JP5835218B2 - Display control apparatus, method, and program - Google Patents

Description

  The present invention relates to a display control apparatus, method, and program.

In recent years, portable devices having a plurality of output screens are increasing, and some portable game machines and mobile phone terminals having a plurality of output screens have already been commercialized.
By the way, the devices as described above generally have higher power consumption for output compared to devices having only one output screen. Therefore, there is a strong demand for energy saving for these devices.
As one method for effectively reducing the power consumption of a device having a plurality of output screens, there is a method of frequently turning off the backlight of a screen that has not been operated by a user for a certain period of time. However, a device having a plurality of output screens is often used to operate another screen while referring to one screen. When using such a method, if the backlight of the screen being referred to is turned off just because the user is not operating, the convenience for the user is lowered.
In order to deal with such a problem, Patent Document 1 further discloses that resource information such as the position of the mouse pointer and the position of the active window is added to the current screen DIM / saver determination condition of the keyboard / mouse operation status. In addition to judging conditions, the position of these resources on multiple screens is judged, and when there is no display of these resources on a specific monitor for a certain period of time, the monitor is put into a low power consumption mode (low power consumption mode). It is described that a transition is made to an operation state.
Further, in Patent Document 2, in an information processing apparatus including a display unit illuminated by an illumination unit and an operation unit that receives an operation by a user, the lighting time of the illumination unit is displayed for each of a plurality of screens displayed on the display unit. Storage means for storing preset lighting time setting information, acquisition means for acquiring the lighting time of the illumination means from the lighting time setting information based on a screen currently displayed on the display means, and the acquired There is described an information processing apparatus including a lighting control unit that lights the lighting unit with a lighting time, and the lighting control unit controls the acquired lighting time according to an operation by the user. .

JP 2000-163035 A JP 2006-184018 A

The above technique does not perform display control in consideration of the relationship of applications output on each of a plurality of output screens, and thus has a problem that convenience for the user is lowered.
Therefore, the present invention has been made in view of the above problems, and provides a display control apparatus, method, and program that can turn off the backlight at an appropriate timing without reducing user convenience. Objective.

In order to achieve such an object, one aspect of the present invention is a display control device, in which an operation input time (first application) closest to the current time and the first application are displayed. Defined for each combination of the second application being displayed on other display means (second display means) other than the display means (first display means), and the first application and the second application A set time storage means for storing time (backlight set time), and a progress from the last operation input to the second application when the first application is displayed on the first display means Time (elapsed time after operation) is acquired, and when the elapsed time after operation exceeds the backlight setting time, the second display means And an output information management means for turning off the backlight or power, the.
In addition, according to the present invention, the application input time closest to the current time (first application) and the display means (first display means) other than the display means on which the first application is displayed A step of storing a second application being displayed on the display means (second display means) and a time (backlight setting time) determined for each combination of the first application and the second application And when the first application is displayed on the first display means, an elapsed time from the last operation input to the second application (post-operation elapsed time) is acquired, and the post-operation elapsed time Turning off the backlight or power supply of the second display means when the backlight setting time has passed. Display control program to be executed by the Yuta is provided.
In addition, according to the present invention, the application input time closest to the current time (first application) and the display means (first display means) other than the display means on which the first application is displayed Storing the second application being displayed on the display means (second display means) and the time (backlight setting time) determined for each combination of the first application and the second application; When the first application is displayed on the first display means, an elapsed time from the last operation input to the second application (elapsed time after operation) is acquired, and the elapsed time after operation is Provided is a display control method for turning off the backlight or power of the second display means when the backlight setting time is exceeded.

  ADVANTAGE OF THE INVENTION According to this invention, the display control apparatus, method, and program which can turn off a backlight at a suitable timing can be provided, without reducing a user's convenience.

