CN111724874B - System and method for displaying image structured report interface in cloud - Google Patents

Abstract

The invention provides a system for displaying an image structured report interface at a cloud, which comprises a data storage module, a data processing module and a data processing module, wherein the data storage module is used for storing a logic table and structured report data of a CS architecture; the template corresponding module generates a structured report template of the BS framework based on the CS template ID and the corresponding logic table, sets the template ID, and sets the CS template ID and the BS template ID in the same row record; the interface corresponding module determines BS control layout based on each CS control layout; the data intercommunication processing module analyzes the CS control ID into the BS control ID based on the CS control ID, sets the CS control ID, the BS control ID and corresponding data in the logic table in the same record, and analyzes the logic data to obtain the BS control; and the display module displays the BS structured report interface on the cloud. The invention also discloses a method for displaying the image structured report interface on the cloud. The invention can be used for users to browse and modify the structured report data generated by the CS terminal at the cloud.

Description

System and method for displaying image structured report interface in cloud

Technical Field

The invention relates to the field of medical information, in particular to a system and a method for displaying an image structured report interface in a cloud.

Background

Along with development of information technology and construction of medical informatization, various informatization software is used by hospitals to assist medical industry processes, such as HIS (hospital information management system), EMR (electronic medical record system), PACS (medical image archiving and transmission system), RIS (image information management system), and the like. Along with the fact that the informatization system is spread over various medical fields, the medical image reporting system is mostly in the form of a reporting template and manual editing, and compared with the traditional mode, the novel image structured report has great advantages in the aspects of improving efficiency, assisting diagnosis and the like. However, only the structured report of the CS (Client/Server) architecture is currently established on the basis of the local area network, generally on the dedicated network, and the structured report of the CS architecture cannot be checked by a patient or a doctor on a mobile terminal or a Browser, or cannot be integrated into products (established on a wide area network) of other BS (Browser/Server) architectures. The structured report presentation of the BS architecture is mainly for allowing doctors who make improvement comments to intuitively make comments with respect to the templates. The doctor can see the structured report data of the CS architecture basically at a time other than working, and if the interface display of the template is not available, the doctor can recall the own requirement and set a threshold, so the structured report display of the BS architecture is particularly important.

Disclosure of Invention

Accordingly, the present invention is directed to a system and a method for displaying an image structured report interface in the cloud, which can solve the problem that in the prior art, a doctor cannot browse or provide improvement comments on a mobile terminal or a browser due to the fact that a BS structured report consistent with a CS structured report cannot be displayed in the cloud.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

in one aspect, the invention provides a system for displaying an image structured report interface at a cloud, which comprises a data storage module, a template corresponding module, an interface corresponding module, a data intercommunication processing module and a display module, wherein the data storage module is respectively connected with the template corresponding module, the interface corresponding module and the data intercommunication processing module and is used for storing structured report data of a logic form and a CS (Client/Server) architecture; wherein the logic table comprises: all elements of the structured report template for each disease, various lesion attributes corresponding to each element, and hierarchical relationships between each element and element; the structured report data of the CS architecture comprises structured report template IDs, all control layouts and logic data of each control of the CS architecture, which are respectively defined as the CS template IDs, the CS control layouts and the logic data of the CS controls; wherein, the structured report template of CS architecture is automatically generated based on the logic table; the template corresponding module is respectively connected with the data storage module and the display module and is used for determining a required logic form based on the CS template ID, generating a structured report template of a BS (Browser/Server) framework according to the logic form, setting the template ID, defining the structured report template as the BS template ID, and setting the CS template ID and the BS template ID in the same row record so that the structured report template of the CS framework and the structured report template of the BS framework are in one-to-one correspondence; the interface corresponding module is respectively connected with the data storage module and the display module and is used for determining the layout of the BS control based on each CS control layout to form a structured report interface of the BS framework corresponding to the structured report interface of the CS framework; the data intercommunication processing module is respectively connected with the data storage module and the display module and is used for analyzing the control ID of the structured report template of the BS architecture based on the CS control ID, defining the control ID as the BS control ID, setting the CS control ID, the BS control ID and the data corresponding to the CS control ID in the logic table in the same record, analyzing the logic data of the BS control according to the logic data of the CS control, and enabling the logic data of the BS control to correspond to the logic data of the CS control one by one; the display module is respectively connected with the template corresponding module, the interface corresponding module and the data intercommunication processing module and is used for displaying the logic data of the BS structured report interface and the BS control on the cloud for a user to check.

Preferably, when the logic data of the CS control is a key image and/or a vector diagram, the data intercommunication processing module further includes an image corresponding unit, configured to parse the logic data of the key image and/or the vector diagram by using the script according to the logic data of the key image and/or the vector diagram of the structured report of the CS architecture, to form the logic data of the key image and/or the vector diagram of the structured report of the BS architecture.

Preferably, when the logic data of the CS control is a hierarchical constraint or activation relationship, the data interworking processing module further includes an event processing unit, configured to record a control ID of a trigger event, IDs of all controls that perform an action, event types, and action types in a structured report of the CS architecture, and parse the control ID of the trigger event, the IDs of all controls that perform the action, the event types, and the action types by using a script, to form the logic data of the hierarchical constraint or activation relationship of the structured report of the BS architecture.

Preferably, the data interworking processing module further includes a grammar corresponding unit, which is used for storing grammar data in the logic table while generating the structured report template of the BS architecture, analyzing and processing the grammar data by using the script, and generating the structured report grammar data of the BS architecture consistent with the structured report grammar data of the CS architecture.

