds “the parameter condition set for each parameter
- the “table in which each parameter is associated” is updated according to the content received by the condition receiving unit 12.
- the proposed value calculation unit 21 refers to the updated table, and at that time, the parameter condition set for each of the plurality of parameters (the parameter for which the change of the parameter condition is accepted is changed) Are specified (S50). And the simulation system 1 repeats the process after S60.
- the condition receiving unit 12 has one in the “motivation for improvement” column associated with each of a plurality of parameters (vegetable intake, overtime, sleep time, smoking amount).
- the display of the corresponding column is changed.
- the value in the “recommended value” column is also changed.
- the proposed value calculation unit 21 recalculates the parameter suggested value by reflecting the change in the parameter condition, and the proposed value output unit 31 outputs the parameter suggested value. It is realized with.
- the simulation system 1 of the present embodiment it is possible for the user to input the parameter condition explicitly and efficiently, or to dynamically change the specification during the simulation.
- a simulation system 1 having a user interface different from that of the first embodiment will be described.
- the case where the first simulation is a life prediction simulation will be described as an example.
- FIG. 20 is a functional block diagram showing an example of the configuration of the simulation system 1 of the present embodiment. As shown in FIG. 20, the simulation system 1 of the present embodiment is different from the configuration of the first embodiment in that it further includes a GUI display unit 33 and a condition specifying unit 24.
- the GUI display unit 33 displays a plurality of parameter parts corresponding to each of the plurality of parameters on the display. In addition, the GUI display unit 33 displays a plurality of parameter condition parts corresponding to each of a plurality of parameter conditions set for each of the plurality of parameters on the display.
- FIG. 4 shows an example of the user interface of the present embodiment.
- the GUI display unit 33 includes four parameter parts corresponding to the four parameters of “vegetable intake”, “sleeping time”, “overtime hours”, and “smoking amount”. 103 is displayed.
- Each of the parameter parts 103 has a linear graph, and the value of each parameter can be displayed on the graph.
- the GUI display unit 33 displays three parameter condition parts 104 corresponding to the three parameter conditions.
- Each parameter condition component 104 is associated with each of the three variable degree grasping information of “execute”, “do your best”, and “do not want to change”.
- FIG. 17 shows an example of a part of the internal configuration of the condition holding unit 40 in the present embodiment.
- the computer condition associated with the variable degree grasping information “good luck” may be, for example, “a parameter value (X) may be changed from a predetermined value (Y) as much as possible in the direction of extending the life (Y ⁇ X ⁇ A or B ⁇ X ⁇ Y) ”.
- the predetermined value (Y) may be a predetermined value such as an average value of Japanese people, or may be a user-specified value.
- the parameter proposal value (Z) can be, for example, a value currently displayed on the parameter component 103 shown in FIG.
- the number of parameters associated with each condition increases, and the parameters can be grouped and processed.
- the processing efficiency of the simulation system 1 The effect which improves can be expected.
- a simulation value component 102 for displaying the simulation value of the life prediction simulation is displayed on the user interface 101a.
- the simulation value component 102 has a linear graph, and a simulation value can be displayed on the graph.
- the current age (current value) of the user who has received an input from the user may be displayed on the simulation value component 102.
- the linear graph included in the parameter component 103 and the linear graph included in the simulation value component 102 are arranged in parallel to each other.
- condition specifying unit 24 uses the display position of the first parameter component 103 and the display positions of each of the plurality of parameter condition components 104 to set one parameter condition component for the first parameter component 103. 104 is associated. Then, the condition specifying unit 24 specifies the parameter condition associated with the parameter condition component as the parameter condition set in the parameter corresponding to the first parameter component 103.
- the condition specifying unit 24 specifies the display position of each of the plurality of parameter parts 103 on the display screen and the display position of each of the plurality of parameter condition parts 104 on the display screen.
- the simulation system 1 holds a table (hereinafter referred to as “display position table”) in which each of the plurality of parameter parts 103 and the plurality of parameter condition parts 104 is associated with each display position.
- specification part 24 specifies the display position of each component with reference to a display position table.
- each component is, for example, a predetermined location (eg, each of each component) using coordinate axes set on a display screen that displays a plurality of parameter components 103 and a plurality of parameter condition components 104. It may be expressed as a coordinate point of the center point of the component.
