CN103226645B - The control method of armarium and control system - Google Patents

Abstract

The invention discloses control method and the control system of a kind of armarium.Described control method includes: pre-set the implementation sub-module corresponding with each the most subdividable minimum execution function of armarium；The information configuration interface relevant to the functional module of a flow process collection is provided, and receives the information configuration result via the input of this information configuration interface；According to information configuration result, generate the configuration file of a configuration information comprising this functional module for each functional module, obtain the configuration file collection of corresponding flow process collection；When configuration file collection is activated, it is successively read each configuration file that configuration file is concentrated, according to the configuration information of the functional module in configuration file, performs each implementation sub-module in this functional module successively.Technical scheme disclosed in this invention, it is possible to increase work efficiency, reduces error probability.

Description

Control method and control system for medical equipment

Technical Field

The invention relates to the technical field of medical equipment, in particular to a control method and a control system of the medical equipment.

Background

In the medical equipment currently used by doctors, an operator is required to sequentially click and control the execution of each step according to a certain sequence for each specific operation. For example, when various types of X-ray fluoroscopy/radiography systems, Magnetic Resonance Imaging (MRI), Digital Subtraction Angiography (DSA), and the like are used to image a human body, the required procedures roughly include: obtaining patient information → selecting an organ program → positioning → scanning → exposing → image preprocessing → transmitting image data to a workstation. Accordingly, the operator needs to perform configuration and click control for each step in sequence. In the above process, the operator needs to click the mouse at least 8 times and press the ray starting button 2 times.

In practice, the control process described above is not problematic for a single occasional time. However, in the case of many people to be imaged, such as a physical examination institution or a large hospital with a congested people flow, since the operator needs to repeatedly click and operate the above steps for each imaging, most of the above steps are repeated, and the large number of repeated steps not only reduces the working efficiency of the system, but also increases the error probability of the operator.

Disclosure of Invention

In view of the above, the present invention provides a method for controlling a medical device, and a system for controlling a medical device, so as to improve the working efficiency of the system.

The control method of the medical equipment provided by the invention comprises the following steps:

presetting execution submodules corresponding to the minimum execution functions which cannot be subdivided of the medical equipment;

providing an information configuration interface related to the function module of a process set for a user, and receiving an information configuration result input by the user; the information configuration result comprises: configuration information of at least one functional module; the configuration information of each functional module comprises the configuration information of at least one execution submodule;

generating a configuration file containing the configuration information of each functional module for each functional module according to the information configuration result to obtain a configuration file set corresponding to the process set;

and when the configuration file set corresponding to the flow set is activated by a user, sequentially reading each configuration file in the configuration file set, and sequentially executing each execution sub-module in the function module according to the configuration information of the function module in the configuration file.

Before providing the information configuration interface for the user about the functional module of the process set, the method further comprises: receiving a request of a user for creating a flow set, and providing an information configuration interface related to a functional module of the flow set for the user according to the request.

The method further comprises the following steps: and taking the flow set as a default flow set when the next time is started.

Preferably, after obtaining the configuration file set corresponding to each functional module, the method further includes: detecting the legality of each configuration file in the configuration file set, and if the configuration files are legal, reserving the configuration file set; otherwise, an error message is prompted to the user.

Preferably, the method further comprises: and displaying the execution result corresponding to each functional module to a user.

Preferably, the method further comprises: providing an editing interface related to the configuration file set for a user, receiving editing information of the user on the configuration file set, and copying, pasting, deleting, adding or modifying the configuration files in the configuration file set according to the editing information.

The control system of the medical equipment provided by the invention comprises the following components: the system comprises a plurality of execution submodules, a user interface unit, a configuration file generation unit, a storage unit and a function control unit; wherein,

each execution submodule corresponds to a minimum execution function which cannot be subdivided of the medical equipment;

the user interface unit is used for providing an information configuration interface of a function module related to a process set for a user and receiving an information configuration result input by the user; displaying the configuration file set in the storage unit to a user; the information configuration result comprises: configuration information of at least one functional module; the configuration information of each functional module comprises the configuration information of at least one execution submodule;

the configuration file generating unit is used for generating a configuration file containing the configuration information of each functional module for each functional module according to the information configuration result to obtain a configuration file set corresponding to the process set;

the storage unit is used for storing the configuration file set obtained by the configuration file generation unit;

and the function control unit is used for sequentially reading each configuration file in the configuration file set when the configuration file set corresponding to the process set is displayed to a user through the user interface unit and is activated by the user, and sequentially executing each execution sub-module in the function module according to the configuration information of the function module in the configuration file.

The user interface unit further receives a request of a user for creating a process set before providing the user with an information configuration interface related to the function module of the process set, and provides the user with the information configuration interface related to the function module of the process set according to the request.

