JP2004252364A - Information processor and its luminance adjustment method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve the advertisement effect of a demonstration function and reduce the power consumption of an information processor having a luminance adjusting function. <P>SOLUTION: The information processor is equipped with: an input part; a display part; a luminance setting part which stores the luminance information of a picture displayed on the display part; a storage part which stores a specified information processing module; and a control part which executes the specified information processing module according to the luminance information stored in the luminance setting part. The control part has a display luminance varying function such that, when start information for starting the specified information processing module is inputted from the input part, luminance information different from the luminance information when the start information is not inputted and the specified information processing module is started is set in the luminance setting part, and the specified information processing module is executed. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information processing apparatus having a display function, and more particularly, to an information processing apparatus capable of changing luminance depending on an operation state.
[0002]
[Prior art]
In a conventional notebook personal computer and a liquid crystal display (LCD), a backlight is attached to the back side of the display in order to improve visibility.
In addition, in order to prolong the drive time of the internal battery, there is a device that can switch between turning on and off a backlight and switching brightness.
For example, a conventional notebook personal computer or the like generally has two types of power supply means, an internal battery and AC100V. When the internal battery is used, the power is turned off and the power is turned on with a relatively weak light emission level. A backlight system has been proposed in which a battery life is extended by turning on a power supply having a relatively high light emission level during use (see Patent Document 1).
[0003]
In the case of an operation state different from the normal operation state, the display shifts to the demonstration display mode and displays the explanation of the demonstration function. A demonstration system for increasing the display color and changing the display color has been proposed (see Patent Document 2).
Also, an electronic device with a display unit that reduces power consumption by determining the brightness of the backlight based on the setting mode set by the mode setting unit and adjusting the brightness of the backlight according to the mounted functions and operating conditions. Has been proposed (see Patent Document 3).
[0004]
[Patent Document 1]
JP-A-4-114127
[Patent Document 2]
JP-A-2000-18692
[Patent Document 3]
JP 2001-215914 A
[0005]
On the other hand, today, as typified by a PDA, the miniaturization of electronic devices and the accompanying miniaturization of power supplies are being attempted. In addition, current consumption is increasing due to higher precision of display devices and higher functions of electronic devices. Further, with the advancement and complexity of electronic devices, a demo function as a means of appealing to a user for a product has been increasingly mounted.
[0006]
[Problems to be solved by the invention]
For an electronic device that does not come with an AC power adapter and operates only on the internal battery, it is necessary to replace the battery at regular intervals (for example, every few hours) or every time the battery runs out, so that the demonstration function can always be operated in stores. There must be. If the display light amount is increased during the demonstration as in Patent Document 2 described above, the visibility may be improved and the effect of the demonstration may be improved, but the battery life is shortened, and it takes time and effort to replace the battery.
[0007]
As in Patent Literature 1, if the light emission level is lowered when using the internal battery, the battery life can be extended, but the effect of the demonstration may be reduced in terms of poor visibility.
In addition, a battery life can be extended by preparing a number of setting modes in advance and manually setting the energy saving mode as in Patent Document 3, but the operator can switch the setting mode as needed. The operation is troublesome because it needs to be changed, and if the brightness is kept high to enhance the effect of the demonstration function, the battery life is still shortened.
Therefore, it is difficult to reduce the power consumption of the display device and extend the life of the battery while maintaining the effect of the demonstration function only by combining the technologies as conventionally proposed.
[0008]
By the way, considering the case where the demonstration operation is performed at the store, when the demo program is automatically started immediately after the power is turned on, etc., the user operates the demo program more easily than when the user himself starts the demo program. It's unlikely you're watching the demo. That is, when the demonstration program is automatically started, it is often considered that visibility is not required to be so high.
On the other hand, when the user himself / herself starts the demonstration program, he / she wants to watch the demonstration, so that it is better to increase the visibility in order to enhance the effect of the demonstration.
[0009]
Therefore, the present invention has been made in consideration of the above circumstances, and determines whether the demonstration program is activated automatically or manually, thereby changing the luminance of the display unit and thereby demonstrating the effect of the demonstration function. It is an object to provide an information processing device capable of maintaining and reducing power consumption.
[0010]
[Means for Solving the Problems]
The present invention provides an input unit, a display unit, a luminance setting unit storing luminance information of a screen displayed on the display unit, a storage unit storing a specific information processing module, and a luminance stored in the luminance setting unit. And a control unit for executing the specific information processing module based on information, wherein the control unit, when start information for activating the specific information processing module is input from an input unit, the start information Display brightness changing function, wherein the brightness setting section sets brightness information different from brightness information when a specific information processing module is activated without inputting the specified information processing module, and executes the specific information processing module. Is provided.
[0011]
According to this, when the start information is input, that is, when a specific information processing module is manually started, the brightness of the screen displayed on the display unit is increased more than when automatically started. Therefore, the contents of the information processing module can be displayed in a prominent manner, so that a so-called presentation function can be sufficiently exhibited.
In addition, in the case of a demonstration at a store, if the viewer enters the start information, the display brightness is changed, and if it is considered that the user is surely watching the demonstration, a highly visible demonstration Can be performed, and the advertising effect on the viewer can be enhanced.