On the other hand, the invention also provides a method for displaying the image structured report interface in the cloud, which comprises the following steps: the data storage module stores a logic table and structured report data of a CS (Client/Server) architecture; wherein the logic table comprises: all elements of the structured report template for each disease, various lesion attributes corresponding to each element, and hierarchical relationships between each element and element; the structured report data of the CS architecture comprises structured report template IDs, all control layouts and logic data of each control of the CS architecture, which are respectively defined as the CS template IDs, the CS control layouts and the logic data of the CS controls; wherein, the structured report template of CS architecture is automatically generated based on the logic table; the template corresponding module determines a required logic form based on the CS template ID, generates a structured report template of a BS (Browser/Server) architecture according to the logic form, sets the template ID, defines the template ID as the BS template ID, and sets the CS template ID and the BS template ID in the same row record so that the structured report template of the CS architecture corresponds to the structured report template of the BS architecture one by one; the interface corresponding module determines BS control layout based on each CS control layout to form a BS structured report interface corresponding to the CS structured report interface; the data intercommunication processing module analyzes the control ID of the structured report template of the BS architecture based on the CS control ID, defines the control ID as the BS control ID, sets the CS control ID, the BS control ID and data corresponding to the CS control ID in a logic form in the same record, analyzes and obtains the logic data of the BS control according to the logic data of the CS control, and enables the logic data of the BS control to correspond to the logic data of the CS control one by one; and the display module displays the logic data of the BS structured report interface and the BS control on the cloud for a user to check.

Preferably, when the logic data of the CS control is a key image and/or a vector image, the method further comprises: and an image corresponding unit in the data intercommunication processing module analyzes the logic data of the key image and/or the vector image by utilizing the script according to the logic data of the key image and/or the vector image of the structured report of the CS architecture to form the logic data of the key image and/or the vector image of the structured report of the BS architecture.

Preferably, when the logical data of the CS control is a hierarchical constraint or an activation relationship, the method further comprises: the event processing unit in the data intercommunication processing module records the control ID of the trigger event, the IDs of all the controls for executing the action, the event type and the action type in the structured report of the CS framework, and analyzes the control ID of the trigger event, the IDs of all the controls for executing the action, the event type and the action type by utilizing the script to form logic data of the hierarchical constraint or activation relation of the structured report of the BS framework.

Preferably, the method further comprises: the grammar corresponding unit in the data intercommunication processing module stores grammar data in the logic table while generating a structured report template of the BS framework, analyzes and processes the grammar data by utilizing the script, and generates structured report grammar data of the BS framework consistent with the structured report grammar data of the CS framework.

The invention has the technical effects that:

1. because the template corresponding module, the interface corresponding module and the data intercommunication processing module are arranged in the invention, the structured report template, the interface layout, the data content and the data logic of the BS framework are in one-to-one correspondence with the structured report of the CS framework, report data can be intercommunicated, a user can browse or modify the same structured report at a mobile terminal or a browser, a cloud terminal can browse data generated by the structured report of the CS framework, and the CS framework terminal can browse report data generated by the cloud terminal, thereby saving the operation time of doctors and facilitating patients to browse own inspection reports in time;

2. because the invention sets the image corresponding unit and the event processing unit, the image corresponding unit analyzes the logic data of the key image and/or the vector image according to the structured report of the CS architecture, and utilizes the script to analyze the logic data of the key image and/or the vector image, so as to form the logic data of the key image and/or the vector image of the structured report of the BS architecture, thereby facilitating doctors to check the focus at the cloud, upload and annotate the picture and link with other controls; the event processing unit can form logic data of hierarchical constraint and activation relation of the structured report of the BS framework, corresponds to the logic data of the CS framework one by one, can realize linkage between layers and linkage relation of control activation, brings convenience to doctors on modification operation of the structured report at the cloud, and simultaneously, the CS end can synchronously display modification suggestion of the BS end doctor on the structured report data;

3. Because the application sets the grammar corresponding unit, the grammar data (natural language data) in the logic table is saved while the structured report template of the BS framework is generated, the grammar data is analyzed and processed by utilizing the script, and the structured report grammar data of the BS framework which is consistent with the structured report grammar data of the CS framework is generated, thereby facilitating the reading of report content by a user and facilitating the understanding of disease conditions by the user.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

fig. 1 is a schematic diagram of a system architecture for displaying an image structured report interface in a cloud according to a first embodiment of the present application;

FIG. 2 is a logical table diagram of a system for displaying an image structured report interface in the cloud according to the first embodiment of the application;

fig. 3 is a schematic diagram illustrating data processing corresponding to a BS architecture structured report template and a CS architecture structured report template in a system for displaying an image structured report interface in a cloud according to an embodiment of the present application;

FIG. 4 is a diagram illustrating data generated by a structured report in a system for displaying an image structured report interface in the cloud according to the first embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a process of logically conforming the structured report data of the BS architecture to the structured report data of the CS architecture in the system for displaying the image structured report interface in the cloud according to the first embodiment of the present invention;

fig. 6 is a schematic diagram of a system architecture for displaying an image structured report interface in a cloud according to a second embodiment of the invention;

fig. 7 is a schematic diagram of a system architecture for displaying an image structured report interface in the cloud according to the third embodiment of the invention;

fig. 8 shows a schematic diagram of event processing unit data processing when logic data of a CS control is in a hierarchical constraint or activation relationship in a system for displaying an image structured report interface in a cloud according to a third embodiment of the present invention;

