KR101422587B1 - Apparatus and method for digital picturing image - Google Patents

Abstract

The present invention relates to a digital image processing apparatus and a control method thereof, and more particularly, to a digital image processing apparatus and a control method thereof for automatically controlling the operation of a shake correction apparatus using position information obtained through a global positioning system (GPS) ≪ / RTI >

The present invention relates to a digital image processing apparatus equipped with a shake correction apparatus, the digital image processing apparatus comprising: a GPS information receiver for receiving its own position information from a GPS satellite; And a digital signal processing unit for determining the moving state of the digital image processing apparatus using the position information received by the GPS information receiving unit and controlling the operation of the shake correction apparatus based on the determination result to provide.

Description

[0001] The present invention relates to a digital image processing apparatus and a control method thereof,

The present invention relates to a digital image processing apparatus and a control method thereof, and more particularly, to a digital image processing apparatus and a control method thereof for automatically controlling the operation of a shake correction apparatus using position information obtained through a global positioning system (GPS) ≪ / RTI >

Typically, the digital image processing apparatus includes all devices that process images of a digital camera, a PDA (personal digital assistant), a phone camera, a PC camera, or the like, or use motion recognition sensors. Such a digital image processing apparatus receives a desired image through an image pickup device, displays the input image on an image display device, displays the image on an image display device, stores the image as an image file by user's selection, and prints the stored image file.

In such a conventional digital image processing apparatus, there is a problem that a hand shake or a shaking phenomenon occurs because a user usually carries out shooting with his hand.

In order to solve such a problem, a conventional digital image processing apparatus has a sensor that can detect the motion of the digital image processing apparatus. Various methods have been developed for correcting the shake by moving the lens according to the movement of the digital image processing device sensed by the sensor, or for correcting the shake by moving the imaging device directly.

However, in the case of the digital image processing apparatus having the image stabilizer incorporated therein, it has been common that the user operates the mode setting switch to turn on / off the shake correction function. This is because when the shake correction function is activated at all times, the power consumption of the digital image processing apparatus is increased, and the use time of the digital image processing apparatus is reduced.

However, when manually turning on / off the shake correction function as described above, the user has to set them individually each time, so that the operation is troublesome. In addition, in the case of urgently shooting an image, There was a problem that could not be utilized.

An object of the present invention is to provide a digital image processing apparatus and a control method thereof that automatically control the operation of a shake correction apparatus using position information obtained through a global positioning system (GPS) system.

A digital image processing apparatus equipped with a shake correction apparatus according to an embodiment includes a GPS information receiver for receiving position information of the GPS satellite from the GPS satellite; And a digital signal processing unit for determining a moving state of the digital image processing apparatus using the position information received by the GPS information receiving unit and controlling operation of the shake correction apparatus based on the determination result, Is characterized in that when the digital image processing apparatus is moving, the operation of the shake correction apparatus is turned on.
The digital signal processing unit determines whether or not a signal for turning on the shake correction function is inputted from the user when the digital image processing apparatus is in a stop state and outputs a signal for turning on the shake correction function from the user And when it is inputted, the operation of the shake correction apparatus is turned on.
And a storage unit for storing GIS (Geographic Information System) information.
A control method of a digital image processing apparatus equipped with a shake correction apparatus according to another embodiment includes: receiving position information of the digital image processing apparatus from a GPS satellite in the digital image processing apparatus; Determining a moving state of the digital image processing apparatus using the received position information; And controlling the operation of the shake correction apparatus based on the determination result. When it is determined that the digital image processing apparatus is in motion, it is determined that the operation of the shake correction apparatus is on and turning on the power supply.
If it is determined that a signal to turn on the shake correction function is inputted from the user when the digital image processing apparatus is in a stopped state as a result of determining the moving state of the digital image processing apparatus, and turning on the operation of the shake correction apparatus when a signal to turn on the shake correction apparatus is inputted.

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According to the present invention, the operation of the shake correction apparatus is automatically controlled by using the position information obtained through the global positioning system (GPS) system, thereby reducing power consumption and improving user convenience.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the front and top contours of the digital image processing apparatus according to the present invention.

The shutter-release button 101 is opened and closed to expose the CCD or film to light for a predetermined period of time, interlocked with an iris (not shown), and appropriately exposes the subject to record an image on the CCD.

The shutter-release button 101 generates the first and second image pickup signals by the photographer input. When the first shutter-release signal as the half-shutter signal is input, the digital image processing apparatus focuses and adjusts the amount of light. At this time, the display unit 113 is turned on green. When the first shutter-release signal is focused and the amount of light is adjusted, a second shutter-release signal as a full shutter signal is input to capture an image.