Furthermore, when the start input is not performed, the display brightness is not changed, and a low brightness value is initialized in advance. Low power consumption can be achieved.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
In the present invention, the input unit may include a dedicated key in addition to a commonly used keyboard. The dedicated key includes, for example, a key for starting a specific information processing module, a key for terminating a specific information processing module, a key for changing display brightness, and the like.
The display unit is not particularly limited as long as it can display information such as characters, graphics, and images, such as a CRT, LCD, EL, and PDP.
The luminance setting unit may use a storage element that can store luminance information. For example, a storage device such as a hard disk may be used in addition to a rewritable semiconductor element such as a register and a RAM.
[0013]
As the storage unit, various storage elements such as a ROM, a RAM, and a flash memory, a storage device such as a hard disk, an IC card, and a portable storage medium such as a CD-ROM can be used.
However, information that should not be changed is fixedly stored in a read-only or non-volatile memory (ROM, CD-ROM, etc.), and information that needs to be rewritten or information that can be rewritten is a rewritable memory. (RAM, HD, FD, DVD-RAM) or the like.
[0014]
The "specific information processing module" means an application program such as a program for realizing a display function, a program for realizing a character input or a Kana-Kanji conversion function, a program for realizing a demonstration function, and an image processing program. These application programs are usually stored in a read-only memory such as a ROM, but may be stored in an HD, a CD-ROM, or the like, and may be read into a main storage portion of the CPU at the time of execution. Further, in addition to a storage medium such as a CD-ROM, the information may be downloaded from a remote server via a network and stored in the HD of the information processing apparatus of the present invention.
[0015]
The control unit according to the present invention mainly means a CPU, and further means a microcomputer including peripheral elements such as a ROM, a RAM, a timer, and an I / O controller.
The control unit controls operations of hardware resources such as an input unit, a display unit, a luminance setting unit, and a storage unit based on an application program stored in a ROM or the like.
[0016]
By the way, in the information processing device, some information processing modules for realizing a certain function are automatically activated when the information processing device is activated, and some are manually activated by inputting activation by a user's intention. Some are activated.
In the present invention, the start information means information for triggering a certain information processing module manually. For example, in an application program such as a personal computer, selecting and inputting the program name, Double-clicking the icon or inputting a specific key associated with the application program corresponds to input of the start information.
[0017]
The luminance information is information that defines the brightness of the screen displayed on the display unit, and is configured so that the brightness of the display screen of the information processing apparatus can be changed by changing the value of this information. .
Normally, when an application program is operating, the screen is displayed with the brightness based on the initial value of the brightness information or the brightness information set by the user. In the present invention, the brightness information is programmatically controlled according to various conditions. To change. In particular, it is set so that the luminance information is made different by determining whether the activation of a specific information processing module is manual or automatic.
[0018]
Further, when the start information is input, the control unit controls the luminance information so that the screen is displayed on the display unit with a higher luminance than when a specific processing module is started without inputting the start information. Is set in the brightness setting section. According to this, at the time of manual activation, the visibility of the display screen is sufficiently ensured, so that the advertising effect by the demonstration function or the like can be enhanced.
Furthermore, if the specific information processing module is a demonstration process in which the same display operation is repeated in a predetermined cycle and the brightness is increased when the specific information processing module is manually activated, the advertising effect is particularly large.
[0019]
The control unit may set lower luminance information or higher luminance information than the previous time in the luminance setting unit every time the demonstration process is repeated. When a low luminance is set, power consumption can be reduced, and when a high luminance is set, visibility can be improved.
[0020]
Alternatively, every time the demonstration process is repeated, the control unit sets, in the brightness setting unit, brightness information that is lower than the previous brightness by a certain level within a range that does not fall below the first brightness lower limit value, and gradually sets the brightness. Alternatively, the demonstration process may be executed while the number is lowered. According to this, it is possible to reduce power consumption when there is a high possibility that a demonstration is not seen.
Further, when the brightness information set in the brightness setting unit falls below a second brightness lower limit, the control unit may stop the demonstration process.
Here, the first luminance lower limit value refers to a luminance criterion value (3-g) at the time of repetition as described later, and the second luminance lower limit value is a luminance criterion for stopping the operation of the demonstration. Means the value (3-h).
[0021]
Further, when brightness change information indicating that brightness is changed to a predetermined value is input from the input unit, the control unit changes the brightness information set in the brightness setting unit to the input brightness change. You may make it change based on information.
Here, the control unit may change the luminance information set in the luminance setting unit to luminance information to be initialized when the start information is input. According to this, even when the luminance has decreased to the lower limit, the luminance can be reset by the user's intention.
[0022]
A power supply voltage monitoring unit configured to measure a power supply voltage, wherein when the measured power supply voltage falls below a predetermined value, the demonstration process is stopped, or the brightness is increased with respect to the brightness information set in the brightness setting unit. Such a change may not be performed. According to this, lower power consumption can be achieved. The power supply voltage monitoring unit can be configured by a circuit such as a voltage detection circuit.