FIG. 9 is a logical table diagram illustrating the generation of a fracture structure report in a system for cloud-displaying an image structure report interface according to a third embodiment of the present invention;

fig. 10 shows a schematic diagram of editing a fracture structured report interface for generating a CS architecture in a system for displaying an image structured report interface in a cloud according to a third embodiment of the present invention;

Fig. 11 shows a schematic diagram of editing a fracture structured report interface for generating BS architecture in a system for displaying an image structured report interface in cloud according to the third embodiment of the present invention;

fig. 12 is a schematic diagram of a system architecture for displaying an image structured report interface in the cloud according to a fourth embodiment of the invention;

FIG. 13 is a flowchart of a method for displaying an image structured report interface in the cloud according to the fifth embodiment of the invention;

FIG. 14 is a logical table diagram showing a method for displaying an image structured report interface in the cloud according to the fifth embodiment of the invention;

fig. 15 is a schematic diagram showing data processing corresponding to a BS architecture structured report template and a CS architecture structured report template in a method for displaying an image structured report interface in a cloud according to a fifth embodiment of the present invention;

FIG. 16 is a diagram showing data generated by a structured report in a method for displaying an image structured report interface in the cloud according to the fifth embodiment of the invention;

fig. 17 is a schematic diagram illustrating a process of logically conforming the structured report data of the BS architecture to the structured report data of the CS architecture in the method for displaying the image structured report interface in the cloud according to the fifth embodiment of the present invention;

Fig. 18 shows a schematic diagram of event processing unit data processing when logic data of a CS control is in a hierarchical constraint or activation relationship in a method for displaying an image structured report interface in a cloud according to a fifth embodiment of the present invention;

FIG. 19 is a logical table diagram illustrating the generation of a fracture structure report in a method for displaying an image structure report interface in the cloud according to the fifth embodiment of the invention;

fig. 20 shows a schematic diagram of editing a fracture structured report interface for generating a CS architecture in a method for displaying an image structured report interface in a cloud according to a fifth embodiment of the present invention;

fig. 21 shows a schematic diagram of editing a fracture structured report interface for generating BS architecture in a system for displaying an image structured report interface in cloud according to the fifth embodiment of the present invention.

Detailed Description

The invention will be described in detail below with reference to the drawings in combination with embodiments.

Example 1

Fig. 1 is a schematic diagram of a system architecture for displaying an image structured report interface in a cloud according to a first embodiment of the present invention; as shown in fig. 1, the system includes a data storage module 10, a template correspondence module 20, an interface correspondence module 30, a data interworking processing module 40, and a display module 50, wherein,

The data storage module 10 is respectively connected with the template corresponding module 20, the interface corresponding module 30 and the data intercommunication processing module 40 and is used for storing the structured report data of the logic form and the CS (Client/Server) architecture; wherein the logic table comprises: all elements of the structured report template for each disease, various lesion attributes corresponding to each element, and hierarchical relationships between each element and element; the structured report data of the CS architecture comprises structured report template IDs, all control layouts and logic data of each control of the CS architecture, which are respectively defined as the CS template IDs, the CS control layouts and the logic data of the CS controls; wherein, the structured report template of CS architecture is automatically generated based on the logic table;

FIG. 2 is a logical table diagram of a system for displaying an image structured report interface in the cloud, as shown in FIG. 2, in which all elements of the image structured report template, such as one, clinical evaluation, 1, examination purpose, symptomatic visit, etc., lesion attributes, such as low density, CT values, limitations, etc., are displayed in the table according to the first embodiment of the present invention; hierarchical relationships between elements, such as: the code 2 represents one, clinical evaluation, the next layer of clinical evaluation is 2-1, the purpose of examination, the next layer of examination is 2-1-a, symptomatic visit, etc.

The method for automatically generating a structured report template about CS architecture based on a logical table has been named under the name: the system and method for automatically generating the image structured report template is disclosed in patent number 201811094773.5, application date 2018, 9 month and 19 days, publication number CN110931096A, publication date 2020, 3 month and 27 days, and detailed description is omitted herein in the invention patent of China application.

The template corresponding module 20 is respectively connected with the data storage module 10 and the display module 50, and is used for determining a required logic table based on the CS template ID, generating a structured report template of a BS (Browser/Server) architecture according to the logic table, setting the template ID, defining the template ID as the BS template ID, and setting the CS template ID and the BS template ID in the same row record so that the structured report template of the CS architecture corresponds to the structured report template of the BS architecture one by one;

fig. 3 shows a schematic data processing diagram of the correspondence between a BS structured report template and a CS structured report template in a cloud-displaying image structured report interface according to the first embodiment of the present invention, where, as shown in fig. 3, an html_id field records a unique ID of the BS structured report template, an f_app_id field records a unique ID of the CS structured report template, and an html_value records an HTML of the BS structured report template, for example, a BS structured report template with ID 103 corresponds to a CS structured report template with ID 110, and 103 and 110 are set in the same row record, so that the CS structured report template and the BS structured report template correspond to each other one by one.

The interface corresponding module 30 is respectively connected with the data storage module 10 and the display module 50, and is used for determining the layout of the BS control based on each CS control layout, and forming a BS architecture structured report interface corresponding to the CS architecture structured report interface; because the generated structured report module of the BS framework and the structured report template of the CS framework use the same logic form, and the layout logic consistent with the layout of the structured report control of the CS framework is used for generating the HTML of the structured report of the BS framework, the structured report interface of the BS framework is similar to the structured report interface of the CS framework, and the content is consistent.

