JP2897179B2 - CT device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial applications]

The present invention relates to an X-ray CT apparatus, and more particularly to a memory unit that temporarily stores data collected by a data collection apparatus.

[Prior art]

In an X-ray CT apparatus or the like, data acquired by a data acquisition apparatus is temporarily stored in a memory unit and then transferred to an image reconstruction apparatus. In this case, conventionally, it is usual that the host computer monitors how much data has been stored in the memory unit and controls the data transfer to the image reconstruction apparatus.

[Problems to be solved by the invention]

However, monitoring the data collection state of the memory unit by the host computer in this way has a problem that the load on the host computer increases. According to the present invention, it is possible to reduce the load on the host computer and to eliminate the transfer time delay for monitoring by the host computer. The purpose is to provide a CT device.

[Means for Solving the Problems]

In order to achieve the above object, a CT apparatus according to the present invention includes:
An X-ray tube for generating a fan-shaped beam for irradiating a subject, an X-ray detector for detecting a fan-shaped beam transmitted through the subject, and a scanning mechanism for scanning the X-ray tube and the X-ray detector around the subject A data acquisition device for acquiring a detection signal from the X-ray detector and converting the signal into a digital signal; a memory unit for temporarily storing fan-shaped data obtained from the data acquisition device for each scan view; An image reconstruction device in which data read from is transferred and an image reconstruction process is performed, and the CT unit including the memory unit and a host computer connected to the image reconstruction device, wherein the memory unit includes:
A memory in which fan-shaped data is stored for each view, a counter for counting the stored data for each view, and monitoring the output of the counter to store parallel projection data necessary for image reconstruction. A control unit that controls reading of data from the memory when a predetermined number of views that can be taken out is reached; and an output buffer that buffers data read from the memory for transfer to the image reconstruction apparatus. It is characterized in that monitoring of the number of stored views stored in the memory and reading out of data stored in the memory for transfer to the image reconstructing apparatus are performed in a memory unit.

[Action]

When the X-ray tube and the X-ray detector are scanned (rotated) around the subject by the scanning mechanism, and fan-shaped data is obtained from the data collection device for each view, the data is once stored in the memory unit. It is read out later and transferred to the image reconstructing device, where the image is reconstructed. The memory unit has a memory for accumulating fan-shaped data, a counter for counting the number of views of the data, and monitoring the count to reach a predetermined number of views from which parallel projection data required for image reconstruction can be extracted. A control unit for controlling data to be read from the memory and an output buffer are provided. Therefore, the count value of the counter indicates how many views of sector data have been stored in the memory of the memory unit. Since the count value is monitored by the control unit, the parallel value required for image reconstruction is determined. It can be read from the memory when the number of views reaches a predetermined number that can be taken out of the projection data. Therefore, when a data set convenient for image reconstruction can be formed, the data is read out and sent to the output buffer to prepare for transfer to the image reconstruction device. Then, readout control based on the counting of the data amount (the number of views) and the monitoring thereof is performed in the memory unit. Therefore, it is not necessary for the host computer to monitor the number of stored views and perform read control, and the burden on the host computer can be reduced. Furthermore, faster processing by the host computer becomes possible, and transfer delay can be reduced.