[0023]
Further, the present invention provides an input unit, a display unit, a luminance setting unit storing luminance information of a screen displayed on the display unit, a storage unit storing a specific information processing module, and a luminance setting unit. And a control unit for executing the specific information processing module based on the brightness information, the control unit, when start information for activating the specific information processing module is input from an input unit, the When the start information is not input and the specific information processing module is activated, luminance information different from the luminance information is set in the luminance setting unit, and a screen is displayed on the display unit based on the set luminance information. An object of the present invention is to provide a brightness adjustment method for an information processing apparatus having a display brightness changing function, which executes a specific information processing module.
Further, the present invention provides a program for causing a computer to execute the above-described brightness adjustment method.
[0024]
Hereinafter, embodiments of the present invention will be described with reference to the drawings. The present invention is not limited by the description of the following embodiments.
<Configuration example of information processing device>
FIG. 1 is a block diagram showing the configuration of an embodiment of the information processing apparatus according to the present invention.
As shown in FIG. 1, an information processing apparatus according to the present invention includes a CPU 1, an input device 2, a ROM storage device 3 (hereinafter, ROM), a RAM storage device 4 (hereinafter, RAM), a display device 5, and a display device controller. And 6.
[0025]
Like a general computer system, the CPU 1 is connected to each component by a data bus, an address bus, and a control bus so that the CPU 1 can control each component.
The CPU 1 operates on the basis of a program stored in the ROM type storage device 3 or the RAM type storage device 4 to control the input device 2, the display device controller 6, and the like, thereby realizing the unique functions of the present invention. I do.
[0026]
The input device 2 is a portion where the user inputs data, performs various settings, and performs operations for executing the functions of the present invention. For example, the input device 2 can use a keyboard, a mouse, a trackball, a numeric keypad, a touch panel, or the like.
The input device 2 is used by a user to input some operation to the information processing apparatus of the present invention. For example, when a key is pressed by a keyboard, a predetermined input signal corresponding to the pressing of the key is provided. Is transmitted to the CPU 1.
[0027]
That is, when the CPU 1 receives the input signal from the input device 1, it means that the user has manually operated the information processing device.
As will be described later, if the user operates the demo program manually using the input device, it is considered that a user with a certain purpose is present near the information processing device, and the advertising effect is further improved. Increase the brightness to run the demo function.
[0028]
The ROM-type storage device 3 includes a program 3-a corresponding to the information processing module of the information processing apparatus of the present invention, display data 3-b when the demonstration function is operated, and display data 3-c when the operation display screen is displayed. A luminance setting value 3-d at the time of normal display of the display device, a luminance setting value 3-e at the time of automatic start of demonstration of the display device, a luminance setting value 3-f at the time of manual start of demonstration of the display device, a demonstration function. , A luminance reference value 3-h for stopping the operation of the demonstration function, and a voltage reference value 3-i for determining the increase in luminance of the demonstration function. Since the present invention relates to the setting of the brightness of the display device in the process of displaying the display data (3-b, 3-c), the display data 3-b when the demonstration function is operating and the display data when the operation display screen is displayed. 3-c may be provided.
[0029]
In addition, the luminance setting value 3-d at the time of normal display of the display device, the luminance setting value 3-e at the time of automatically starting the demonstration of the display device, the luminance setting value 3-f at the time of the demonstration manual start of the display device, the demo The reference value 3-g for determining the luminance when the function is repeated, the reference value 3-h for determining the luminance when the operation of the demonstration function is stopped, and the reference value 3-i for determining the voltage when increasing the luminance of the demonstration function are represented by a display device. This data is used when setting the brightness of the image, and may be a fixed value, or may be stored in the RAM type storage device 4 so that the user can change it.
[0030]
The RAM type storage device 4 is used as an area for temporarily storing data that may be changed or updated, and as a work area for storing data generated during the operation of the program. Generally, a volatile SRAM or DRAM is used for the RAM 4, but a nonvolatile rewritable memory may be used.
[0031]
As shown in FIG. 1, there are three types of luminance setting values (3-d, 3-e, 3-f) stored in the ROM 3, and the relationship between the magnitudes of the luminance is set as follows. Preferably.
Demonstration Manual Start Brightness (3-f)> Demo Automatic Start Brightness (3-e)
Demonstration manual start brightness (3-f) ≥ normal operation brightness (3-d)
Luminance during normal operation (3-d)> Luminance at start of automatic demonstration (3-e)
However, these magnitude relationships are predetermined initial values, and the user may be able to change this magnitude relationship thereafter.
The reason why the luminance at the start of the demonstration manual is maximized is to increase the visibility because the user is likely to be watching the demonstration.
The normal operation refers to a time when a general application program such as writing a document, browsing a homepage, watching a moving image, and playing a game is operated.
[0032]
Further, the reference value (3-g) of the luminance at the time of repetition refers to an upper limit value or a lower limit value of the luminance when the luminance is changed during the demonstration operation.
Demonstrations are usually programmed to repeat the processing for a certain period of time and endlessly. In practice, if the luminance is too low, the demonstration cannot be viewed and the demonstration is meaningless, so there is a lower limit of the range in which the demonstration can be viewed. Also, there is always a physical limit value for the upper limit of the luminance of the display device. Therefore, when the demonstration is repeatedly performed while changing the brightness, the upper limit or the lower limit of the change in the brightness is determined as the brightness determination reference value (3-g) at the time of the repetition.