- condition specifying unit 24 uses one parameter condition for each of the plurality of parameter parts 103 using the display position of each part in accordance with a rule stored in advance (hereinafter referred to as “correspondence rule”).
- correlation rule a rule stored in advance
- association rules are not particularly limited as long as one parameter condition component can be associated with one parameter component.
- the association rule is “use the display position of each of the plurality of parameter condition parts 104 to define a predetermined area that does not cover each other for each parameter condition part 104. It may be a rule that stipulates that one parameter condition component 104 is associated with each parameter component 1 on the basis of whether the parameter component 1 is located in the position.
- the associating rule is a rule that prescribes that “the first parameter component 103 is associated with the parameter condition component 104 located on the upper side of the first parameter component 103 and located closest to the first parameter component 103”. It may be. Note that these are merely examples, and the association rules may be other rules.
- condition specifying unit 24 specifies the parameter condition corresponding to the parameter condition component 104 associated with the first parameter component 103 as the parameter condition set for the parameter corresponding to the first parameter component 103. To do.
- the simulation system 1 holds a table (first table) in which each of the plurality of parameter parts 103 is associated with each of the plurality of parameters. Further, the simulation system 1 holds a table (second table) in which each of the plurality of parameter condition parts 104 is associated with each of the plurality of parameter conditions.
- condition specifying unit 24 uses the display position table, the association rule, the first table, and the second table as the parameter conditions set for the parameter corresponding to the first parameter component 103 as the first parameter condition.
- the parameter condition corresponding to the parameter condition component 104 associated with one parameter component 103 is specified.
- the association rule is “associate the first parameter component 103 with the parameter condition component 104 located on the upper side of the first parameter component 103 and located closest to the first parameter component 103”. Then, the condition specifying unit 24 specifies a parameter condition of “good luck” for all parameters.
- the condition receiving unit 12 is configured to change the display position of each of the plurality of parameter parts 103 displayed by the GUI display unit 33 and / or change the display position of each of the plurality of parameter condition parts 104. By accepting the input, the input for setting any one of the parameter conditions is accepted for each of the plurality of parameters.
- the means for receiving the input for changing the display position of each of the parameter parts 103 and / or the input for changing the display position of each of the plurality of parameter condition parts 104 is not particularly limited, and any input device can be applied. Can be realized.
- the condition receiving unit 12 may receive an input for changing the display position of each component by receiving an operation on the parameter component 103 and / or the parameter condition component 104 in the user interface 101a. When the condition receiving unit 12 receives the input, the display position table is updated.
- the parameter input receiving unit 13 receives an input of a user specified value (eg, current value), as shown in FIG. Is displayed.
- a user specified value eg, current value
- the guideline value 106 calculated by the guideline value calculation unit 22 based on the user-specified value 105 is displayed by the guideline value output unit 32.
- the parameter input receiving unit 13 may receive an input of a user-specified value by receiving an operation for each parameter component 103 in the user interface 101a.
- the expected value receiving unit 11 receives the input of the expected value
- the expected value 107 is displayed on the simulation value component 102 as shown in FIG.
- Each parameter component 103 includes a parameter proposal value 108 (recommended value in the figure) calculated by the proposal value calculation unit 21 based on the parameter condition and the expected value 107 set for each parameter, and a proposed value output unit. 31 is displayed.
- the expected value receiving unit 11 may receive an input of an expected value by receiving an operation on the simulation value component 102 in the user interface 101a.
- condition receiving unit 12 receives an input for changing the display position of the parameter component 103 and / or the parameter condition component 104 from the state shown in FIG. 6, as shown in FIG.
- the display position of is changed.
- the display position table is rewritten with the change of the display position.
- the condition specifying unit 24 sets the parameter conditions set for each of the plurality of parameters based on the display positions of the plurality of parameter parts 103 after the display position change and the display positions of the plurality of parameter condition parts 104. Is identified.
- the association rule is “associate the first parameter component 103 with the parameter condition component 104 located on the upper side of the first parameter component 103 and located closest to the first parameter component 103”. Then, the condition specifying unit 24 specifies the parameter condition of “Do your best” for the parameters “Vegetable intake” and “Overtime hours”, and the parameter condition of “I do not want to change” for the parameter “Sleep time” Then, the parameter condition of “execute” is specified for the parameter “smoking amount”.
- the parameter proposal value is recalculated by reflecting the change of the parameter condition (proposed value calculation unit 23), and the recalculated parameter proposal value 108 (recommended value in the figure) is displayed on the parameter component 103. (Suggested value output unit 31).
