KR20170046445A - Complex ultrasonic transducer and realtime complex fat splitting system by analyzing ultrasonic image - Google Patents

Abstract

The present invention provides a complex ultrasound transducer for a fat complex decomposition system and an ultrasound image analysis type real time fat complex decomposition system using the same. In the complex ultrasound transducer for the local complex decomposition system and the ultrasound image analysis type real time local complex decomposition system using the same according to the present invention, (HIFU: High Intensity Focused Ultrasound) and electromagnetic field excitation waves, the non-invasive complex decomposition of fat is carried out, so that detection and elimination of fat accumulation parts in the body are performed continuously, It is possible to obtain a precise ultrasound image of a high-intensity focusing ultrasonic wave incident region except for a region where monitoring for local complex decomposition processing is not required, thereby maximizing the efficiency and increasing the fat decomposition efficiency. . ≪ / RTI >
The complex ultrasound transducer for local complex decomposition system according to the present invention is positioned in a body part, and a high-intensity focused ultrasonic wave is incident on a fatigue target point in the body part. A circular hole 312 having a set diameter D1 A focusing ultrasound input tracing unit 311 formed on the stage 300; And an image array probe (111) arranged at the rear of the central portion of the focusing ultrasonic wave input use tracer (311) and having a set diameter size (D2) for performing incident and reception of ultrasonic waves for image capturing with respect to a body part So that an ultrasound image of a high intensity focused ultrasound incident region including a fatigue target point where fat decomposition is performed by a double crossing stimulus alternating with focused ultrasound incident and electromagnetic field excitation waves is obtained.

Description

Technical Field [0001] The present invention relates to a complex ultrasound transducer for a local complex decomposition system and an ultrasound image analysis type real time fat complex decomposition system using the same,

The present invention relates to a complex ultrasound transducer for a local complex decomposition system and an ultrasound image analysis type real time fat complex decomposition system using the same. More particularly, the present invention relates to a real time ultrasound image analysis of a body part, (HIFU: High Intensity Focused Ultrasound) and electromagnetic field excitation waves, the detection and elimination of fat accumulation sites in the body are performed continuously It is possible to obtain a precise ultrasound image of a high-intensity focused ultrasound incident region except for a region that does not require monitoring for local complex decomposition processing, thereby efficiently performing local complex decomposition processing And fat-complex decomposition System, and an ultrasound image analysis type real time fat compound decomposition system using the same.

Related to the diet apparatus for preventing or eliminating the obesity of the body is disclosed in Korean Patent Laid-Open Publication No. 10-2008-0021308 "Sleep Diet Bed ", and the" Sleep Diet Bed " It moves up and down to produce a diet effect even when sleeping or relaxing.

However, the conventional massage device or the body stimulation device has a structure that stimulates the body using air pressure alone or consumes the physical strength by repetitive reciprocating motion, so that the body stimulation efficiency is not so high.

On the other hand, Korean Patent Laid-Open Publication No. 10-2002-009526 entitled " Multifunction Massager capable of controlling cold "is a device for stimulating skin by cooling and heating using a cold massage surface using a thermoelectric element. It is a simple constitution in which low-temperature stimulation and high-temperature stimulation are sequentially performed by the cold / hot plate coupled with the thermoelectric element, so that the body stimulation efficiency or the body fat decomposition There was a limit to improving efficiency.

(Patent Document 1) Korean Patent Laid-Open Publication No. 10-2008-0021308 "Sleep Diet Bed"

(Patent Document 2) Korean Patent Laid-Open Publication No. 10-2002-009526 " Multifunction Massager capable of cold temperature control "

Accordingly, the present invention has been made to solve the problems of the related art, and an image array probe for performing the incidence and reception of ultrasound for image photographing is disposed at the central portion of a focused ultrasound input using a high intensity focusing ultrasonic wave, A complex ultrasound transducer for a new type fat complex decomposition system in which local complex decomposition processing is performed efficiently and precisely by obtaining precise ultrasound images for a high intensity focused ultrasound incident region except for a region where monitoring is not required for the ultrasound And an image analysis type real time local compound decomposition system.

In addition, the present invention includes an ultrasound imaging module, an image analysis module, a focused ultrasound execution module, and an electromagnetic field stimulation wave execution module to analyze real-time ultrasound images of a body part, A complex ultrasonic transducer for a new type of fat complex decomposition system in which the efficiency of fat dissolving work of the body part is maximized while the efficiency of fat decomposition is also increased by allowing the disassembly to be performed continuously and the ultrasound image analysis type real time fat complex decomposition system And to provide the above objects.