It is a block diagram which shows the example of a structure of the 1st Embodiment of this invention. It is a block diagram which shows the example of a structure of the 1st Embodiment of this invention. It is a figure showing the example of the data memorize | stored in the measurement time memory | storage part 12 of the 1st Embodiment of this invention. It is a figure showing the example of the data which the operation monitoring part 11 of the 1st Embodiment of this invention acquires. It is a figure showing the example of the data memorize | stored in the application information storage part 18 of the 1st Embodiment of this invention. It is a figure showing the example of the data memorize | stored in the set time memory | storage part 16 of the 1st Embodiment of this invention. It is a flowchart which shows the operation | movement of the 1st Embodiment of this invention. It is a flowchart which shows the operation | movement of the 1st Embodiment of this invention. It is a figure showing the equation for calculating the new backlight setting time of the 1st Embodiment of this invention. It is a figure showing the graph of the equation for calculating the new backlight setting time of the 1st Embodiment of this invention. It is a block diagram which shows the example of a structure of the 2nd Embodiment of this invention. It is a block diagram which shows the example of a structure of the 2nd Embodiment of this invention. It is a block diagram which shows the example of a structure of the 3rd Embodiment of this invention. It is a block diagram which shows the example of a structure of the 3rd Embodiment of this invention. It is a block diagram which shows the example of a structure of the 4th Embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings, the same components are denoted by the same reference numerals, and description thereof will be omitted as appropriate.
Each unit constituting each device of each embodiment includes a control unit, a memory, a program loaded in the memory, a storage unit such as a hard disk for storing the program, a network connection interface, and the like. Realized by a combination of And unless there is particular notice, the realization method and apparatus are not limited.
The control unit includes a CPU (Central Processing Unit) and the like, operates the operating system to control the entire apparatus, and reads programs and data into a memory from a recording medium mounted on, for example, a drive apparatus. Execute the process.
The recording medium is, for example, an optical disk, a flexible disk, a magnetic optical disk, an external hard disk, a semiconductor memory, etc., and records a computer program so that it can be read by a computer. The computer program may be downloaded from an external computer (not shown) connected to the communication network.
In addition, the block diagram used in the description of each embodiment shows a functional unit block, not a hardware unit configuration. These functional blocks are realized by any combination of hardware and software. Further, in these drawings, the components of each embodiment may be described as being realized by one physically coupled device, but the means for realizing the same is not limited thereto. That is, two or more physically separated devices may be connected by wire or wirelessly, and the system of each embodiment may be realized by the plurality of devices.
<First Embodiment>
Next, a first embodiment of the present invention will be described in detail with reference to the drawings.
Referring to FIG. 1, the display control device 10 according to the first exemplary embodiment of the present invention includes a CPU 1, two or more display units 2, and a storage device 3.
The CPU 1 is a central processing unit, and controls the entire display control unit 10 by performing various numerical calculations, information processing, device control, and the like by a program.
The display unit 2 is a liquid crystal display, a cathode ray tube, or the like, and may be fixed to the display control device 10 from the beginning, or may be connected to the display control device 10 via a connection unit (not shown).
The storage device 3 is an optical disk, a flexible disk, a magnetic optical disk, an external hard disk, a semiconductor memory, or the like, and records a computer program so that it can be read by a computer.
The input device 5 is a device such as a keyboard or a mouse that allows an operator to perform an operation input on an application displayed on the display unit 2.
First, the outline of the display control apparatus 10 will be briefly described with reference to FIG.
The CPU 1 monitors an operation from the user for the application displayed on the display unit 2. When the CPU 1 detects an input of a user operation, the CPU 1 stores the operation content in the storage device 3. Further, the CPU 1 acquires the operation contents of the application and the history information of the display location where the application was displayed from the storage device 3, and displays the application (displays the application execution screen). Is calculated until it is turned off (backlight setting time) and stored in the storage device 3. Further, the CPU 1 compares the post-operation elapsed time, which is the time from the last operation time to the application to the current time, stored in the storage unit 3, and the above-described backlight setting time. Then, when the elapsed time after operation exceeds the backlight setting time, the CPU 1 transmits a command signal to the display unit 2 to turn off the backlight or the power.
