KR100863745B1 - Apparatus and method for processing an ultrasound image in an ultrasound image diagnostic system - Google Patents

Abstract

In the ultrasound imaging system, an image processing method of an ultrasound image may include: a) forming ultrasound image data based on an ultrasound echo signal received at a probe from an object; b) displaying the ultrasound image data as an ultrasound image; c) setting at least one region of interest in the ultrasound image; d) performing image processing on the ultrasound image in the one or more ROIs; And e) displaying the processed ultrasound image.

Ultrasound Image Processing, ROI, Gain, Pseudo, Gamma Curve

Description

Apparatus and method for processing an ultrasound image in an ultrasound image diagnostic system

1A, 1B and 1C show post gain control on all ultrasound image data according to the prior art;

Figure 2 is a block diagram showing the configuration of an ultrasound imaging system according to an embodiment of the present invention.

3 shows ultrasound image data on an X-Y coordinate system.

4 is a block diagram illustrating an image processor.

5 is a flowchart illustrating a method of signal processing an ultrasound image using ROI in an ultrasound imaging system according to an embodiment of the present invention.

6A shows an ROI displayed in an ultrasound image.

6B, 6C, and 6D are diagrams illustrating ultrasound images processed by an image on a ROI set in an ultrasound image, according to an exemplary embodiment.

The present invention relates to an ultrasound imaging system, and more particularly, to an ultrasound image processing apparatus and method for processing an ultrasound image using a region of interest (ROI) in an ultrasound imaging system.

The ultrasound diagnosis apparatus transmits ultrasound to the object, and then detects an ultrasound signal reflected from the object and provides an object to be diagnosed as an ultrasound image. The ultrasound diagnosis apparatus obtains an ultrasound signal reflected from an object through a probe, converts the ultrasound signal into an electrical reception signal, and displays the ultrasound image obtained by proper signal processing on the display device.

In order to display the received signal obtained by converting the ultrasound signal reflected from the object into an electrical signal as an ultrasound image, image signal processing is performed to obtain ultrasound image data. With respect to the ultrasound image data obtained through the image signal processing, the user may adjust the gamma curve, filtering, and gain to remove noise in the ultrasound image and compensate for brightness.

1A, 1B and 1C are diagrams illustrating post gain control on all ultrasound image data according to the prior art. 1A, 1B and 1C show ultrasound images when the gains are controlled as '0', '3' and '5', respectively. As shown in Figures 1a, 1b and 1c, the brightness of the ultrasound image can be adjusted by controlling the gain.

However, conventionally, since image processing is applied to the entire ultrasonic image data in order to adjust the contrast, contrast, and the like of the ultrasonic image, the image processing time becomes inevitably long. Accordingly, there is a problem that the frame rate of the ultrasound image displayed on the display device of the ultrasound imaging system is lowered.

In order to solve the above problem, the present invention can improve the frame rate of the ultrasound image by reducing the image processing time of the ultrasound image data by performing the image processing only on the ultrasound image data of the portion set as the region of interest in the ultrasound image data. .

According to the present invention, a method of processing an ultrasound image in an ultrasound imaging system includes: a) forming ultrasound image data based on an ultrasound echo signal received at a probe from an object; b) displaying the ultrasound image data as an ultrasound image; c) setting at least one region of interest in the ultrasound image; d) performing image processing on the ultrasound image in the one or more ROIs; And e) displaying the processed ultrasound image.

According to the present invention, in the ultrasound imaging system, an image processing apparatus of an ultrasound image includes a probe for receiving an ultrasound echo signal reflected from an object to be an electrical reception signal; A beam forming unit suitable for time delaying the received signals and outputting a received focused beam summating the time delayed received signals; An image signal processor for forming ultrasound image data by image signal processing based on the reception focus beam output from the beam former; A scan converter for converting coordinates to display ultrasound image data output from the image signal processor as an ultrasound image; An image processor configured to set at least one region of interest (ROI) on the ultrasound image and perform arbitrary image processing selected by the user on the ultrasound image within the set ROI; And a display unit for displaying the image-processed ultrasound image.

