KR20170076026A - Method and ultrasound system for providing windows - Google Patents

Abstract

An ultrasound system and method for providing a window is disclosed. The ultrasound system includes a processor, a display unit, and a user input unit. The processor forms an ultrasound image of the target object based on the ultrasound echo signal from the target object, and forms additional information of the target object based on the ultrasound image. The display unit displays the ultrasound image on the first window and the additional information on the second window. The user input unit receives first user input information for measuring a region of interest of the ultrasound image. The processor activates the first window and deactivates the second window so that the processor can measure the entire area of the ultrasound image including the overlapping area of the first window and the second window based on the first user input information. The processor measures the region of interest of the ultrasound image of the activated first window and forms a measurement corresponding to the region of interest. The processor activates the deactivated second window. The display unit displays the additional information including the measurement value on the activated second window.

Description

[0001] METHOD AND ULTRASOUND SYSTEM FOR PROVIDING WINDOWS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultrasound system, and more particularly to a method and an ultrasound system for providing a first window for displaying an ultrasound image of a target object together with a second window for displaying additional information.

BACKGROUND OF THE INVENTION Ultrasonic systems are widely used in the medical field to obtain information about objects of interest within an object. The ultrasound system can provide a high-resolution image of a target object in real time using a high-frequency sound wave without the need for a surgical operation to directly cut the target object. Ultrasonic systems have non-invasive and non-destructive properties and are widely used in the medical field.

The ultrasound system transmits an ultrasound signal to a target object, receives an ultrasound signal reflected from the target object (i.e., an ultrasound echo signal), and forms an ultrasound image of the target based on the received ultrasound echo signal. In addition, the ultrasound system measures a region of interest set in the ultrasound image to form a measurement value corresponding to a region of interest, and forms additional information including a measurement value. The ultrasound system provides a first window for displaying ultrasound images and a second window for displaying additional information.

When a new region of interest is set in the ultrasound image in a state where the ultrasound image is displayed on the first window and the side information is displayed on the second window, a new interest in the overlapping region of the first window and the second window due to the activated second window Area can not be set. Therefore, in order to set a new region of interest in the overlapping region of the first window and the second window, a new region of interest must be set in the ultrasound image after removing the second window.

The present disclosure provides a first window and a second window for measuring an object in the entire region of an ultrasound image including a first window for displaying an ultrasound image of a target object and a second window for displaying additional information And an ultrasound system.

In one embodiment, a method of providing a first window for displaying an ultrasound image of a target object and a second window for displaying additional information includes receiving first user input information for measuring a region of interest of the ultrasound image, Activating the first window and deactivating the second window so that the first window and the second window can be measured over the entire area of the ultrasound image including the overlapping area of the first window and the second window, Measuring a region of interest of the ultrasound image of the first window to form a measured value corresponding to the region of interest; activating the deactivated second window; And displaying the second window in the activated window.

In another embodiment, the ultrasound system includes an ultrasound processor, a display portion, and a user input portion. The processor forms an ultrasound image of the target object based on an ultrasound echo signal from the target object, and forms additional information of the target object based on the ultrasound image. The display unit displays the ultrasound image on a first window and the additional information on a second window. The user input unit receives first user input information for measuring a region of interest of the ultrasound image. Wherein the processor activates the first window so as to measure the entire area of the ultrasound image including the overlapping area of the first window and the second window based on the first user input information, Disable the second window. The processor measures a region of interest of the ultrasound image of the activated first window and forms a measurement corresponding to the region of interest. The processor activates the deactivated second window. The display unit displays the additional information including the measurement value on the activated second window.

According to the present disclosure, a region of interest for measurement can be set in the overlapping region of the first window displaying the ultrasound image of the object and the second window displaying the additional information including the measurement value. Therefore, the display area of the display unit can be efficiently used.

