CN117454856B - Medical diagnosis data editing method and system based on-line point-to-point mode - Google Patents

Abstract

The invention relates to the technical field of data editing processing, and provides a medical diagnosis data editing method and system based on an on-line point-to-point mode, wherein medical diagnosis data expected to be accessed by a user side is identified and positioned from a cloud platform, and whether data isolation processing is performed or not is determined based on the real-time data access state of the medical diagnosis data; based on the working state of the subordinate data editing interactive terminal of the cloud platform, selecting the data editing interactive terminal which is in butt joint with the user terminal and forming mirror image data corresponding to isolated medical diagnosis data, through the on-line point-to-point communication between the user terminal and the data editing interactive terminal which is in butt joint with the user terminal, the user terminal edits the mirror image data on the data editing interactive terminal, the cloud platform is prevented from bearing excessive data processing workload, the edited mirror image data fragments are returned to the cloud platform mirror to be restored to be integrated mirror image data, the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform is adjusted, and the data storage safety and editing reliability are improved.

Description

Medical diagnosis data editing method and system based on-line point-to-point mode

Technical Field

The invention relates to the technical field of data editing processing, in particular to a medical diagnosis data editing method and system based on an online point-to-point mode.

Background

Medical institutions generate large amounts of medical diagnostic data during operation, which may include data generated during examination by medical devices and data generated during interrogation by doctors. In order to ensure the storage safety and the reading convenience of the medical diagnosis data, all the medical diagnosis data are generally stored in the cloud platform in a unified way, so that a user can log in the cloud platform in a password authentication mode to access and edit the medical diagnosis data. The editing operation of the medical diagnosis data is directly provided for the user on the cloud platform, so that illegal editing of the medical diagnosis data can be effectively avoided, but when a large number of users log in the cloud platform for data editing, the data processing workload of the cloud platform can be increased, the conditions of downtime and database breakdown of the cloud platform are easily caused, and the data safety and data editing stability of the cloud platform are reduced.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a medical diagnosis data editing method and a system based on an on-line point-to-point mode, which are used for identifying and positioning medical diagnosis data expected to be accessed by a user side from a cloud platform and determining whether to perform data isolation processing or not based on the real-time data access state of the medical diagnosis data; based on the working state of all data editing interactive terminals subordinate to the cloud platform, selecting the data editing interactive terminal butted with the user side and forming mirror image data corresponding to isolated medical diagnosis data on the data editing interactive terminal, through the on-line point-to-point communication between the user side and the data editing interactive terminal butted with the user side, the user side can edit the mirror image data on the data editing interactive terminal, excessive data processing workload of the cloud platform is avoided, all mirror image data fragments which are edited are returned to the cloud platform mirror to be integrated mirror image data, the storage state of the medical diagnosis data and the integrated mirror image data on the cloud platform is adjusted, and the data storage safety and editing reliability are improved.

The invention provides a medical diagnosis data editing method based on an online point-to-point mode, which comprises the following steps:

step S1, based on a medical diagnosis data access request initiated by a user side, determining medical diagnosis data attribute information which the user side desires to access; identifying and positioning corresponding medical diagnosis data from a cloud platform based on the medical diagnosis data attribute information, and determining whether to perform data isolation processing on the medical diagnosis data based on a real-time data access state of the medical diagnosis data;

step S2, after the medical diagnosis data are in a data isolation state, determining a data editing interaction terminal which is in butt joint with the user terminal based on respective working states of all data editing interaction terminals subordinate to the cloud platform; forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal, and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal;

step S3, editing the mirror image data at the docked data editing interactive terminal based on a data editing instruction initiated by the user terminal, and synchronously returning the edited mirror image data fragment to the cloud platform based on the editing execution state; restoring all mirror image data fragments received by the cloud platform into integrated mirror image data;

S4, comparing the integrated mirror image data with the medical diagnosis data, and judging whether the integrated mirror image data is in a normal state or not; and when the integrated mirror image data is in a normal state, removing isolation of the medical diagnosis data, and adjusting the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform based on the real-time storage characteristic information of the cloud platform.