In addition, the present invention enables non-invasive complex decomposition of fat through incidence of electromagnetic field excitation waves by a focused intensity ultrasound (HIFU: High Intensity Focused Ultrasound) The present invention provides a new type of complex ultrasound transducer for a fat complex decomposition system and an ultrasound image analysis type real time fat complex decomposition system using the same.

According to an aspect of the present invention for achieving the above object, the present invention is characterized in that a high intensity focused ultrasonic wave is incident on a body fat site within a body part, and a circular hole 312 A focusing ultrasonic wave input tracer 311 formed at a central portion thereof; And an image array probe (111) arranged at the rear of the central portion of the focusing ultrasonic wave input use tracer (311) and having a set diameter size (D2) for performing incident and reception of ultrasonic waves for image capturing with respect to a body part Wherein the ultrasound image is acquired for a high-intensity focusing ultrasound incident region including a fatigue target point where fat decomposition is performed by double-crossing stimulation in which the focused ultrasound incident and the electromagnetic field stimulation wave alternate with each other, A complex ultrasonic transducer for a decomposition system is provided.

In the composite ultrasonic transducer for a local complex decomposition system according to the present invention, the curved surface portion 311a of the focusing ultrasonic wave input tracer 311 is coupled to the coupling surface 313a formed on the bottom surface, And a case 313 to which an image array probe 111 is fixed.

In the complex ultrasound transducer for the local complex decomposition system according to the present invention, the diameter D2 of the rounded hole diameter D1 of the focused ultrasonic wave input tracer 311 is less than the diameter D2 of the focused ultrasonic wave input tracer 311 The array probe 111 for an image arranged in the circular hole area C of the ultrasonic diagnostic apparatus 10 calculates an ultrasound reception signal for image capture as an effective signal and transmits the signal to the image analysis module 20.

In the complex ultrasound transducer for the local complex decomposition system according to the present invention, the diameter D2 of the focused ultrasonic wave input tracer 311 exceeds the circular hole diameter D1, and the focused ultrasonic wave input tracer The image array probe 111 extending outwardly from the circular hole region C of the circular hole region 311 calculates only the ultrasound reception signal for image capture belonging to the circular hole region C among the entire image acquisition ultrasound reception signals as an effective signal, (20).

The diameter D2 of the round ultrasonic wave input tracer 311 is larger than the circular hole diameter D1 of the focusing ultrasonic wave input transducer 311 so as to be extended outwardly of the circular hole region C of the focusing ultrasonic wave input tracer 311 The imaging array probe 111 may be activated to activate only the portion of the probe belonging to the circular hole region C to perform the incidence and reception of ultrasound for imaging.

According to another aspect of the present invention, there is provided an ultrasound imaging system comprising: an ultrasound imaging module (10) for performing an incident and reception of ultrasound for imaging a body part; An image analysis module 20 for real-time generating an ultrasound image by receiving an ultrasound signal in real time from the ultrasound imaging module 10 and real-time monitoring the fat accumulation state of the body part from the ultrasound image; A focused ultrasound performing module 30 for generating focused ultrasound and performing focused ultrasound incidence on a set point of a body part; And an electromagnetic field excitation wave execution module (40) capable of generating an electromagnetic field excitation wave and performing an electromagnetic field excitation wave incident on a set point of a body part, wherein the body part of the body part monitored in real time by the image analysis module (20) The fat decoloration is performed by the double-crossing stimulation in which the focused ultrasonic wave is generated by the focused ultrasound modulating module 30 and the electromagnetic field excitation wave by the electromagnetic field stimulating wave executing module 40 is alternately turned on at the point where the disassembling is required The focused ultrasound modulating module 30 is located at a body part and receives a high-intensity focused ultrasonic wave at a fatigue target point in the body part, and a circular hole 312 having a set diameter D1 is formed at a center The ultrasound imaging module 10 includes an ultrasound input use tracer 311, the ultrasound imaging module 10 is disposed behind the center of the focused ultrasound input use tracer 311, And an image array probe 111 having a diameter D2 and performing an incident and reception of ultrasonic waves for image capturing with respect to a body part. The image analysis module 20 is connected to the image array probe 111 And an ultrasound image generator (22) that receives ultrasound reception information for image capture and generates a body region ultrasound image from the ultrasound reception information for image capture, wherein the ultrasound image generator And an ultrasound image of a high-intensity focused ultrasound incident region including a fatigue target point to be subjected to fat decomposition is obtained is provided. The ultrasound image analysis type real-time fat compound decomposition system using the complex ultrasound transducer is provided.