1 is a block diagram schematically showing a configuration of an ultrasound system according to an embodiment of the present disclosure;
2 is a block diagram schematically illustrating a configuration of a processor according to an embodiment of the present disclosure;
3 is a view showing an example of an ultrasound image, additional information, a first window, and a second window according to the embodiment of the present disclosure;
4 is a flow diagram illustrating a procedure for providing a window in accordance with an embodiment of the present disclosure;
5 illustrates an example of setting an area of interest to an ultrasound image by deactivating a second window according to an embodiment of the present disclosure;
6 is a flow diagram illustrating a procedure for controlling display of a second window in accordance with the first embodiment of the present disclosure;
7 shows an example of a display threshold area according to the first embodiment of the present disclosure;
8 is a flow diagram illustrating a procedure for controlling display of a second window in accordance with a second embodiment of the present disclosure;
9 illustrates an example of moving a second window to a display critical area in accordance with a second embodiment of the present disclosure;
10 is a flow diagram illustrating a procedure for controlling display of a second window in accordance with a third embodiment of the present disclosure;
11 is a view showing an example of changing the display direction of the second window from the vertical direction to the horizontal direction according to the third embodiment of the present disclosure;
12 is a flow diagram illustrating a procedure for controlling display of a second window in accordance with a fourth embodiment of the present disclosure;

Hereinafter, embodiments of the present disclosure will be described with reference to the accompanying drawings. The term "part " used in this embodiment means software or hardware components such as software, field-programmable gate array (FPGA), application specific integrated circuit (ASIC) However, "part" is not limited to hardware and software. "Part" may be configured to reside on an addressable storage medium, and may be configured to play back one or more processors. Thus, by way of example, and not limitation, "part, " as used herein, is intended to be broadly interpreted as referring to components such as software components, object-oriented software components, class components and task components, Firmware, microcode, circuitry, data, databases, data structures, tables, arrays, and variables. The functions provided within the component and the "part " can be combined into a smaller number of components and" part " or further separated into additional components and "part ".

1 is a block diagram schematically showing a configuration of an ultrasound system 100 according to an embodiment of the present disclosure. The ultrasound system 100 includes a control panel 110, an ultrasound probe 120, a processor 130, a storage unit 140, and a display unit 150. In one embodiment, the processor 130 controls the control panel 110, the ultrasonic probe 120, the storage unit 140, and the display unit 150.

The control panel 110 receives the input information from the user and transmits the received input information to the processor 130. The control panel 110 may include an input device (not shown) as a user input to enable the user to interface with the ultrasound system 100 and to allow the user to operate the ultrasound system 100. [ The input device may include an input unit, for example a trackball, a keyboard, a button, etc., suitable for performing operations such as selection of a diagnostic mode, control of a diagnostic operation, input of appropriate commands necessary for diagnosis, signal operation, output control and the like.

The ultrasonic probe 120 includes an ultrasonic transducer (not shown) configured to mutually convert an electric signal and an ultrasonic signal. The ultrasonic probe 120 transmits an ultrasonic signal to a target object (not shown). The object includes an object of interest (e.g., liver, heart, etc.). The ultrasonic probe 120 receives an ultrasonic signal (that is, an ultrasonic echo signal) reflected from the object and converts the received ultrasonic echo signal into an electrical signal (hereinafter referred to as a "reception signal").

In response to the input information received through the control panel 110, the processor 130 may control the ultrasonic probe 120 to transmit the ultrasonic signal to the object and receive the ultrasonic echo signal reflected from the object. In addition, the processor 130 forms ultrasonic data based on a received signal provided from the ultrasonic probe 120. [ In addition, the processor 130 forms an ultrasound image (e.g., a brightness mode image or the like) of the object based on the ultrasound data.

The storage unit 140 sequentially stores the reception signals formed by the ultrasonic probe 120 on a frame-by-frame basis. In addition, the storage unit 140 sequentially stores the ultrasound data formed by the processor 130. In addition, the storage unit 140 stores one or more ultrasound images formed by the processor 130. In addition, the storage unit 140 may store instructions for operating the ultrasound system 100.