In one embodiment disclosed in the present application, in the step S1, based on a medical diagnosis data access request initiated by a user terminal, medical diagnosis data attribute information that the user terminal desires to access is determined; identifying and locating corresponding medical diagnostic data from a cloud platform based on the medical diagnostic data attribute information, and determining whether to perform data isolation processing on the medical diagnostic data based on a real-time data access state of the medical diagnostic data, including:

analyzing and processing a medical diagnosis data access request initiated by a user side to obtain terminal identity information of the user side; if the terminal identity information exists in a preset identity information list, determining that the user has data access authority; if not, determining that the user terminal does not have the data access right;

When the user side has the data access authority, extracting medical diagnosis data keyword information which the user side expects to access from the medical diagnosis data access request; screening the data storage catalogue of the cloud platform based on the medical diagnosis data keyword information, and determining the storage address information of the medical diagnosis data expected to be accessed on the cloud platform;

judging whether the medical diagnosis data which is expected to be accessed is in a real-time accessed state or not based on the storage address information; if not, transferring the medical diagnosis data to an isolated storage space in the cloud platform so as to perform data isolation processing; if yes, transferring the medical diagnosis data to an isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, and then conducting data isolation processing.

In one embodiment disclosed in the present application, in the step S2, after the medical diagnosis data is in the data isolation state, determining, based on respective working states of all data editing interaction terminals subordinate to the cloud platform, a data editing interaction terminal that interfaces with the user terminal; forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal, and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal, including:

When the medical diagnosis data is in a data isolation state, acquiring respective data editing task execution loads of all data editing interaction terminals subordinate to the cloud platform, and taking the data editing interaction terminal with the minimum data editing task execution load as a data editing interaction terminal for docking with the user side;

copying the medical diagnosis data and forming mirror image data of the medical diagnosis data on the butted data editing interactive terminal; and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal based on the network positions of the user terminal and the docked data editing interactive terminal.

In one embodiment disclosed in the present application, in the step S3, based on a data editing instruction initiated by the user terminal, editing the mirror image data at the docked data editing interactive terminal, and based on an execution state of the editing, synchronously returning the edited mirror image data fragment to the cloud platform; and restoring all the mirror image data fragments received by the cloud platform into integrated mirror image data, wherein the method comprises the following steps of:

analyzing the data editing instruction initiated by the user side, and determining editing operation type information of the medical diagnosis data expected by the user side; based on the editing operation type information, loading a corresponding editing program on the docked data editing interactive terminal so as to edit the mirror image data;

Judging whether the editing program finishes the current editing operation of the mirror image data or not based on the running log of the editing program; if yes, packaging the mirror image data fragments which have been processed by the editing operation, and synchronously returning to the cloud platform;

carrying out data content identification processing on all mirror image data fragments received by the cloud platform to obtain data content logic relation information among all mirror image data fragments; and based on the data content logic relation information, splicing and restoring all the mirror image data fragments into integrated mirror image data.

In one embodiment disclosed in the present application, in the step S4, the integrated mirror image data is compared with the medical diagnosis data, and whether the integrated mirror image data is in a normal state is determined; when the integrated mirror image data is in a normal state, removing isolation of the medical diagnosis data, and adjusting the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform based on the real-time storage characteristic information of the cloud platform, wherein the method comprises the following steps:

comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, and judging that the integrated mirror image data is not in a normal state if the data error rate of the integrated mirror image data is larger than the data error rate of the medical diagnosis data; otherwise, judging that the integrated mirror image data is in a normal state;

When the integrated mirror image data is in a normal state, transferring the medical diagnosis data out of an isolated storage space in the cloud platform, so that the isolation of the medical diagnosis data is relieved;

judging whether a storage interval of the cloud platform to the medical diagnosis data is in a storage saturation state or not, if so, replacing the medical diagnosis data by the integrated mirror image data and storing the integrated mirror image data in the storage interval; and if not, storing the integrated mirror image data and the medical diagnosis data in the storage section in a correlated manner.