[0033]
In the embodiment of FIG. 2 to be described later, the demonstration is repeated while lowering the luminance, but the lower limit is set as the determination reference value (3-g). That is, the demonstration is performed while lowering the luminance by a certain level within a range larger than the lower limit (3-g).
In addition, the reference value (3-h) of the luminance for stopping the operation of the demonstration means that when the demonstration is repeated while lowering the luminance, when the luminance lower than this determination reference value is set, the demonstration operation is performed. Refers to the reference value to be stopped.
[0034]
When the brightness decreases to near this judgment reference value (3-h), the demonstration has been repeatedly executed at least a certain number of times since the demonstration was started. Can be Therefore, this judgment reference value (3-h) is provided to prevent unnecessary power consumption when it is considered that the possibility of being seen is small.
[0035]
The reference value (3-i) of the voltage at the time of determining the increase in the luminance is a voltage value of the information processing apparatus for determining whether to increase the luminance when the demonstration is repeated while increasing the luminance. Say.
If the demonstration is performed intermittently using the built-in battery, the battery is consumed and the power supply voltage of the information processing device drops.
If the brightness is increased even though the power supply voltage is lower than the predetermined value, the battery may be further consumed, and the demonstration operation may become unstable or may not operate.
Therefore, if the battery is below a certain level, the brightness level should not be increased to keep the demonstration stable.
Therefore, when the current voltage falls below a certain level of the voltage (3-i), the luminance is not increased. An embodiment using this criterion value (3-i) will be described later.
[0036]
Here, it is assumed that the display device 5 includes a display element 5-a and a backlight 5-b. The display element 5-a means a member that constitutes a display pixel, and a material and a driving method that are conventionally used can be used.
The backlight 5-b is generally disposed on the back of the display element 5-a, and assists light emission of the display element to secure sufficient visibility.
However, when the display element 5-a emits light by itself, the backlight 5-b may not be provided.
For example, as the display device 5, a liquid crystal display device, an EL display device, or the like is used. In the case of a liquid crystal display device, oriented liquid crystal is used as the display element 5-a, and an LED that outputs white light is used as the backlight 5-b. In the case of an EL display device, since it is a display device that emits light by itself, the backlight 5-b may not be provided.
[0037]
The display device controller 6 mainly includes a control unit 6-a for operating the display device 5 and a luminance setting unit 6-b for setting the luminance of the display device 5.
Any one of the above three setting values (3-d, 3-e, 3-f) is set as an initial value in the luminance setting unit 6-b, and the control unit 6-b is set based on these setting values. a controls the brightness of the display device 5. This setting value (6-b) is rewritten when the luminance is changed, and is read as the current luminance setting value.
Specifically, the control unit 6-a controls the brightness of the backlight 5-b based on the turning on / off of the display element 5-a and the brightness setting value (6-b). When there is no backlight 5-b, the brightness of the display element 5-a itself is controlled.
[0038]
<Example 1>
Next, an embodiment of the display processing of the information processing apparatus of the present invention will be described. Here, as an example of a specific information processing module, a module that executes a demonstration process will be described, but the present invention is not limited to this.
FIG. 2 is a flowchart illustrating a demo operation of the information processing apparatus according to the first embodiment of the present invention. Here, the display brightness during the demonstration operation is changed depending on whether the demonstration operation is started automatically or manually by the user.
[0039]
When the demonstration operation is started by a manual operation, the user is close to the information processing apparatus of the present invention, and it is considered that the user intends to watch the demonstration. Then, the demo is executed with the backlight brightness set relatively high.
On the other hand, if the demo operation is started automatically, it is unknown whether the user is nearby or not. To
[0040]
The demo is automatically started when the demo program is set to start automatically immediately after the information processing apparatus is turned on or when no input operation such as key input is performed for a certain period of time. And so on.
The case where the demonstration is started by manual operation means that the user performs an operation for operating the demonstration program using the input device 2, and the case where a predetermined input signal is transmitted from the input device 2 to the CPU 1. Say.
That is, when there is a predetermined input signal indicating the start of the demo program, it is determined that the demo program has been started manually, and when the start process is started programmatically without inputting the input signal, Judge that the demo program has been started automatically.
[0041]
Hereinafter, the brightness adjustment processing at the time of the demonstration operation performed by the CPU 1 will be described with reference to FIG.
First, in step S101, the CPU 1 performs startup processing for executing a demonstration, for example, initialization of numerical values necessary for the demonstration operation.
Here, the initialization of the necessary numerical value means, for example, setting the luminance setting value (3-e) at the time of automatic demonstration start as the current luminance value of the demonstration operation in the luminance setting unit 6-b. Say. Further, the current number of demonstrations described later is set to “1” and stored in the RAM 4. Alternatively, the luminance (3-d) during normal operation may be set as the initial value.
[0042]
Next, in step S102, the CPU 1 checks whether an input signal has been input from the input device 2.
In step S103, whether to start manually or automatically is determined based on the presence or absence of an input signal. If there is an input signal, it is determined to be manual.
In the case of manual operation, the process proceeds to step S104, where the luminance setting value (3-f) at the start of the demonstration manual operation is read out from the ROM 3 and given to the luminance setting unit (6-b) of the display device controller 6 to be set as the current luminance value. .