- the user interface of the simulation system 1 of the present embodiment can be other modified examples.
- a text box, a radio button, a check box, a list box, a drop-down list, or the like can be used.
- it can also be a means for receiving input from a spin button, a slider, a directly operable graph, or the like.
- a graph that can be directly operated is, for example, the value shown in the graph, the graph itself, the knobs and buttons placed on the graph, etc. can be clicked or dragged and dropped with a pointing device such as a mouse, tablet, trackball, or joystick. This applies to graphs that can be operated.
- the present invention is not limited to these.
- the value to be simulated may be received as a point on a bar graph that can be directly operated, by clicking a pointing device.
- the means for accepting input from the user is realized using a bar graph that can be directly operated
- the value to be simulated is input by clicking the pointing device as a button arranged on the bar graph that can be directly operated. May be.
- the means for receiving input from the user is realized using a directly operable graph
- the movement of the parameter may be input by dragging a knob on the directly operable graph with a pointing device. .
- the acquisition of the simulation input is not limited to the above description.
- various data can be displayed using any means such as text, table, graph. However, it is not limited to these.
- the parameter condition component 104 may be a dotted line or a curve. Further, the shape of the parameter condition component 104 may divide the region, such as a circle, a polygon, or an ellipse. In such a case, the condition specifying unit 24 may associate one parameter condition component 104 with each of the plurality of parameter components 103 using an area delimited by each parameter condition component 104.
- the simulation system 1 of this embodiment having such a user interface, the user can easily and intuitively set and change desired conditions. That is, a very user-friendly system is realized. Moreover, the same effect as 1st Embodiment is realizable.
- the first simulation is a mortgage repayment period simulation.
- the configuration of the simulation system 1 of the present embodiment can be the same as the configuration of the simulation system 1 of the first embodiment or the simulation system 1 of the second embodiment.
- FIG. 8 is a diagram illustrating an example of a user interface of the simulation system 1 according to the present embodiment. Since the basic configuration of the user interface 101b shown in FIG. 8 is the same as the configuration of the user interface 101a shown in FIG. 4 described in the second embodiment, detailed description thereof is omitted.
- the simulation value (repayment period) of the mortgage repayment period simulation is displayed on the simulation value component 112 for displaying the simulation value.
- the simulation value component 112 may display the current repayment plan (repayment period) accepted from the user.
- a parameter component 113 is displayed.
- Each parameter condition component 114 is associated with each of four variable degree grasping information of “execute”, “do as much as possible”, “do your best”, and “do not want to change”.
- FIG. 18 shows an example of a part of the internal configuration of the condition holding unit 40 in the present embodiment.
- the computer condition associated with the variable degree grasping information “do as much as possible” is, for example, “change the parameter value (X) from the user-specified value (W) to a rate of change of 50% in the direction of shortening the repayment period. (W ⁇ X ⁇ 1.5W ⁇ A or B ⁇ 0.5W ⁇ X ⁇ W) ”.
- variable degree grasping information “good luck” is, for example, “parameter value (X) from the user specified value (W) to a rate of change of 25% in the direction of shortening the repayment period. It may be changed (W ⁇ X ⁇ 1.25W ⁇ A or B ⁇ 0.75W ⁇ X ⁇ W) ”.
- simulation system 1 of the present embodiment it is possible to realize the same operational effects as those of the first embodiment and the second embodiment.
- the case where the first simulation is a product ordering simulation will be described as an example.
- the configuration of the simulation system 1 according to the present embodiment can be the same as the configuration of the simulation system 1 according to the first embodiment or the configuration of the simulation system 1 according to the second embodiment.
- FIG. 9 An example of the user interface of the simulation system 1 of the present embodiment is shown in FIG.
- the basic configuration of the user interface 101c illustrated in FIG. 9 is the same as the configuration of the user interface 101a illustrated in FIG. 4 described in the second embodiment, and thus detailed description thereof is omitted.
- the simulation value of the product order simulation (total order value of the product) is displayed on the simulation value component 115 for displaying the simulation value.
- the current value (total amount) received from the user may be displayed on the simulation value component 115.
- Each parameter condition part p product 114 is associated with each of the three variable degree grasping information of “execute”, “do your best”, and “do not want to change”.