The following table shows the form of the basic elements of the structured report of the CS architecture shown at the structured reporting end of the BS architecture:

the data intercommunication processing module 40 is respectively connected with the data storage module 10 and the display module 50, and is used for analyzing the control ID of the structured report template of the BS architecture based on the CS control ID, defining the control ID as the BS control ID, setting the CS control ID, the BS control ID and the data corresponding to the CS control ID in the logic table in the same record, analyzing the logic data of the BS control according to the logic data of the CS control, and enabling the logic data of the BS control to correspond to the logic data of the CS control one by one;

Each report data generated by the structured report of the CS architecture belongs to a specific control under a certain report, and a template ID of the structured report of the CS architecture and a control ID of the structured report of the CS architecture are recorded, and fig. 4 is a schematic diagram of data generated by the structured report in a system for displaying an image structured report interface in a cloud according to the first embodiment of the present invention; as shown in FIG. 4, F_MAIN_ID is used to distinguish between structured report templates, F_OBJ_ID records structured report control IDs of CS architecture, F_OBJ_VALUE records attribute VALUEs, F_PROPERTY_ID is used to record attribute types (e.g., 1 represents a control VALUE, 24 represents whether a control is available).

In order to make the structured report of BS architecture and the structured report of CS architecture data interworking and logically consistent, the structured report of BS architecture is designed to use the same data structure as the structured report of CS architecture, that is, the control ID of the structured report of CS architecture recorded in the data used by the structured report of BS architecture. It is necessary to correspond the BS control ID and the CS control ID.

Fig. 5 is a schematic diagram illustrating a process of logically conforming the structured report data of the BS architecture to the structured report data of the CS architecture in the system for displaying the image structured report interface in the cloud according to the first embodiment of the present invention; as shown in fig. 5, a part of the data of the logical table is recorded for the structured report usage of the BS architecture, and the correspondence between each row element of the logical table and the corresponding CS control ID and BS control ID is recorded. Where html_guid is BS control ID (a string parsed based on CS control ID), ris_objid is CS control ID, and the logical table level records which line of data of the logical table.

The corresponding relation between the control ID of BS architecture and the control ID of CS architecture is saved in fig. 5, so that the two control IDs can be corresponding.

Where logical data refers to some function provided by the structured report, such as:

default value: some options require default selections upon structured report fill-in, or some edit boxes require default text to be filled in initially;

default state: some controls initially require a disabled state (affected by other controls to activate);

the calculation item: the values of some controls are calculated from the values of other controls, such as summation;

the necessary filling items are as follows: some controls require that they must be filled in, otherwise the report cannot be saved.

The structured report of the BS architecture and the structured report of the CS architecture are generated by the same logic table, the logic table defines the hierarchical logic of each element in the report, the hierarchical logic is abstracted when the structured report of the BS architecture is generated, and the data intercommunication processing module 40 reads the data and implements logic data consistent with the CS architecture through script analysis.

The display module 50 is respectively connected with the template corresponding module 20, the interface corresponding module 30 and the data intercommunication processing module 40, and is used for displaying the logic data of the BS structured report interface and the BS control on the cloud for the user to check.

The implementation of the invention sets the template corresponding module, the interface corresponding module and the data intercommunication processing module, so that the structured report template, the interface layout, the data content and the data logic of the BS framework are in one-to-one correspondence with the structured report of the CS framework, report data can be intercommunicated, a user can browse or modify the same structured report at a mobile terminal or a browser, a cloud terminal can browse data generated by the structured report of the CS framework, and the CS framework terminal can browse report data generated by the cloud terminal, thereby saving the operation time of doctors and facilitating patients to browse own inspection reports in time.

Example two

Fig. 6 is a schematic diagram of a system architecture for displaying an image structured report interface in a cloud according to a second embodiment of the invention; as shown in fig. 6, when the logic data of the CS control is a key image and/or a vector diagram, the data interworking processing module 40 further includes an image correspondence unit 402, configured to parse the logic data of the key image and/or the vector diagram by using a script according to the logic data of the key image and/or the vector diagram of the structured report of the CS architecture, to form the logic data of the key image and/or the vector diagram of the structured report of the BS architecture.

For example, if a doctor uploads a key image on the CS side and marks the focus position on the key image, when the doctor browses the structured report on the BS side (cloud), the doctor can also see the key image and the marked content, and when the doctor re-marks the key image on the BS side, the doctor can also see the re-marked key image on the CS side.

According to the embodiment of the invention, the image corresponding unit is arranged, the image corresponding unit analyzes the logic data of the key image and/or the vector image according to the structured report of the CS architecture, and the logic data of the key image and/or the vector image is analyzed by utilizing the script to form the logic data of the key image and/or the vector image of the structured report of the BS architecture, so that a doctor can conveniently check the focus at the cloud, upload and annotate the picture and link with other controls.

Example III

Fig. 7 is a schematic diagram of a system architecture for displaying an image structured report interface in the cloud according to the third embodiment of the invention; as shown in fig. 7, when the logical data of the CS control is a hierarchical constraint or activation relationship, the data interworking processing module 40 further includes an event processing unit 404, configured to record the control ID of the trigger event, the IDs of all the controls performing the action, the event type, and the action type in the structured report of the CS architecture, and parse the control ID of the trigger event, the IDs of all the controls performing the action, the event type, and the action type by using the script to form the logical data of the hierarchical constraint or activation relationship of the structured report of the BS architecture.

