KR100770927B1 - Method for photographing images in wireless terminal - Google Patents

Abstract

According to an aspect of the present invention, a method of capturing an image in a portable terminal includes: measuring an amount of light input while capturing the image at a first bit rate when a video recording key is input; If it is not included in the preset threshold light amount range, ending the shooting at the first bit rate, changing the first bit rate to a second bit rate corresponding to the input light amount, and photographing the image; And combining and storing the image photographed at the first bit rate and the image photographed at the second bit rate when the end key is input.

Bit rate, image recording, image storage, index

Description

How to take a video on a mobile device {METHOD FOR PHOTOGRAPHING IMAGES IN WIRELESS TERMINAL}

1 is a block diagram of a portable terminal according to an embodiment of the present invention.

2 is a flowchart illustrating an operation of photographing by adjusting a bit rate according to the first embodiment of the present invention.

3 is a flowchart illustrating an operation of photographing by adjusting a bit rate according to a second embodiment of the present invention.

4 is an exemplary view for explaining an operation of photographing by adjusting a bit rate according to an embodiment of the present invention.

The present invention relates to a method of capturing an image in a portable terminal having a camera, and more particularly, to a method of photographing by adjusting a bit rate according to the amount of light in a camera photographing mode.

Recently, portable terminals are an indispensable necessity for modern people, and are being used by men and women of all ages. The demand for such portable terminals is expected to increase further. The portable terminal is provided with various additional functions for the convenience of the user in addition to the function for calling, and the additional functions may be, for example, a camera function, an internet connection, a simple game, or the like. In addition, the portable terminal has a function of displaying a video signal by adding a camera or a TV receiver. Therefore, a portable terminal having a camera as described above can take a video screen and display it as a moving picture and a still picture, and can also transmit a captured video screen so that all portable terminals sold recently. There are mostly cameras, and the provided cameras are also capable of capturing high resolution images.

In general, in the case of an algorithm for processing a captured image using the camera function, the image is captured at a predetermined bit rate. The bit rate means how many bits are used for an image corresponding to one second. In other words, the higher the bit rate, the more information (bits) the image has, so the resolution becomes better.

However, when shooting at a predetermined bit rate as described above, there is no problem in shooting in a place where the light amount is sufficient, but the image taken indoors or at night when the light amount is insufficient is taken as a low resolution image. For example, when shooting in a place with a sufficient amount of light, such as outdoors, high-resolution images are captured as shown in FIG. 4A even when shooting with a general bit rate of 192 kbps, but at a place where the amount of light is insufficient or at night When shooting at a bit rate of 192 kbps, a low resolution image is captured as shown in FIG.

Therefore, in order to capture a higher resolution image in a place where the amount of light is insufficient as described above or at night, it is necessary to increase the bit rate. However, if the bit rate is fixed as in the prior art, the place where the amount of light is insufficient or at night There is a problem that is always taken in a low resolution image.

Therefore, the present invention is to solve the above inconvenience, a method of shooting by adjusting the bit rate in accordance with the amount of light input from the portable terminal and a method of combining the images taken according to the adjusted bit rate and stored as a connected image The purpose is to provide.

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In order to achieve the above object, the present invention provides a method for capturing an image in a portable terminal, the process of measuring the amount of light input while capturing the image at a predetermined first bit rate when a video recording key is input; If the amount of light that is not included is within a preset threshold light amount range, ending the photographing at the first bit rate, and changing the first bit rate to a second bit rate corresponding to the input light amount to photograph the image; And storing the image photographed at the first bit rate and the image photographed at the second bit rate when the photographing end key is input.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

In addition, as a method of adjusting the bit rate in the following, there is a known bit rate control method proposed by ISO / IEC JTC1 / SC29 / MPEG (Moving Picture Experts Group). In consideration of the order of the frames, the bit rate allocation for each frame is calculated, and the bit allocation value for each coded block within the frame is input from the buffer unit, and the bit rate controller (or the controller) calculates the quantization parameter and uses the value to calculate the bit rate. I can regulate it. In addition to the above method, there are various methods for adjusting the bit rate, and since this is a known technique, a detailed description thereof will be omitted.

1 is a block diagram of a portable terminal according to an embodiment of the present invention. Referring to FIG. 1, the RF unit 21 performs communication of a mobile communication terminal. The RF unit 21 includes an RF transmitter for upconverting and amplifying a frequency of a transmitted signal, and an RF receiver for low noise amplifying and downconverting a received signal.

The modem 23 includes a transmitter for encoding and modulating the transmitted signal, a receiver for demodulating and decoding the received signal, and the like.

The audio processor 25 may configure a codec, and the codec includes a data codec for processing packet data and an audio codec for processing an audio signal such as voice. The audio processor 25 reproduces the digital audio signal received from the modem 23 by converting an analog signal through the audio codec or transmits an analog audio signal generated from a microphone through the audio codec through the audio codec. Converts to and transmits to the modem (23). The codec may be provided separately or included in the controller 10.