Preferably, the user interface unit further takes the flow set as a default flow set at the next start-up.

Preferably, the system further comprises: a checking unit, configured to detect validity of each configuration file in the configuration file set before the storage unit stores the configuration file set, and if the configuration file set is valid, notify the storage unit to store the configuration file set; otherwise, the error information is prompted through the user interface unit.

Preferably, the function control unit is further configured to display the execution result corresponding to each function module to the user through the user interface unit.

Preferably, the user interface unit further provides an editing interface for a user about the configuration file set, and receives editing information of the configuration file set by the user;

the configuration file generation unit further copies, pastes, deletes, adds or modifies the configuration files in the configuration file set according to the editing information, and stores the updated configuration file set in the storage unit.

According to the scheme, the execution sub-modules corresponding to the non-subdivided minimum execution functions of the medical equipment are preset, the information configuration interface related to the function modules is provided for a user, and the information configuration result which is input by the user and contains the configuration information of at least one function module is received; the configuration information of each functional module comprises configuration information of at least one execution submodule; and then generating a configuration file set corresponding to each functional module according to the information configuration result. And then, each time the configuration file set is activated, reading each configuration file in the configuration file set in sequence, and executing each execution sub-module in the function module in sequence according to the configuration information of the function module in each configuration file. For the same operation, an operator only needs to configure a configuration file set corresponding to the operation according to needs, and then clicks and activates the configuration file set corresponding to the operation when the operation needs to be executed each time, and each specific step corresponding to the operation does not need to be clicked successively, so that the working efficiency can be greatly improved, and a lot of repeated work can be saved; and meanwhile, the error probability can be reduced.

In addition, different configuration file sets can be set corresponding to different operations, and the configuration files in the configuration file sets can be edited according to needs, so that the configuration and the operation of the configuration file sets by a user are facilitated, and the operation is flexible and convenient.

In addition, by detecting the legality of each configuration file in the configuration file set, subsequent execution errors caused by file damage or errors can be prevented, and the reliability of the system is further improved.

Drawings

The foregoing and other features and advantages of the invention will become more apparent to those skilled in the art to which the invention relates upon consideration of the following detailed description of a preferred embodiment of the invention with reference to the accompanying drawings, in which:

fig. 1 is an exemplary flowchart of a control method of a medical apparatus in an embodiment of the present invention.

Fig. 2 is an exemplary configuration diagram of a control system of a medical apparatus in the embodiment of the present invention.

Wherein the reference numbers are as follows:

101-setup execution submodule

102-configuration flow set

103-generating a set of configuration files

104-set of execution flows

201-execution submodule

202-user interface Unit

203-configuration file generating unit

204-memory cell

205-function control Unit

206-test cell

Detailed Description

In the embodiment of the invention, in order to improve the working efficiency and save a plurality of repeated works, the steps corresponding to the same operation are packaged to generate a flow set corresponding to the operation, and then the steps corresponding to the operation are executed by triggering the flow set.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail by referring to the following examples.

Fig. 1 is an exemplary flowchart of a control method of a medical apparatus in an embodiment of the present invention. As shown in fig. 1, the method comprises the steps of:

step 101, setting execution submodules corresponding to the minimum execution functions which can not be subdivided of the medical equipment.

In this step, each execution submodule is used to complete the minimum execution function of each different subdivision of the medical device. Such as a radiology information management system (RIS) software submodule, an organ program processing submodule, and the like.

Step 102, providing an information configuration interface related to the function module of a process set for a user through a user interface, and receiving an information configuration result input by the user. Wherein the information configuration result comprises: configuration information of at least one functional module; the configuration information of each functional module includes configuration information of at least one execution submodule.

In this step, one functional module may correspond to one step in one operation (i.e., one process set). For example, configuration information of an organ program module, configuration information of a positioning module, configuration information of a scanning module, configuration information of an exposure module, configuration information of an image preprocessing module, configuration information of an image transmission module, and the like may be configured corresponding to the aforementioned imaging operation. The configuration information of each functional module includes configuration information of at least one execution submodule, for example, the configuration information of an organ program module may include configuration information of an RIS software submodule and configuration information of an organ program processing submodule.

The configuration information of the functional modules may further include sequence information of the functional modules. The configuration information of the execution submodule may include entry address information and input parameter information of the execution submodule.

Step 103, generating a configuration file containing the configuration information of the function module for each function module according to the information configuration result, and obtaining a configuration file set corresponding to the process set.

In this step, when the configuration file and the configuration file set are generated, the configuration file and the configuration file set that can be identified by the system can be generated according to a format agreed by the system in advance.

And step 104, when the configuration file set corresponding to the process set is activated by a user through a user interface, sequentially reading each configuration file in the configuration file set, and sequentially executing each execution sub-module in a function module according to the configuration information of the function module in the configuration file.