Next, a detailed configuration of the display control apparatus 10 will be described with reference to FIG.
Specifically, as shown in FIG. 2, the display control apparatus 10 includes an operation monitoring unit 11, a measurement time storage unit 12, an update target data determination unit 13, a variation determination unit 14, and a BL set time calculation unit. 15, a set time storage unit 16, an output information management unit 17, and an application information storage unit 18.
The operation monitoring unit 11 monitors an operation from the user for the display control device 10. The operation from the user is an operation to an application displayed on the display unit 2 through various input devices such as a touch panel and a keyboard. When the operation monitoring unit 11 detects an operation from the user, the operation monitoring unit 11 calculates the post-operation elapsed time for the application using the previous operation time stored in the application information storage unit 18, and stores this in the measurement time storage unit 12. To do. Here, the operation monitoring unit 11 calculates the elapsed time after the operation, and then only after the detected operation is an operation for a dormant application described later, the post-operation elapsed time, the in-operation application, and the dormant application And the storage date and time are associated with each other and added to the measurement time storage unit 12. Alternatively, the operation monitoring unit 11 may calculate the elapsed time after operation for the dormant application and store it in the measurement time storage unit 12 only when an operation input from the user for the dormant application is detected. The post-operation elapsed time represents the time elapsed after the application inputs an operation and the processing corresponding to the operation is executed. For example, the post-operation elapsed time = (current time−previous operation time). The storage date and time is the time at which the operation monitoring unit 11 stores the above-described application information in the measurement time storage unit 12. The operation data detected by the operation monitoring unit 11 is distinguished from the measurement time that is the time when the operation monitoring unit 11 measures the user's operation and the measurement location (the plurality of display units 2 where the user performed the operation). Data such as identifiers for the purpose, and so on. An example of the operation data is shown in FIG.
When the operation monitoring unit 11 detects an operation from the user, the operation monitoring unit 11 notifies the output information management unit 17 of the operation data.
The measurement time storage unit 12 is realized by a storage device such as an optical disk device or a magnetic disk. The measurement time storage unit 12 stores an operating application, a dormant application, an elapsed time after operation, and a storage date and time in association with each other. An example of data stored in the measurement time storage unit 12 is shown in FIG. Here, the application in operation is an application displayed on one of the display units 2, and the previous operation time (time when the application was last operated) included in the application information storage unit 18 is closest to the current time. It is an application. In addition, a dormant application is an application that is not being operated among applications included in the application information storage unit 18, and is displayed on the display unit 2 that is different from the application that is being operated. The user may be working while looking at another display unit 2 on which an inactive application is displayed while operating the display unit 2 that displays the application in operation. Therefore, the operating application and the dormant application described here are applications displayed on different separate display units 2, respectively.
The update target data determination unit 13 determines a combination of applications for updating the backlight setting time based on the contents of the measurement time storage unit 12. For example, the update target data determination unit 13 selects the combination of data included in the measurement time storage unit 12 when the number of data in which the combination of the operating application and the dormant application is the same exceeds a predetermined threshold value. Among the display units 2 that display the application, the backlight setting time of the display unit 2 that displays the dormant application is determined as an update target. Then, the update target data determination unit 13 determines an application for which the backlight setting time is to be updated, and the data in the measurement time storage unit 12 corresponding to these applications (name of operation application, name of inactive application, (Elapsed time after operation) is output to the variation determination unit 14 as update target data. Although the threshold value can be set to an arbitrary value, for example, when the threshold value is set to 1, the backlight setting time is frequently updated, which may increase power consumption. On the other hand, when the threshold value is set to 100, the backlight setting time is hardly updated, so there is a possibility that power saving by the backlight control is reduced. Therefore, it is desirable that the setting time of the backlight is set to be updated once a day to once a month.