Figure 2 is a block diagram showing the configuration of an ultrasound imaging system according to an embodiment of the present invention.

As shown, the ultrasound diagnostic system 200 according to the present invention includes a probe 210, a beam forming unit 220, an image signal processor 230, a scan converter 240, an image processor 250, and a memory ( 260 and a display unit 270. The image signal processor 230 and the image processor 250 may be implemented as one processor.

The probe 210 includes a 1D (Dimension) or 2D transducer 212. The probe 210 transmits a focused ultrasound beam to an object (not shown) along a transmission scan line by appropriately delaying an input time of pulses input to each transducer 212. Meanwhile, the ultrasonic signals (ultrasound echo signals) reflected from the object are input to the transducers 212 having different reception times, and are converted into electrical reception signals. The received signal output from each transducer 212 is input to the beam forming unit 220.

The beam forming unit 220 appropriately time-delays the received signals input from the respective transducers 212, and adds the time-delayed received signals to receive the signal, which is a signal displaying the level of energy reflected at the focal point on the transmission scan line. Output the focused beam.

The image signal processor 230, for example, a digital signal processor (DSP), uses an envelope detection to detect the intensity of a received signal based on the received focused beam output from the beam former 220. Form the data. That is, as shown in FIG. 3, the image signal processor 230 may determine an ultrasound image based on location information of a plurality of points 330 existing on each scan line 320 and data obtained from each point 330. Form the data. Here, the ultrasound image data includes coordinates on the X-Y coordinate system 310 of each point 330, angle information of each scan line 320 with respect to the vertical scan line 221, data obtained at each point, and the like.

The scan converter 240 converts the ultrasound image data output from the image signal processor 230 into coordinates corresponding to the display area of the display unit 270.

The image processor 250 performs appropriate image processing in order to obtain a desired ultrasound image based on the ultrasound image data output from the scan converter 240, and the ultrasound image processed by the image processor 250 may be displayed on a display unit ( 270.

The image processor 250 performs image processing to remove noise from the ultrasound image and to increase contrast and contrast. According to an embodiment of the present invention, a user sets a region of interest (ROI) in an ultrasound image in order to process a desired image with respect to the ultrasound image. The image processor 250 performs arbitrary image processing selected by the user on the ultrasound image of the portion set as the ROI in the ultrasound image data. Ultrasonic image processing includes adjusting gamma curves to increase contrast of ultrasound images and improving the distinction between interfaces, and mapping specific colors to ultrasound images to enhance the distinction of ultrasound images at specific colors. Pseudo processing, gain control for compensating the brightness of the ultrasound image by adjusting the gain (gain) of the ultrasound image, and dynamic MR ^TM for removing noise and increasing the contrast of the ultrasound image.

In the memory 260, a conversion table required for image processing may be stored to reduce image processing time.

The ultrasound image processed by the image processor 250 is displayed on the display unit 270.

4 is a block diagram illustrating an image processor 250 in an ultrasound imaging system, according to an exemplary embodiment.

The image processor 250 according to the present invention includes a ROI setting unit 252 for setting an ROI on an ultrasound image and a selection image processor 524 for performing arbitrary image processing selected by a user on an ultrasound image in which the ROI is set. do. The ROI setting unit 252 may set a plurality of ROIs, and the selection image processor 524 may perform different image processing for each ROI on the ultrasound image set as the plurality of ROIs.

5 is a flowchart illustrating a method of signal processing an ultrasound image using ROI in an ultrasound imaging system according to an embodiment of the present invention.

Referring to FIG. 5, an ultrasound echo signal reflected from an object is converted into an electrical reception signal through a probe, and ultrasound image data is formed based on the reception signal (step S510). The ultrasound image data is scanned and converted and appropriate image processing is performed to display the ultrasound image through the display unit 270 (step S520).