The power button 103 is input for supplying power to the digital image processing apparatus and operating it.

The flash 105 illuminates bright light instantly when shooting in a dark place. The flash mode includes automatic flash, forced flash, prohibited flash, red-eye reduction, and slow synchro flash.

The auxiliary light 107 supplies light to the subject so that the digital image processing apparatus can automatically and quickly catch the focus when the light amount is insufficient or at night.

The lens unit 109 receives light from an external light source and processes the image.

The GPS satellite 200 is equipped with four precision timepieces that differ by only about one second in about 160,000 years. Based on this, it is possible to provide an error of 30 m and time information of less than 10 ^-9 units, Informs dimension location

The digital image processing apparatus 100 receives and stores its own position information, i.e., latitude, longitude, altitude, time, acceleration, and direction information from the GPS satellite 200 at a predetermined time interval (e.g., every 10 seconds) .

The GPS system including the GPS satellite 200 and the digital image processing apparatus 100 is a system for digitizing a position measurement radio wave transmitted from the 24 GPS satellites 200 at an altitude of about 20,000 km to the ground every second, The image processing apparatus 100 performs a function of displaying on the digital map the position information that the image processing apparatus 100 receives and allows the user to three-dimensionally know his / her time and current position (latitude, longitude, altitude, and acceleration).

FIG. 2 is a rear view showing the rear external appearance of the digital image processing apparatus shown in FIG. 1. The wide angle-zoom button 111w, the telephoto-zoom button 111t, the display unit 113, Input buttons B1 to B14 (hereinafter referred to as buttons B1 to B14).

The wide-angle zoom button 111w or the tele-zoom button 111t widens the angle of view or narrows the angle of view depending on the input, in particular, when changing the size of the selected exposure area. When the wide angle-zoom button 111w is input, the size of the selected exposure area is reduced, and when the network-zoom button 111t is input, the size of the selected exposure area is increased.

The buttons B1 to B14 are provided in the rows and columns of the display unit 113. [ The buttons B1 to B14 provided in the row and column of the display unit 113 are provided with a touch sensor (not shown) or a contact type switch (not shown).

That is, the touch sensors are provided on the buttons B1 to B14 to move up / down / left / right while touching the buttons B1 to B7 of the horizontal row or the buttons B8 to B14 of the vertical row, It is possible to select any value (e.g., color or brightness) of the items, or activate a submenu icon included in the main menu icon.

In addition, the buttons B1 to B14 are provided with a contact type switch, so that the main menu icon and the sub menu icon can be directly selected to execute the corresponding function. The touch sensor requires a relatively weak touch compared to the contact switch input, but the contact switch input requires a relatively strong touch compared to the touch sensor input.

FIG. 3 is a block diagram showing the configuration of the digital image processing apparatus shown in FIGS. 1 and 2. The display unit 113, the user input unit 121, the image pickup unit 123, the image processing unit 125, 127, a GPS information receiving unit 131, a shake correction unit 133, a position control unit 135, and a digital signal processing unit 139.

The user input unit 121 includes a shutter-release button 101 that is opened and closed to expose a CCD or a film to light for a predetermined period of time, a power button 103 that inputs power to supply power, A wide angle-zoom button 111w and a telephoto-zoom button 111t for narrowing the angle of view and a touch sensor or a contact switch provided in the horizontal and vertical columns around the display unit 113 for character or menu setting And buttons B1 to B14.

The image pickup section 123 includes a shutter, a lens section, a diaphragm, a charge coupled device (CCD), and an analog-to-digital converter (ADC), not shown. The shutter is a mechanism that adjusts the amount of light that is exposed with the iris. The lens unit receives light from an external light source and processes the image. At this time, the diaphragm adjusts the amount (amount of light) of the incident light according to the degree of opening and closing. The opening / closing degree of the diaphragm is controlled by the digital signal processing unit 139. [

The CCD accumulates the amount of light input through the lens unit and outputs the image captured by the lens unit according to the accumulated light amount in accordance with the vertical synchronization signal. Image acquisition of a digital image processing apparatus is performed by a CCD which converts light reflected from a subject into an electrical signal. In order to obtain a color image using a CCD, a color filter is required, and a filter (not shown) called a color filter array (CFA) is employed in most cases. CFA has a regularly arranged structure that passes only light that represents one color per pixel, and it has various forms according to the arrangement structure. The ADC converts the analog video signal output from the CCD into a digital signal.