In this step, when a user clicks and activates a configuration file set corresponding to a process set through a user interface, each configuration file in the configuration file set is sequentially read, after the currently read configuration file is analyzed, each execution sub-module in a function module is sequentially called according to configuration information of the function module in the configuration file, and an execution result is returned. Furthermore, the execution results corresponding to the function modules can be displayed to the user through a user interface.

In addition, in the embodiment of the present invention, an editing interface related to the configuration file set may be provided for the user through the user interface, the editing information of the configuration file set by the user is received, and the operations such as copying, pasting, deleting, adding, or modifying the configuration files in the configuration file set are performed according to the editing information.

Further, in order to avoid subsequent execution errors caused by file damage or errors, in this embodiment, after the configuration file set corresponding to each functional module is obtained, the validity of each configuration file in the configuration file set is further detected, and if the configuration file set is legal, the configuration file set is retained; otherwise, prompting error information through a user interface. The validity judgment criteria may include: whether the file format meets the preset standard, whether the execution sequence of the functional modules corresponding to the configuration files is correct, and the like.

The technical scheme of the embodiment of the invention can be applied to the situation that only one flow set needs to be set, and at the moment, after the flow set corresponding to one operation is set according to the flow set, all the steps corresponding to the flow can be completed only by clicking and triggering the configuration file corresponding to the flow set. For example, for the imaging process, according to the technical scheme in the embodiment of the invention, for the same operation, only the mouse needs to be clicked for 1 time, and the ray starting button needs to be pressed for 1 time, so that repeated work is omitted, the working efficiency is improved, and the error probability is reduced. The flow set can still be valid at the next start, i.e. can be used as the default flow set at the next start.

In addition, the technical solution in the embodiment of the present invention may also be applied to an application scenario with a higher integration level, and at this time, a plurality of flow sets may be set by applying the technical solution in the embodiment of the present invention, that is, different flow sets may be set corresponding to different operations. At this time, before providing the information configuration interface related to the function module of the process set for the user, the embodiment of the present invention further includes: and receiving a request of a user for creating a flow set through a user interface, and providing an information configuration interface related to the functional module of the flow set for the user according to the request. Likewise, the flow set may be taken as the default flow set at the next startup.

The control method of the medical device in the embodiment of the present invention is described in detail above, and the control system of the medical device in the embodiment of the present invention is described in detail below.

Fig. 2 is an exemplary configuration diagram of a control system of a medical apparatus in the embodiment of the present invention. As shown in fig. 2, the system may include: a plurality of execution sub-modules 201, a user interface unit 202, a configuration file generating unit 203, a storage unit 204, and a function control unit 205.

Wherein each execution submodule 201 is used for completing a non-subfractionable minimum execution function of the medical device.

The user interface unit 202 is used for providing an information configuration interface related to the function modules of a process set for a user and receiving an information configuration result input by the user; displaying the configuration file set in the storage unit 204 to the user; the information configuration result comprises: configuration information of at least one functional module; the configuration information of each functional module includes configuration information of at least one execution submodule.

The configuration file generating unit 203 is configured to generate a configuration file containing configuration information of each functional module according to the information configuration result, so as to obtain a configuration file set corresponding to the process set.

The storage unit 204 is configured to store the configuration file set obtained by the configuration file generating unit 203.

The function control unit 205 is configured to, when the configuration file set corresponding to the process set is displayed to a user through the user interface unit 202 and activated by the user, sequentially read each configuration file in the configuration file set, and sequentially execute each execution sub-module in the function module according to the configuration information of the function module in the configuration file.

The specific operation process of each functional unit may be the same as the operation process in the corresponding step shown in fig. 1, and is not described herein again.

In accordance with the method shown in fig. 1, the function control unit 205 may be further configured to display the execution result corresponding to each function module to the user through the user interface unit 202.

In addition, the user interface unit 202 may further use the flow set as a default flow set at the next startup.

Further, the user interface unit 202 may further provide an editing interface for the user with respect to the set of configuration files, and receive editing information of the set of configuration files from the user. Accordingly, the configuration file generating unit 203 may further copy, paste, delete, add, or modify the configuration files in the configuration file set according to the editing information, and store the updated configuration file set in the storage unit 204.

Also, consistent with the method of FIG. 1, the system may be further illustrated in phantom in FIG. 2, including: a checking unit 206, configured to detect validity of each configuration file in the configuration file set before the storage unit 204 stores the configuration file set, and if the validity is valid, notify the storage unit 204 to store the configuration file set; otherwise, an error message is prompted through the user interface unit 202.

Also, consistent with the method shown in fig. 1, the user interface unit 202 in the embodiment of the present invention may further receive a request for a user to create a process set before providing the user with an information configuration interface regarding functional modules of a process set, and provide the user with an information configuration interface regarding the functional modules of the process set according to the request.