The display unit 150 displays one or more ultrasound images formed by the processor 130. In addition, the display unit 150 may display appropriate information regarding the ultrasound image or the ultrasound system 100. In one embodiment, the display unit 150 may include a liquid crystal display, a thin film transistor liquid crystal display, an organic light emitting diode, a flexible display, and the like. In another embodiment, the display portion 150 may include a touch screen (not shown), and the display portion 150 may be used as an input device (i.e., a user input) as well as an output device.

2 is a block diagram schematically illustrating the configuration of a processor 130 according to an embodiment of the present disclosure. The processor 130 includes a transmitter 210. The transmitting unit 210 forms an electrical signal (hereinafter referred to as "transmitting signal") for obtaining an ultrasound image of a target object. The transmission signal is provided to the ultrasonic probe 120. The ultrasonic probe 120 converts a transmission signal into an ultrasonic signal, and transmits the ultrasonic signal to the object. Further, the ultrasonic probe 120 receives the ultrasonic echo signal reflected from the object and forms a reception signal.

The processor 130 further includes a transmission / reception switch 220 and a reception unit 230. The transmission / reception switch 220 serves as a duplexer for switching the transmission unit 210 and the reception unit 230. For example, when the ultrasonic probe 120 alternately performs transmission and reception, the transmission / reception switch 220 appropriately transmits the transmission unit 210 or the reception unit 230 to the ultrasonic probe 120 (i.e., the ultrasonic transducer) Switching or electrical connection.

The receiving unit 230 amplifies the reception signal provided from the ultrasonic probe 120 through the transmission / reception switch 230, and converts the amplified reception signal into a digital signal. The receiver 230 includes a time gain compensation (TGC) unit (not shown) for compensating for the attenuation that occurs when the ultrasonic signal passes through the object, an analog-to-digital conversion (analog to digital conversion) unit (not shown), and the like.

The processor 130 further includes a signal forming unit 240. The signal forming unit 240 performs a beamforming process on the digital signal provided from the receiving unit 230 to form a receive focusing signal. The receive focus signal may be an RF (radio frequency) signal, but is not limited thereto.

The processor 130 further includes an image forming unit 250. The image forming unit 250 forms an ultrasound image of a target object based on a receive focusing signal provided from the signal forming unit 240. The ultrasound image includes a plurality of pixels, and each pixel has a pixel value (e.g., a brightness value). The ultrasound image includes a brightness mode image, but is not limited thereto.

The processor 130 further includes an additional information forming unit 260. [ The additional information forming unit 260 sets the region of interest in the ultrasound image based on the user input information received through the user input unit (e.g., the control panel 110 or the display unit 150). In addition, the additional information forming unit 260 measures a region of interest to form a measurement value corresponding to a region of interest, and forms additional information including a measurement value.

The processor 130 further includes a window control unit 270. 3, the window control unit 270 displays the ultrasound image 310 formed by the image forming unit 250 on the first window 320, So that information is displayed on the second window 330. In Fig. 3, reference numerals 341 and 342 denote regions of interest for measuring the object of interest in the object. The window control unit 270 controls the first window 320 and the second window 330 based on the user input information received through the user input unit (for example, the control panel 110 or the display unit 150) ). ≪ / RTI >

4 is a flow diagram illustrating a procedure for providing a window in accordance with an embodiment of the present disclosure. The processor 130 forms an ultrasound image of the target object based on the ultrasound echo signal provided from the ultrasound probe 110 (S402). The processor 130 controls the ultrasound image to be displayed on the first window (S404). Accordingly, the display unit 150 displays the ultrasound image 310 on the first window 320 as shown in FIG.

When the first user input information for measuring the region of interest of the object is received through the user input unit (for example, the control panel 110 or the display unit 150) (S406), the processor 130 displays the first user input An area of interest is set in the ultrasound image displayed in the first window based on the information (S408). The processor 130 measures a region of interest, forms a measurement corresponding to the region of interest (S410), and forms additional information including the measurement (S412). The processor 130 controls the additional information to be displayed in the second window (S414). Accordingly, the display unit 150 displays the additional information in the second window 330 as shown in FIG.