The variation determination unit 14 filters and deletes data that is not appropriate as update target data used for recalculation of the backlight setting time. As an example of a method for discriminating inappropriate data, for example, there is a method of using an average value and standard deviation of post-operation elapsed time included in update target data. In this method, the variation determination unit 14 calculates and deletes data not included in the average value ± (standard deviation × 2) as sparse data after calculating the average value and standard deviation of the elapsed time after operation. Note that the variation determination unit 14 may perform filtering using another method such as filtering a value that is more than a certain distance from the average value, or may not perform filtering.
The BL setting time calculation unit 15 receives from the variation determination unit 14 a combination of applications for which backlight setting is to be performed and the post-operation elapsed time corresponding to these applications, and calculates a new backlight setting time based on the combination. To do.
Here, the backlight setting time is the time until the backlight or the power of the display unit 2 that displays the application is turned off as described above. An example of a new method for calculating the backlight setting time is shown in FIGS. In this calculation method, first, the BL set time calculation unit 15 obtains the average value of the elapsed time after operation received from the variation determination unit 14. Next, the BL set time calculation unit 15 determines, for example, which of four equations for obtaining a new backlight set time to be applied based on the obtained average value, and calculates a new backlight set time. . The four equations are as shown in FIG. 9, for example. Here, x in FIG. 9 is the average value of the elapsed time after the operation described above. y is a difference between the new backlight setting time and the current backlight setting time (= current backlight setting time−new backlight setting time). ST is the current backlight setting time. α and β are variables that affect the ease of updating. α and β are predetermined positive values set by the user or the like. The BL set time calculation unit 15 uses a quadratic curve in the above calculation method, but may use a linear function. That is, when ST ≦ x ≦ ST + ST / β, y = (ST / α) / (ST + ST / β) x−ST / α, and when ST + ST / β ≦ x ≦ ST + 2ST / β, y = β / α (x -(ST + ST / β)) or the like. In addition, the BL set time calculation unit 15 stores a value associated in advance according to the above-described average value of the elapsed time after operation or a range of the value stored in a storage unit (not shown) as a new backlight. It may be set as a set time.
FIG. 10 is a graph showing the equation of FIG. 9 as a graph with the horizontal axis as the x-axis and the vertical axis as the y-axis. According to FIG. 10, when the average value x of the elapsed time after operation is shorter than the current backlight setting time, the new backlight setting time remains the current backlight setting time ST. When the average value x of the elapsed time after operation is longer than ST and shorter than (ST + ST / β), the new backlight setting time is longer than the current backlight setting time ST. When the average value x of the elapsed time after operation is longer than (ST + ST / β), the new backlight setting time is shorter than the current backlight setting time ST. An example in which the BL setting time calculation unit 15 updates the backlight setting time will be described with reference to FIG. For example, when the current backlight setting time ST = 60 s, α = 10, and β = 3, (ST / α) = (60 s / 10) = 6 s, (ST + ST / β) = (60 s + 60 s / 3) = 80 s, (ST + 2 (ST / β)) = (60 s + 2 (60 s / 3)) = 100 s. Therefore, for example, if the average value x of the elapsed time after operation is 60 s, y = (current backlight setting time−new backlight setting time) = − ST / α = −6 s. Setting time = 60 s − (− 6 s) = 66 s. For example, if x is 100 s, similarly, a new backlight setting time = 60 s− (6 s) = 54 s. The backlight setting time calculated in this way is stored in the setting time storage unit 16.
The set time storage unit 16 is realized by a storage device such as an optical disk device or a magnetic disk. The set time storage unit 16 stores the operating application, the dormant application, and the backlight setting time related to these applications in association with each other. The set time storage unit 16 updates the current backlight set time to the new backlight set time when the BL set time calculating unit 15 calculates a new backlight set time for the application combination as described above. And remember. An example of data stored in the set time storage unit 16 is shown in FIG. The set time storage unit 16 stores the backlight set time for each combination of the operating application and the hibernating application in advance. Even when the BL set time calculating unit 15 does not update the backlight set time, it is originally stored. The output information management unit 17 can turn off the backlight using the stored backlight setting time.