- FIG. 19 shows an example of a part of the internal configuration of the condition holding unit 40 in the present embodiment.
- the computer condition associated with the variable degree grasping information “seldom sell” is, for example, “the parameter value (X) is set to a predetermined range (eg, 1 to 5) (1 ⁇ X ⁇ 5)” It may be.
- variable degree grasping information “selling” is, for example, “parameter value (X) more than the parameter value (X ′) for which the parameter condition“ seldom sell ”” is set. “Large value (X ′ ⁇ X)” may be used.
- variable degree grasping information “selling well” is, for example, “parameter value (X) more than parameter value (X ′′) for which the parameter condition“ selling ”is set”. “Large value (X ′′ ⁇ X)” may be used.
- simulation system 1 of the present embodiment it is possible to achieve the same operational effects as those of the first to third embodiments.
- the simulation system 1 according to the present embodiment is obtained by partially changing the configuration of the user interface shown in any of the second to fourth embodiments.
- FIG. 10 shows an example of a user interface of the simulation system 1 of the present embodiment.
- the user interface 101d shown in FIG. 10 has a configuration in which the user can more intuitively understand the degree of influence that the change of each parameter value has on the result (simulation value) of the first simulation. Different from the user interface shown. Other configurations are the same as the configuration of the user interface shown in FIG.
- the degree of influence means "when the value of each parameter is changed in the plus or minus direction, whether the simulation value changes in the plus or minus direction". "How much does the simulation value change when I do?"
- the above is an example, and the degree of influence is not limited to the above description.
- the parameter value and the simulation value are displayed by the same means (straight line graph), and the degree of influence is intuitively grasped by arranging them substantially in parallel. It can be done.
- This configuration is the same for the user interface 101a shown in FIG.
- the parameter value changes on the linear graph of the parameter component 103, and on the linear graph of the simulation value component 102 due to the change.
- the direction in which the simulation value changes matches. Specifically, in the case of FIG. 10, the simulation value (predicted life) is displayed so as to increase in the right direction in the figure. Since the parameter “vegetable intake” has a relationship that the simulation value (predicted life value) increases as the vegetable intake increases, the parameter “vegetable intake” is displayed so as to increase in the right direction in the figure.
- the parameter “smoking amount” has a relation that the simulation value (predicted life) becomes higher as the smoking amount becomes lower, and therefore, the parameter “smoking amount” is displayed so that the value becomes lower as it goes to the right in the figure. With such a display, the user can intuitively grasp the degree of influence that the change in the value of each parameter has on the simulation value.
- a scale 129 is displayed that indicates the degree of influence of each change (change amount) of a plurality of parameter values on the change (change amount) of the simulation value (predicted life). Yes.
- the scale of each parameter component 103 is adjusted so that the amount of change in each parameter value matches the amount of change in the simulation value (predicted life value) associated with the amount of change.
- the relationship between the parameter “vegetable intake” and the simulation value “predicted life” is that when the vegetable intake is 0 g, the life becomes 2 years shorter than the average, and the relationship is 250 g. In the case of 500 g, the average life is 2 years longer than the average.
- the relationship between the parameter “sleep time” and the simulation value “predicted life” is that the life is 3 years shorter than the average when the sleep time is 2 h, 2 years shorter when 3 h, and 1 year shorter when 4 h. In the case of 5h, it becomes the average life, in the case of 6h it is one year longer than the average, in the case of 7h it is 2 years longer, and in the case of 8h it is 3 years longer.
- the influence of the parameters “vegetable intake” and “sleep time” on the simulation value “predicted life” is both linear and monotonically increasing, but “sleep time” is more “vegetable intake” than “vegetable intake”
- the change in the value of the “predicted life” is large, and the degree of influence is different.
- the relationship between the parameter “overtime hours” and the simulation value “predicted life” is that the life is 0.5 years longer than the average when the overtime is 0 h, and 1.5 years shorter than the average when it is 1 h. In the case of 2h, it is 3.5 years shorter.
- the relationship between the parameter “smoking amount” and the simulation value “predicted life” is that when the smoking amount is 0, the life is 0.5 years longer than the average, and when it is 5, the average life is 10 In the case of, it is 1 year shorter than the average, and in the case of 15 it is 2.5 years shorter.
- the user can intuitively grasp the characteristics of the influence degree as described above from the user interface 101d shown in FIG.