Hierarchical constraints refer to the fact that the lower-layer control is disabled by default, and the control of the upper layer becomes available only after being selected; otherwise, after the control of the upper layer is deselected, the control of the lower layer is disabled and the content is emptied. This creates a sense of logic and hierarchy in operation. An activation relationship refers to the fact that certain controls may change the available state when selected/canceled.

Fig. 8 shows a schematic diagram of event processing unit data processing when logic data of a CS control is in a hierarchical constraint or activation relationship in a system for displaying an image structured report interface in a cloud according to a third embodiment of the present invention; as shown in fig. 8, an EVENT table t_bsr_event of EVENT relationships of a structured report of a BS architecture is recorded, and each row record represents one EVENT.

Source_guid records the control ID of the trigger EVENT, target_guids records the IDs of all controls executing the action, source_event_type records the EVENT TYPE, and target_event_type records the action TYPE.

Event types currently include:

1. selecting

2. Emptying

The action types currently include:

1. can be used

2. Disabling

3. Selecting

4. Emptying

For example, in the first record in fig. 8, when source_event_type is 2 clear and target_event_type is 4 clear, this means that when the control pointed to by source_guid is cleared, an EVENT is triggered, and all the controls pointed to by target_guid are required to perform a clear operation.

FIG. 9 is a logical table diagram illustrating the generation of a fracture structure report in a system for cloud-displaying an image structure report interface according to a third embodiment of the present invention; fig. 10 shows a schematic diagram of editing a fracture structured report interface for generating a CS architecture in a system for displaying an image structured report interface in a cloud according to a third embodiment of the present invention; fig. 11 shows a schematic diagram of editing a fracture structured report interface for generating BS architecture in a system for displaying an image structured report interface in cloud according to the third embodiment of the present invention; as shown in fig. 9, 10, and 11, the fracture structured report interface edit of the BS architecture is consistent with the fracture structured report interface edit of the CS architecture.

The embodiment of the invention is provided with the event processing unit, the event processing unit can form logic data of the hierarchical constraint and activation relation of the structured report of the BS framework and corresponds to the logic data of the CS framework one by one, the linkage relation of linkage and control activation between layers can be realized, convenience is brought to a doctor in modifying the structured report at the cloud, and meanwhile, the CS end can synchronously display the modification suggestion of the doctor at the BS end on the structured report data.

Example IV

Fig. 12 is a schematic diagram of a system architecture for displaying an image structured report interface in the cloud according to a fourth embodiment of the invention; as shown in fig. 12, the data interworking processing module 40 further includes a syntax correspondence unit 406, configured to save syntax data in the logical table while generating a structured report template of the BS architecture, analyze and process the syntax data by using a script, and generate structured report syntax data of the BS architecture consistent with the structured report syntax data of the CS architecture.

In this case, grammar refers to a section of speech (natural language) automatically generated according to the selected condition or filled-in value of a plurality of structured controls, and is generally used for describing the disease condition.

The embodiment of the invention sets the grammar corresponding unit, saves grammar data (natural language data) in the logic table while generating the structured report template of the BS framework, analyzes and processes the grammar data by utilizing the script, generates the structured report grammar data of the BS framework consistent with the structured report grammar data of the CS framework, is convenient for a user to read report content, and is beneficial to the user to understand the disease condition.

Example five

Fig. 13 is a flowchart of a method for displaying an image structured report interface in the cloud according to the fifth embodiment of the invention, as shown in fig. 13, the method includes the following steps:

step S501, a data storage module stores a logic table and structured report data of CS (Client/Server) architecture; wherein the logic table comprises: all elements of the structured report template for each disease, various lesion attributes corresponding to each element, and hierarchical relationships between each element and element; the structured report data of the CS architecture comprises structured report template IDs, all control layouts and logic data of each control of the CS architecture, which are respectively defined as the CS template IDs, the CS control layouts and the logic data of the CS controls; wherein, the structured report template of CS architecture is automatically generated based on the logic table;

FIG. 14 is a logical table diagram showing a method for displaying an image structured report interface in the cloud according to the fifth embodiment of the invention, as shown in FIG. 14, in which all elements of the image structured report template, such as one, clinical evaluation, 1, examination purpose, symptomatic visit, etc., and lesion attributes, such as low density, CT value, limitation, etc., are displayed in the table; hierarchical relationships between elements, such as: the code 2 represents one, clinical evaluation, the next layer of clinical evaluation is 2-1, the purpose of examination, the next layer of examination is 2-1-a, symptomatic visit, etc.

The method for automatically generating a structured report template about CS architecture based on a logical table has been named under the name: the system and method for automatically generating the image structured report template is disclosed in patent number 201811094773.5, application date 2018, 9 month and 19 days, publication number CN110931096A, publication date 2020, 3 month and 27 days, and detailed description is omitted herein in the invention patent of China application.

Step S502, a template corresponding module determines a required logic table based on a CS template ID, generates a structured report template of a BS (Browser/Server) architecture according to the logic table, sets the template ID, defines the template ID as the BS template ID, and sets the CS template ID and the BS template ID in the same row record so that the structured report template of the CS architecture corresponds to the structured report template of the BS architecture one by one;

Fig. 15 shows a schematic data processing diagram corresponding to a BS architecture structured report template and a CS architecture structured report template in a cloud image display method according to a fifth embodiment of the present invention, where, as shown in fig. 15, an html_id field records a unique ID of the BS architecture structured report template, an f_app_id field records a unique ID of the CS architecture structured report template, and an html_value records HTML of the BS architecture structured report template, for example, a BS architecture structured report template with ID 103 corresponds to a CS architecture structured report template with ID 110, and 103 and 110 are disposed in the same row record, so that the CS architecture structured report template and the BS architecture structured report template correspond to each other.