It is determined whether the ROI is set in the ultrasound image and displayed on the display unit 270 (step S514). If the ROI is displayed, it is determined whether two or more ROIs are displayed (step S516). On the other hand, if the ROI is not set in the ultrasound image, the ultrasound image signal processing ends. If two or more regions of interest are displayed on the display unit 270, the user selects an arbitrary region of interest (step S518). If only one ROI is set, it is determined whether the ROI is adjusted to a size or position desired by the user (S520).

In addition, it is determined whether the user adjusts the size or position desired by the user to the ROI selected in step S518 (S520). According to the determination result, the size of the ROI is adjusted (step S522) or the ROI is moved (step S524).

When the size or movement of the ROI is adjusted, image processing selected by the user with respect to the ROI is performed (step S526). When image processing is completed for the region of interest, it is determined whether to process the image for another region of interest (step S528). If image processing is continued for another ROI, steps S518 to S526 are repeatedly performed.

6A is a diagram illustrating a ROI displayed on an ultrasound image.

6B, 6C, and 6D are diagrams illustrating ultrasound images processed by only an ROI set in an ultrasound image according to an exemplary embodiment of the present invention.

FIG. 6B is a view showing an ultrasound image in which a gain is controlled to '5' for an ultrasound image in a region of interest, and FIG. 6C is a pseudo image processing for performing color mapping on an ultrasound image in a ROI. FIG. 6D illustrates an ultrasound image in which two ROIs are set in an ultrasound image and different image processing is performed on the ultrasound images in each ROI.

It is to be understood that the above described embodiments are merely illustrative of some of the various embodiments employing the principles of the present invention. It will be apparent to those skilled in the art that various modifications may be made without departing from the spirit of the invention.

In the image processing method of the ultrasound image according to the present invention, instead of performing image signal processing on the entire ultrasound image data, the ROI is set in the ultrasound image, and the image processing time is reduced by performing the image processing only on the ultrasound image within the ROI. The frame rate of the ultrasound image displayed on the display device of the ultrasound imaging system may be improved.

Claims (9)

An image processing method of an ultrasound image in an ultrasound imaging system, a) forming ultrasound image data based on an ultrasound echo signal received by a probe from an object; b) displaying the ultrasound image data as an ultrasound image; c) setting at least one region of interest (ROI) on the ultrasound image; d) performing image processing on the ultrasound image in the one or more ROIs; And e) displaying the imaged ultrasound image, In step d), a gamma curve adjustment, pseudo processing, gain control, or noise removal is performed on the ultrasound image in the ROI. The method of claim 1, Step c) is c1) selecting any ROI from the ROI; c2) adjusting the size of the selected ROI; And c3) adjusting the position of the scaled ROI Image processing method of the ultrasound image comprising a. The method of claim 2, And at least one different image processing method for the ultrasound images in the ROIs. delete An image processing apparatus of an ultrasound image in an ultrasound imaging system, A probe for receiving the ultrasonic echo signal reflected from the object to be an electrical reception signal; A beam forming unit configured to time-delay the received signals and add the time-delayed received signals to output a received focused beam; An image signal processor for forming ultrasound image data by image signal processing based on the reception focus beam output from the beam former; A scan converter for converting coordinates to display ultrasound image data output from the image signal processor as an ultrasound image; An image processor configured to set at least one region of interest (ROI) on the ultrasound image and perform arbitrary image processing selected by the user on the ultrasound image within the set ROI; And A display unit for displaying the image-processed ultrasound image, And the image processor is configured to perform a gamma curve adjustment, pseudo processing, gain control, or noise removal on the ultrasound image in the ROI. The method of claim 5, wherein And a memory unit for storing a conversion table for image processing of the ultrasound image. The method of claim 6, The image processor, A ROI setting unit for setting a plurality of ROIs; And A selection image processor for selecting an ROI among the plurality of ROIs and performing image processing selected by a user on an ultrasound image within the selected ROI Image processing apparatus of the ultrasound image comprising a. The method of claim 7, wherein And at least one different image processing apparatus for the ultrasound images in the plurality of ROIs. delete

Images