KR20060022944A - Illuminance information providing method for mobile communication terminal - Google Patents

Abstract

The present invention relates to a method of providing illuminance information of a mobile communication terminal. In the related art, an illuminance sensor is provided to check external light in a mobile communication terminal to adjust brightness of an image acquired by a camera or determine whether to operate a flash. Because it was used only as an additional means, such as adjusting the brightness of the backlight, there was a problem in that the efficiency of the illuminance sensor that is already provided cannot be used for other purposes. In addition, there is a problem that requires a separate measurement equipment to measure the external light environment because there is no way for the user to quantitatively know the external light environment measured by the illumination sensor provided in the mobile communication terminal. In consideration of such a problem, the present invention provides a means for providing a user with an illuminance value for an external light environment by using an optical measuring means already provided in a mobile communication terminal, and providing a means for confirming a suitable illuminance value for each situation. In addition, by informing the user of the difference between the actual illuminance and the recommended illuminance according to a specific situation, it provides information that can protect the user's eyesight and useful information in various cases such as photography, lighting design, and interior decoration. It can work.

Description

ILLUMINANCE INFORMATION PROVIDING METHOD FOR MOBILE COMMUNICATION TERMINAL}

1 is a block diagram showing a configuration of a mobile communication terminal having a conventional illuminance sensor.

2 is a conceptual diagram illustrating a screen for providing illuminance information according to an embodiment of the present invention;

*** Explanation of symbols for main parts of drawing ***

10: control unit 20: illuminance sensor

30: memory 40: light source

The present invention relates to a method of providing illuminance information of a mobile communication terminal, and in particular, by providing a quantitatively providing illuminance information around a mobile communication terminal by using a mobile communication terminal having an illuminance sensor, The present invention relates to a method of providing illuminance information of a mobile communication terminal to protect a user's eyesight by providing a difference between the two.

As the use of mobile communication terminals has become common, the development and dissemination of mobile communication terminals having superior performance are rapidly progressing. The most prominent of these are the provision of colorful screens, the application of large memory and the application of camera functions.

Among them, the camera function began to spread rapidly with the spread of the display unit that provides a full color screen, and nowadays, most mobile communication terminals have a built-in camera or at least an external camera.

Conventionally, after checking the external environment by using an optical sensor or an image sensor attached to the camera, an appropriate exposure compensation can be processed by software or hardware accordingly, so that an optimal image can be obtained even in a dark or bright environment. To make it work. In addition, when the flash is added, it is also used for the purpose of determining the operating state of the flash.

In addition, the display backlight, which is essential for providing a full color screen, consumes a lot of power, so that the ambient light environment can be grasped to reduce the backlight brightness slightly in the dark and to brighten the backlight brightness slightly in the bright light. According to an effort to prevent battery power consumption as effectively as possible by driving the backlight according to the present invention, even a mobile communication terminal without a camera is provided with an illumination sensor so that the mobile communication terminal can detect an optical environment.

1 is a block diagram showing a configuration of a mobile communication terminal to which a conventional illuminance sensor is applied, as shown in FIG. 1, by using an analog-digital conversion port built in the mobile communication terminal controller 10 or using an external conversion means. The brightness of the external light source 40 is measured by checking the current value change or the voltage value change of the illuminance sensor 20 provided in the mobile communication terminal, and comparing the measured value with the comparison data stored in the memory unit 30. It has a configuration for determining the brightness of the external light source 40 measured as. The brightness of the display unit is adjusted according to the external light environment determined by the above process, or if the camera function is being driven, the brightness of the obtained external image is adjusted or the camera is instructed to adjust the time to acquire the external image. To get an image. In addition, when the flash is mounted, it is possible to determine whether to operate the flash according to the external brightness.

However, the purpose of measuring the external light environment used in the related art is limited to a simple light intensity measurement for operating as an auxiliary function for adjusting the image acquired by the camera as described above, or for controlling the operation of the flash, backlight brightness, and the like. However, the intensity of external light is not provided to the user in a quantitative value. That is, no means for converting the measured light intensity into a quantitative illuminance value according to the characteristics of the illuminance sensor is not configured.

Therefore, even if the illuminance sensor is already provided it can not be used other than the above-mentioned purpose, there was no way for the user to know the intensity of the external light directly. In other words, in order for the user to know the external light environment, the user cannot but measure the light intensity using a separate light measuring device, and thus, the user cannot effectively utilize the illumination sensor already provided in the mobile communication terminal.

 As described above, the mobile communication terminal includes an illuminance sensor so as to check external light, and adjusts the brightness of the image acquired by the camera, determines whether to operate the flash, or adjusts the brightness of the backlight. Since it was used only as a means of use, there was a problem in that the efficiency of the illuminance sensor that was already provided could not be used for other purposes. In addition, there is a problem that requires a separate measurement equipment to measure the external light environment because there is no way for the user to quantitatively know the external light environment measured by the illumination sensor provided in the mobile communication terminal.

In consideration of such a problem, the present invention provides a means for providing a user with an illuminance value for an external light environment by using an optical measuring means already provided in a mobile communication terminal, and providing a means for confirming a suitable illuminance value for each situation. In addition, an object of the present invention is to provide a method of providing illuminance information of a mobile communication terminal to implement a new function to protect a user's eyesight by informing a user of a difference between actual illuminance and recommended illuminance according to a specific situation.