Step S503, the interface corresponding module determines the layout of the BS control based on each CS control layout, and forms a structured report interface of the BS architecture corresponding to the structured report interface of the CS architecture;

because the generated structured report module of the BS framework and the structured report template of the CS framework use the same logic form, and the layout logic consistent with the layout of the structured report control of the CS framework is used for generating the HTML of the structured report of the BS framework, the structured report interface of the BS framework is similar to the structured report interface of the CS framework, and the content is consistent.

The following table shows the form of the basic elements of the structured report of the CS architecture shown at the structured reporting end of the BS architecture:

step S504, the data intercommunication processing module analyzes the control ID of the structured report template of the BS architecture based on the CS control ID, defines the control ID as the BS control ID, sets the CS control ID, the BS control ID and the data corresponding to the CS control ID in a logic table in the same record, and analyzes the logic data of the BS control according to the logic data of the CS control to obtain the logic data of the BS control so that the logic data of the BS control corresponds to the logic data of the CS control one by one;

each report data generated by the structured report of the CS architecture belongs to a specific control under a certain report, and a template ID of the structured report of the CS architecture and a control ID of the structured report of the CS architecture are recorded, and fig. 16 is a schematic diagram of data generated by structuring the report in the method for displaying the image structured report interface in the cloud according to the fifth embodiment of the present invention; as shown in FIG. 16, F_MAIN_ID is used to distinguish structured report templates, F_OBJ_ID records structured report control IDs of CS architecture, F_OBJ_VALUE records attribute VALUEs, F_PROPERTY_ID is used to record attribute types (e.g., 1 represents a control VALUE, 24 represents whether a control is available).

In order to make the structured report of BS architecture and the structured report of CS architecture data interworking and logically consistent, the structured report of BS architecture is designed to use the same data structure as the structured report of CS architecture, that is, the control ID of the structured report of CS architecture recorded in the data used by the structured report of BS architecture. It is necessary to correspond the BS control ID and the CS control ID.

Fig. 17 is a schematic diagram illustrating a process of logically conforming the structured report data of the BS architecture to the structured report data of the CS architecture in the method for displaying the image structured report interface in the cloud according to the fifth embodiment of the present invention; as shown in fig. 17, a part of data of the logical table is recorded for the structured report use of the BS architecture, and the correspondence relationship between each row element of the logical table and the corresponding CS control ID and BS control ID is recorded. Where html_guid is BS control ID (a string parsed based on CS control ID), ris_objid is CS control ID, and the logical table level records which line of data of the logical table.

The control ID of BS architecture and the control ID of CS architecture are stored in fig. 17, so that the two control IDs can be associated.

Where logical data refers to some function provided by the structured report, such as:

default value: some options require default selections upon structured report fill-in, or some edit boxes require default text to be filled in initially;

default state: some controls initially require a disabled state (affected by other controls to activate);

the calculation item: the values of some controls are calculated from the values of other controls, such as summation;

the necessary filling items are as follows: some controls require that they must be filled in, otherwise the report cannot be saved.

The structured report of the BS architecture and the structured report of the CS architecture are generated by the same logic table, the logic table defines the hierarchical logic of each element in the report, the hierarchical logic is abstracted when the structured report of the BS architecture is generated, and the data intercommunication processing module reads the data and realizes the logic data consistent with the CS architecture through script analysis.

In step S505, the display module displays the logic data of the BS structured report interface and the BS control on the cloud for the user to view.

Wherein, when the logic data of the CS control is a key image and/or a vector image, the method further includes: and an image corresponding unit in the data intercommunication processing module analyzes the logic data of the key image and/or the vector image by utilizing the script according to the logic data of the key image and/or the vector image of the structured report of the CS architecture to form the logic data of the key image and/or the vector image of the structured report of the BS architecture.

For example, if a doctor uploads a key image on the CS side and marks the focus position on the key image, when the doctor browses the structured report on the BS side (cloud), the doctor can also see the key image and the marked content, and when the doctor re-marks the key image on the BS side, the doctor can also see the re-marked key image on the CS side.

Wherein, when the logic data of the CS control is a hierarchical constraint or an activation relationship, the method further includes: the event processing unit in the data intercommunication processing module records the control ID of the trigger event, the IDs of all the controls for executing the action, the event type and the action type in the structured report of the CS framework, and analyzes the control ID of the trigger event, the IDs of all the controls for executing the action, the event type and the action type by utilizing the script to form logic data of the hierarchical constraint or activation relation of the structured report of the BS framework.

Hierarchical constraints refer to the fact that the lower-layer control is disabled by default, and the control of the upper layer becomes available only after being selected; otherwise, after the control of the upper layer is deselected, the control of the lower layer is disabled and the content is emptied. This creates a sense of logic and hierarchy in operation. An activation relationship refers to the fact that certain controls may change the available state when selected/canceled.

Fig. 18 shows a schematic diagram of event processing unit data processing when logic data of a CS control is in a hierarchical constraint or activation relationship in a method for displaying an image structured report interface in a cloud according to a fifth embodiment of the present invention; as shown in fig. 18, an EVENT table t_bsr_event of EVENT relationships of structured reports of BS architecture is recorded, and each row record represents one EVENT.

Source_guid records the control ID of the trigger EVENT, target_guids records the IDs of all controls executing the action, source_event_type records the EVENT TYPE, and target_event_type records the action TYPE.