Therefore, the embodiment of the invention provides a control method and a control system of medical equipment. Wherein the control method comprises the following steps: presetting execution submodules corresponding to the minimum execution functions which cannot be subdivided of the medical equipment; providing an information configuration interface related to the functional modules of a process set, and receiving an information configuration result input through the information configuration interface; the information configuration result comprises configuration information of at least one functional module, and the configuration information of each functional module comprises configuration information of at least one execution submodule; generating a configuration file containing the configuration information of each functional module for each functional module according to the information configuration result to obtain a configuration file set corresponding to the process set; when the configuration file set is activated, reading each configuration file in the configuration file set in sequence, and executing each execution sub-module in the function module in sequence according to the configuration information of the function module in the configuration file. The technical scheme disclosed by the invention can improve the working efficiency and reduce the error probability.

Those skilled in the art will appreciate that the drawings are merely schematic representations of one preferred embodiment and that the blocks or flow diagrams in the drawings are not necessarily required to practice the present invention.

Those skilled in the art will appreciate that the modules in the devices in the embodiments may be distributed in the devices in the embodiments according to the description of the embodiments, and may be correspondingly changed in one or more devices different from the embodiments. The modules of the above embodiments may be combined into one module, or further split into multiple sub-modules.

Some steps in the embodiments of the present invention may be implemented by software, and the corresponding software program may be stored in a readable storage medium, such as an optical disc or a hard disk.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. A control system for a medical device, the system comprising: a plurality of execution sub-modules (201), a user interface unit (202), a configuration file generation unit (203), a storage unit (204), and a function control unit (205); wherein,

each execution submodule (201) corresponds to a minimum execution function which cannot be subdivided by the medical equipment;

the user interface unit (202) is used for providing an information configuration interface related to the function modules of one process set, receiving an information configuration result through the information configuration interface, and displaying the configuration file set in the storage unit (204); the information configuration result comprises configuration information of at least one functional module, and the configuration information of each functional module comprises configuration information of at least one execution submodule;

the configuration file generating unit (203) is used for generating a configuration file containing the configuration information of each functional module for each functional module according to the information configuration result to obtain a configuration file set corresponding to the process set;

the storage unit (204) is configured to store the configuration file set obtained by the configuration file generation unit (203);

the function control unit (205) is configured to, when the configuration file set corresponding to the process set is activated, sequentially read each configuration file in the configuration file set, and sequentially execute each execution sub-module in a function module according to the configuration information of the function module in the configuration file,

the system further comprises: a checking unit (206) for detecting the validity of each configuration file in the configuration file set before the storage unit (204) stores the configuration file set, and if the validity is valid, notifying the storage unit (204) to store the configuration file set; otherwise, an error message is prompted via the user interface unit (202).

2. The control system of claim 1, wherein the user interface unit (202) further receives a request for a new process set prior to providing the information configuration interface, and provides the information configuration interface for the function module of the process set based on the request.

3. The control system of claim 1, wherein the user interface unit (202) further treats the flow set as a default flow set at a next startup.

4. The control system according to any one of claims 1 to 3, wherein the user interface unit (202) further provides an editing interface for a set of profiles and receives editing information for the set of profiles via the editing interface;

the configuration file generation unit (203) further copies, pastes, deletes, adds or modifies the configuration files in the configuration file set according to the editing information, and stores the updated configuration file set in the storage unit (204).

5. A method of controlling a medical device, the method comprising:

providing an information configuration interface related to the functional modules of a process set, and receiving an information configuration result input through the information configuration interface; the information configuration result comprises configuration information of at least one functional module, and the configuration information of each functional module comprises configuration information of at least one execution submodule, wherein the execution submodule corresponds to each unsegmentable minimum execution function of the medical equipment;

generating a configuration file containing the configuration information of each functional module for each functional module according to the information configuration result to obtain a configuration file set corresponding to the process set;

when the configuration file set is activated, sequentially reading each configuration file in the configuration file set, and sequentially executing each execution sub-module in a function module according to the configuration information of the function module in the configuration file;

after obtaining the configuration file set, further comprising: detecting the legality of each configuration file in the configuration file set, and if the configuration files are legal, reserving the configuration file set; otherwise, an error message is prompted.

6. The control method of claim 5, prior to providing the information configuration interface, further comprising: and receiving a request of a new process set, and providing an information configuration interface of the functional module of the process set according to the request.

7. The control method according to claim 5, characterized in that the method further comprises: and taking the flow set as a default flow set when the next time is started.

8. The control method according to any one of claims 5 to 7, characterized in that the method further comprises: providing an editing interface related to the configuration file set, receiving editing information of the configuration file set through the editing interface, and copying, pasting, deleting, adding or modifying the configuration files in the configuration file set according to the editing information.