KR100947828B1 - System and method for processing ultrasound data - Google Patents

Abstract

Disclosed are an ultrasonic data processing system and method for providing control information including position information, focusing information, and scan information of a transducer for transmitting and receiving an ultrasonic signal together with an RF signal. According to the present invention, control information including at least one of position information, focusing information, and scan information of a transducer for transmitting and receiving an ultrasound signal is generated, and an ultrasound signal is transmitted to an object based on the control information and reflected from the object. Receive an RF signal, convert the formed RF signal into digital data, form ultrasonic data including the converted digital data and control information, separate the formed ultrasonic data into control information and digital data, and control information. Process digital data on the basis of

Ultrasound, RF signal, error detection and correction code, control information, ultrasound data

Description

Ultrasonic data processing system and method {SYSTEM AND METHOD FOR PROCESSING ULTRASOUND DATA}

1 is a block diagram showing the configuration of an ultrasonic data processing system according to an embodiment of the present invention.

2 is an exemplary diagram of ultrasound data according to an embodiment of the present invention.

3 is an illustration of ultrasound data according to another embodiment of the present invention.

<Explanation of Signs of Major Parts of Drawings>

100: ultrasonic data processing system 110: ultrasonic device

111: probe 112: beam former

113: processor 114: display unit

115: system control unit 116: data forming unit

117: storage unit 120: external device

TECHNICAL FIELD The present invention relates to the field of ultrasound, and more particularly to systems and methods for processing ultrasound data.

Ultrasound systems are one of the important diagnostic systems that are used in a variety of applications. In particular, ultrasound systems are widely used in the medical field because they have non-invasive and non-destructive properties for the subject. Modern high performance ultrasound systems have been used to form two-dimensional or three-dimensional images of the internal shape of a subject (eg, internal organs of a patient).

Generally, ultrasound systems have a probe that includes a wideband transducer to transmit and receive ultrasound signals. When the transducer is electrically stimulated, an ultrasonic signal is generated and transmitted to the human body. The ultrasonic signal transmitted to the human body is reflected at the boundary of the internal tissue of the human body, and the ultrasonic echo signal transmitted to the conversion element from the boundary of the human tissue is converted into electrical data. The converted electrical signal is converted into digital data, amplified, and signal processed by an A / D converter to generate ultrasonic image data for imaging of the tissue.

Meanwhile, the ultrasound system provides an RF signal and control information thereof (eg, channel position information, scan information, starting point information, etc.) to an external device (eg, computing device). The RF signal and the control information are processed by a specific algorithm in an external device, and used to study an ultrasound image or analyze an RF signal.

Conventional ultrasound systems provide control information to an external device separately from the RF signal, so that whenever the control information is changed, the changed control information must be provided to the external device. In addition, the conventional ultrasound system has a problem in that when an error occurs when transmitting control information, not only it cannot be detected but also when the error is detected, the control information needs to be transmitted back to the external device.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and provides an ultrasonic data processing system and method for generating digital data by digitally converting an RF signal and generating and providing ultrasonic data by adding control information to the digital data.

The present invention also provides an ultrasonic data processing system and method for digitally converting an RF signal to generate digital data, and generating and providing ultrasonic data by adding control information and error detection and correction codes to the digital data.

An ultrasound data processing system according to an embodiment of the present invention includes a probe including a plurality of transducers for transmitting an ultrasound signal to an object and receiving an ultrasound signal reflected from the object to form an RF signal; A control unit for generating control information including at least one of position information, focusing information, and scan information of a transducer for transmitting and receiving an ultrasonic signal; A data forming unit converting the RF signal into digital data and forming ultrasonic data including the converted digital data and the control information; And a data processor which separates the ultrasonic data into the control information and the digital data and processes the digital data based on the control information.

In addition, the ultrasonic data processing method according to an embodiment of the present invention comprises the steps of: a) generating control information including at least one of position information, focusing information and scan information of the transducer for transmitting and receiving the ultrasonic signal; b) forming an RF signal by transmitting an ultrasound signal to an object based on the control information and receiving an ultrasound signal reflected from the object; c) converting the RF signal into digital data and forming ultrasound data including the converted digital data and the control information; And d) separating the ultrasonic data into the control information and the digital data, and processing the digital data based on the control information.

The ultrasonic data processing system according to the preferred embodiment of the present invention includes a probe, a controller, a data forming unit, and a data processing unit. The probe includes a plurality of transducers for transmitting an ultrasound signal to an object and receiving an ultrasound signal reflected from the object to form an RF signal. The controller generates control information including at least one of position information, focusing information, and scan information of a transducer for transmitting and receiving an ultrasonic signal. The data forming unit converts the RF signal into digital data and forms ultrasonic data including the converted digital data and the control information. The data processor separates the ultrasound data into the control information and the digital data, and processes the digital data based on the control information.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 3.

As shown in FIG. 1, the ultrasound data processing system 100 according to the present invention includes an ultrasound device 110 and an external device 120.

The ultrasound apparatus 110 forms an ultrasound image based on an ultrasound signal reflected from an object, and includes a probe 111, a beamformer 112, a processor 113, a display 114, a system controller 115, The data forming unit 116 and the storage unit 117 are included.

The probe 111 includes a plurality of transducers (not shown) for transmitting an ultrasound signal to an object and receiving an ultrasound signal reflected from the object and converting the ultrasound signal into an electrical signal (hereinafter, referred to as an RF signal).

The beam former 112 focuses the ultrasound signal transmitted from the probe 111 on the object under the control of the system controller 115 and receives and focuses the ultrasound signal reflected from the object.