Event types currently include:

1. selecting

2. Emptying

The action types currently include:

1. can be used

2. Disabling

3. Selecting

4. Emptying

For example, in the first record in fig. 18, when source_event_type is 2 clear and target_event_type is 4 clear, this means that when the control pointed to by source_guid is cleared, an EVENT is triggered, and all the controls pointed to by target_guid are required to perform a clear operation.

FIG. 19 is a logical table diagram illustrating the generation of a fracture structure report in a method for displaying an image structure report interface in the cloud according to the fifth embodiment of the invention; fig. 20 shows a schematic diagram of editing a fracture structured report interface for generating a CS architecture in a method for displaying an image structured report interface in a cloud according to a fifth embodiment of the present invention; fig. 21 shows a schematic diagram of editing a fracture structured report interface for generating BS architecture in a system for displaying an image structured report interface in cloud according to a fifth embodiment of the present invention; as shown in fig. 19, 20, and 21, the fracture structured report interface edit of the BS architecture is consistent with the fracture structured report interface edit of the CS architecture.

Wherein the method further comprises: the grammar corresponding unit in the data intercommunication processing module stores grammar data in the logic table while generating a structured report template of the BS framework, analyzes and processes the grammar data by utilizing the script, and generates structured report grammar data of the BS framework consistent with the structured report grammar data of the CS framework.

In this case, grammar refers to a section of speech (natural language) automatically generated according to the selected condition or filled-in value of a plurality of structured controls, and is generally used for describing the disease condition.

In the embodiment of the invention, the template corresponding module, the interface corresponding module and the data intercommunication processing module are used for processing logic data, so that the structured report template, the interface layout, the data content and the data logic of the BS framework are in one-to-one correspondence with the structured report of the CS framework, the report data can be communicated, a user can browse or modify the same structured report at a mobile terminal or a browser, a cloud terminal can browse the data generated by the structured report of the CS framework, and the CS framework terminal can also browse the report data generated by the cloud terminal, thereby saving the operation time of doctors and facilitating patients to browse own examination reports in time; the image corresponding unit analyzes the logic data of the key image and/or the vector image according to the structured report of the CS architecture, and utilizes the script to analyze the logic data of the key image and/or the vector image to form the logic data of the key image and/or the vector image of the structured report of the BS architecture, thereby facilitating a doctor to check the focus at the cloud, upload and annotate the picture and link with other controls; the event processing unit can form logic data of hierarchical constraint and activation relation of the structured report of the BS framework, corresponds to the logic data of the CS framework one by one, can realize linkage between layers and linkage relation of control activation, brings convenience to doctors on modification operation of the structured report at the cloud, and simultaneously, the CS end can synchronously display modification suggestion of the BS end doctor on the structured report data; the grammar corresponding unit is used for generating the structured report template of the BS framework and simultaneously storing grammar data (natural language data) in the logic table, analyzing and processing the grammar data by utilizing the scripts to generate the structured report grammar data of the BS framework consistent with the structured report grammar data of the CS framework, so that a user can conveniently read report contents, and the user can understand disease conditions conveniently.

From the above description, it can be seen that the above embodiments of the present invention achieve the following technical effects: because the invention sets the template corresponding module, the interface corresponding module and the data intercommunication processing module, the structured report template, the interface layout, the data content and the data logic of the BS framework are in one-to-one correspondence with the structured report of the CS framework, report data can be intercommunicated, a user can browse or modify the same structured report at a mobile terminal or a browser, a cloud terminal can browse data generated by the structured report of the CS framework, and the CS framework terminal can browse report data generated by the cloud terminal, thereby saving the operation time of doctors and facilitating patients to browse own inspection reports in time; because the invention sets the image corresponding unit and the event processing unit, the image corresponding unit analyzes the logic data of the key image and/or the vector image according to the structured report of the CS architecture, and utilizes the script to analyze the logic data of the key image and/or the vector image, so as to form the logic data of the key image and/or the vector image of the structured report of the BS architecture, thereby facilitating doctors to check the focus at the cloud, upload and annotate the picture and link with other controls; the event processing unit can form logic data of hierarchical constraint and activation relation of the structured report of the BS framework, corresponds to the logic data of the CS framework one by one, can realize linkage between layers and linkage relation of control activation, brings convenience to doctors on modification operation of the structured report at the cloud, and simultaneously, the CS end can synchronously display modification suggestion of the BS end doctor on the structured report data; because the invention sets the grammar corresponding unit, the grammar data (natural language data) in the logic table is saved while the structured report template of the BS framework is generated, the grammar data is analyzed and processed by utilizing the script, and the structured report grammar data of the BS framework which is consistent with the structured report grammar data of the CS framework is generated, thereby facilitating the reading of report content by a user and facilitating the understanding of disease conditions by the user.

It will be apparent to those skilled in the art that the modules or steps of the invention described above may be implemented in a general purpose computing device, they may be concentrated on a single computing device, or distributed across a network of computing devices, or they may alternatively be implemented in program code executable by computing devices, such that they may be stored in a memory device for execution by the computing devices, or they may be separately fabricated into individual integrated circuit modules, or multiple modules or steps within them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A system for displaying an image structured report interface at a cloud end is characterized by comprising a data storage module, a template corresponding module, an interface corresponding module, a data intercommunication processing module and a display module, wherein,

