KR20180046939A - X-ray automatic exposure control method using time synchronization in wireless environment - Google Patents

Abstract

The present invention relates to a method of controlling automatic exposure of an X-ray using time synchronization in a wireless environment. The method of performing X-ray automatic exposure control through time synchronization between a wireless detector and a system controller of an X-ray imaging system for acquiring an X-ray image includes a step in which the wireless detector performs time synchronization with the system controller; a step in which the wireless detector wirelessly transmits the X-ray exposure information calculated during X-ray imaging to the system controller; a step in which the system controller calculates an X-ray exposure limit time point by using the X-ray exposure information wirelessly transmitted from the wireless detector; and a step in which when the present time becomes the X-ray exposure limit time point, the system controller transmits an AEC control signal for stopping X-ray irradiation to a generator.

Description

TECHNICAL FIELD [0001] The present invention relates to an X-ray automatic exposure control method using time synchronization in a wireless environment,

The present invention relates to a method of controlling automatic exposure of an X-ray using time synchronization in a wireless environment, and more particularly, to an X-ray imaging system for acquiring an X-ray image with a wireless detector, Ray automatic exposure control method using a time synchronization in a wireless environment that enables stable X-ray automatic exposure control even in a wireless manner.

In general, radiation plays an important role in protecting the human body from illness and developing medicine, and it is an essential process for almost every medical imaging examination. With recent advances in science, changes to digital image acquisition systems are rapidly changing the radiation exposure environment.

Such a digital medical environment has the advantage of maximizing user convenience, but in general, the dose of patient exposure may increase in order to reduce image noise and enhance image quality. Thus, medical radiation exposure by radiation is the largest proportion of anthropogenic radiation exposure. Recently, attention has been focused on the management of medical exposure, that is, a method for maximizing diagnostic information while minimizing the dose of radiation with minimal radiation.

On the other hand, in the case of the examination using the diagnosis X-ray, proper conditions should be set and the examination should be carried out with the proper dose. To do this, you need to know the thickness of the subject and the degree of x-ray absorption. However, since it is difficult to apply it realistically, a control device which can automatically irradiate an appropriate amount of radiation necessary for image density using an automatic exposure control (AEC) apparatus is widely used.

The automatic exposure control (AEC) should be able to grasp the degree of x-ray exposure in real time during the x-ray imaging and stop the x-ray inspection at the correct time.

Accordingly, conventionally, a control signal for automatic exposure control (AEC) (for example, an X-ray exposure if the X-ray exposure is equal to or higher than a specified value) is provided between a detector (a sensor that detects a kind of x- And a line for outputting an AEC control signal for blocking an inspection of the AEC control signal).

However, in the case of an X-ray imaging system that acquires an X-ray image with a wireless detector, since the system control device must perform automatic exposure control (AEC) by collecting X-ray exposure information in a wireless manner from the wireless detector, There is a problem that accurate automatic exposure control (AEC) may not be performed depending on the surrounding environment.

Background Art [0002] The background art of the present invention is disclosed in Korean Patent Laid-open Publication No. 10-2015-0040768 (published on May 15, 2015, X-ray device and X-ray detector).

According to an aspect of the present invention, there is provided an X-ray imaging system for acquiring an X-ray image with a wireless detector, which is created to solve the above problems, Ray automatic exposure control method using a time synchronization in a wireless environment that enables an X-ray automatic exposure control to be performed stably even in a wireless manner.

An automatic x-ray exposure control method using time synchronization according to an aspect of the present invention is a method of performing automatic exposure control of an x-ray through time synchronization in a wireless environment, in which a wireless detector and a system control device of an x- Wherein the wireless detector performs time synchronization with the system control device; Wirelessly transmitting the calculated X-ray exposure information to the system controller when the X-ray image is taken; Calculating an X-ray exposure limit time point using the X-ray exposure information wirelessly transmitted from the wireless detector; And transmitting the AEC control signal for stopping the X-ray inspection to the generator when the present time becomes the X-ray exposure limit time point.

In the present invention, in the time synchronization step, the wireless detector generates and transmits a time synchronization packet of a format pre-assigned to the system control device, and the system control device transmits a time synchronization packet transmitted from the wireless detector And transmits the time synchronization packet to the wireless detector. After receiving the time synchronization packet transmitted from the system control device, the wireless detector immediately generates a time synchronization packet reception completion packet, And the system controller receives the time synchronization packet reception completion packet to complete the time synchronization.