The invention also provides a medical diagnosis data editing system based on an on-line point-to-point mode, which comprises:

the access request identification module is used for determining medical diagnosis data attribute information which the user side expects to access based on a medical diagnosis data access request initiated by the user side;

the data positioning and isolating module is used for identifying and positioning corresponding medical diagnosis data from the cloud platform based on the medical diagnosis data attribute information and determining whether to perform data isolating processing on the medical diagnosis data based on the real-time data access state of the medical diagnosis data;

the data editing interaction terminal determining module is used for determining the data editing interaction terminal which is in butt joint with the user terminal based on the respective working states of all the data editing interaction terminals subordinate to the cloud platform after the medical diagnosis data are in a data isolation state;

The data editing interaction terminal connection module is used for forming mirror image data of the medical diagnosis data on the butted data editing interaction terminal and constructing a point-to-point online communication channel between the user terminal and the butted data editing interaction terminal;

the data editing processing module is used for editing the mirror image data at the docked data editing interactive terminal based on a data editing instruction initiated by the user terminal, and synchronously returning the edited mirror image data fragments to the cloud platform based on the editing execution state;

the data reduction and integration module is used for reducing all the mirror image data fragments received by the cloud platform into integrated mirror image data;

the data state identification module is used for comparing the integrated mirror image data with the medical diagnosis data and judging whether the integrated mirror image data is in a normal state or not;

and the data storage adjustment module is used for removing isolation of the medical diagnosis data when the integrated mirror image data is in a normal state and adjusting the storage states of the medical diagnosis data and the integrated mirror image data on the cloud platform based on the real-time storage characteristic information of the cloud platform.

In one embodiment disclosed in the present application, the access request identifying module is configured to determine, based on a medical diagnostic data access request initiated by a user terminal, medical diagnostic data attribute information that the user terminal desires to access, including:

analyzing and processing a medical diagnosis data access request initiated by a user side to obtain terminal identity information of the user side; if the terminal identity information exists in a preset identity information list, determining that the user has data access authority; if not, determining that the user terminal does not have the data access right;

when the user side has the data access authority, extracting medical diagnosis data keyword information which the user side expects to access from the medical diagnosis data access request; screening the data storage catalogue of the cloud platform based on the medical diagnosis data keyword information, and determining the storage address information of the medical diagnosis data expected to be accessed on the cloud platform;

the data positioning and isolating module is configured to identify and position corresponding medical diagnosis data from a cloud platform based on the medical diagnosis data attribute information, and determine whether to perform data isolation processing on the medical diagnosis data based on a real-time data access state of the medical diagnosis data, and includes:

Judging whether the medical diagnosis data which is expected to be accessed is in a real-time accessed state or not based on the storage address information; if not, transferring the medical diagnosis data to an isolated storage space in the cloud platform so as to perform data isolation processing; if yes, transferring the medical diagnosis data to an isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, and then conducting data isolation processing.

In an embodiment disclosed in the present application, the data editing interaction terminal determining module is configured to determine, based on respective working states of all data editing interaction terminals subordinate to the cloud platform after the medical diagnosis data is in a data isolation state, a data editing interaction terminal that interfaces with the user terminal, where the data editing interaction terminal includes:

when the medical diagnosis data is in a data isolation state, acquiring respective data editing task execution loads of all data editing interaction terminals subordinate to the cloud platform, and taking the data editing interaction terminal with the minimum data editing task execution load as a data editing interaction terminal for docking with the user side;

The data editing interaction terminal connection module is configured to form mirror image data of the medical diagnosis data at the docked data editing interaction terminal, and construct a peer-to-peer online communication channel between the user terminal and the docked data editing interaction terminal, and includes:

copying the medical diagnosis data and forming mirror image data of the medical diagnosis data on the butted data editing interactive terminal; and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal based on the network positions of the user terminal and the docked data editing interactive terminal.

In an embodiment disclosed in the present application, the data editing processing module is configured to edit the mirror image data at the docked data editing interaction terminal based on a data editing instruction initiated by the user terminal, and synchronously return the edited mirror image data segment to the cloud platform based on an execution state of the editing, where the data editing processing module includes:

analyzing the data editing instruction initiated by the user side, and determining editing operation type information of the medical diagnosis data expected by the user side; based on the editing operation type information, loading a corresponding editing program on the docked data editing interactive terminal so as to edit the mirror image data;

Judging whether the editing program finishes the current editing operation of the mirror image data or not based on the running log of the editing program; if yes, packaging the mirror image data fragments which have been processed by the editing operation, and synchronously returning to the cloud platform;

the data reduction and integration module is configured to restore all the mirror image data segments received by the cloud platform to integrated mirror image data, and includes:

carrying out data content identification processing on all mirror image data fragments received by the cloud platform to obtain data content logic relation information among all mirror image data fragments; and based on the data content logic relation information, splicing and restoring all the mirror image data fragments into integrated mirror image data.