[0043]
Here, since the user is considered to be nearby at the time of the manual start, the luminance setting value (3-f) at the time of the manual start of the demonstration is set to the value at the time of the automatic start of the demo, as described above, in order to improve the visibility. The luminance value is set to be higher than the luminance setting value (3-e).
Next, the process proceeds to step S113 to start a demonstration display operation based on the demonstration program (3-a). Then, after the operation of the demonstration is performed for one cycle in step S114, the process returns to step S102 to perform the demonstration again from the beginning.
Thereafter, when there is no input signal from the input device 2, the processes of steps S104, S113, and S114 are repeatedly performed. That is, the demonstration operation is executed endlessly.
[0044]
The above is the process when the demo is started manually. In this case, it is considered that the user has started the demo on his / her own will and is watching the display of the demo. The demo is executed by setting the value (3-f).
Thus, when the possibility that the user is watching the demo is high, the demo with high visibility can be executed, and the advertisement effect can be improved.
[0045]
On the other hand, in step S103, when there is no input signal, it is determined that the activation is performed by the automatic processing, and the process proceeds to step S105. Steps S105 to S112 are processing when the demonstration is automatically started.
In step S105, it is determined whether the demonstration is the first time.
Although not shown in this flowchart, whether the demonstration is the first time or not can be determined by storing the current number of demonstrations in the RAM 4 and reading out the number to confirm whether it is “1”.
[0046]
If the demonstration is the first time, the process proceeds to step S106, in which the luminance setting value (3-e) at the time of the automatic start of the demonstration is read from the ROM 3, and given to the luminance setting section 6-b. Set as the current luminance value.
As described above, when the demo is automatically started, it is more likely that the demo is not seen than in the manual case. Therefore, in order to reduce power consumption, the luminance setting value (3-e) is It is set as a value lower than the luminance setting value (3-f) at the time of manual operation.
[0047]
Next, the process proceeds to step S113, and the demonstration is started with the luminance setting value (3-e) set in step S106.
Then, as described above, the demonstration for one cycle is executed in step S114, and the process returns to S102 to repeat the demonstration.
In step S113, the current number of demonstrations is increased by one.
[0048]
In step S105, when the demonstration is not the first time but the second time or later, the process proceeds to step S107. In step S107, the current luminance value (6-b) is read from the luminance setting section 6-b.
In step S108, the current luminance value (6-b) is compared with the luminance reference value (3-g) at the time of repetition. Here, the criterion value (3-g) is the lower limit value of the luminance for executing the demonstration.
[0049]
When the current luminance value (6-b) is larger than the judgment reference value (3-g), it is determined that the luminance can still be reduced, and the current luminance value (6-b) is reduced by one step. (Step S110).
For example, in the second cycle of the demonstration, the possibility that a person is watching is considered to be less than in the first cycle, so the luminance is reduced to reduce power consumption.
[0050]
Here, how to lower the brightness depends on the execution environment of the demonstration (indoor or outdoor, whether there is one or many objects), and the content of the demonstration (video or still image, text only or image included), etc. Since the values are considered to be different, they cannot be uniquely determined. For example, a total of eight brightness values may be set in the RAM 4 in advance, and the brightness values may be sequentially reduced one by one.
Next, the process proceeds to step S113, where the demonstration operation is started with the brightness lowered by one step. Subsequent processing is the same as that of the first demonstration, and returns to step S102.
[0051]
If the current luminance value (6-b) is smaller than or equal to the judgment reference value (3-g) in step S108, the process proceeds to step S109.
In step S109, the current voltage value (V0) of the information processing device is read. Here, the current voltage value (V0) may be read by using a power supply voltage monitoring unit not shown in FIG.
Next, in step S111, the read current voltage value (V0) is compared with a predetermined reference voltage value (Vs).
Here, the reference voltage value (Vs) is set in the ROM 3 or the RAM 4 in advance. Further, as the reference voltage value (Vs), the judgment reference value (3-i) shown in FIG. 1 may be used.
[0052]
If the current voltage value falls below a certain voltage value, it is considered that the demonstration operation may become unstable due to the consumption of the battery. Therefore, the lower limit value of the voltage that does not cause the demonstration operation is set to this reference voltage value (Vs ).
In step S111, when the current voltage value (V0) is larger than the reference voltage value (Vs), it is considered that the battery has not been exhausted yet, so the process proceeds to step S113, where the current luminance value (6-b) Start the demo as it is.
[0053]
Conversely, if the current voltage value (V0) is lower than or equal to the reference voltage value (Vs), it is considered that the battery is depleted, so the process proceeds to step S112, the demonstration operation ends, and the power supply is terminated. To OFF.
The above is the processing when the demo is started automatically. In this case, the possibility that the demo is seen is relatively low, so it is lower than when it is started manually to save power. The first demonstration operation is started at the luminance level, and then the demonstration is repeated while the luminance is gradually reduced.
[0054]
By changing the luminance in this way, it is possible to suppress wasteful power consumption in a case where there is a high possibility that the demonstration is not seen, and to extend the life of the built-in battery. Therefore, it is possible to reduce the possibility that the demonstration is stopped when viewed by the user, and thus it is possible to avoid the loss of the advertising opportunity.