In the present invention, the time synchronization packet and the time synchronization packet reception completion packet may include at least one of a transmission time and a reception time of the packet.

According to the present invention, in the time synchronization, the wireless detector and the system control device perform synchronization in units of 1 ms or 1 microsecond, and are smaller than those for calculating a more accurate X-ray exposure limit time point And synchronization is performed in units of time.

According to the present invention, in the step of wirelessly transmitting the X-ray exposure information, the wireless detector checks whether the X-ray exposure information calculation period is started when the X- And the wireless detector transmits the calculated X-ray exposure information to the system control device, and when the calculation of the X-ray exposure information is completed, the wireless detector transmits the calculated X- And the wireless detector calculates the X-ray exposure information and transmits the X-ray exposure information to the system controller.

In the present invention, in the step of transmitting the AEC control signal, the system control device receives the X-ray exposure information as the wireless detector calculates and transmits the X-ray exposure information at the designated period, Ray exposure limit time point on the time axis based on the X-ray exposure information, and checks whether the current time is the calculated X-ray exposure limit time point. If it is determined that the present time is the X-ray exposure limit time point, the AEC control signal To stop the X-ray irradiation.

In the present invention, in calculating the X-ray exposure limit time point on the time axis, an X-ray exposure limit time point is calculated by summing dose amounts that change per hour based on a dose change amount graph corresponding to the type of the generator .

In the present invention, the X-ray exposure information is internally calculated and transmitted wirelessly by the wireless detector itself, or received by the X-ray exposure information calculated by another means including an ion chamber, and wirelessly transmitted by the wireless detector .

According to an aspect of the present invention, there is provided an X-ray imaging system for acquiring an X-ray image with a wireless detector, wherein time synchronization can be performed between the wireless detector and the system control device, To be performed stably.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary schematic diagram of an X-ray imaging system including a wireless detector according to an embodiment of the present invention; FIG.
FIG. 2 is an exemplary view showing a schematic configuration of a wireless detector in FIG. 1; FIG.
3 is an exemplary diagram showing a schematic configuration of a system control apparatus in Fig. 1; Fig.
4 is a flowchart illustrating a time synchronization method for automatic exposure control according to an exemplary embodiment of the present invention.
FIG. 5 is a flowchart illustrating an operation of a wireless detector in an X-ray imaging system according to an embodiment of the present invention; FIG.
FIG. 6 is a flowchart illustrating an operation of a system control apparatus in an X-ray imaging system according to an embodiment of the present invention; FIG.
FIG. 7 is a graph illustrating a graph for predicting an exposure time limit of an X-ray of a system control apparatus in an X-ray imaging system according to an embodiment of the present invention; FIG.

Hereinafter, an X-ray automatic exposure control method using time synchronization in a wireless environment according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a schematic view illustrating an X-ray photographing system including a wireless detector according to an exemplary embodiment of the present invention. Referring to FIG.

1, an x-ray photographing system according to an exemplary embodiment of the present invention includes a wireless detector 100, a system controller 200, a server 300, and a generator 400.

The generator 400 irradiates the X-ray to the wireless detector 100.

The generator 400 and the system controller 200 are connected in a wired manner to transmit and receive a control signal (for example, an AEC control signal) (that is, the system controller 200 transmits an AEC control signal, 400) receives the AEC control signal).

Also, the generator 400 stops the X-ray inspection when the AEC control signal is received from the system control device 200 (or may be referred to as a control unit).

The wireless detector 100 acquires an x-ray image irradiated by the generator 400. [

Also, the wireless detector 100 and the system controller 200 are connected in a wireless manner, and the wireless detector 100 calculates X-ray exposure information and transmits the X-ray exposure information to the system controller 200.

Also, the wireless detector 100 performs time synchronization to transmit the X-ray exposure information to the system control device 200.

The wireless detector 100 is connected to the system controller 200 in a wireless manner to transmit and receive image data, X-ray exposure information, and at least one control signal (e.g., time synchronization signal or packet).

