JPH11164831A - Ultrasonic diagnosis equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable recording of echo data in a reprocessable signal form in ultrasonic diagnosis equipment. SOLUTION: Received digital signals output from an A/D converter 16 are divisionally taken out, processed by a predetermined way in a signal processing circuit 32, and stored in a recording medium 36 with a disk unit 34. The data contained in the recording medium 36 is processed in the signal processing circuit 32 by the disk unit 34 and sent to an image processing circuit 18. Although recording has been made in a video signal condition so far, recording of raw echo data facilitates reprocessing. The signal processing circuit 32 has a rate conversion function, a data addition and extraction function, a data protection function, and a data compression and elongation function, etc.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to an ultrasonic diagnostic apparatus, and more particularly to an external recording of echo data.

[0002]

2. Description of the Related Art In a conventional ultrasonic diagnostic apparatus, when recording echo data, a received signal is converted into a video signal, and the video signal is recorded in an analog video apparatus or the like. According to such analog recording, the S / N ratio is deteriorated, and the image quality is apt to deteriorate. On the other hand, it is conceivable to record the above-mentioned video signal as a digital video signal using a digital recording device that has been put into practical use in recent years. However, video signals generally have a large amount of information and require high transfer rates. For this reason, an expensive device is required for recording a digital video signal. In addition, analog and digital video signals are signals that have undergone processing (image processing),
There is a problem that it is not suitable for reprocessing when reproducing a video signal. For example, it is difficult to perform processing for changing the interpolation coefficient and recreating an ultrasonic image.

[0003] The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to record echo data in a signal form that can be reprocessed.

Another object of the present invention is to perform recording while reducing the amount of information as much as possible.

[0005]

In order to achieve the above object, the present invention provides a transmitting / receiving means for transmitting / receiving ultrasonic waves, and a converter for converting an analog reception signal from the transmission / reception means into a digital reception signal. Means, image processing means for processing the digital reception signal to generate ultrasonic image data, and signal recording for the digital reception signal taken out from a path between the conversion means and the image processing means. First processing means for performing the above processing, writing means for writing the processed digital reception signal to a portable medium, reading means for reading the digital reception signal from the medium, and the read digital reception signal And a second processing means for performing processing for giving the signal to the image processing means.

According to the above configuration, the echo data (raw data) before becoming the ultrasonic image data is recorded on the recording medium through a predetermined process. Processing (signal processing, image processing). Therefore, the degree of freedom of processing can be increased as compared with the recording and reproduction of a video signal.

[0007] The above-described pre-writing and post-reading processing of the digital reception signal includes conversion of data transfer rate, addition / extraction of management information, data protection processing, data compression / decompression processing, and the like, as necessary.

In a preferred aspect of the present invention, the first processing means adds management information for managing the digital received signal to the digital received signal, and based on the management information read together with the digital received signal. And control means for controlling the generation of ultrasonic image data from the digital reception signal. Preferably,
The management information includes search information for signal identification and attribute information related to measurement.

Since the raw data does not include information related to transmission / reception conditions such as a transmission / reception mode, a transmission frequency, and a frame rate, information related to a patient, and various information such as a diagnostic part, such information corresponds to raw data. It is attached and stored. Further, since a search key is necessary for searching for raw data, such information is stored in association with the raw data.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a preferred embodiment of an ultrasonic diagnostic apparatus according to the present invention, and FIG. 1 is a block diagram showing the entire configuration. The ultrasonic diagnostic apparatus shown in FIG.
This is an apparatus that transmits and receives ultrasonic waves to form, for example, a two-dimensional tomographic image or a Doppler image.

The probe 10 is an ultrasonic probe used in contact with the surface of a living body or inserted into a body cavity. The probe 10 transmits and receives ultrasonic waves. The transceiver 12 forms a transmission beam and a reception beam, and a transmission signal is supplied from the transceiver 12 to an array transducer in the probe 10. Further, a reception signal from the probe 10 is processed in the transceiver 12.

The detector 14 is a circuit for detecting a received signal output via the transceiver 12. FIG. 1 shows a circuit for forming a B-mode image and a process for forming an M-mode image, but a processing circuit for Doppler signals may be further added. The A / D converter 16 is means for converting the received signal after detection into a digital received signal. The sampling rate is controlled by the control unit 38 based on transmission / reception conditions such as a diagnosis depth and a display pixel rate. Image processing circuit (digital scan converter)
Reference numeral 18 denotes a circuit that performs image processing on the digital reception signal to form ultrasonic image data. Specifically, the image processing circuit 18 includes a correlation processing circuit 20, a scan conversion circuit 2,
2. It is composed of an interpolation processing circuit 24 and a frame memory 26. Of course, other configurations other than this may be included.