In an embodiment disclosed in the present application, the data state identification module is configured to compare the integrated mirror data with the medical diagnostic data, and determine whether the integrated mirror data is in a normal state, including:

comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, and judging that the integrated mirror image data is not in a normal state if the data error rate of the integrated mirror image data is larger than the data error rate of the medical diagnosis data; otherwise, judging that the integrated mirror image data is in a normal state;

The data storage adjustment module is configured to, when the integrated mirror image data is in a normal state, remove isolation of the medical diagnosis data, and adjust storage states of the medical diagnosis data and the integrated mirror image data on the cloud platform based on real-time storage feature information of the cloud platform, including:

when the integrated mirror image data is in a normal state, transferring the medical diagnosis data out of an isolated storage space in the cloud platform, so that the isolation of the medical diagnosis data is relieved;

judging whether a storage interval of the cloud platform to the medical diagnosis data is in a storage saturation state or not, if so, replacing the medical diagnosis data by the integrated mirror image data and storing the integrated mirror image data in the storage interval; and if not, storing the integrated mirror image data and the medical diagnosis data in the storage section in a correlated manner.

Compared with the prior art, the medical diagnosis data editing method and system based on the on-line point-to-point mode identify and locate the medical diagnosis data expected to be accessed by the user side from the cloud platform, and determine whether to perform data isolation processing or not based on the real-time data access state of the medical diagnosis data; based on the working state of all data editing interactive terminals subordinate to the cloud platform, selecting the data editing interactive terminal butted with the user side and forming mirror image data corresponding to isolated medical diagnosis data on the data editing interactive terminal, through the on-line point-to-point communication between the user side and the data editing interactive terminal butted with the user side, the user side can edit the mirror image data on the data editing interactive terminal, excessive data processing workload of the cloud platform is avoided, all mirror image data fragments which are edited are returned to the cloud platform mirror to be integrated mirror image data, the storage state of the medical diagnosis data and the integrated mirror image data on the cloud platform is adjusted, and the data storage safety and editing reliability are improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a medical diagnostic data editing method based on an on-line point-to-point mode according to the present invention;

fig. 2 is a schematic diagram of a framework of the medical diagnosis data editing system based on an on-line point-to-point mode according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, a flow chart of a medical diagnosis data editing method based on an on-line point-to-point mode according to an embodiment of the present invention is shown. The medical diagnosis data editing method based on the on-line point-to-point mode comprises the following steps:

step S1, based on a medical diagnosis data access request initiated by a user side, determining medical diagnosis data attribute information which the user side desires to access; identifying and positioning corresponding medical diagnosis data from the cloud platform based on the medical diagnosis data attribute information, and determining whether to perform data isolation processing on the medical diagnosis data based on the real-time data access state of the medical diagnosis data;

step S2, after the medical diagnosis data is in a data isolation state, determining a data editing interaction terminal which is in butt joint with the user terminal based on respective working states of all data editing interaction terminals subordinate to the cloud platform; forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal, and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal;

Step S3, editing the mirror image data at the docked data editing interactive terminal based on a data editing instruction initiated by the user terminal, and synchronously returning the edited mirror image data fragment to the cloud platform based on the execution state of the editing; restoring all mirror image data fragments received by the cloud platform into integrated mirror image data;

s4, comparing the integrated mirror image data with the medical diagnosis data, and judging whether the integrated mirror image data is in a normal state or not; and when the integrated mirror image data is in a normal state, removing isolation of the medical diagnosis data, and adjusting the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform based on the real-time storage characteristic information of the cloud platform.

The medical diagnosis data editing method based on the on-line point-to-point mode identifies and positions the medical diagnosis data expected to be accessed by the user side from the cloud platform, and determines whether to perform data isolation processing or not based on the real-time data access state of the medical diagnosis data; based on the working state of all data editing interactive terminals subordinate to the cloud platform, selecting the data editing interactive terminal butted with the user side and forming mirror image data corresponding to isolated medical diagnosis data on the data editing interactive terminal, through the on-line point-to-point communication between the user side and the data editing interactive terminal butted with the user side, the user side can edit the mirror image data on the data editing interactive terminal, excessive data processing workload of the cloud platform is avoided, all mirror image data fragments which are edited are returned to the cloud platform mirror to be integrated mirror image data, the storage state of the medical diagnosis data and the integrated mirror image data on the cloud platform is adjusted, and the data storage safety and editing reliability are improved.