- the degree of influence indicated by the scale 129 can be expressed by any other means such as text, a table, and a graph.
- the change in the parameter value and the corresponding change and direction of the simulation target value may be expressed in numerical values.
- the degree of influence is expressed in a graph, and when a simulation input value is received in a graph that can be directly manipulated, the change in the parameter value and the corresponding change and direction of the simulation value are the values of the simulation value. It may be expressed simultaneously on a graph on which input is accepted.
- the change in parameter value which is the degree of influence
- the corresponding change and direction of the simulation value are directly related to the acceptance of the simulation value input. It may be expressed on an operable bar graph.
- the degree of influence between each parameter and the simulation target is displayed, it is possible to predict how the simulation value changes when the user sets the parameter condition. Therefore, the user can set a predetermined condition efficiently and effectively. As a result, it is possible to search for a combination of desired parameter values, shorten the operation time until the desired combination of parameter values is reached, and perform efficient simulation.
- the simulation system 1 is based on the configuration of any one of the first to fifth embodiments, and further selectively changes the parameter value for each parameter. This is different in that it has a variable range setting accepting unit that accepts an input for numerically setting.
- variable range setting receiving unit is not particularly limited, and can be realized by applying any input device.
- the user sets a variable range with a numerical value for parameters that are sufficiently familiar, and a desired parameter condition for other parameters. Restrictions can be attached.
- FIG. 11 shows a user interface for the life prediction simulation, and the basic configuration is the same as the user interface shown in FIG.
- a configuration provided only in the user interface of the present embodiment will be described.
- two knobs 122 that can set a variable range numerically for each parameter are provided for each parameter component 103.
- a region sandwiched between the two knobs 122 becomes a variable region.
- the display position of the knob 122 is changed as shown in FIG. Thereby, the user can intuitively grasp the set variable range.
- the input for changing the display position of the knob 122 may be realized by receiving an operation on the knob 122 in the user interface 101e.
- the proposed value calculation unit 21 may calculate the parameter value of each of the plurality of parameters by using the input as a trigger to reflect the change of the variable range. Then, the proposed value output unit 31 may output the parameter suggested value calculated by the proposed value calculation unit 21.
- the parameter proposal value 108 calculated by reflecting the change of the variable range is displayed on the parameter component 103.
- the proposed parameter value 108 displayed on each of the parameter parts 103 has changed.
- variable range obtained by combining a variable range determined on the basis of a parameter condition and a variable range that accepts a numerical input with an AND condition or an OR condition may be used as the variable range of the parameter value.
- the user interface 101e of the present embodiment has a variable range so that when the variable range of the parameter value is set numerically, the set variable range can be easily grasped. It may be hatched outside. Note that it is sufficient that the user can intuitively grasp the variable range, and the means is not limited to the above-described oblique lines.
- the user interface of the present embodiment may be as shown in FIGS.
- a simulation value component 102 for displaying a simulation value and a parameter component 103 for displaying a parameter value are displayed on the screen as a graph that can be directly operated, respectively
- the conditional component 104 is displayed on the screen as a separator that can be directly operated.
- a user interface 101f illustrated in FIG. 15 illustrates a case where the parameter input acquisition method is the button 130 arranged on the graph when the parameter is a directly operable graph.
- the display processing system of the present invention is a simulation system.
- the display processing system of the present invention is not limited to a simulation system.
- the display processing system of the present invention may be a search system that calculates search results (number of hits, hit targets, etc.) from a plurality of search conditions.
- the “search condition” corresponds to the “parameter” in the above embodiment
- the “search result” corresponds to the “simulation value” in the above embodiment.
- the display processing system of the present invention is also effective in a search system that operates on an information processing device having a GUI and application software that has a search function.
- the display processing system of the present invention assumes a plurality of search conditions such as web search, paper search, product search, store search, user search, transfer search, route search, etc. This is effective in any system in which a predetermined condition is set.
- search conditions such as web search, paper search, product search, store search, user search, transfer search, route search, etc.
- This is effective in any system in which a predetermined condition is set.
- the above is an example, and the present invention is not limited to these.
- the user interface described in the above embodiment can be applied to any system as described above.