According to the complex ultrasound transducer for the local complex decomposition system and the ultrasound image analysis type real time fat complex decomposition system using the same according to the present invention, accurate ultrasound Since the image is acquired, the fat complex decomposition process can be efficiently and precisely performed.

According to the ultrasound image analysis type real-time fat comb decomposition system using the complex ultrasound transducer for the fat complex decomposition system according to the present invention, real-time ultrasound image analysis of the body part, real-time selection of the fat- The efficiency of fat dissolving work of the body part is maximized and the fat decomposition efficiency is also increased. In addition, according to the ultrasound image analysis type real-time local complex decomposition system of the present invention, it is possible to provide an ultrasound image analyzing type real-time local complex decomposition system in which a focused ultrasound (HIFU: High Intensity Focused Ultrasound) The non-invasive complex decomposition of the body is performed, so that the removal efficiency of the fat accumulation region in the body and the fat decomposition efficiency are increased.

1 is an exploded perspective view of a composite ultrasound transducer for a fat complex decomposition system according to the present invention;
FIG. 2 and FIG. 3 are views showing the structure and operation of a complex ultrasonic transducer for a local complex decomposition system according to an embodiment of the present invention;
FIGS. 4 and 5 are diagrams illustrating the structure and operation of a complex ultrasound transducer for a local complex decomposition system according to another embodiment of the present invention;
6 is a block diagram of an ultrasound image analysis type real time fat comb decomposition system using a complex ultrasound transducer according to the present invention;
FIG. 7 is a block diagram of an ultrasound image analysis type real time fat comb decomposition system using a complex ultrasound transducer according to an embodiment of the present invention having a treatment head; FIG.
8 (a) and 8 (b) are diagrams illustrating a configuration example of a treatment head according to an embodiment of the present invention;
9 is a diagram illustrating an exemplary arrangement of a treatment head according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings 1 to 9. Meanwhile, in the drawings and detailed description, it is assumed that workers in this field can easily recognize an object from an ultrasonic transducer, a high intensity focused ultrasound (HIFU), an image array probe, an ultrasound image, The configurations and acts that may be performed are either simplified or omitted. In the drawings and specification, there are shown in the drawings and will not be described in detail, and only the technical features related to the present invention are shown or described only briefly. Respectively.

The complex ultrasound transducer for the local complex decomposition system according to the embodiment of the present invention includes a focusing ultrasound input tracer 311, an image array probe 111, and a case 313 as shown in FIGS. 1 and 2 .

The focused ultrasound input tracer 311 is positioned in the body part, and high-intensity focused ultrasound is incident on a fat-dissolving target point inside the body part. The focused ultrasonic wave input tracer 311 according to the present invention forms a circular hole 312 having a set diameter size D1 at the central portion.

The imaging array probe 111 is disposed behind the center of the focused ultrasonic wave input use tracer 311 and has a circular cross-sectional shape of a set diameter D2 to perform incidence and reception of ultrasound for image capture on the body part .

2 and 3, the image array probe 111 according to the embodiment of the present invention has a diameter D2 that is smaller than the circular hole diameter D1 of the focused ultrasonic wave input tracer 311, 3, the image array probe 111 calculates an ultrasound reception signal for the entire image capturing as an effective signal and outputs the ultrasound reception signal to the image analysis module 311. [ (20). The image analysis module 20 real-time generates an ultrasound image by receiving an ultrasound signal in real time from the image array probe 111, thereby real-time monitoring the fat accumulation state of the body part from the ultrasound image.

Alternatively, the image array probe 111 according to another embodiment of the present invention may have a diameter D2 exceeding the circular hole diameter D1 of the focused ultrasonic wave input tracer 311 as shown in FIGS. 4 and 5, And is extended outside the circular hole region C of the transducer ultrasonic wave input tracer 311. The array probe 111 for an image as described above is arranged such that the ultrasonic receiving signal Only the ultrasound reception signal for capturing an image belonging to the circular hole region C may be calculated as an effective signal and transmitted to the image analysis module 20 or only the portion of the probe belonging to the circular hole region C may be activated as shown in FIG. And may perform incidence and reception of ultrasonic waves for image photographing.