Preferably, in the step S1, based on a medical diagnosis data access request initiated by a user terminal, medical diagnosis data attribute information that the user terminal desires to access is determined; identifying and locating corresponding medical diagnostic data from the cloud platform based on the medical diagnostic data attribute information, and determining whether to perform data isolation processing on the medical diagnostic data based on a real-time data access state of the medical diagnostic data, including:

analyzing and processing a medical diagnosis data access request initiated by a user side to obtain terminal identity information of the user side; if the terminal identity information exists in a preset identity information list, determining that the user terminal has data access authority; if not, determining that the user terminal does not have the data access right;

when the user side has the data access authority, extracting the medical diagnosis data keyword information which the user side expects to access from the medical diagnosis data access request; screening the data storage catalogue of the cloud platform based on the medical diagnosis data keyword information, and determining the storage address information of the medical diagnosis data expected to be accessed on the cloud platform;

judging whether the medical diagnosis data which is expected to be accessed is in a real-time accessed state or not based on the storage address information; if not, transferring the medical diagnosis data to an isolated storage space in the cloud platform so as to perform data isolation processing; if yes, transferring the medical diagnosis data to an isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, and then conducting data isolation processing.

In the above technical solution, the user terminal may be, but is not limited to, a smart phone or a portable computer held by the user; the cloud platform may be, but is not limited to, a cloud platform for medical institutions to store and manage medical diagnostic data; the data editing interactive terminal can be, but is not limited to, a secondary terminal which is connected with the cloud platform and is used for storing and editing the medical diagnosis data, the data editing interactive terminal can be connected with a user terminal, the user terminal can perform on-line point-to-point control on the currently connected data editing interactive terminal, and the user terminal can realize the editing operation on the medical diagnosis data by controlling the data editing interactive terminal. In actual operation, the medical diagnosis data access request initiated by the user terminal is processed, so that the user terminal is identified, whether the user terminal has data access authority is judged, and the data security of the cloud platform is improved. When the user side has the data access right, extracting the medical diagnosis data keyword information expected to be accessed by the user side from the medical diagnosis data access request, and comparing the medical diagnosis data keyword information with the data storage catalog of the cloud platform, so that the storage address information of the medical diagnosis data expected to be accessed in the cloud platform is obtained through screening, and the corresponding medical diagnosis data can be conveniently and accurately positioned from the cloud platform. In addition, based on the storage address information, the access state of the corresponding medical diagnosis data is identified, so that whether the medical diagnosis data is in a real-time accessed state (namely whether the medical diagnosis data is accessed by other user terminals in real time) is judged. When the medical diagnosis data is in a real-time accessed state, the medical diagnosis data is transferred to an isolated storage space in the cloud platform, so that data isolation processing is performed, and the medical diagnosis data is prevented from being interfered. When the medical diagnosis data is not in the real-time accessed state, the medical diagnosis data is transferred to the isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, so that data isolation processing is performed, and the normal and stable access of the user side which accesses the medical diagnosis data at present can be ensured.

Preferably, in the step S2, after the medical diagnosis data is in the data isolation state, determining a data editing interaction terminal for interfacing with the user terminal based on respective working states of all data editing interaction terminals subordinate to the cloud platform; forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal, and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal, comprising:

when the medical diagnosis data is in a data isolation state, acquiring respective data editing task execution loads of all data editing interaction terminals subordinate to the cloud platform, and taking the data editing interaction terminal with the minimum data editing task execution load as a data editing interaction terminal for docking with the user terminal;

copying the medical diagnosis data and forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal; and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal based on the respective network positions of the user terminal and the docked data editing interactive terminal.