Meanwhile, the system controller 200 performs time synchronization with the wireless detector 100, and receives X-ray exposure information from the wireless detector 100.

The system controller 200 calculates (or predicts) an X-ray exposure limit time point on the time axis and outputs a control signal to the generator 400 when the X-ray exposure information reaches the calculated X- AEC control signal).

At this time, the system controller 200 may refer to the graph as shown in FIG. 7 to calculate (or predict) the X-ray exposure limit time point.

FIG. 7 is an exemplary diagram illustrating a graph for predicting an exposure time limit of an X-ray of a system control apparatus in an X-ray imaging system according to an embodiment of the present invention.

That is, the system controller 200 refers to the dose rate (Dose Rate) that changes according to time, and even if the X-ray exposure information is not temporarily received through the wireless detector 100, When the X-ray exposure limit time point is reached in time by the calculation (or prediction), the controller 400 outputs a control signal (i.e., AEC control) to the generator 400 Signal).

As described above, even if the reliability of the wireless communication is deteriorated according to the operation state of the X-ray imaging system using the wireless detector 100 or the surrounding environment, the system controller 200 according to the present embodiment can perform X- An accurate automatic exposure control (AEC) can be performed by accurately calculating (or predicting) a time to reach the limit time point and outputting a control signal (AEC control signal).

Meanwhile, the server 300 (or workstation), which is omitted in FIG. 1, communicates with the system control device 200 to perform an overall operation of the X-ray imaging system. For example, the server 300 (or the workstation) can change the setting of the wireless detector 100 or receive the image acquired by the wireless detector 100 through the system controller 200.

Fig. 2 is an exemplary diagram showing a schematic configuration of a wireless detector in Fig. 1, and Fig. 3 is an exemplary diagram showing a schematic configuration of a system controller in Fig.

2, the wireless detector 100 includes an X-ray exposure information calculation unit 110, an X-ray exposure information transmission unit 120, and a time synchronization unit 130.

The X-ray exposure information calculation unit 110 calculates X-ray exposure information within the wireless detector 100.

The X-ray exposure information transmission unit 110 transmits (or transmits) the calculated X-ray exposure information to the system control device 200.

The time synchronization unit 130 transmits and receives time synchronization packets to and from the system control device 200 and performs time synchronization with each other. Here, the time synchronization packet includes a transmission time of a packet for time synchronization, a transmission period (transmission interval), and the like.

Although not specifically shown in the drawing, the X-ray exposure information may be calculated through other constituent means (for example, an ion chamber or the like) (not shown) of the X-ray imaging system. That is, when the wireless detector 100 does not include the X-ray exposure information calculation unit 110 and instead receives X-ray exposure information calculated in the ion chamber (not shown), the X- And transmit (or transmit) the X-ray exposure information to the system control device 200 through the X-ray exposure information transmission unit 110. In other words, the wireless detector 100 does not always have to perform the calculation of the X-ray exposure information, but performs only the function of receiving and transmitting the X-ray exposure information from other constituent means (for example, an ion chamber or the like) It is possible.

3, the system controller 200 includes an X-ray exposure information receiving unit 210, an X-ray exposure limit threshold calculation unit 220, a time synchronization unit 230, and an AEC control signal transmission unit 240 .

The X-ray exposure information receiving unit 210 receives the X-ray exposure information transmitted (or transmitted) from the wireless detector 100.

The X-ray exposure limit threshold calculation unit 220 calculates an X-ray exposure limit time point to obtain a time point at which the X-ray exposure reaches the limit at the present time.

The reason for deriving the x-ray exposure limit time point is that since the x-ray exposure information transmitted and received between the wireless detector 100 and the system controller 200 is transmitted and received in a wireless manner, the wireless detector 100 periodically transmits x- The system controller 200 receiving the X-ray exposure information can receive the X-ray exposure information at irregular time intervals, and the wireless detector 100 and the system controller 200 can receive the X- Ray exposure information may be transmitted and received between the X-ray exposure limit point and the X-ray exposure limit point.

The time synchronization unit 230 transmits and receives time synchronization packets with the wireless detector 100 to perform time synchronization with each other. Here, the time synchronization packet includes a transmission time of a packet for time synchronization, a transmission period (transmission interval), and the like.