[0055]
As described above, since the brightness level of the demonstration operation is changed depending on whether the demonstration is started manually or automatically, the visibility is increased when the demonstration is likely to be seen, and the demonstration is not seen When the possibility is high, the effect of extending the life of the built-in battery by reducing power consumption can be obtained.
[0056]
<Example 2>
Here, a process of changing the luminance when the demonstration is manually started will be described.
In the first embodiment, at the time of manual startup, the luminance setting value (3-f) is used as the current luminance value (6-b), and the demonstration is repeatedly executed while maintaining this value. , The current luminance value (6-b) is changed.
[0057]
When the user manually starts the demonstration, the possibility of watching the first time is considerably high because the user has an intention to watch the demonstration, but the possibility of watching the second time and the third time becomes lower as the user repeats the second and third times. For example, a user may leave the place after watching the first time, and in such a case, it is highly likely that no one is watching the second time. In addition, it is considered that the more times the third and fourth times are repeated, the higher the possibility that the demonstration is not seen. Therefore, from the viewpoint of low power consumption, it is preferable that the brightness be reduced as the number of times of the demonstration operation is repeated even when the demonstration is manually started.
[0058]
FIG. 3 shows a flowchart of the brightness adjustment processing according to the second embodiment of the present invention.
In the second embodiment, the process of step S104 in FIG. 2 is replaced with the process from step S121 shown in FIG.
First, when it is determined in step S103 in FIG. 2 that the activation is manual, the process proceeds to step S121, and it is checked whether the demonstration is the first time. This is the same processing as step S105.
When the manual demonstration is performed for the first time, the process proceeds to step S104, and the luminance setting value (3-f) is read out and set to the current luminance value (6-b), as in the process of FIG. Then, the process proceeds to step S113, and thereafter, the same processing as that shown in FIG. 2 is performed.
[0059]
On the other hand, in step S121, if the demonstration is not the first time, that is, if it is the second time or later, the process proceeds to step S122, and the current luminance value (6-b) is read.
Next, in step S123, the current luminance value (6-b) is compared with the luminance criterion value (3-g) at the time of repetition to determine whether the current luminance value (6-b) is smaller. If they are the same, the process proceeds to step S113, and thereafter the same processing as in FIG. 2 is performed.
At this time, since the current brightness value (6-b) is smaller than the judgment reference value (3-g), which is the lower limit, the brightness is already the minimum brightness at the time of the demonstration execution. Therefore, even if the luminance is further reduced, the visibility is poor and the effect of the demonstration cannot be exerted. Therefore, the demonstration is continued while maintaining the current luminance value (6-b).
[0060]
On the other hand, if the current luminance value (6-b) is larger than the criterion value (3-g) in step S123, the process proceeds to step S124 to lower the current luminance value (6-b) by one step. . As described above, as described above, in the second and subsequent demonstrations, it is considered that the possibility that the brightness is lowered even in the case of manual activation is lower than in the first demonstration, and the power consumption is reduced. That's why.
Then, with the current luminance value (6-b) lowered, the process proceeds to step S113 to continue the demonstration.
[0061]
In the flowchart shown in FIG. 3, at the time of manual startup, the demo is executed by gradually decreasing the current luminance value (6-b) as the number of demonstrations increases, and the demo is reduced to the determination reference value (3-g). At that point, the demo continues without changing the brightness value.
[0062]
According to this, even at the time of manual activation, the brightness value (visibility) is high at the first time so that the effect of the demonstration in the watched state can be sufficiently exhibited, but it is seen as the number of times is increased. Since the possibility is considered to be low, power consumption can be reduced and battery life can be prolonged.
[0063]
<Example 3>
In the first and second embodiments, in the case where the demonstration is repeated while the brightness is gradually reduced, if the brightness decreases to a certain determination reference value (3-g), the brightness is not reduced to a value lower than this brightness value. The demonstration continued at a constant brightness.
In the third embodiment, in order to further reduce the power consumption, the current luminance value is set to be lower than the reference value (3-h) by using the reference value (3-h) of the luminance for stopping the operation of the demonstration. If it falls below, the demo operation ends.
The criterion value (3-h) is higher than the criterion value (3-g) of the luminance at the time of repetition.
[0064]
FIG. 4 shows a flowchart of the brightness adjustment processing according to the third embodiment of the present invention.
The process of the third embodiment illustrated in FIG. 4 is added after the process of step S110 of the first embodiment of FIG. Further, in the second embodiment of FIG. 3, it is added after the processing of step S124.
In FIG. 4, after the current luminance value (6-b) is reduced by one step in step S110 or step S124, the process proceeds to step S131.
In step S131, the current luminance value (6-b) is compared with the luminance determination reference value (3-h) for stopping the operation of the demonstration. When the current luminance value (6-b) is greater than or equal to the judgment reference value (3-h), the process proceeds to step S113, and the demonstration is continued.
[0065]
On the other hand, when the current luminance value (6-b) is smaller than the criterion value (3-h), the process proceeds to step S112, ends the demonstration operation, and turns off the power.