In the technical scheme, after the medical diagnosis data is in the data isolation state, the data editing task execution loads of all the data editing interaction terminals subordinate to the cloud platform are acquired, and the data editing interaction terminal with the minimum data editing task execution load is used as the data editing interaction terminal for docking with the user terminal, so that the user terminal can be ensured to be connected with the data editing interaction terminal with the minimum data processing load, and the data editing interaction terminal can perform point-to-point communication interaction with the user terminal quickly and efficiently. In addition, after the medical diagnosis data is copied, mirror image data of the medical diagnosis data is formed in the butted data editing interactive terminal, and the mirror image data is used as the copy backup of the medical diagnosis data in the data editing interactive terminal, so that a user side can perform corresponding editing operation based on the mirror image data, and the reliability of the data editing operation of the user side is improved. And based on the network positions of the user end and the data editing interaction terminal, a point-to-point online communication channel between the user end and the data editing interaction terminal is constructed, so that the safety of communication between the user end and the data editing interaction terminal is ensured, and communication crosstalk is avoided.

Preferably, in the step S3, based on a data editing instruction initiated by the user terminal, editing the mirror image data at the docked data editing interactive terminal, and based on an execution state of the editing, synchronously returning the edited mirror image data fragment to the cloud platform; all the mirror image data fragments received by the cloud platform are restored to integrated mirror image data, which comprises the following steps:

analyzing the data editing instruction initiated by the user side, and determining editing operation type information of the medical diagnosis data expected by the user side; based on the editing operation type information, loading a corresponding editing program on the docked data editing interactive terminal so as to edit the mirror image data;

judging whether the editing program finishes the current editing operation on the mirror image data or not based on the running log of the editing program; if yes, packaging the mirror image data fragments which have been processed by the editing operation, and synchronously returning to the cloud platform;

carrying out data content identification processing on all mirror image data fragments received by the cloud platform to obtain data content logic relation information among all mirror image data fragments; and based on the data content logic relation information, splicing and restoring all the mirror image data fragments into integrated mirror image data.

In the technical scheme, the data editing instruction initiated by the user terminal is analyzed, the editing operation type information of the medical diagnosis data expected by the user terminal is determined, so that the corresponding editing program is loaded on the docked data editing interactive terminal, the mirror image data is edited, the data editing function of the data editing interactive terminal can be flexibly changed, and the editing function diversity of the medical diagnosis data is improved. Judging whether the editing program finishes the current editing operation on the mirror image data or not based on the running log of the editing program; if yes, the mirror image data fragments which have been processed by the editing operation are packaged and then synchronously returned to the cloud platform, so that the mirror image data fragments which have been edited can be timely and efficiently returned to the cloud platform, and the situation that the mirror image data fragments which have been edited are lost is avoided. And then carrying out data content identification processing on all the mirror image data fragments received by the cloud platform to obtain data content logic relation information among all the mirror image data fragments, so that all the mirror image data fragments are spliced and restored into integrated mirror image data, and the correct and comprehensive editing of the original medical diagnosis data is ensured.

Preferably, in the step S4, the integrated image data is compared with the medical diagnosis data to determine whether the integrated image data is in a normal state; when the integrated mirror image data is in a normal state, removing isolation of the medical diagnosis data, and adjusting the storage state of the medical diagnosis data and the integrated mirror image data on the cloud platform based on the real-time storage characteristic information of the cloud platform, wherein the method comprises the following steps:

comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, and judging that the integrated mirror image data is not in a normal state if the data error rate of the integrated mirror image data is larger than the data error rate of the medical diagnosis data; otherwise, judging that the integrated mirror image data is in a normal state;

when the integrated mirror image data is in a normal state, transferring the medical diagnosis data from an isolated storage space in the cloud platform, so that the isolation of the medical diagnosis data is relieved;

judging whether the storage interval of the medical diagnosis data by the cloud platform is in a storage saturation state, if so, replacing the medical diagnosis data by the integrated mirror image data and storing the integrated mirror image data in the storage interval; if not, the integrated mirror image data and the medical diagnosis data are stored in the storage section in a correlated mode.

In the above technical solution, comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, so as to determine whether the integrated mirror image data is edited normally; and when the integrated mirror image data is in a normal state, the medical diagnosis data is transferred from the isolated storage space inside the cloud platform, so that the isolation of the medical diagnosis data is released, the medical diagnosis data is released from the cloud platform conveniently, and the medical diagnosis data is operated in different modes. Judging whether the storage interval of the cloud platform to the medical diagnosis data is in a storage saturation state or not, if so, replacing the medical diagnosis data with the integrated mirror image data and storing the integrated mirror image data in the storage interval; if not, the integrated mirror image data and the medical diagnosis data are stored in the storage interval in a correlated mode, so that the cloud platform can store the integrated mirror image data correctly and reliably.