The casing 313 is connected to a curved surface portion 311a of the focusing ultrasonic wave input tracer 311 on the coupling surface 313a formed on the bottom surface thereof and the imaging array probe 111 is attached to the mounting hole 313b formed at the center It is fixed.

The complex ultrasound transducer for a local complex decomposition system according to an embodiment of the present invention includes a fatigue destruction point where lipid decomposition is performed by a double crossing stimulus in which a focused ultrasound wave incident and an electromagnetic field excitation wave incident alternate Thereby obtaining an ultrasound image of the high-intensity focused ultrasound incident region. Here, the complex ultrasound transducer for a local complex decomposition system according to an embodiment of the present invention includes an array array probe for imaging and receiving ultrasound for imaging at a central portion of a focused ultrasound input tracer 311 for receiving high intensity focused ultrasound, (111) are disposed to obtain a precise ultrasound image of a high intensity focused ultrasound incident region except for a region which does not require monitoring for local complex decomposition processing, so that the local complex decomposition process can be performed efficiently and precisely.

Meanwhile, the ultrasound image analysis type real time local complex decomposition system 100 using the complex ultrasound transducer according to the embodiment of the present invention includes an ultrasound imaging module 10, an image analysis module 20, Module 30 and an electromagnetic field stimulation wave execution module 40 to monitor the fat accumulation state of the body part and to decompose fat when necessary. The ultrasound image analysis type real time local complex decomposition system 100 according to an embodiment of the present invention decomposes fat in various body parts including abdominal fat decomposition causing abdominal obesity.

The ultrasound imaging module 10 is a module for performing incident and reception of ultrasound for imaging the body part. 7, the ultrasound imaging module 10 includes an ultrasonic oscillator 12 for generating ultrasound for imaging, and ultrasound for imaging from the ultrasound oscillator 12 to receive the ultrasound from the body, And an ultrasonic transducer 11 for receiving a reflected ultrasonic signal. Here, the ultrasound transducer 11 of the ultrasound imaging module 10 according to the embodiment of the present invention acquires the ultrasound image through the 128 array image ultrasound.

The ultrasonic transducer 11 of the ultrasound imaging module 10 according to the embodiment of the present invention comprises an image array probe 111 having a set diameter D2. The imaging array probe 111 is disposed behind the center of the focused ultrasonic wave input use tracer 311.

The image analysis module 20 generates an ultrasound image in real time by receiving the ultrasound signal in real time from the ultrasound imaging module 10 and real-time monitors the fat accumulation state of the body part from the ultrasound image. The image analysis module 20 according to the embodiment of the present invention includes the monitor device 21. Accordingly, the ultrasound image analysis type real time local complex decomposition system 100 according to the embodiment of the present invention includes the monitor device 21 The ultrasound image of the body part output in real time can be selected in real time.

Here, the image analysis module 20 according to the embodiment of the present invention includes an ultrasound image generator 22 connected to the image array probe 111 to receive ultrasound reception information for image capture, Thereby generating a local ultrasound image.

The focused ultrasound execution module 30 is a module capable of generating focused ultrasound (HIFU: High Intensity Focused Ultrasound) and performing focused ultrasound incidence on a set point of a body part. The focused ultrasound modulating module 30 includes a focused ultrasound oscillator 32 for generating focused ultrasound waves and a focused ultrasound irradiator 32 for receiving focused ultrasound waves from the focused ultrasound oscillator 32 to enter the body, 31).

Here, the focused ultrasound injector 31 of the focused ultrasound modulating module 30 according to the embodiment of the present invention is composed of a focused ultrasound input using tracer 311 located at a body part. According to an embodiment of the present invention, The focused ultrasonic wave input use tracer 311 is formed with a circular hole 312 having a set diameter size D1 at the center. Here, an image array probe 111 for performing the incidence and reception of the ultrasonic image for image capturing is disposed at the center of the focused ultrasonic wave input use tracer 311, and the high intensity focused ultrasonic wave incident Thereby obtaining a precise ultrasound image for the region.