【Example】

Next, an embodiment of the present invention will be described with reference to the drawings. In FIG. 1, a fan-shaped X-ray beam emitted from an X-ray tube 1 passes through a subject (patient) 2 and is detected by a detector 3.
Incident on. The detector 3 is a multi-channel detector in which a large number of detection elements are arranged so as to receive a fan-shaped spread X-ray beam. The data collection device 4 sends data obtained from the output signal of each channel of the detector 3 and a strobe signal to the memory unit 5. The X-ray tube 1 and the detector 3 rotate integrally around the subject 2,
Data and a strobe signal are output from the data collection device 4 for each constant rotation angle. That is, when the X-ray tube 1 and the detector 3 are at a certain rotation angle, data for all the channels of the detector 3 are output from the data collection device 4. (On the other hand, data for one channel is called data of one word.) As shown in FIGS. 2A and 2B, a data set is output one view at a time along with the rotation. One strobe signal indicating that the data output of the view has been completed is output. The memory unit 5 includes a memory 51 and a view counter that counts the number of views by counting strobe signals.
52, a scan counter 53, a control unit 54, an address controller 55, an output buffer 56, and an interface
57. In this embodiment, the view counter 52
Is a down counter. Initially, an initial value n is given by the control unit 54, and every time one strobe signal is inputted (−
1) is performed (see FIG. 2C). Scan counter 53
Is an up counter in this case, and counts a signal generated from the view counter 52 when a strobe signal is input while the view counter 52 is "1" (FIG. 2D).
reference). When the strobe signal is input to the view counter 52 in the state of “1”, the initial value n is loaded again. The count signal of the view counter 52 is transmitted to the control unit 54.
And is compared with a comparison register value in the control unit 54, and it is determined that data sufficient to extract parallel projection data necessary for image reconstruction has been prepared. That is, the data of one view is fan-shaped data, and if this data is not accumulated to a certain extent, the parallel projection data convenient for image reconstruction cannot be extracted. Signal 55, memory
The read address is controlled so as to extract parallel projection data from 51. The data read in this way is transferred to the image reconstruction device 6 via the output buffer 56.
When this transfer is completed, the comparison register value of the control unit 54 is updated to prepare for a determination as to whether the next parallel projection data can be transferred. This control unit 54 is an interface
It is connected to the host computer 8 via 57. The image reconstruction device 6 performs an image reconstruction process on the parallel projection data sent in this way by an algorithm such as a back projection method, and sends the obtained image to a monitor device for display. In the above description, views are counted by the view counter 52, but the word strobe signal is output from the data collection device 4 every time one word of data is output, and this is added to the preceding stage of the view counter 52. It is also possible to use a word counter for counting.
In this way, the control unit 54 can recognize how many views and words have been collected at present. If the capacity of the memory 51 is only for holding data for a plurality of scans, the scan counter 53 indicates which scan data is currently being collected.
The control unit 54 can also control data transfer for a plurality of scans by the count output.

【The invention's effect】

According to the CT apparatus of the present invention, in the memory unit, a counter for counting the number of views of the data stored in the memory,
Since a control unit that monitors the count value and controls reading of data from the memory is provided, the monitoring and reading control of the number of views can be performed in the memory unit, and the monitoring and reading can be performed by the host computer. Compared with the case where control is performed, the load on the host computer can be remarkably reduced, and the delay in data transfer can be eliminated. As a result, the speed of image reconstruction can be increased.

[Brief description of the drawings]

FIG. 1 is a block diagram of one embodiment of the present invention, and FIG. 2 is a time chart for explaining the operation. DESCRIPTION OF SYMBOLS 1 ... X-ray tube, 2 ... Subject (patient), 3 ... Detector, 4 ... Data collection device, 5 ... Memory unit, 6 ... Image reconstruction device, 7 ... Monitor device, 8 ... Host computer, 51 ...
Memory, 52… view counter, 53… scan counter,
54: control unit, 55: memory address controller, 56: output buffer, 57: interface circuit.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References Japanese Utility Model Showa Sho 62-177707 (JP, U) "CT Scanner" (Showa 54-2-20) Corona p. 133-134

Claims (1)

(57) [Claims] An X-ray generating a fan-shaped beam for irradiating a subject.
A tube, an X-ray detector for detecting a fan-shaped beam transmitted through the subject, a scanning mechanism for scanning the X-ray tube and the X-ray detector around the subject, and a detection signal from the X-ray detector. A data collection device that collects and converts the data into digital signals, a memory unit that temporarily stores fan-shaped data obtained from the data collection device for each scan view, and data that is read from this memory unit is transferred and re-imaged. In an image reconstruction apparatus for performing configuration processing, and a CT apparatus including the memory unit and a host computer connected to the image reconstruction apparatus, the memory unit includes a memory in which fan-shaped data is stored for each view, A counter that counts the stored data for each view, and monitors the output of this counter and stores the fan-shaped data to reconstruct the image. A control unit that controls reading of data from the memory when a predetermined number of views that can extract necessary parallel projection data is reached; and buffering for transferring the data read from the memory to the image reconstruction device. Monitoring the number of stored views stored in the memory and reading out the data stored in the memory for transfer to the image reconstructing device in the memory unit. CT device characterized by the following.