The output information management unit 17 manages information displayed on the display unit 2 based on the contents of the measurement time storage unit 12 and the application information storage unit 18. For example, when the output information management unit 17 receives the above-described operation data from the operation monitoring unit 11, the output information management unit 17 updates the contents of the application information storage unit 18. At this time, when the backlight of the display unit 2 indicated by the measurement location where the operation data is measured is off, the output information management unit 17 turns on the backlight.
Further, the output information management unit 17 is a case where one of the display units 2 displays an operating application, and the other display unit 2 displays a dormant application, and is used for a certain period of time. When there is no operation from (when the elapsed time after the operation exceeds the backlight setting time stored in the setting time storage unit 16), the backlight of the display unit 2 displaying the paused application is turned off. To do.
The application information storage unit 18 is realized by a storage device such as an optical disk device or a magnetic disk. The application information storage unit 18 stores an application, a display location of the application (such as an identifier of the display unit 2 displaying the application), and a previous operation time (previous operation time) of the application in association with each other. To do. An example of these data stored in the application information storage unit 18 is shown in FIG. When there is the display unit 2 where no application is displayed, it is assumed that a virtual application “no operation application” is operating in the “application” column of the application storage unit 18. Similarly, the display control device 10 can control the backlight.
Next, the operation of the present embodiment will be described in detail with reference to FIGS.
When the operation monitoring unit 11 detects an operation input from the user for the application displayed on the display unit 2 of the display control device 10 (step S101), the operation monitoring unit 11 is based on the previous operation time stored in the application information storage unit 18. Calculate elapsed time after application operation.
The operation monitoring unit 11 calculates the elapsed time after the operation, and only when the detected operation is an operation for the dormant application (step S102), the elapsed time after the operation, the in-operation application, the dormant application, The storage date and time are associated with each other and added to the measurement time storage unit 12 (step S103). Here, the operation monitoring unit 11 can acquire information about the application being operated and the application being paused from the application information storage unit 18. For example, when the content stored in the application information storage unit 18 is FIG. 5, the operating application is a mail creation application. The dormant application is a browser application.
After the operation monitoring unit 11 processes step S103 (or when the application detected in step S102 is an application in operation), the operation monitoring unit 11 notifies the output information management unit 17 of operation data. Upon receiving the operation data, the output information management unit 17 updates the previous operation time stored in the application information storage unit 18 corresponding to the detected application (step S104). Specifically, the output information management unit 17 overwrites and updates the previous operation time with the time at the update time.
After the output information management unit 17 has processed step S104, the output information management unit 17 instructs the display unit 2 to turn on the backlight when the backlight of the display unit 2 corresponding to the measurement location included in the operation data is off. Is output to the display unit 2 (step S105).
The update target data determination unit 13 determines a combination of applications for updating the backlight setting time based on the contents of the measurement time storage unit 12 (step S111).
The update target data determination unit 13 determines a combination of applications to be updated, and then notifies the variation determination unit 14 of the combination data of the applications. When receiving the application combination data, the variation determination unit 14 filters and deletes data that is not appropriate as data used for recalculation of the backlight setting time (step S112).
The BL setting time calculation unit 15 receives a combination of applications for updating the backlight setting time and data used for recalculation from the variation determination unit 14 and calculates a new backlight setting time based on the received combination (14). Step S113).
When the BL setting time calculation unit 15 calculates a new backlight setting time, the BL setting time calculation unit 15 stores the calculated new backlight setting time in the setting time storage unit 16 (step S114).
The output information management unit 17 compares the backlight setting time for each combination of applications stored in the setting time storage unit 16 with the elapsed time after operation, and turns off the backlight of the corresponding display unit 2. .
In the present embodiment, the operation monitoring unit 11 monitors the application operation status of the user, and the BL setting time calculation unit 15 calculates and updates a new backlight setting time. As described above, the display control device 10 learns the timing to turn off the backlight from the user's application operation status, so that the convenience of the user is not impaired and the additional hardware is not added. The backlight of each display unit 2 can be turned off at a proper timing.