The correlation processing circuit 20 is a circuit for executing smoothing processing, inter-line correlation processing, inter-frame correlation processing, convolution integration, and the like. The scan conversion circuit 22 is a circuit that converts a scan address of an ultrasonic beam into a display scan address, and is a circuit that executes processing such as coordinate conversion. The interpolation processing circuit 24 is a circuit that performs data interpolation between ultrasonic beams, data interpolation on an ultrasonic line, and the like. The frame memory 26 stores at least one frame of image data after image processing. This image data is returned to an analog signal in the D / A converter 28, and the image data is sent to the display 30 to display an ultrasonic image on the display 30.

In the ultrasonic diagnostic apparatus of the present embodiment,
A digital reception signal is branched and extracted from a signal path between the A / D converter 16 and the image processing circuit 18, and the signal is sent to the disk device 34 via the signal processing circuit 32. Then, the digital reception signal is written to the recording medium 36 by the disk device 34. A signal read from the recording medium 36 via the disk device 34 is sent to the image processing circuit 18 via the signal processing circuit 32.

Here, the signal processing circuit 32 has a function of performing a rate conversion between a sampling rate and a writing rate to the recording medium 36, and adds management information (retrieval information and attribute information) to the digital reception signal. And the recording medium 3
6, a function for extracting management information from the signal read from the digital signal, a function for performing error correction coding and decoding for protecting the digital received signal, and a function for compressing and expanding the digital signal. And the like. Of course, other functions may be added as needed, or some of the above-described functions may be deleted.

The recording medium 36 is a portable recording medium such as a magnetic disk and an optical disk.

FIG. 2 shows a configuration of data stored in the recording medium 36. The raw data that has not undergone image processing, that is, the unprocessed echo data 100, has management information 102 added thereto by the operation of the signal processing circuit 32. Here, the management information 102 is specifically the search information 1
02A and attribute information 102B. The search information 102A is information used when searching, for example, a patient ID, a date, a serial number, and the like. Of course, such information may be used in image processing of an ultrasonic image. The attribute information 102B is information indicating transmission / reception conditions such as transmission / reception mode, frequency, transmission / reception, transmission / reception rate, transmission / reception address, and more specifically, echo data blanking time between frames in the B mode and transmission data in the M mode. Various information such as blanking time. Incidentally, the attribute information 102B may include information related to signal processing when the echo data 100 is read from the recording medium 36.

The control section 38 controls the whole of the ultrasonic diagnostic apparatus shown in FIG.
2. It controls the disk device 34 and the image processing circuit 18. The control unit 38 includes an operation panel 40 as an input device.
Are connected, and the control unit 38 performs control based on various information input from the operation panel 40. In particular, information used as management information among the input information is transferred from the control unit 38 to the signal processing circuit 32. When reading data from the recording medium 36, the extracted management information is sent to the control unit 38 via the signal processing circuit 32. Thus, the control unit 38 controls the image processing circuit 18 and the like based on the management information.

Therefore, according to the above-described embodiment, recording is not performed in the state of analog or digital video signals as in the related art, but is performed on the recording medium 36 in the state of raw data before such processing. Since writing is performed, various processes required when data is read from the recording medium 36 can be performed. Therefore, there is an advantage that the degree of freedom of processing can be greatly increased as compared with the related art. For example, at the stage of a video signal, it is very difficult to convert a B-mode image into an M-mode image. However, according to the apparatus of the present embodiment, an arbitrary image can be obtained by using raw echo data. Can be easily formed.

In an apparatus in which both a tomographic image and a Doppler image are formed, for example, a quadrature detector is used as a detector, and a complex signal after the quadrature detection and converted into a digital signal is stored in a recording medium. May be.

[0022]

As described above, according to the present invention,
Echo data can be recorded in a signal form that can be reprocessed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an overall configuration of an ultrasonic diagnostic apparatus according to the present invention.

FIG. 2 is a conceptual diagram illustrating a structure of data stored in a recording medium.

[Explanation of symbols]

10 probe, 12 transceiver, 14 detector, 16
A / D converter, 18 image processing circuit (DSC), 20 correlation processing circuit, 22 scan conversion circuit, 24 interpolation processing circuit, 26 frame memory, 32 signal processing circuit, 34
Disk device, 36 recording medium, 38 control unit, 40
control panel.

Claims (3)

[Claims] A transmitting / receiving means for transmitting / receiving ultrasonic waves; a converting means for converting an analog received signal from the transmitting / receiving means into a digital received signal; and processing the digital received signal to convert ultrasonic image data. An image processing unit to be created; a first processing unit that performs a process for signal recording on the digital reception signal extracted from a path between the conversion unit and the image processing unit; Writing means for writing a digital reception signal to a portable medium; reading means for reading the digital reception signal from the medium; and processing for giving the read digital reception signal to the image processing means. An ultrasonic diagnostic apparatus, comprising: a second processing unit for applying. 2. The apparatus according to claim 1, wherein the first processing means adds management information for managing the digital reception signal to the digital reception signal, and the management information read together with the digital reception signal. An ultrasonic diagnostic apparatus, comprising: a control unit that performs control when generating ultrasonic image data from the digital reception signal based on the digital signal. 3. The ultrasonic diagnostic apparatus according to claim 2, wherein the management information includes search information for signal identification and attribute information related to measurement.