The image processing unit 125 processes the digitally converted RAW data so that it can be displayed. The image processing unit 125 removes the black level due to the dark current generated in the CCD and the CFA filter which are full of temperature change. The image processing unit 125 performs gamma correction to encode information according to the non-linearity of human vision. The image processing unit 125 performs CFA interpolation for interpolating a Bayer pattern embodied with RGAG lines and GBGB lines of gamma-corrected predetermined data into RGB lines. The image processing unit 125 converts the interpolated RGB signals into YUV signals, edge-compensates the Y signals by filtering the Y signals by a high-pass filter, and calculates the color values of the U and V signals using a standard color coordinate system Corrects the color correction, and removes these noises. The image processor 125 compresses and processes the noise-canceled Y, U, and V signals to generate a JPEG file, and the generated JPEG file is displayed on the display unit 23 and stored in the storage unit 127 . All the operations of the image processing unit 125 operate under the control of the digital signal processing unit 139.

The GPS information receiving unit 131 receives the time information and the latitude, longitude, altitude and direction as position information from the GPS satellite 200 at a predetermined time interval (for example, at intervals of 10 seconds) under the control of the digital signal processing unit 139 Information, and updates its own status information.

The digital signal processing unit 139 controls the shake correction unit 133 and the position control unit 135 to correct the shake of the photographed image signal and store the corrected shake. The shake correction unit 133 uses a voice coil motor and a piezoelectric motor, and the drive mechanism is operated to correct the shake. The mechanism for correcting the shake is a method of moving the lens (not shown) by an amount of shake, and a method of moving the image sensor (CCD, COMS, etc., not shown) by the amount of shake, as mentioned above. The position control unit 135 checks whether the operation of the shake correction unit 133 is normal and feeds back the signal to the digital signal processing unit 139. The digital signal processing unit 139 receives the feedback signal and determines whether the correction is completed .

The digital signal processing unit 139 determines the current position, the environment, the moving state, the moving speed, and the like of the digital image processing apparatus 100 using the position information received by the GPS information receiving unit 131, To control the operation of the shake correction apparatus.

In detail, in the case of a digital image processing apparatus in which a conventional image stabilizer is incorporated, it has been common that a user operates the mode setting switch to turn on / off the shake correction function. This is because when the shake correction function is activated at all times, the power consumption of the digital image processing apparatus is increased, and the use time of the digital image processing apparatus is reduced. However, when manually turning on / off the shake correction function as described above, the user has to set them individually each time, so that the operation is troublesome. In addition, in the case of urgently shooting an image, There was a problem that could not be utilized.

In order to solve such a problem, the digital image processing apparatus 100 according to an embodiment of the present invention automatically controls the operation of the shake correction apparatus using position information obtained through a global positioning system (GPS) system .

In detail, when the GPS information receiver 131 receives its own time information and latitude, longitude, altitude and direction information as position information from the GPS satellite 200 at a predetermined time interval (for example, at intervals of 10 seconds) The processing unit 139 may determine whether the digital image processing apparatus 100 and the user are moving on the basis of the received time information and location information. For example, when the digital image processing apparatus 100 moves a predetermined distance or more for a predetermined time interval, the digital signal processing unit 139 may determine that the digital image processing apparatus 100 and the user are moving. Here, the digital signal processor 139 may determine whether the user is moving on foot or moving through the vehicle from the moving speed of the user.

When the digital signal processing unit 139 determines that the digital image processing apparatus 100 and the user are moving, the digital signal processing unit 139 automatically turns on the shake correction function, and the shake correction unit 133 And the position control unit 135 to correct the shake of the photographed image signal and store it.

On the other hand, if the digital signal processing unit 139 determines that the digital image processing apparatus 100 and the user are in a stopped state, the digital signal processing unit 139 determines whether or not a signal for turning on the shake correction function is inputted from the user . The digital signal processing unit 139 controls the shake correction unit 133 and the position control unit 135 to adjust the shake of the photographed image signal Corrected and stored. On the other hand, if it is determined that the user does not input a signal to turn on the shake correction function, the digital signal processor 139 turns off the shake correction function and captures an image in the normal mode.

Meanwhile, the storage unit 127 may further store GIS (Geographic Information System) information. Geographic information system refers to the integration of computer hardware and software, geographic data, and human resources designed to effectively collect, store, update, coordinate, analyze and represent all types of geographically accessible information .

The digital signal processing unit 139 uses the position information obtained through the GPS system and the geographic information system (GIS) information stored in the storage unit 127 to determine the current position and condition of the user, And the operation of the shake correction apparatus can be automatically controlled more organically by using this.

According to the present invention, the operation of the shake correction apparatus is automatically controlled by using the position information obtained through the global positioning system (GPS) system, thereby reducing power consumption and improving user convenience.