The processor 113 forms an ultrasound image based on a signal focused by the beamformer 112 under the control of the system controller 115. The display 114 displays the ultrasound image formed by the processor 113.

The system controller 115 generates control information including position information, focusing information, scan information, etc. of a transducer (ie, a channel) that transmits and receives an ultrasonic signal, and generates a beamformer 112 based on the generated control information. The processor 113 is controlled.

The data forming unit 116 receives an RF signal of each channel from the probe 111, receives control information from the system controller 115, and converts each input RF signal into digital data through A / D conversion. Ultrasonic data is formed based on digital data of each channel and control information corresponding thereto. The data forming unit 116 further includes an A / D converter (not shown) for converting the RF signal of each channel into digital data.

According to an embodiment of the present invention, the data forming unit 116 converts the RF signal of each channel into digital data D ₁ to D _n through an A / D converter, as shown in FIG. A header H ₁ to H _n having control information B _i1 to B _i4 (where i is 1 to n) corresponding to each of the digital data D ₁ to D _n is generated. The data forming unit 116 adds each of the generated headers H ₁ to H _n to the corresponding digital data D ₁ to D _n to form ultrasonic data. In the present embodiment has been described that the control information is composed of 4 bits for convenience of description, but is not limited thereto.

According to another embodiment of the present invention, the data forming unit 116 converts the RF signal of each channel into digital data D ₁ to D _n through an A / D converter, as shown in FIG. Control information B _i1 to B _i4 corresponding to each of the data D ₁ to D _n (where i is 1 to n) and error detection and correction codes C _i1 to C _i3 (where i is 1 to 1) Generate headers H ₁ to H _{n with n} ). Here, the error detection and correction code may include a hamming code, and a detailed description thereof will be omitted. The data forming unit 116 adds each of the generated headers H ₁ to H _n to the corresponding digital data D ₁ to D _n to form ultrasonic data. In the present embodiment, the control information is composed of 4 bits and the error detection and correction code is composed of 3 bits, but the present invention is not limited thereto.

The storage unit 117 stores the ultrasound data processed by the data forming unit 116.

The external device 120 includes a data processor (not shown) for receiving ultrasound data from the ultrasound device 110 and performing data processing to form an ultrasound image or analyze ultrasound data. The external device 120 is a computing device capable of transmitting and receiving ultrasound data with the ultrasound device 120 and processing ultrasound data. Desktop computer, Laptop computer or any computer can be used as the computing device.

According to an embodiment of the present invention, the external device 120 separates the digital data and the header from the ultrasonic data, and performs data processing of the digital data based on the control information included in the header.

According to another embodiment of the present invention, the external device 120 separates the digital data and the header from the ultrasonic data, performs error detection and correction of the header based on the error detection and correction code included in the header, and then attaches the header to the header. Data processing of digital data is performed based on the included control information.

While the invention has been described and illustrated by way of preferred embodiments, those skilled in the art will recognize that various modifications and changes can be made without departing from the spirit and scope of the appended claims.

As an example, in the present embodiment, the ultrasonic device forms the ultrasonic data, and the external device receives the ultrasonic data from the ultrasonic device to perform error detection, correction, and data processing of the ultrasonic data, but the present invention is not limited thereto. In another embodiment, the ultrasonic device may perform error detection and correction and data processing of ultrasonic data input from the outside or ultrasonic data stored in a storage unit in the ultrasonic device.

In addition, the present embodiment has been described to provide the RF signal output from the probe to the external device, but is not limited thereto. In another embodiment, IQ data output from a beamformer (i.e., an RF signal is passed through a high-band filter, multiplied by a cosine function and a sine function by the scanline data, and then passed through a low-band filter, respectively, and demodulated to baseband. I data consisting of components (In-phase components) and Q data consisting of quadrature-phase components) may be provided to an external device through the above-described method.

As described above, according to the present invention, not only the RF signal output from the probe and the control information output from the system controller can be provided to the outside at the same time, but also error detection and correction of the control information can be performed, thereby providing more accurate signal processing. I can do it.

Claims (9)

A probe including a plurality of transducers transmitting an ultrasound signal to an object and receiving an ultrasound signal reflected from the object to form an RF signal; A control unit for generating control information including at least one of position information, focusing information, and scan information of a transducer for transmitting and receiving an ultrasonic signal; A data forming unit for converting the RF signal into digital data, generating a header including the control information, and adding the generated header to the digital data to form ultrasonic data; And A data processor which separates the ultrasonic data into the control information and the digital data and processes the digital data based on the control information Ultrasonic data processing system comprising a. The ultrasound data processing system of claim 1, further comprising a storage unit to store the ultrasound data. delete The ultrasonic data processing system of claim 1, wherein the data forming unit generates a header including the control information and an error detection and correction code, and adds the generated header to the digital data to form the ultrasonic data. . The ultrasonic data processing system according to claim 4, wherein said data processing unit is operable to perform error and correction of said header based on an error detection and correction code of said header. a) generating control information including at least one of position information, focusing information, and scan information of a transducer for transmitting and receiving an ultrasonic signal; b) forming an RF signal by transmitting an ultrasound signal to an object based on the control information and receiving an ultrasound signal reflected from the object; c) converting the RF signal into digital data, generating a header including the control information, and adding the generated header to the digital data to form ultrasonic data; And d) separating the ultrasonic data into the control information and the digital data, and processing the digital data based on the control information Ultrasonic data processing method comprising a. delete The method of claim 6, wherein step c) Generating a header including the control information and an error detection and correction code; And Adding the generated header to the digital data to form the ultrasonic data Ultrasonic data processing method comprising a. The method of claim 8, wherein step d) Error and correction of the header based on an error detection and correction code of the header Ultrasonic data processing method comprising a.

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