The electromagnetic field stimulation wave execution module 40 is a module capable of generating an electromagnetic field stimulation wave and performing an electromagnetic field stimulation wave incident on a set point of a body part. As shown in FIG. 7, the electromagnetic field stimulation wave execution module 40 includes an output variable electromagnetic coil 41a that receives power from the power source device 42 and generates an electromagnetic field magnetic field wave whose output is variable, And an electromagnetic field stimulation wave incident device 41 may be provided. In particular, the electromagnetic field stimulating ray irradiator 41 according to the embodiment of the present invention may be a three-channel electromagnetic field coil.

The ultrasound image analysis type real time local complex decomposition system 100 according to an embodiment of the present invention includes an ultrasound image analyzing type real time local complex decomposition system 100, So that the fat decomposition is performed by the double-crossing stimulation in which the focused ultrasonic wave input by the execution module 30 and the electromagnetic field stimulation wave input by the electromagnetic field stimulus wave execution module 40 are alternated. Here, the ultrasound image analysis type real-time local complex decomposition system 100 according to the embodiment of the present invention allows the target of fat splitting to be selected in real time, and then the focused ultrasonic wave is executed by the focused ultrasound executing module 30, So that the incident electromagnetic field excitation waves by the module 40 are alternately performed in real time. The ultrasound imaging module 10 is provided before and after the process in which the dual-crosstalk stimulation, in which the focused ultrasound wave module 30 and the electromagnetic field stimulus wave execution module 40 alternate, It is also possible to perform real-time monitoring before and after the lipolysis process by the focused ultrasound wave incident and the electromagnetic field wave incident.

Meanwhile, the ultrasound image analysis type real-time complex compound decomposition system 100 according to an embodiment of the present invention includes a treatment head 50 as shown in FIGS. 7 to 9, wherein the treatment head 50 contacts the body part As a result, the ultrasonic wave for imaging the body part is received and received, and the focused ultrasonic wave is incident on the body part and the electromagnetic field excitation wave is incident on the body part. 7, the treatment head 50 includes an ultrasonic transducer 11 provided in the ultrasonic imaging module 10, a focused ultrasonic wave injector 31 provided in the focused ultrasonic wave execution module 30, And the electromagnetic field excitation wave incident device 41 provided in the wave executing module 40 are integrated. The ultrasonic transducer 11, the focused ultrasonic wave injector 31, and the electromagnetic field stimulus wave incident device 41 are integrally disposed in the treatment head 50 without interfering with each other as shown in FIG.

8 (a), the ultrasound imaging module 10, the focused ultrasound modulating module 30, and the electromagnetic field excitation wave executing module 40 may be built in the treatment head 50, only the ultrasound transducer 11, the focused ultrasound injector 31 and the electromagnetic field excitation wave incident device 41 are built in the treatment head 50 and the ultrasound imaging Additional components of each of module 10, image analysis module 20, focused ultrasound execution module 30, and electromagnetic field stimulus wave execution module 40 may be arranged.

The ultrasound image analysis type real time local complex decomposition system 100 according to the embodiment of the present invention includes the ultrasound imaging module 10, the image analysis module 20, the focused ultrasound execution module 30, Real-time ultrasound image analysis of the body part, real-time selection of the fat-decomposing object point, and fat decomposition at the fat-decomposing object point are continuously performed by providing the execution module 40, thereby maximizing the efficiency of fat- And the decomposition efficiency of fat is also increased. In addition, the ultrasound image analysis type real time local complex decomposition system 100 according to the embodiment of the present invention may be configured such that the convergent ultrasonic wave input by the focused ultrasound executing module 30 and the electromagnetic field excitation wave input by the electromagnetic field excitation wave executing module 40 The non-invasive complex decomposition of the fat is carried out, so that the elimination efficiency and fat decomposition efficiency of the fat accumulation region in the body are increased.

Although the complex ultrasound transducer for the local complex decomposition system and the ultrasound image analysis type real time fat complex decomposition system using the same according to the embodiment of the present invention as described above have been shown and described with reference to the above description and drawings, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit of the invention.