7, the AEC control signal transmitting unit 240 temporarily refers to the dose rate (Dose Rate) that varies according to time, and temporarily transmits X-ray exposure information through the wireless detector 100 (Or transmits) a control signal (that is, an AEC control signal) to the generator 400 when the X-ray exposure limit time is reached in time by the calculation (or prediction).

FIG. 4 is a flowchart illustrating a time synchronization method for automatic exposure control according to an embodiment of the present invention. Referring to FIG. 4, time synchronization is performed between the wireless detector 100 and the system control device 200 .

As shown in FIG. 4, the wireless detector 100 generates and transmits a time synchronization packet of a format designated in advance to the system control device 200 (S101).

The system controller 200 receives the time synchronization packet transmitted from the wireless detector 100 in step S102 and transmits the time synchronization packet to the wireless detector 100 in step S103.

After receiving the time synchronization packet transmitted from the system control device 200, the wireless detector 100 immediately generates a time synchronization packet reception completion packet and transmits it to the system control device 200 (S104).

Accordingly, the system control apparatus 200 completes the time synchronization after receiving the time synchronization packet reception completion packet (S105).

At this time, the transmission time (or reception time) of the packet is recorded in each packet (e.g., time synchronization packet, time synchronization packet reception completion packet). Therefore, the system controller 200 completes the time synchronization based on the wireless detector 100.

The time between the wireless detector 100 and the system controller 200 may be set to a time unit such as 1 ms or 1 microsecond such that the time between the wireless detector 100 and the system controller 200 Synchronized, and can be synchronized on a smaller time scale to calculate (predict) more accurate x-ray exposure limit times.

5 and 6, when the time synchronization between the wireless detector 100 and the system control apparatus 200 is completed, the system control apparatus 200 performs automatic exposure control (AEC) .

5 is a flowchart illustrating an operation of a wireless detector in an X-ray imaging system according to an exemplary embodiment of the present invention.

5, when the photographing of the X-ray image is started after the time synchronization is completed, the wireless detector 100 checks whether the X-ray exposure information calculation period is a period (S201). If the X- And X-ray exposure information is calculated (S202).

When the calculation of the X-ray exposure information is completed as described above, the wireless detector 100 transmits the calculated X-ray exposure information to the system control device 200 (S203).

The wireless detector 100 calculates the X-ray exposure information and transmits the calculated X-ray exposure information to the system controller 200 according to the above-described period (S201 to S203), until the X- (YES in S204).

However, the cycle for calculating the X-ray exposure information is not necessarily specified in advance. In some embodiments, the X-ray exposure information may be calculated and transmitted to the system control device 200 irregularly.

6 is a flowchart illustrating an operation of a system control apparatus in an X-ray imaging system according to an embodiment of the present invention.

In step S301, the system controller 200 receives the X-ray exposure information by calculating the X-ray exposure information and transmitting the calculated X-ray exposure information to the system controller 200 at the predetermined period.

However, even if the wireless detector 100 transmits the X-ray exposure information at a designated period, the system control device 200 can not necessarily receive the X-ray exposure information at a specified cycle due to the characteristics of the wireless system. For example, the X-ray exposure information may be received in a delayed manner or a missing reception may occur.

The system controller 200 calculates (estimates) an X-ray exposure limit time point on the time axis based on the received X-ray exposure information (S302).

For example, FIG. 7 is a graph directly showing the dose change when radiography is taken under 100 kVp 100 mA 100 ms condition using the designated generator 400. The dose amount per hour increases from 0 ms to about 20 ms, It can be confirmed that the dose per hour is constant. Therefore, after 20 ms, it is possible to predict the cumulative dose amount over time, which means that the X-ray exposure limit time point of the image can be predicted.

That is, the system control device 200 calculates the amount of change in the amount of time per unit time from the time when the dose amount per unit time is fixed to the amount of accumulated dose in the section where the dose amount per hour increases, (Or predicted) the x-ray exposure limit time point by summing up the corresponding accumulated doses.

However, the dose variation per hour may vary depending on the type and setting of the generator 400. Therefore, the dose change amount per unit time can be generated by the system control unit 200 based on the X-ray exposure information received from the wireless detector 100, and can be generated and used by a mathematical expression, even if it is not a graph format. Alternatively, the system control device 200 may download the dose variation graph (or mathematical formula) or the setting per hour corresponding to the type of the generator 400 from the server 300 in advance and use (i.e., calculate the X- Or used for prediction).