The keypad 27 includes keys for inputting numeric and text information and function keys for setting various functions, and outputs a key input signal corresponding to a key input by the user to the controller 10. The keypad 27 may include a camera mode execution key, a video recording key, and an end key.

The memory 29 may be composed of program memory and data memories. The program memory stores a program for controlling a general operation of the portable terminal, and temporarily stores data generated while executing the programs in the data memory.

In addition, according to an embodiment of the present invention, the memory 29 stores a program for processing a captured image and an overall program for changing the bit rate according to the amount of light input. In addition, according to an embodiment of the present invention, the memory 29 stores a bit rate matched to the input light amount and a threshold light amount value as a reference for measuring the light amount.

  The controller 10 performs a function of controlling the overall operation of the portable terminal. The modem 23 and the codec may also be included. In addition, the controller 10 switches the operation mode of the portable terminal to a camera mode when a user requests a camera mode according to the first embodiment of the present invention, and measures the amount of light input from the outside when the camera mode is performed. Control to adjust the bit rate according to the measured amount of light. And set the adjusted bit rate. In addition, according to the second embodiment of the present invention, when a user requests a video mode, the image is controlled at a preset first bit rate, and the control is performed to measure the amount of light input. If not included, the control is to end the shooting at the first bit rate, and the first bit rate is changed to a second bit rate corresponding to the input light amount to control to shoot the image. When the capturing end key is input, the controller controls to combine and store the image photographed at the first bit rate and the image photographed at the second bit rate.

The light quantity measuring sensor 40 may be a photodiode sensor or a Cds sensor, and the light quantity measuring sensor 40 may measure the amount of light input from the outside.

The camera 50 includes a lens unit (not shown) capable of drawing and drawing, photographing image data, and a camera sensor for converting the photographed optical signal into an electrical signal. It is assumed here that the camera sensor is a CCD sensor. A lens unit (not shown) capable of drawing out and drawing out may be provided, and the camera sensor and the signal processing unit may be integrally implemented or may be implemented separately.

The signal processor 60 converts the video signal output from the camera 50 into an image signal. The signal processor 60 may be implemented by a digital signal processor (DSP). That is, the 12-bit RGB signal obtained by digitally converting the analog image signal (ie, serial analog RGB signal) transmitted from the camera sensor through the AFE chip is output as 8-bit YUV data from the signal processor. In general, the YUV data divides a color of an image into a Y component having luminance and a U and V component having chroma. According to an embodiment of the present invention, when the light quantity measuring sensor 40 is not provided, the amount of light input from the outside may be measured by using the Y component which is the brightness component of the color of the image.

The image processor 70 performs a function of generating screen data for displaying an image signal output from the signal processor 60. The image processing unit 70 transmits an image signal received under the control of the controller 10 in accordance with the standard of the display unit 80, and compresses and decompresses the image data. The camera 50, the signal processor 60, and the image processor 70 may be one camera unit.

The display unit 80 displays image data output from the image processing unit 70 and displays a user interface indicating execution of a corresponding shooting function according to an embodiment of the present invention. Here, the display unit 80 may use an LCD. In this case, the display unit 80 may include an LCD controller, a memory capable of storing image data, and an LCD display device. Herein, when the LCD is implemented using a touch screen method, the keypad 27 and the LCD may be input units. The display unit 80 includes an image data display unit for outputting image data.

Looking at the operation of the portable terminal with reference to Figure 1, when the user performs a dialing operation through the keypad 27 when the call is set, the control unit 10 detects this and through the modem 23 After processing the received dial information, the RF unit 21 converts the RF signal into an output signal. After the counter subscriber generates a response signal, it detects it through the RF unit 21 and the modem (23). Thereafter, a user establishes a voice call path through the audio processor 25 to perform a communication function. In addition, in the incoming mode, the controller 10 detects the incoming mode through the modem 23 and generates a ring signal through the audio processor 25. Thereafter, when the user responds, the control unit 10 detects this, and a voice call path is formed through the audio processing unit 25 to perform a communication function. In the outgoing and incoming modes, voice communication is described as an example, but a data communication function for communicating packet data and image data in addition to the voice communication may be performed. In addition, when performing the standby mode or text communication, the controller 10 displays the text data processed through the modem 23 on the display unit 80.

In addition, the operation of performing the camera mode by adjusting the bit rate according to the amount of light measured according to an embodiment of the present invention in the portable terminal as described above, when the user enters the camera mode execution key using the keypad 27 The controller 10 detects this and controls the light quantity measuring sensor 40 or the signal processor 60 to measure the input light quantity, and controls the memory 29 to adjust the bit rate according to the measured light quantity and adjust the adjusted amount. Bit rate is set to perform the camera mode.