10: Ultrasonic imaging module 11: Ultrasonic transducer
111: Image array probe 12: Ultrasonic oscillator
20: image analysis module 21: monitor device
22: ultrasound image generator 30: focused ultrasound execution module
31: Focus Ultrasonic Injector 311: Focus Ultrasonic Intrusion Technician
311a: curved portion 312: circular hole
313: Case 313a: Coupling surface
313b: mounting hole 32: focused ultrasonic oscillator
40: electromagnetic field excitation wave execution module 41: electromagnetic field excitation wave incident machine
41a: output variable electromagnetic coil 42: power supply device
50: treatment head 100: real-time fat complex decomposition system

Claims (6)

A focused ultrasonic wave input tracer 311 located at a body part and having high intensity focused ultrasonic waves incident on a fatigue target point in the body part and having a circular hole 312 with a set diameter D1 at the center;
And an image array probe (111) arranged at the rear of the central portion of the focusing ultrasonic wave input use tracer (311) and having a set diameter size (D2) for performing incident and reception of ultrasonic waves for image capturing with respect to a body part Lt; / RTI >
Wherein an ultrasound image is acquired for a high intensity focused ultrasound incident region including a fatigue target point where fat decomposition is performed by a double crossing stimulus in which the focused ultrasound incident and electromagnetic field excitation waves are alternated, Complex ultrasound transducer. The method according to claim 1,
A case 313 in which the curved surface portion 311a of the focusing ultrasonic wave input tracer 311 is coupled to the coupling surface 313a formed on the bottom and the imaging array probe 111 is fixed to the mounting hole 313b formed in the center portion, ). ≪ / RTI > A composite ultrasound transducer for use in a local complex decomposition system. The method according to claim 1,
An array probe for image having a diameter D2 of not more than the circular hole diameter D1 of the focusing ultrasonic wave input tracer 311 and arranged in the circular hole area C of the focusing ultrasonic wave input tracer 311 111) calculates an ultrasound reception signal for the whole image capturing as an effective signal and delivers the signal to the image analysis module (20). The method according to claim 1,
The ultrasonic wave having a diameter D2 exceeding the circular hole diameter D1 of the focusing ultrasonic wave input use tracer 311 is used for an image which is extended outside the circular hole area C of the focusing ultrasonic wave input use tracer 311 The array probe 111 calculates only the ultrasound reception signals for image capture belonging to the circular hole region C among the entire image capture ultrasound reception signals as valid signals and transmits the signals to the image analysis module 20. [ Ultrasonic transducer. The method according to claim 1,
The ultrasonic wave having a diameter D2 exceeding the circular hole diameter D1 of the focusing ultrasonic wave input use tracer 311 is used for an image which is extended outside the circular hole area C of the focusing ultrasonic wave input use tracer 311 Wherein the array probe (111) activates only the probe region of the circular hole region (C) to perform the incidence and reception of the ultrasound for imaging. An ultrasound imaging module 10 for performing incident and reception of an ultrasound image for imaging a body part;
An image analysis module 20 for real-time generating an ultrasound image by receiving an ultrasound signal in real time from the ultrasound imaging module 10 and real-time monitoring the fat accumulation state of the body part from the ultrasound image;
A focused ultrasound performing module 30 for generating focused ultrasound and performing focused ultrasound incidence on a set point of a body part;
An electromagnetic field stimulation wave execution module (40) that generates an electromagnetic field stimulation wave and can perform an electromagnetic field stimulation wave incident on a set point of a body part,
A focused ultrasound wave by the focused ultrasound modulating module 30 and an electromagnetic field generated by the EMF excitation wave executing module 40 at a point where fat decomposition is required among the body parts monitored in real time by the image analysis module 20 The lipolysis is performed by the double crossing stimulus in which the stimulation wave incidence is alternated,
The focused ultrasound modulating module 30 is located at a body part and receives a high-intensity focused ultrasonic wave at a fatigue target point in the body part. The focused ultrasound wave modulating module 30 uses a focused ultrasonic wave input Includes a tracer 311,
The ultrasonic imaging module 10 is disposed behind the central portion of the focused ultrasonic wave input use tracer 311 and has a set diameter size D2 and has an image array for performing incident and reception of ultrasonic waves for image capturing And a probe 111,
The image analysis module 20 includes an ultrasound image generator 22 connected to the image array probe 111 to receive ultrasound reception information for imaging and to generate a body part ultrasound image from ultrasound reception information for imaging, ,
Wherein the ultrasound image is acquired for a high-intensity focused ultrasound incident region including a fatigue target point where fat decomposition is performed by double-crossing stimulation in which the focused ultrasound incident and electromagnetic field excitation waves are alternated. Ultrasound image analysis type real - time fat compound decomposition system.

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