The processor 130 determines whether new first user input information is received through the user input unit (for example, the control panel 110 or the display unit 150) (S416). If it is determined in step S416 that the new first user input information has been received, the processor 130 determines, based on the new first user input information, whether or not the new first user input information is included in the entire area of the ultrasound image including the overlap area of the first window and the second window , The first window is activated and the second window is deactivated (S418). That is, the inactivated second window can be displayed on the first window activated as part of the background screen.

The processor 130 sets a new interest area 510 to be measured in the ultrasound image 310 based on the new first user input information as shown in FIG. 5, when the second window 330 is inactivated and the first window 320 is activated, the ultrasound image including the overlapping region of the first window 320 and the second window 330, A new region of interest 510 may be set in the region 310 of FIG.

The processor 130 measures the new area of interest 510 to form a measurement corresponding to the new area of interest 510 at step S422 and forms new additional information including the measured value at step S424. The processor 130 activates the deactivated second window (S426). The processor 130 controls the new additional information to be displayed in the activated second window (S428). Accordingly, the display unit 150 displays new additional information in the activated second window.

Alternatively, the processor 130 may control so that the new additional information and the reference information corresponding to the new additional information are displayed in the activated second window. As an example, the reference information may be additional information that includes previously measured measurements for the same object of interest. As another example, the reference information may be information including measured values measured for other objects of interest (e.g., twins). As another example, the reference information may be information including a standard measure of the object of interest.

6 is a flowchart illustrating a procedure for controlling display of a window according to the first embodiment of the present invention. The processor 130 determines a pixel having a pixel value of a predetermined threshold value or more among pixels of the ultrasound image displayed in the first window (S602).

The processor 130 sets a plurality of regions having a predetermined width (hereinafter referred to as "display threshold region") in the first window (S604). For example, the processor 130 sets a first display threshold region 710 having a first width relative to the top of the first window 320, as shown in FIG. 7, and the first window 320 The second display threshold region 720 having the second width is set. In one embodiment, the first width may be equal to the second width. 7, the processor 130 sets a third display threshold area 730 having a third width with respect to the left end of the first window 320, And a fourth display threshold area 740 having a fourth width with respect to the right edge is set. In one embodiment, the third width may be equal to the fourth width.

Although the processor 130 has been described as setting the display threshold area based on the first window, it is not limited thereto. For example, the processor 130 may set a plurality of display threshold regions based on the entire screen of the display unit 150. [

Referring again to FIG. 6, the processor 130 determines a display threshold area including at least a pixel having a pixel value of a predetermined threshold value or more among a plurality of display threshold areas (S606) 2 window (S608). For example, the processor 130 may include a first display threshold region 710 (see FIG. 7) that minimally includes a pixel having a pixel value of a predetermined threshold value or more among the first to fourth display threshold regions 710 to 740 in FIG. 7 Is determined as the display position of the second window 330.

The processor 130 controls the second window 330 to be displayed at the determined display position, i.e., the determined display threshold area (S610). Accordingly, the display unit 150 displays the second window at the determined display position.

8 is a flowchart illustrating a procedure for controlling the display of the second window according to the second embodiment of the present invention. The processor 130 determines whether or not the second user input information for moving the activated second window is received through the user input unit (for example, the control panel 110 or the display unit 150) (S802) .

If it is determined in step S802 that the second user input information is received, the processor 130 moves the activated second window to a position corresponding to the second user input information (S804).

The processor 130 determines whether the moved position of the activated second window is out of a predetermined range (S806). For example, the processor 130 determines whether the moved position of the activated second window is out of the top, bottom, left end, or right end of the first window.

If it is determined in step S806 that the movement position of the activated second window is out of the predetermined range, the processor 130 determines the display threshold area corresponding to the moved position of the activated second window among the plurality of display threshold areas (S808), and moves the activated second window to the determined display position (S810). For example, as shown in FIG. 9, when the moved position of the activated second window 330 is out of the right edge of the first window 320, the processor 130 determines that the first to fourth display threshold regions The fourth display threshold region 740 corresponding to the moved position of the activated second window 330 is selected as the display position of the activated second window 330 among the first display windows 710 to 740, Moves the window 330 to the determined fourth display threshold area 740, i.e., in the direction of the arrow in the second window 330.