When the X-ray exposure limit time point is calculated (predicted) as described above, the system control device 200 checks whether the X-ray exposure limit time point is present (S303) The AEC control signal is transmitted to the generator 400 to stop the X-ray inspection (S304).

As described above, in the present exemplary embodiment, the system controller 200 transmits the X-ray exposure information of the image to the system controller 200 at the predetermined period in the wireless detector 100 so that the system controller 200 can predict the X- Therefore, even if the X-ray exposure information is not normally transmitted, the AEC control signal is transmitted to the generator 400 at the time of the X-ray exposure limit predicted by the system control device 200 to stop the X-ray inspection The automatic exposure control (AEC) function can be accurately and stably provided in a wireless environment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand the point. Accordingly, the technical scope of the present invention should be defined by the following claims.

100: wireless detector 110: X-ray exposure information calculation unit
120: X-ray exposure information transmission unit 130: Time synchronization unit
200: System controller 210: X-ray exposure information receiver
220: X-ray exposure limit threshold calculation unit 230: Time synchronization unit
240: AEC control signal transmitter 300: Server or workstation
400: Generator

Claims (8)

A method for performing automatic exposure control of an X-ray through time synchronization in a wireless environment, comprising the steps of:
Performing time synchronization with the system controller by the wireless detector;
Wirelessly transmitting the calculated X-ray exposure information to the system controller when the X-ray image is taken;
Calculating an X-ray exposure limit time point using the X-ray exposure information wirelessly transmitted from the wireless detector; And
And transmitting the AEC control signal for stopping the X-ray inspection to the generator when the present time becomes the X-ray exposure limit time point. Control method.
2. The method of claim 1,
Wherein the wireless detector generates and transmits a time synchronization packet of a format specified in advance to the system controller,
Wherein the system controller transmits the time synchronization packet to the wireless detector after receiving the time synchronization packet transmitted from the wireless detector,
Wherein the wireless detector generates a time synchronization packet reception completion packet immediately after receiving the time synchronization packet transmitted from the system control device and transmits the packet to the system control device,
Wherein the system controller receives the time synchronization packet reception completion packet and completes the time synchronization.
3. The method of claim 2,
Wherein the time synchronization packet and the time synchronization packet reception completion packet include:
Wherein at least one of a transmission time and a reception time of the packet is recorded.
2. The method of claim 1,
Wherein the wireless detector and the system control device,
Synchronization is performed in a time unit of 1 ms or 1 μs,
Wherein the synchronization is performed at a time unit smaller than that when a more precise x-ray exposure limit time point is to be calculated.
The method as claimed in claim 1, wherein, in wirelessly transmitting the X-
The wireless detector includes:
After the completion of the time synchronization, when the photographing of the X-ray image is started, it is checked whether the X-ray exposure information calculation period is calculated, and the X-ray exposure information is calculated in the designated X-
When the calculation of the X-ray exposure information is completed, the wireless detector transmits the calculated X-ray exposure information to the system control device,
Wherein the wireless detector calculates and transmits the X-ray exposure information to the system controller according to the designated period until the X-ray imaging is completed. Exposure control method.
2. The method of claim 1, wherein in transmitting the AEC control signal,
The system control device includes:
Receiving the X-ray exposure information as the wireless detector calculates and transmits the X-ray exposure information at the designated period,
Calculates an X-ray exposure limit time point on the time axis based on the received X-ray exposure information, checks whether the current time is the calculated X-ray exposure limit time point,
And transmitting the AEC control signal to the generator to stop the X-ray inspection when it is determined that the present time is the X-ray exposure limit time point.
The method according to claim 6,
In calculating the x-ray exposure limit time point on the time axis,
Based on the dose variation graph corresponding to the type of the generator,
And calculating an exposure limit time point of the X-ray by summing the doses varying with time.
The method of claim 1, wherein the X-
Internally calculated and wirelessly transmitted by the wireless detector itself,
Wherein the wireless detector transmits the calculated x-ray exposure information by a separate means including an ion chamber, and wirelessly transmits the x-ray exposure information to the wireless detector.

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