The data storage module is respectively connected with the template corresponding module, the interface corresponding module and the data intercommunication processing module and is used for storing a logic form and structured report data of a CS (Client/Server) architecture; wherein the logical table comprises: all elements of the structured report template for each disease, various lesion attributes corresponding to each of the elements, and hierarchical relationships between each of the elements; the structured report data of the CS architecture comprises a structured report template ID of the CS architecture, all control IDs, the layout of all controls and logic data of each control, which are respectively defined as the CS template ID, the CS control layout and the logic data of the CS control; wherein the structured report template of the CS architecture is automatically generated based on the logical form;

the template corresponding module is respectively connected with the data storage module and the display module, and is used for determining the required logic form based on the CS template ID, generating a structured report template of a BS (Browser/Server) framework according to the logic form, setting the template ID, defining the template ID as the BS template ID, setting the CS template ID and the BS template ID in the same row of records, and enabling the structured report template of the CS framework and the structured report template of the BS framework to be in one-to-one correspondence;

The interface corresponding module is respectively connected with the data storage module and the display module and is used for determining BS control layout based on each CS control layout to form a BS structured report interface corresponding to the CS structured report interface;

the data intercommunication processing module is respectively connected with the data storage module and the display module, and is used for analyzing the control ID into a control ID of a structured report template of a BS architecture based on the CS control ID, defining the control ID as the BS control ID, setting the CS control ID, the BS control ID and data corresponding to the CS control ID in the logic table in the same record, and analyzing the logic data of the BS control according to the logic data of the CS control so as to enable the logic data of the BS control to correspond to the logic data of the CS control one by one;

the display module is respectively connected with the template corresponding module, the interface corresponding module and the data intercommunication processing module and is used for displaying the BS structured report interface and the logic data of the BS control on the cloud for a user to check.

2. The system for displaying an image structured report interface on a cloud according to claim 1, wherein when the logic data of the CS control is a key image and/or a vector image, the data intercommunication processing module further comprises an image correspondence unit, configured to parse the logic data of the key image and/or the vector image by using a script according to the logic data of the key image and/or the vector image of the structured report of the CS architecture, to form the logic data of the key image and/or the vector image of the structured report of the BS architecture.

3. The system for displaying an image structured report interface on a cloud according to claim 1, wherein when the logic data of the CS control is a hierarchical constraint or activation relationship, the data interworking processing module further comprises an event processing unit, configured to record a control ID of a trigger event, IDs of all controls performing an action, event types, and action types in the structured report of the CS architecture, and parse the control ID of the trigger event, the IDs of all controls performing the action, the event types, and the action types by using a script, to form the logic data of the hierarchical constraint or activation relationship of the structured report of the BS architecture.

4. The system for displaying an image structured report interface on a cloud as claimed in claim 1, wherein said data interworking processing module further comprises a grammar corresponding unit for storing grammar data in said logical table while generating a structured report template of said BS architecture, analyzing and processing said grammar data by using a script, and generating structured report grammar data of BS architecture consistent with structured report grammar data of CS architecture.

5. A method for displaying an image structured report interface in a cloud, the method comprising:

The data storage module stores a logic table and structured report data of a CS (Client/Server) architecture; wherein the logical table comprises: all elements of the structured report template for each disease, various lesion attributes corresponding to each of the elements, and hierarchical relationships between each of the elements; the structured report data of the CS architecture comprises a structured report template ID of the CS architecture, all control IDs, the layout of all controls and logic data of each control, which are respectively defined as the CS template ID, the CS control layout and the logic data of the CS control; wherein the structured report template of the CS architecture is automatically generated based on the logical form;

the template corresponding module determines the required logic table based on the CS template ID, generates a structured report template of a BS (Browser/Server) framework according to the logic table, sets a template ID, defines the template ID as a BS template ID, and sets the CS template ID and the BS template ID in the same row record so that the structured report template of the CS framework and the structured report template of the BS framework are in one-to-one correspondence;

the interface corresponding module determines the BS control layout based on each CS control layout to form a structured report interface of the BS framework corresponding to the structured report interface of the CS framework;

The data intercommunication processing module analyzes the control ID of the structured report template of the BS architecture based on the CS control ID, defines the control ID as the BS control ID, sets the CS control ID, the BS control ID and the data corresponding to the CS control ID in the logic table in the same record, analyzes the logic data of the BS control according to the logic data of the CS control, and enables the logic data of the BS control to correspond to the logic data of the CS control one by one;

and the display module displays the BS structured report interface and the logic data of the BS control on a cloud for a user to check.

6. The method for displaying an image structured report interface in the cloud as claimed in claim 5, wherein when the logical data of the CS control is a key image and/or a vector image, the method further comprises: and an image corresponding unit in the data intercommunication processing module analyzes the logic data of the key image and/or the vector image by utilizing a script according to the logic data of the key image and/or the vector image of the structured report of the CS architecture to form the logic data of the key image and/or the vector image of the structured report of the BS architecture.

7. The method for displaying an image structured report interface in the cloud as claimed in claim 5, wherein when the logical data of the CS control is a hierarchical constraint or an activation relationship, the method further comprises: and the event processing unit in the data intercommunication processing module records the control ID of the trigger event, the IDs of all the controls for executing the action, the event type and the action type in the structured report of the CS framework, and analyzes the control ID of the trigger event, the IDs of all the controls for executing the action, the event type and the action type by utilizing a script to form logic data of the hierarchical constraint or activation relation of the structured report of the BS framework.

8. The method of displaying an image structured report interface in the cloud as claimed in claim 5, further comprising: and a grammar corresponding unit in the data intercommunication processing module stores grammar data in the logic table while generating a structured report template of the BS framework, analyzes and processes the grammar data by utilizing scripts, and generates structured report grammar data of the BS framework consistent with the structured report grammar data of the CS framework.