Although the processor 130 has been described as moving the activated second window based on the first window to the display threshold area, it is not necessarily limited thereto. For example, the processor 130 may set a plurality of display critical regions based on the entire screen of the display unit 150, and may move the activated second window to one of the plurality of display critical regions.

10 is a flow chart illustrating a procedure for controlling display of a second window in accordance with a third embodiment of the present disclosure; The processor 130 determines whether or not the second user input information for moving the activated second window is received through the user input unit (for example, the control panel 110 or the display unit 150) (S1002) .

If it is determined in step S1002 that the second user input information is received, the processor 130 moves the activated second window to a position corresponding to the second user input information (S1004).

The processor 130 determines whether the moved position of the activated second window is within the first display threshold area or the second display threshold area of the plurality of display threshold areas (S1006). If it is determined in step S1006 that the moved position of the activated second window is within the first display threshold area or the second display threshold area, the processor 130 determines whether the activated second window is in the third display threshold area or the fourth display threshold area It is determined whether or not the image is displayed in a horizontal direction with respect to the area (S1008).

If it is determined in step S1008 that the activated second window is displayed in a horizontal direction with respect to the third display critical area or the fourth display critical area, the processor 130 determines whether the activated second window is displayed in the first display threshold area The activated second window is rotated 90 degrees so as to be displayed in a horizontal direction with the second display threshold display area (S1010). For example, the processor 130 may determine whether the activated second window 330, which is displayed in a horizontal direction (e.g., longitudinal direction) with the third display threshold region 730, And is rotated 90 degrees in the counterclockwise direction so as to be displayed in a horizontal direction (for example, the horizontal direction) with the display critical region 710. At this time, the processor 130 enlarges the area of the second window 330 so as to increase the amount of additional information.

The processor 130 changes the display attribute of the additional information displayed in the activated second window 330 (S1012). For example, when the display direction of the activated second window 330 is changed from the vertical direction to the horizontal direction, the processor 130 adds the additional information to the second window 330 whose area is enlarged, The display attribute of the additional information is changed so that it can be displayed in more detail.

If it is determined in step S1006 that the moved position of the activated second window 330 is not the first display threshold area 710 or the second display threshold area 720, It is determined whether the moved position of the window 330 is within the third display threshold area 730 or the fourth display threshold area 740 (S1014).

If it is determined in step S1014 that the moved position of the activated second window 330 is within the third display threshold area 730 or the fourth display threshold area 740, the processor 130 determines whether the activated second window 330 Is displayed in a horizontal direction with respect to the first display threshold area 710 or the second display threshold area 720 (S1016).

If it is determined in step S1016 that the activated second window 330 is displayed in a horizontal direction with respect to the first display threshold area 710 or the second display threshold area 720, The window 330 is rotated 90 degrees so as to be displayed in a direction parallel to the third display critical region 730 or the fourth display critical display region 740 (S1018). At this time, the area of the second window 330 is reduced so as to reduce the amount of additional information.

The processor 130 changes the display attribute of the additional information displayed in the activated second window 330 (S1020). For example, when the display direction of the activated second window 330 is changed from the horizontal direction to the vertical direction, the processor 130 adds the additional information to the second window 330 whose area is reduced, The display attribute of the additional information is changed so that the display can be simplified.

12 is a flowchart illustrating a procedure for controlling display of a second window according to the fourth embodiment of the present disclosure; At least one specific additional information in the second window 330 or third user input information for selecting at least one region of interest is transmitted through a user input unit (for example, the control panel 110 or the display unit 150) If received (S1202), the processor 130 determines whether the received third user input information is user input information for selecting at least one specific information in the second window 330 or user input information for selecting at least one region of interest (S1204).

If it is determined in step S1204 that the third user input information is the user input information for selecting at least one region of interest among the plurality of ROIs set in the ultrasound image, The specific additional information in the second window 330 corresponding to the second window 330 is determined (S1206). If it is determined in step S1204 that the third user input information is the user input information for selecting the specific additional information in the second window 330, The region of interest is determined (S1208).