2 is a flowchart illustrating an operation of photographing by adjusting a bit rate according to a first embodiment of the present invention, and FIG. 4 is an exemplary view for describing an operation of photographing by adjusting a bit rate according to an embodiment of the present invention. Referring to FIGS. 2 and 4, an operation of adjusting and setting a bit rate according to the amount of light input from the outside and capturing according to the set bit rate will be described. In addition, in the first embodiment of the present invention to be described below, it will be described on the assumption that the bit rate is preset to the first bit rate. The first bit rate is a general bit rate, that is, a bit rate suitable for an environment in which a sufficient amount of light is provided, and the second bit rate, which will be described below, means a high bit rate, that is, a bit rate suitable for night photography or an environment in which an insufficient amount of light is provided.

In step 201, when the user inputs a camera mode key (for example, a predetermined key associated with camera shooting, such as an image shooting key or a video shooting key) using the keypad 27, the controller 10 In step 203, the detection proceeds to step 205. In step 205, the controller 10 controls the memory 29, the camera 50, the signal processor 60, the image processor 70, and the display 80 to switch from the mobile communication mode to the camera mode. Proceed. The camera mode may be a mode for displaying an image to be photographed on a preview screen.

In step 207, the control unit 10 controls the light amount measuring sensor 50 or the signal processing unit 60 to measure the light amount and proceeds to step 209. Here, the method of measuring the amount of light may be measured using the light amount measuring sensor 50 and the method of measuring the amount of light by inspecting the Y component which is the brightness component of the image from the YUV data provided from the signal processor 60. This can be used.

In step 209, the controller 10 controls the memory 29 to compare the measured light amount with a preset threshold light amount. As a result of the comparison, if the measured light amount is greater than or equal to the preset threshold light amount, the control unit 10 proceeds to step 211 and maintains and sets the bit rate at the first bit rate, and if the measured light amount is less than the preset threshold light amount, the control unit 10 performs step 213. Proceed to to change the preset first bit rate to a second bit rate to set. For example, when the camera mode is executed in an environment in which sufficient light amount is provided (for example, outdoors or indoors with a high amount of light), the bit rate may be changed to a first bit rate that is a general bit rate (for example, 192 kbps) or may be set. If the camera mode can be maintained at night (eg dark room space) or at night when it is possible to maintain this and not enough light is provided, change the bit rate to a second bit rate which is a high bit rate (for example, 234 kbps or 256 kbps). If it is already set, you can keep it.

The controller 10 controls the memory 29, the signal processor 60, the image processor 70, and the display 80 to process and display an image by applying a bit rate set according to the measured light amount.

When the user inputs the photographing key using the keypad 27, the controller 10 detects this in step 217 and proceeds to step 219. In step 219, the controller 10 controls the memory 29 and the image processor 80 to capture an image processed by applying the set bit rate. For example, if the amount of light input is measured and recognized as an environment in which a sufficient amount of light is provided, the controller 10 sets the first bit rate, which is a general bit rate (for example, 192 kbps), to photograph and display as shown in FIG. If it recognizes that the environment is not enough light or at night, the control unit 10 is set to a second bit rate of a high bit rate (for example, 234kbps or 256kbps) to display and display as shown in (C) of FIG.

Thereafter, when the user inputs the photographing end key or the storage key by using the keypad 27, the controller 10 detects this in step 223 and controls the memory 29 in step 223 to store the photographed image.

3 is a flowchart illustrating an operation of photographing by adjusting a bit rate according to a second embodiment of the present invention, and FIG. 4 is an exemplary diagram for describing an operation of photographing by adjusting a bit rate according to an embodiment of the present invention.

Referring to FIGS. 3 and 4, an operation of controlling the bit rate according to the amount of light input from the outside during image capturing and combining the captured images according to the adjusted bit rate and storing them as one connected image will be described. In addition, in the second embodiment of the present invention to be described below, it will be described on the assumption that the bit rate is preset to the first bit rate. The first bit rate is a general bit rate, that is, a bit rate suitable for an environment in which a sufficient amount of light is provided, and the second bit rate, which will be described below, means a high bit rate, that is, a bit rate suitable for night photography or an environment in which an insufficient amount of light is provided.

When the user inputs a predetermined key, for example, a video photographing key, associated with camera photographing using the keypad 27 in step 301 in the standby state, the controller 10 detects this in step 303 and proceeds to step 305. In step 305, the controller 10 controls the memory 29, the camera 50, the signal processor 60, the image processor 70, and the display unit 80 to switch from the mobile communication mode to the camera mode to be photographed. Is displayed on the preview screen, and when the user requests a shooting, the image processed by applying the first bit rate, which is the preset general bit rate (for example, 192 kbps), is captured and displayed as shown in FIG.