Next, a digital image processing method according to the present invention will be described in detail with reference to FIG. The image processing method according to the present invention can be performed in the image processing apparatus as shown in FIG. 3. According to the embodiment, the main algorithm of the operation method is a digital signal processing unit 139 ). ≪ / RTI >

Referring to FIG. 4, a method of controlling a digital image processing apparatus according to the present invention includes a step of receiving its own position information from a GPS satellite (step S110), a step of calculating its own position from a received positional information A step of determining the moving state of the digital image processing apparatus using the received position information in operation S130, and a step of controlling operation of the shake correction apparatus based on the determined result in operation S140 and S150.

First, the digital image processing apparatus 100 receives its own position information from the GPS satellite (step S110), and calculates its position from the received position information (step S120). In detail, the GPS information receiver 131 receives its own time information and its latitude, longitude, and altitude as positional information from the GPS satellite 200 at a predetermined time interval (for example, at intervals of 10 seconds) under the control of the digital signal processor 139 And direction information, and updates its own state information.

Next, the digital image processing apparatus 100 determines its own moving state using the received position information (step S130). In detail, the digital signal processing unit 139 uses the position information received by the GPS information receiving unit 131 to determine the current position, the environment, the moving state, the moving speed, and the like of the digital image processing apparatus 100. For example, when the digital image processing apparatus 100 moves a predetermined distance or more for a predetermined time interval, the digital signal processing unit 139 may determine that the digital image processing apparatus 100 and the user are moving. Here, the digital signal processor 139 may determine whether the user is moving on foot or moving through the vehicle from the moving speed of the user.

When the digital signal processing unit 139 determines that the digital image processing apparatus 100 and the user are moving, the digital signal processing unit 139 automatically turns on the shake correction function, and the shake correction unit 133 And the position controller 135, and corrects the shake of the photographed image signal and stores it (step S140).

On the other hand, if the digital signal processing unit 139 determines that the digital image processing apparatus 100 and the user are in a stopped state, the digital signal processing unit 139 determines whether or not a signal for turning on the shake correction function is inputted from the user (Step S150). The digital signal processing unit 139 controls the shake correction unit 133 and the position control unit 135 to adjust the shake of the photographed image signal Corrected and stored (step S140). On the other hand, if it is determined that the user does not input a signal to turn on the shake correction function, the digital signal processor 139 turns off the shake correction function, Step).

According to the present invention, the operation of the shake correction apparatus is automatically controlled by using the position information obtained through the global positioning system (GPS) system, thereby reducing power consumption and improving user convenience.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1 is a perspective view showing the front and top contours of the digital image processing apparatus according to the present invention.

FIG. 2 is a rear view showing the rear external appearance of the digital image processing apparatus shown in FIG. 1. FIG.

FIG. 3 is a block diagram showing a configuration of the digital image processing apparatus shown in FIG. 1 and FIG. 2. FIG.

4 is a flowchart showing a control method of the digital image processing apparatus according to the present invention.

Description of the Related Art

100: digital image processing apparatus 121: user input unit

123: image pickup unit 125: image processing unit

127: storage unit 139: digital signal processor

Claims (7)

A digital image processing apparatus equipped with a shake correction apparatus, A GPS information receiver for receiving its own position information from the GPS satellites; And And a digital signal processing unit for determining a moving state of the digital image processing apparatus using the position information received by the GPS information receiving unit and controlling operation of the shake correction apparatus according to the determination result, Wherein the digital signal processor comprises: And the operation of the shake correction apparatus is turned on if the digital image processing apparatus is in motion. delete The method according to claim 1, Wherein the digital signal processor comprises: If a signal to turn on the shake correction function is input from the user if the digital image processing apparatus is in a stop state and if a signal to turn on the shake correction function is input from the user, And the operation of the apparatus is turned on. The method according to claim 1, And a storage unit for storing GIS (Geographic Information System) information. A control method of a digital image processing apparatus equipped with a shake correction apparatus, In the digital image processing apparatus, receiving the position information of the GPS satellite from the GPS satellite; Determining a moving state of the digital image processing apparatus using the received position information; And And controlling operation of the shake correction apparatus according to the determination result, And turning on the operation of the shake correction apparatus when the digital image processing apparatus is moving as a result of determining the moving state of the digital image processing apparatus. delete 6. The method of claim 5, If it is determined that a signal to turn on the shake correction function is inputted from the user when the digital image processing apparatus is in a stopped state as a result of determining the moving state of the digital image processing apparatus, and turning on the operation of the shake correction apparatus when a signal to turn on the shake correction apparatus is inputted.

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