By adding such a process, the demonstration is terminated when the brightness decreases to a certain level (3-h), so that the power consumption can be further reduced without the user performing the power-off operation.
[0066]
<Example 4>
In the first embodiment, only the presence / absence of an input signal is checked, and whether the signal is manual or automatic is determined based on the presence / absence of this signal. Here, a case where the processing is branched by checking the type of the input signal will be described. I do.
According to this, as will be described later, the demonstration operation can be stopped or the luminance value can be changed (re-set) by the user himself.
[0067]
FIG. 5 shows a flowchart of the brightness adjustment processing according to the fourth embodiment of the present invention.
In FIG. 2 described above, when there is any input signal, it means that the user has simply made a key input manually. However, in the fourth embodiment, the contents of the input signal are analyzed. Further, the case where the luminance value is changed by the user's intentional input is the second and subsequent demonstrations. Therefore, when “NO” is determined in the step S121 in FIG. What is necessary is just to enter a flowchart.
[0068]
Here, the case where there is a key input meaning the following two types of events is considered, but the present invention is not limited to this.
(A) Key input for instructing to stop demonstration operation
(B) Key input for returning the current luminance value to the initial value
These events are associated with one specific key in advance, and when this specific key is pressed, it is determined that the user has intentionally designated the event.
However, the event may be input by inputting a command consisting of several key inputs instead of one specific key.
[0069]
When the key input of (a) or (b) is performed, the CPU 1 receives an input signal corresponding to the key input from the input device 2. Is checked (step S141).
Next, in step S142, as a result of analyzing the input signal, when it is determined that a key input indicating stop of the demonstration operation has been performed, the process proceeds to step S112, where the demonstration operation is terminated, and the power is turned off.
[0070]
If not, the process proceeds to step S143. Here, if it is determined that a key input for returning the current luminance value to the initial value has been performed, the process proceeds to step S144, and processing for resetting the current luminance value is performed.
That is, in step S144, the current luminance value (6-b) is read, and in step S145, the current luminance value (6-b) is reset.
The resetting means, for example, setting the current luminance value (6-b) to the luminance setting value (3-f) at the start of the demonstration manual. Alternatively, the luminance may be set to the set value (3-d) of the luminance during normal operation. Instead of suddenly returning to these values, the current luminance setting value (6-b) may be gradually increased by a constant value.
[0071]
Further, when the user makes a key input for returning the brightness to the initial value, the brightness value to be returned may also be input. In this case, the input brightness value is directly used as the brightness setting value (6-b). Should be set to.
Next, with the current luminance value (6-b) returned to the initial value or changed to a predetermined value, the process proceeds to step S113, and the demonstration operation is continued.
[0072]
In the fourth embodiment, even if the demonstration has been repeated several times and the luminance has already decreased, the user can return to the initial state in which the luminance is high by himself / herself and perform the demonstration with good visibility. Alternatively, when the user wants to stop the demonstration, the user can easily stop the demonstration by performing a predetermined key input, thereby reducing power consumption.
[0073]
<Example 5>
Here, an embodiment in which the luminance is increased during the demonstration operation will be described.
As described above, it is preferable to lower the luminance in order to reduce the power consumption, but it is better to raise the luminance as much as possible to make it more noticeable in order to increase the advertising effect in stores and the like.
Therefore, from the viewpoint of giving priority to enhancing the advertising effect of the demonstration, when the power supply voltage of the information processing apparatus is equal to or higher than a certain value, control is performed so as to increase the luminance.
However, since there is a physical upper limit for the brightness of the display device, the brightness is increased by a certain level within a range not exceeding the upper limit.
[0074]
FIG. 6 shows a flowchart of the brightness adjustment processing according to the fifth embodiment of the present invention.
Here, the same processes as those in the first embodiment shown in FIG. 2 are denoted by the same step numbers. Therefore, the processes from S151 to S155 are different from those in the first embodiment, and this portion will be described below.
First, when the demonstration is not the first time, that is, the second time or later, the CPU 1 reads the current voltage value (V0) of the information processing device (step S151).
Next, in step S152, when the current voltage value (V0) is lower than or equal to the predetermined voltage determination reference value (3-i) at the time of determining the increase in luminance, the process proceeds to step S113, and the luminance is increased. Continue the demo without making any changes.
At this time, if the luminance is increased while the current voltage is lower than the judgment reference value (3-i), the power supply voltage of the information processing apparatus may be reduced and the demonstration operation may become unstable. is there.
[0075]
On the other hand, if the current voltage (V0) is larger than the voltage determination reference value (3-i) in step S152, it is considered that there is still a surplus in the power, and the process proceeds to step S153 to increase the luminance.
In step S153, the current luminance value (6-b) is read.
Next, in step S154, the luminance value (6-b) is compared with the criterion value (3-g). When the luminance value (6-b) is lower than the criterion value, step S155 is performed. Then, the current luminance value (6-b) is increased by one paragraph. Here, as the determination reference value (3-g), a physical upper limit value of the luminance value of the display device of the present invention may be set.
That is, if the current brightness value has not yet reached the physical upper limit, the brightness is increased by a predetermined brightness level within the range up to the upper limit, so as to improve the visibility of the demonstration. To As a result, a demonstration can be put out, and the advertising effect can be improved.