The processor 130 changes at least one specific additional information in the second window 330 and / or the display attribute of the at least one region of interest (S1210). For example, the display attributes include, but are not necessarily limited to, blinking, color, emphasis, and the like. Referring to FIG. 5, for example, when the additional information of "FL = 11.5 mm" in the second window 330 is selected (S1204), a region of interest indicated by "342" is determined (S1206) 11.5mm "and the area of interest indicated by" 342 " are blinked.

While specific embodiments have been described, these embodiments are provided by way of illustration and should not be construed as limiting the scope of the present disclosure. The novel methods and apparatus of the present disclosure can be implemented in various other forms, and it is possible to variously omit, substitute, and alter the embodiments disclosed herein without departing from the spirit of the present disclosure. It is intended that the appended claims and their equivalents be interpreted as embracing all such forms and modifications as fall within the scope and spirit of this disclosure.

100: Ultrasonic system 110: Control panel
120: Ultrasonic probe 130: Processor
140: storage unit 150: display unit
210: transmitting unit 220: transmitting / receiving switch
230: Receiving unit 240: Signal forming unit
250:
260: additional information forming section
270: window control unit 310: ultrasound image
320: first window 330: second window
341, 342, 510: region of interest 710: first display threshold region
720: second display critical area 730: third display critical area
740: fourth display critical area

Claims (20)