In step 307, the control unit 10 controls the light amount measuring sensor 50 or the signal processor 60 to measure the light amount and proceeds to step 309. Here, the method of measuring the amount of light may be measured using the light amount measuring sensor 50 and the method of measuring the amount of light by inspecting the Y component which is the brightness component of the image from the YUV data provided from the signal processor 60. This can be used.

In step 309, the controller 10 controls the memory 29 to compare the measured light amount with a preset threshold light amount. As a result of the comparison, if the measured light amount is greater than or equal to the preset threshold light amount, the controller 10 proceeds to step 311 and maintains and sets the bit rate at the first bit rate, and if the measured light amount is less than the preset threshold light amount, the controller 10 In operation 313, the image photographed at the first bit rate is stored. In this case, the controller 10 controls the memory 29 to give index information to the image captured and stored at the first bit rate. The reason for assigning the index information is to continuously connect the image to be photographed and stored at another bit rate immediately after. That is, the same index information is given to the captured image until the photographing key is input and the photographing end key is input.

In addition, the controller 10 controls the memory 29 to provide an environment (eg, a dark indoor space) in which the light amount is insufficient for the set first bit rate, or a high bit rate (eg, 234 kbps or 256 kbps) suitable for night photography. Change to the second bit rate. In operation 317, the controller 10 controls the memory 29, the camera 50, the signal processor 60, the image processor 70, and the display 80 to set the high bit rate (for example, 234 kbps or 256 kbps). The image processed by applying the second bit rate is photographed and displayed as shown in FIG.

When the storage request is generated by the user or the storage request is automatically generated, in step 319, the controller 10 controls the memory 29 to store the captured image at the second bit rate. At this time, the controller 10 controls the memory 29 to assign the same index information to the image captured and stored at the second bit rate to the image captured and stored at the first bit rate. The reason for assigning the same index information is to continuously connect the image captured and stored at another bit rate (for example, the first bit rate). That is, the same index information is given to the captured image until the photographing key is input and the photographing end key is input. For example, if index information given to an image photographed and stored at the first bit rate is 00xx001, index information of 00xx001 is also assigned to an image photographed and stored at the second bit rate.

Thereafter, when the user inputs the photographing end key by using the keypad 27, the controller 10 detects this in step 321 and proceeds to step 323. In step 323, the controller 10 controls the memory 29 to check whether there are images captured at different bit rates. As a result of the inspection, if there is no image photographed at a different bit rate and only an image photographed at a single bit rate exists, the controller 10 proceeds to step 325 to perform a general image storage. If there is an image, the controller 10 proceeds to step 327 and combines the images photographed at different bit rates and stores the image as a continuous image. For example, when an image is captured by applying only the preset first bit rate while performing a photographing function, when the image is photographed by performing general image storage and by performing the photographing function, the first bit rate and the second bit rate are photographed. The image photographed at the first bit rate and the image photographed at the second bit rate are combined and stored as one connected image.

 Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Particularly, in the above embodiment, only the first bit rate and the second bit rate are distinguished, but the bit rate may be further divided and set according to the amount of light. Therefore, the scope of the present invention should be defined not only by the scope of the claims, but also by those equivalent to the scope of the claims.

As described in detail above, the present invention provides a method of photographing by adjusting the bit rate according to the amount of light input and storing the combined images taken according to different bit rates as one connected image, where the light amount is insufficient or at night It is possible to take a higher resolution image at a time, and even if it is taken at different bit rates, it is automatically stored as one continuous image, so that the user does not need to edit separately, thereby increasing user convenience.

Claims (11)

delete delete delete delete In the method of taking a video in a portable terminal, Measuring the amount of light input while capturing the image at a first bit rate when a video recording key is input; If the input light amount does not fall within a preset threshold light amount as a result of the measurement, ending photographing at the first bit rate; Photographing the image by changing the first bit rate to a second bit rate corresponding to the input light amount; And a step of combining and storing the image photographed at the first bit rate and the image photographed at the second bit rate when the photographing end key is input. The image photographing method of claim 5, further comprising: assigning and storing index information to the image photographed at the first bit rate after ending the photographing at the first bit rate. . The method of claim 6, further comprising: applying and storing the same index information as the index information provided to the image photographed at the first bit rate to the image photographed by changing the second bit rate corresponding to the input light amount. Image taking method in a portable terminal characterized in that. The method of claim 7, wherein the same index information is assigned to the captured image until the photographing starts and the photographing end key is input. The method of claim 5, wherein the measuring the amount of light comprises measuring the amount of light by examining a Y component, which is a luminance component of the image, from the YUV data. The method of claim 5, wherein if the input light amount is within a preset threshold light amount, the bit rate is maintained at the first bit rate. delete

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