The present invention for achieving the above object in the illumination information providing method using a mobile communication terminal having an optical measuring means capable of measuring the intensity of the external light, the light around the mobile communication terminal using the optical measuring means Providing brightness in one of the photometric units; Determining a user's situation according to a user's selection, and comparing the recommended optical brightness for each situation stored in the mobile communication terminal with the measured actual ambient light brightness and providing the difference to the user in the optical measuring unit. It is characterized by.

An embodiment of the present invention as described above will be described in detail with reference to the drawings.

2 is an exemplary view showing a practical application method according to an embodiment of the present invention. As shown, a new external light intensity measurement menu called a separate illumination brightness inquiry function is added, and the light provided in the mobile communication terminal is added. A user interface can be implemented that can utilize measurement means.

As a light measuring means that may be provided in a mobile communication terminal, a photodiode exhibiting linear current change characteristics with respect to visible light may be used, as well as a CDS that can only know a simple light intensity. The camera can also know the intensity of the external light. If any of these various light measuring means are used, the light intensity will be incomparably lower than that of professional measuring equipment such as illuminance measuring instruments. However, in order to protect the user's vision, No problem. In particular, in the case of using a Blue Senstive (BS) series photodiode having a linear current change characteristic with respect to visible light, illuminance can be measured with a precision similar to that of a professional illuminance meter. In addition, since the control unit of the mobile communication terminal has a high resolution analog-to-digital conversion port, the hardware burden for implementing a high-precision illuminance sensor is not so great.

And since it is not used as a professional illuminance measuring instrument, it is not necessary to measure a wide range of illuminance precisely, so it is possible to measure the current value according to the external light brightness through relatively simple hardware design and software illuminance conversion. Can be calculated in units of).

In the case illustrated in FIG. 2A, an item for storing general information about recommended illuminance for each situation and providing a recommended illuminance for a specified situation according to a user's selection (illumination of brightness), and a user-specified situation by measuring actual illuminance values Items that provide a difference from the recommended illuminance of the light (recommended light brightness), and items that set the precision of the light measurement or a large difference in light brightness (light measurement method). Items that measure and provide them as illuminance values may be further added.

In general, illuminance refers to the brightness of light with respect to a unit area. The illuminance of a surface perpendicular to a light ray 1 m away from a point light source of 1 cd is referred to as 1 lx and is used as a unit representing the brightness felt by a person. do. This illuminance ranges in a very wide range, depending on the situation, where direct sunlight measures more than 100,000 lx, and the full moon night outdoors measures about 0.2 lx.

The actual illuminance measuring means uses a method of changing the current generated by the illuminance sensor in response to light to a voltage value through an appropriate resistance, and reading the voltage to calculate an appropriate illuminance value in consideration of the characteristics of the sensor. Therefore, the measurement range can be determined by adjusting the unit of resistance used to change the current into voltage. Therefore, in the case of a dedicated illuminometer configured to perform precise illuminance measurement in a wide range, By changing the resistance, you change the unit of measurement.

However, if the illuminance within a certain area for the protection of eyesight is to use a single resistance, the illuminance of the artificial light source that can be measured indoors can be measured simply without changing the resistance. For example, it is known that the general indoor illumination is about 100 lx, the reading light is about 200 lx, and the brightness of the studio for precise work is about 500-1000 lx.

In the illustrated embodiment of the present invention, the above-described situational illumination values are stored in the internal memory, and the user selects a desired situation from the situation list as shown in FIG. 2B which appears as the user selects an item such as "light brightness inquiry". In this case, we can inform the recommended illumination accordingly.

The situation list as shown in FIG. 2B may also appear when the “recommended illumination brightness” item is selected. When the user sets the current situation, the mobile terminal acquires a recommended illumination value for the situation from the memory. The measured value obtained through an optical measuring means (for example, an illuminance sensor) of the mobile communication terminal may be converted into an illuminance value, and then compared with the recommended illuminance value obtained from the memory to inform the user of the difference.

In this case, it can simply provide information that the light level should be lighter or the lighter lighter level should be darker in order to be suitable for the current situation, the current light intensity is some lx, the recommended light intensity is some lx, and the difference Can also supply several lx at once.                     

The illustrated "Measuring method of illumination" item is performed when the area difference is large when measuring lighting such as indoor, outdoor, or direct sunlight, and when changing the resistance value used in the light measuring means or changing the measured value to lx for more accurate measurement. It is not necessary to change the precision of the conversion equation.

As described above, the present invention can be used for the purpose of protecting the eyesight of the user and measuring the exact brightness of the external light environment in units of lx in addition to the existing function of the optical measuring means already provided in the mobile communication terminal This allows users to apply it in many ways.

As described above, the method of providing illuminance information of a mobile communication terminal provides a user with an illuminance value for an external light environment by using an optical measuring means already provided in the mobile communication terminal, and provides a suitable illuminance value for each situation. In addition to providing a means of checking, the user can be informed of the difference between actual and recommended illumination according to a specific situation, which is useful for various situations such as photography, lighting design, interior decoration, etc. There is an effect that can provide information that can be used.

Claims (2)

In the illumination information providing method using a mobile communication terminal having an optical measuring means capable of measuring the intensity of external light, Providing optical brightness around the mobile communication terminal as one of optical measuring units using the optical measuring means; Determining a user's situation according to a user's selection, and comparing the recommended optical brightness for each situation stored in the mobile communication terminal with the measured actual ambient light brightness and providing the difference to the user in the optical measuring unit. Illuminance information providing method of a mobile communication terminal, characterized in that. The method of claim 1, wherein the measured light brightness is managed by a lx unit, which means illuminance.

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