<Second Embodiment>
Next, a second embodiment of the present invention will be described in detail with reference to the drawings. First, the outline of the display control apparatus 10 in the present embodiment will be described with reference to FIG. In the second embodiment of the present invention, an external device 6 is added to the configuration of the first embodiment. In addition, the display control device 10 includes a communication device 4.
The external device 6 is realized by a dedicated device realized by a logic circuit or the like, a personal computer, or the like.
The communication device 4 transmits command input / output between the external device 6 and the display control device 10.
Next, the configuration of the display control apparatus 10 in the present embodiment will be described in detail with reference to FIG.
When receiving a control command for the display unit 2 from the output information management unit 17, the communication unit 19 transmits control information to the display unit 2 included in the external device 6. In addition, as long as the external apparatus 6 in this Embodiment includes the display part 2, all apparatuses are applicable and are not specifically limited.
In the first embodiment, the output information management unit 17 outputs a backlight control command to the display unit 2 included in the display control device 10. On the other hand, in the second embodiment, the display unit 2 controlled by the display control device 10 is not in the display control device 10 but is provided in the external device 6. The display control device 10 and the external device 6 send and receive information by communication. Specifically, the output information management unit 17 notifies the communication unit 19 of a backlight control command. Then, the communication unit 19 outputs a backlight control command to the display unit 2 included in the external device 6. Since others are the same as those in the first embodiment, detailed description thereof is omitted.
In the present embodiment, the display control device 10 controls the display unit 2 included in the external device 6 via the communication unit 19. As a result, the display control device 10 can control the backlight of the display unit 2 included in the external device 6, and energy saving of the external device 6 as well as the display control device 10 can be realized.
<Third Embodiment>
Next, a third embodiment of the present invention will be described in detail with reference to the drawings.
Referring to FIG. 13, in the third embodiment, an external device 6 is added to the configuration of the first embodiment. The external device 6 includes an input device 5. The display control device 10 includes a communication device 4. In addition, as long as the external apparatus 6 in this Embodiment is provided with the input device 5, all apparatuses are applicable and are not restrict | limited especially.
The input device 5 is a device such as a keyboard or a mouse that allows an operator to perform operation input on an application displayed on the display unit 2.
Next, the display control apparatus 10 according to the present embodiment will be described in detail with reference to FIG.
Referring to FIG. 14, a communication unit 19 is added to the display control apparatus 10 of the first embodiment. In the first embodiment, the operation monitoring unit 11 monitors the input method of the display control device 10 and acquires operation information for the display control device 10 by the user. In the third embodiment, operation information for the display control device 10 by the user is acquired from the input device 5 provided in the external device 6 via the communication unit 19. The communication unit 19 notifies the operation monitoring unit 11 of the received operation information. Other details are the same as those of the first embodiment, and thus detailed description thereof is omitted.
In the present embodiment, the display control device 10 receives operation information for the display control device 10 from the input device 5 included in the external device 6 via the communication unit 19. As a result, the backlight of the display unit 2 can be controlled using a plurality of operation input means, the learning efficiency of the backlight setting information is improved, and further energy saving can be realized.
<Fourth embodiment>
Next, a fourth embodiment of the present invention will be described in detail with reference to the drawings.
Referring to FIG. 15, the display control apparatus 10 in the present embodiment includes a set time storage unit 16 and an output information management unit 17. Since the functions and configurations of the set time storage unit 16 and the output information management unit 17 have been described in the first embodiment, detailed description thereof will be omitted. As a result, the operation input time closest to the current time (first application) and other display means (second display means) other than the display means (first display means) displaying the first application are displayed. Set time storage means for storing a second application being displayed on the display means) and a time (backlight setting time) determined for each combination of the first application and the second application; When the first application is displayed on the first display means, an elapsed time from the last operation input to the second application (elapsed time after operation) is acquired, and the elapsed time after operation is Output information management means for turning off the backlight or power of the second display means when the backlight setting time is exceeded; Display control device can be realized with.
According to the display control apparatus 10 according to the present embodiment, it is possible to provide a display control apparatus, a method, and a program that can turn off the backlight at an appropriate timing without reducing the convenience for the user. .