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Abstract
Description
本実施の形態では、第1のシミュレーションが、生活習慣を示す複数のパラメータ(野菜摂取量、睡眠時間、残業時間、喫煙量など)の値から、シミュレーション値として予測寿命を算出する寿命予測シミュレーションである場合を例として説明する。
(1)コンピュータ条件:「パラメータの値(X)を、所定値(Y)から、寿命が延びる方向に可能な限り変更してよい(Y≦X≦A、または、B≦X≦Y。A及びBは、パラメータ毎に予め定められた定数である(以下同様)。)」、可変度合把握情報:「やる気満々」、
(2)コンピュータ条件:「パラメータの値(X)を、所定値(Y)から、寿命が延びる方向に25%の変化率まで変更してよい(Y≦X≦1.25Y≦A、または、B≦0.75Y≦X≦Y)」、可変度合把握情報:「やる気あり」、
(3)コンピュータ条件:「パラメータの値(X)を、所定値(Y)から変更しない(X=Y)」、可変度合把握情報:「やる気なし」、
(4)コンピュータ条件:「パラメータの値(X)を、「決定」(可変度合把握情報)を設定した時点におけるパラメータ提案値(Z)(図2中、「推奨値」の欄に表示されている値)から変更しない(X=Z)」、可変度合把握情報:「決定」、としてもよい。ここで、所定値(Y)は、ユーザ指定値(パラメータ入力受付部13がパラメータ毎に受付けた値。図2の場合、「現在値))であってもよいし、または、日本人の平均値等とすることもできる。なお、所定値(Y)を日本人の平均値等とする場合、本実施形態のシミュレーションシステムは、各パラメータの平均値等を予め保持しておくか、または、所定のタイミングで他の装置から取得可能に構成される。そして、当該値は、以下で説明する可変域算出部23が、可変域を算出する演算処理に利用する。
本実施の形態では、第1の実施の形態とは異なるユーザインターフェイスを有するシミュレーションシステム1について説明する。なお、本実施の形態においても、第1の実施の形態と同様、第1のシミュレーションが寿命予測シミュレーションである場合を例として説明する。
図4に示すユーザインターフェイス101aにおいて、GUI表示部33は、「野菜摂取量」、「睡眠時間」、「残業時間」、および、「喫煙量」の4つのパラメータ各々に対応した4個のパラメータ部品103を表示している。このパラメータ部品103はいずれも、直線状のグラフを有し、当該グラフ上において、各パラメータの値を表示することができる。
本実施の形態において、第1のシミュレーションが、住宅ローンの返済期間シミュレーションである場合を例として説明する。なお、本実施の形態のシミュレーションシステム1の構成は、第1の実施の形態のシミュレーションシステム1または第2の実施の形態のシミュレーションシステム1の構成と同様とすることができる。
本実施の形態において、第1のシミュレーションが商品の発注シミュレーションである場合を例として説明する。なお、本実施の形態のシミュレーションシステム1の構成は、第1の実施の形態のシミュレーションシステム1の構成、または、第2の実施の形態のシミュレーションシステム1の構成と同様とすることができる。
本実施の形態のシミュレーションシステム1は、第2の実施の形態から第4の実施の形態のいずれかにおいて示したユーザインターフェイスの構成を一部変更したものである。
本実施の形態のシミュレーションシステム1は、第1の実施の形態から第5の実施の形態のいずれか1つの構成を基本とし、さらに、パラメータごとに、選択的に、前記パラメータの値の可変域を数値で設定する入力を受付ける可変域設定受付部を有する点で異なる。
Claims (10)
- 複数のパラメータ各々に対応した複数のパラメータ部品、および、前記複数のパラメータ各々に設定される複数の条件各々に対応した複数のパラメータ条件部品をディスプレイに表示するGUI表示手段と、
第1の前記パラメータ部品の表示位置、および、前記複数のパラメータ条件部品各々の表示位置を利用して、前記第1のパラメータ部品に1つの前記パラメータ条件部品を対応付けるとともに、当該パラメータ条件部品に対応した前記条件を、前記第1のパラメータ部品に対応した前記パラメータに設定されている条件として特定する条件特定手段と、
を有する表示処理システム。 - 前記GUI表示手段が表示する前記複数のパラメータ部品各々の表示位置を変更する入力、および/または、前記複数のパラメータ条件部品各々の表示位置を変更する入力を受け付ける条件受付手段をさらに有し、