[0076]
When the current luminance value (6-b) is equal to the judgment reference value (3-g) in step S154, the luminance cannot be increased any more, so the process proceeds to step S113 while maintaining the current luminance value. Continue the demo.
With the above processing, when there is a surplus in the power supply voltage of the information processing device, the luminance is increased in consideration of the power consumption (power supply voltage), so that the advertising effect can be improved.
The process of the fifth embodiment shown in FIG. 6 may be executed only when the brightness increase mode is set in advance by key input or the like.
[0077]
In addition, the brightness adjustment processing shown in each of the above embodiments is executed based on the program 3-a stored in the ROM 3, and this program is stored in advance in the ROM and provided in addition to other programs. It can be provided in a form stored in various recording media such as a nonvolatile semiconductor memory, a hard disk, an FD, a CD-ROM, a DVD-ROM, a CD-R, and an IC card.
[0078]
【The invention's effect】
According to the present invention, when a specific information processing module is manually started, the screen can be displayed with a higher brightness than when automatically started, so that the contents of the information processing module can be displayed. The presentation function can be sufficiently exhibited in a state where the display can be made to be prominent and the display of the processing module is highly likely to be seen, and the advertising effect by the demonstration at the store or the like can be enhanced.
Further, when the display process is repeatedly executed, the brightness value is automatically reduced, so that it is possible to reduce power consumption when there is a high possibility that a demonstration is not seen.
In addition, since the luminance value can be changed by the user's input, if the luminance is set high by the user's intention, even if the luminance is already low, the visibility is set by the intentional setting. You can make expensive demos easy.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an embodiment of an information processing apparatus according to the present invention.
FIG. 2 is a flowchart of a brightness adjustment process of the information processing apparatus according to the first embodiment of the present invention.
FIG. 3 is a flowchart of a brightness adjustment process according to the second embodiment of the information processing apparatus of the present invention.
FIG. 4 is a flowchart of a brightness adjustment process of a third embodiment of the information processing apparatus of the present invention.
FIG. 5 is a flowchart of a brightness adjustment process according to a fourth embodiment of the information processing apparatus of the present invention.
FIG. 6 is a flowchart of a brightness adjustment process of Embodiment 5 of the information processing apparatus of the present invention.
[Explanation of symbols]
1 CPU
2 Input device
3 ROM type storage device
4 RAM type storage device
5 Display device
6 Display device controller

Claims (11)

An input unit, a display unit, a luminance setting unit storing luminance information of a screen displayed on the display unit, a storage unit storing a specific information processing module, and a luminance setting unit. A control unit for executing the specific information processing module, wherein the control unit, when start information for activating the specific information processing module is input from an input unit, the start information is not input Information processing apparatus having a display brightness changing function, wherein brightness information different from brightness information when a specific information processing module is activated is set in the brightness setting unit, and the specific information processing module is executed. apparatus. When the start information is input, the control unit controls the luminance information so that the screen is displayed on the display unit with a higher luminance than when a specific processing module is started without inputting the start information. The information processing apparatus according to claim 1, wherein the information is set in a brightness setting unit. 2. The information processing apparatus according to claim 1, wherein the specific information processing module is a demonstration process of repeating the same display operation in a predetermined cycle. 4. The information processing apparatus according to claim 3, wherein the control unit sets lower luminance information or higher luminance information than the previous luminance information in the luminance setting unit every time the demonstration process is repeated. Each time the demonstration process is repeated, the control unit sets, in the brightness setting unit, brightness information that is lower than the previous brightness by a certain level within a range that does not fall below the first brightness lower limit value, and gradually reduces the brightness. 4. The information processing apparatus according to claim 3, wherein the demonstration processing is performed while executing the demonstration processing. 6. The information processing apparatus according to claim 5, wherein when the luminance information set in the luminance setting section falls below a second luminance lower limit, the control section stops the demonstration processing. When brightness change information indicating that brightness is changed to a predetermined value is input from the input unit, the control unit sets the brightness information set in the brightness setting unit to the input brightness change information. 7. The information processing apparatus according to claim 4, wherein the information is changed based on the information. When the luminance change information is input, the control unit changes the luminance information set in the luminance setting unit to luminance information to be initialized when the start information is input. The information processing apparatus according to claim 7, wherein A power supply voltage monitoring unit for measuring a power supply voltage is provided, and when the measured power supply voltage falls below a predetermined value, the demonstration process is stopped or the brightness is increased for the brightness information set in the brightness setting unit. 5. The information processing apparatus according to claim 4, wherein no significant change is made. An input unit, a display unit, a luminance setting unit storing luminance information of a screen displayed on the display unit, a storage unit storing a specific information processing module, and a luminance setting unit. A control unit for executing the specific information processing module, wherein the control unit, when start information for activating the specific information processing module is input from an input unit, the start information is not input The brightness information different from the brightness information when the specific information processing module is activated is set in the brightness setting unit, a screen is displayed on the display unit based on the set brightness information, and the specific information processing module is A brightness adjusting method for an information processing apparatus having a display brightness changing function, which is executed. A program for causing a computer to execute the brightness adjustment method according to claim 10.

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