While the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.
This application claims the priority on the basis of Japanese application Japanese Patent Application No. 2010-161149 for which it applied on July 16, 2010, and takes in those the indications of all here.
(Other expressions of the embodiment)
Although part or all of the above-described embodiments and examples can be expressed as follows, the present invention is not limited to the following.
(Supplementary note 1) An application (first application) whose operation input time is closest to the current time and display means (first display means) other than the display means (first display means) on which the first application is displayed Set time storage means for storing a second application being displayed on the second display means) and a time (backlight set time) determined for each combination of the first application and the second application; When the first application is displayed on the first display means, an elapsed time from the last operation input to the second application (elapsed time after operation) is acquired, and the elapsed time after operation is acquired. Output information management means for turning off the backlight or power of the second display means when the backlight setting time is exceeded; Obtain the display control device.
(Supplementary Note 2) An operation time storage unit that stores data in which the first application and the second application are associated with the post-operation elapsed time when there is an operation input to the second application. When the number of data in which the combination of the first application and the second application stored in the operation time storage unit is the same exceeds a predetermined number, the operation time storage unit stores the data. The display control apparatus according to appendix 1, further comprising backlight setting time calculation means for calculating and setting a backlight setting time of the other display means based on the elapsed time after the operation.
(Supplementary Note 3) The value of the elapsed time after operation of each data obtained by deleting the data including the value whose deviation from the average value is larger than the predetermined value among the values of the elapsed time after operation is calculated as the backlight setting time. The display control apparatus according to claim 2, further comprising a variation determination unit that notifies the unit, wherein the backlight setting time calculation unit calculates the backlight setting time based on the notified value.
(Supplementary Note 4) When the average time of the post-operation elapsed time is shorter than the current backlight setting time, the backlight setting time calculation means sets the new backlight setting time as the current backlight setting time. If the average time is longer than the current backlight setting time and shorter than the predetermined time, a new backlight setting time is set longer than the current backlight setting time, The display control device according to appendix 2 or 3, wherein when the average time is longer than the predetermined time, a new backlight setting time is set shorter than the current backlight setting time.
(Supplementary note 5) The display control apparatus according to any one of supplementary notes 1 to 4, further comprising a plurality of display means and an operation monitoring means for detecting the operation input.
(Supplementary Note 6) An application (first application) whose operation input time is closest to the current time and display means (first display means) other than the display means (first display means) on which the first application is displayed Storing a second application being displayed on the second display means) and a time (backlight setting time) determined for each combination of the first application and the second application; When the first application is displayed on one display means, an elapsed time from the last operation input to the second application (elapsed time after operation) is acquired, and the elapsed time after operation is the backlight. A step of turning off the backlight or power of the second display means when the set time is exceeded. Display control program to be.
(Supplementary note 7) When there is an operation input to the second application, storing the data in which the first application and the second application are associated with the post-operation elapsed time; When the number of data with the same combination of one application and the second application exceeds a predetermined number, the backlight setting time of the other display means is calculated and set based on the elapsed time after the operation The display control program according to appendix 6, which causes a computer to execute
(Supplementary note 8) An application (first application) whose operation input time is closest to the current time and display means (first display means) other than the display means (first display means) on which the first application is displayed Second display means) and a time (backlight setting time) determined for each combination of the first application and the second application, and storing the first application When the first application is displayed on the display unit, an elapsed time (post-operation elapsed time) from the last operation input to the second application is acquired, and the post-operation elapsed time is the backlight setting time. A display control method for turning off the backlight or the power source of the second display means when exceeding.
(Supplementary Note 9) When there is an operation input to the second application, the first application and the second application are stored in association with the post-operation elapsed time, Supplementary note for calculating and setting the backlight setting time of the other display means based on the elapsed time after the operation when the number of data with the same combination of the application and the second application exceeds a predetermined number 9. The display control method according to 8.