前記条件特定手段は、前記変更後の前記複数のパラメータ部品各々の表示位置、および、前記複数のパラメータ条件部品各々の表示位置を基に、前記複数のパラメータ各々に設定されている前記条件を特定する請求項1に記載の表示処理システム。 - 第1のシミュレーションに基づいて複数のパラメータの値から算出された結果であるシミュレーション値が期待値となる前記複数のパラメータ各々の値を算出する表示処理システムであって、
前記複数のパラメータ各々の値の許容可変度合を示す条件であるパラメータ条件を複数保持する条件保持手段を有し、
前記GUI表示手段が表示する前記複数のパラメータ条件部品各々は、複数の前記パラメータ条件各々に対応しており、
さらに、
前記期待値の指定を受付ける期待値受付手段と、
前記複数のパラメータ各々に設定されている前記パラメータ条件に基づき、前記第1のシミュレーションの結果が前記期待値となる前記複数のパラメータ各々の値であるパラメータ提案値を算出する提案値算出手段と、
前記提案値算出手段が算出した前記パラメータ提案値を出力する提案値出力手段と、
を有する請求項1または2に記載の表示処理システム。 - 前記期待値が指定されている状態で、前記条件受付手段が、前記パラメータ部品および/または前記パラメータ条件部品の表示位置を変更する入力を受付けると、
前記条件特定手段は、
前記変更後の前記複数のパラメータ部品各々の表示位置、および、前記複数のパラメータ条件部品各々の表示位置を基に、前記複数のパラメータ各々に設定されている前記パラメータ条件を特定し、
前記提案値算出手段は、
前記変更を反映させて、前記複数のパラメータ各々の前記パラメータ提案値を算出し、
前記提案値出力手段は、
前記変更を反映させた前記パラメータ提案値を出力する請求項3に記載の表示処理システム。 - 前記複数のパラメータ部品はパラメータ値を表示可能に構成され、
前記GUI表示手段は、さらに、前記シミュレーション値を表示するためのシミュレーション値部品を前記ディスプレイに表示し、
さらに、
ユーザが任意に決定した前記複数のパラメータ各々の値であるユーザ指定値の入力を受付けるパラメータ入力受付手段と、
前記第1のシミュレーションに基づいて前記ユーザ指定値から算出される値である目安値を算出する目安値算出手段と、
前記目安値算出手段が算出した前記目安値を、前記シミュレーション値部品を介して出力する目安値出力手段と、
をさらに有する請求項3または4に記載の表示処理システム。 - 前記パラメータ部品および前記シミュレーション値部品はいずれも直線状のグラフを有し、前記直線状のグラフは互いに平行に配置されている請求項5に記載の表示処理システム。
- 前記パラメータ部品が有する前記直線状のグラフ上で前記パラメータの値が変化する方向と、前記変化に起因して前記シミュレーション値部品が有する前記直線状のグラフ上で前記シミュレーション値が変化する方向とが、一致している請求項6に記載の表示処理システム。
- 前記GUI表示手段は、
前記複数のパラメータの値各々の変化が前記シミュレーション値の変化に及ぼす影響度合を示す部品をさらに表示する請求項3から7のいずれか1項に記載の表示処理システム。 - コンピュータを、
複数のパラメータ各々に対応した複数のパラメータ部品、および、前記複数のパラメータ各々に設定される複数の条件各々に対応した複数のパラメータ条件部品をディスプレイに表示するGUI表示手段、
第1の前記パラメータ部品の表示位置、および、前記複数のパラメータ条件部品各々の表示位置を利用して、前記第1のパラメータ部品に1つの前記パラメータ条件部品を対応付けるとともに、当該パラメータ条件部品に対応した前記条件を、前記第1のパラメータ部品に対応した前記パラメータに設定されている条件として特定する条件特定手段、
として機能させるためのプログラム。 - 複数のパラメータ各々に対応した複数のパラメータ部品、および、前記複数のパラメータ各々に設定される複数の条件各々に対応した複数のパラメータ条件部品をディスプレイに表示するGUI表示ステップと、
第1の前記パラメータ部品の表示位置、および、前記複数のパラメータ条件部品各々の表示位置を利用して、前記第1のパラメータ部品に1つの前記パラメータ条件部品を対応付けるとともに、当該パラメータ条件部品に対応した前記条件を、前記第1のパラメータ部品に対応した前記パラメータに設定されている条件として特定する条件特定ステップと、
を有する表示処理方法。
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US9600149B2 (en) | 2017-03-21 |
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JPWO2012008082A1 (ja) | 2013-09-05 |
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