A method of providing a first window for displaying an ultrasound image of a target object and a second window for displaying additional information,
Receiving first user input information for measuring a region of interest of the ultrasound image;
Activating the first window and deactivating the second window so that the first window and the second window can be measured over the entire area of the ultrasound image including the overlapping area of the first window and the second window;
Measuring a region of interest of the activated ultrasound image of the first window to form a measured value corresponding to the region of interest;
Activating the deactivated second window;
Displaying the additional information including the measured value on the activated second window
≪ / RTI > The method according to claim 1,
Determining a pixel having a pixel value of a predetermined threshold value or more among pixels of the ultrasound image;
Determining a second window display position for displaying the second window on the first window based on the determined pixel
≪ / RTI > 3. The method of claim 2, wherein determining the second window display position comprises:
A first region having a first width with respect to an upper end of the first window, a second region having a second width with respect to a lower end of the first window, a second region having a third width with respect to a left end of the first window, Setting a fourth region having a fourth width with respect to a third region and a right end of the first window;
Determining an area including at least a pixel having a pixel value of the predetermined threshold value or more among the first to fourth areas;
Determining the determined window as the second window display position
≪ / RTI > 4. The method of claim 3, wherein the first width is equal to the second width. 4. The method of claim 3, wherein the third width is equal to the fourth width. The method of claim 3,
Receiving second user input information for moving the activated second window;
Moving the activated second window to a position corresponding to the second user input information,
Determining whether the moved position of the activated second window is out of the top, bottom, left end, or right end of the first window;
If it is determined that the moved position of the activated second window is out of one of the upper end, the lower end, the left end, or the right end of the first window, the activated second window is moved to any one of the first to fourth regions Step to move to area
≪ / RTI > The method according to claim 6,
Determining whether the movement position of the activated second window is within the first or second region,
Determining whether the activated second window is displayed in a horizontal direction with respect to the third region or the fourth region if it is determined that the activated second window is located in the first or second region, Wow,
When the activated second window is determined to be displayed in a horizontal direction with respect to the third region or the fourth region, the activated second window is rotated in the horizontal direction with respect to the first region or the second region , ≪ / RTI &
Changing the display attribute of the additional information displayed in the activated second window
≪ / RTI > The method according to claim 6,
Determining whether the movement position of the activated second window is within the third or fourth region,
Determining whether the activated second window is displayed in a horizontal direction with respect to the first area or the second area if it is determined that the moved position of the activated second window is within the third or fourth area; , ≪ / RTI &
When the activated second window is determined to be displayed in a horizontal direction with respect to the first region or the second region, the activated second window is rotated in a direction parallel to the third region or the fourth region , ≪ / RTI &
Changing the display attribute of the additional information displayed in the activated second window
≪ / RTI > 9. The method according to any one of claims 1 to 8,
Receiving at least one additional information in the activated second window or third user input information for selecting at least one region of interest;
Changing the display attribute of at least one of the at least one specific sub information or the at least one region of interest in the activated second window based on the third user input information
≪ / RTI > 9. The method according to any one of claims 1 to 8,
Displaying the reference information corresponding to the additional information on the activated second window
≪ / RTI > As an ultrasound system,
An ultrasonic probe configured to transmit an ultrasonic signal to an object including an object of interest and receive an ultrasonic echo signal from the object;
A processor configured to form an ultrasound image of the object based on the ultrasound echo signal and form additional information of the object based on the ultrasound image;
A display unit configured to display the ultrasound image on a first window and display the additional information on a second window;
A user input unit configured to receive first user input information for measuring a region of interest of the ultrasound image;
Lt; / RTI >
Wherein the processor activates the first window and deactivates the second window so as to measure the entire area of the ultrasound image including the overlapping area of the first window and the second window, Measuring a region of interest of the ultrasound image of the first window to form a measured value corresponding to the region of interest and activating the deactivated second window,
Wherein the display unit is configured to display the additional information including the measurement value on the activated second window. 12. The system of claim 11, wherein the processor
Determining a pixel having a pixel value of a predetermined threshold value or more among the pixels of the ultrasound image,
And determine a second window display position for displaying the second window on the first window, based on the determined pixel. 13. The system of claim 12,
A first region having a first width with respect to an upper end of the first window, a second region having a second width with respect to a lower end of the first window, a second region having a third width with respect to a left end of the first window, A fourth region having a fourth width with respect to a third region and a right end of the first window,
Determining an area including at least a pixel having a pixel value of the predetermined threshold value or more among the first to fourth areas,
And determine the determined area as the second window display position. 14. The ultrasound system of claim 13, wherein the first width is equal to the second width. 14. The ultrasound system of claim 13, wherein the third width is equal to the fourth width. 14. The apparatus of claim 13, wherein the user input is further configured to receive second user input information for moving the activated second window,
The processor comprising:
Moves the activated second window to a position corresponding to the second user input information,
Determining whether the moved position of the activated second window is out of the top, bottom, left end, or right end of the first window,
If it is determined that the moved position of the activated second window is out of one of the upper end, the lower end, the left end, or the right end of the first window, the activated second window is moved to any one of the first to fourth regions Region of the ultrasound system. 17. The system of claim 16,
Determining whether the moved position of the activated second window is within the first or second area,
If it is determined that the movement position of the activated second window is within the first or second area, it is determined whether or not the activated second window is displayed in a direction parallel to the third area or the fourth area ,
When the activated second window is determined to be displayed in a direction parallel to the third region or the fourth region of the first window, the activated second window is divided into the first region or the second region, Rotating in a horizontal direction,
And changes the display attribute of the additional information displayed in the second window activated. 17. The system of claim 16,
Determining whether the moved position of the activated second window is within the third or fourth region,
If it is determined that the moved position of the activated second window is within the third or fourth area, it is determined whether the activated second window is displayed in a horizontal direction with respect to the upper or lower end of the first window ,
If the activated second window is determined to be displayed in a horizontal direction with respect to the upper or lower end of the first window, the activated second window is rotated in a direction parallel to the left or right end of the first window,
And changes the display attribute of the additional information displayed in the second window activated. 19. A system according to any one of claims 11-18, wherein the user input further comprises means for receiving at least one additional information in the activated second window or third user input information for selecting at least one region of interest Respectively,
Wherein the processor is further configured to change a display attribute of at least one of the at least one additional information or the at least one region of interest in the activated second window based on the third user input information. 19. The ultrasound system of any one of claims 11-18, wherein the processor is further configured to display reference information corresponding to the side information in the active second window.

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