(Supplementary Note 10) A display means other than the display means (first display means) that is displaying the application (first application) whose operation input time is closest to the current time. When the elapsed time from the last operation input to the second application (post-operation elapsed time) exceeds the time (backlight setting time) determined for each combination of the first application and the second application A display control device comprising output information management means for turning off the backlight or power of the other display means.

1 CPU
2 Display unit 3 Storage device 4 Communication device 5 Input device 6 External device 10 Display control device 11 Operation monitoring unit 12 Measurement time storage unit 13 Update target data determination unit 14 Variation determination unit 15 BL set time calculation unit 16 Set time storage unit 17 Output information management unit 18 Application information storage unit 19 Communication unit

Claims (9)

The time of the operation input is the first application and the first first display hand Dan以 out other display means is a display means on which the application is displayed, the closest application to the current time and second display hands stage being displayed second application, the first application and the second setting time storing means for storing a between the backlight setting time is the time set for each combination, the application When,
Acquires the elapsed time period at which the operation after the lapse of the last operation input to the second application when the first application to the first display means is displayed, the elapsed time after the operation Output information management means for turning off the backlight or power of the second display means when the backlight setting time is exceeded;
A display control device. An operation time storage means for storing data in which the first application and the second application are associated with the post-operation elapsed time when there is an operation input to the second application;
When the number of data with the same combination of the first application and the second application stored in the operation time storage unit exceeds a predetermined number, the operation time storage unit stores the operation time storage unit. Backlight setting time calculation means for calculating and setting the backlight setting time of the other display means based on the elapsed time after operation;
A display control apparatus according to claim 1. The backlight setting time calculation unit is notified of the value of the elapsed time after operation of each data obtained by deleting the data including the value whose deviation from the average value is larger than the predetermined value among the elapsed time values after the operation. It further comprises a variation determination means,
The display control apparatus according to claim 2, wherein the backlight setting time calculation unit calculates the backlight setting time based on the notified value. When the average time of the elapsed time after the operation is shorter than the current backlight setting time, the backlight setting time calculation means sets the new backlight setting time to be the same as the current backlight setting time,
When the average time is longer than the current backlight setting time and shorter than the predetermined time, a new backlight setting time is set longer than the current backlight setting time,
The display control apparatus according to claim 2 or 3, wherein when the average time is longer than the predetermined time, a new backlight setting time is set shorter than a current backlight setting time. A plurality of display means including at least the first display means and the second display means;
Operation monitoring means for detecting the operation input;
The display control apparatus according to claim 1, further comprising: The time of the operation input is the first application and the first first display hand Dan以 out other display means is a display means on which the application is displayed, the closest application to the current time and second display hands stage being displayed second application, a step of storing and between the backlight setting, which is a time determined for each combination of the first application and the second application,
Acquires the elapsed time period at which the operation after the lapse of the last operation input to the second application when the first application to the first display means is displayed, the elapsed time after the operation Turning off the backlight or power of the second display means when the backlight setting time is exceeded;
A display control program that causes a computer to execute. Storing the data in which the first application and the second application are associated with the post-operation elapsed time when there is an operation input to the second application;
When the number of data with the same combination of the first application and the second application exceeds a predetermined number, the backlight setting time of the other display means is calculated based on the elapsed time after the operation. The display control program according to claim 6, which causes a computer to execute the setting step. The time of the operation input is the first application and the first first display hand Dan以 out other display means is a display means on which the application is displayed, the closest application to the current time and second display hands stage being displayed second application, and between the backlight setting time is the time set for each combination of said first application the second application, the store,
Acquires the elapsed time period at which the operation after the lapse of the last operation input to the second application when the first application to the first display means is displayed, the elapsed time after the operation A display control method for turning off the backlight or power of the second display means when the backlight setting time is exceeded. When there is an operation input for the second application, the first application and the second application are stored in association with the post-operation elapsed time,
When the number of data with the same combination of the first application and the second application exceeds a predetermined number, the backlight setting time of the other display means is calculated based on the elapsed time after the operation. The display control method according to claim 8, wherein the display control method is set.

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