Referring to fig. 2, a schematic diagram of a framework of a medical diagnosis data editing system based on an on-line peer-to-peer mode according to an embodiment of the present invention is provided. The medical diagnosis data editing system based on the on-line point-to-point mode comprises:

The access request identification module is used for determining medical diagnosis data attribute information which the user side expects to access based on a medical diagnosis data access request initiated by the user side;

the data positioning and isolating module is used for identifying and positioning corresponding medical diagnosis data from the cloud platform based on the medical diagnosis data attribute information and determining whether to perform data isolating processing on the medical diagnosis data based on the real-time data access state of the medical diagnosis data;

the data editing interaction terminal determining module is used for determining the data editing interaction terminal which is in butt joint with the user terminal based on the respective working states of all the data editing interaction terminals subordinate to the cloud platform after the medical diagnosis data are in a data isolation state;

the data editing interactive terminal connection module is used for forming mirror image data of the medical diagnosis data on the butted data editing interactive terminal and constructing a point-to-point online communication channel between the user terminal and the butted data editing interactive terminal;

the data editing processing module is used for editing the mirror image data at the docked data editing interactive terminal based on a data editing instruction initiated by the user terminal, and synchronously returning the edited mirror image data fragment to the cloud platform based on the execution state of the editing;

The data restoration and integration module is used for restoring all the mirror image data fragments received by the cloud platform into integrated mirror image data;

the data state identification module is used for comparing the integrated mirror image data with the medical diagnosis data and judging whether the integrated mirror image data is in a normal state or not;

and the data storage adjustment module is used for removing isolation of the medical diagnosis data when the integrated mirror image data is in a normal state and adjusting the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform based on the real-time storage characteristic information of the cloud platform.

The medical diagnosis data editing system based on the on-line point-to-point mode identifies and positions the medical diagnosis data expected to be accessed by the user side from the cloud platform, and determines whether to perform data isolation processing or not based on the real-time data access state of the medical diagnosis data; based on the working state of all data editing interactive terminals subordinate to the cloud platform, selecting the data editing interactive terminal butted with the user side and forming mirror image data corresponding to isolated medical diagnosis data on the data editing interactive terminal, through the on-line point-to-point communication between the user side and the data editing interactive terminal butted with the user side, the user side can edit the mirror image data on the data editing interactive terminal, excessive data processing workload of the cloud platform is avoided, all mirror image data fragments which are edited are returned to the cloud platform mirror to be integrated mirror image data, the storage state of the medical diagnosis data and the integrated mirror image data on the cloud platform is adjusted, and the data storage safety and editing reliability are improved.

Preferably, the access request identification module is configured to determine, based on a medical diagnostic data access request initiated by a user side, medical diagnostic data attribute information that the user side desires to access, and includes:

analyzing and processing a medical diagnosis data access request initiated by a user side to obtain terminal identity information of the user side; if the terminal identity information exists in a preset identity information list, determining that the user terminal has data access authority; if not, determining that the user terminal does not have the data access right;

when the user side has the data access authority, extracting the medical diagnosis data keyword information which the user side expects to access from the medical diagnosis data access request; screening the data storage catalogue of the cloud platform based on the medical diagnosis data keyword information, and determining the storage address information of the medical diagnosis data expected to be accessed on the cloud platform;

the data positioning and isolating module is configured to identify and position corresponding medical diagnosis data from a cloud platform based on the medical diagnosis data attribute information, and determine whether to perform data isolation processing on the medical diagnosis data based on a real-time data access state of the medical diagnosis data, and includes:

Judging whether the medical diagnosis data which is expected to be accessed is in a real-time accessed state or not based on the storage address information; if not, transferring the medical diagnosis data to an isolated storage space in the cloud platform so as to perform data isolation processing; if yes, transferring the medical diagnosis data to an isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, and then conducting data isolation processing.

In the above technical solution, the user terminal may be, but is not limited to, a smart phone or a portable computer held by the user; the cloud platform may be, but is not limited to, a cloud platform for medical institutions to store and manage medical diagnostic data; the data editing interactive terminal can be, but is not limited to, a secondary terminal which is connected with the cloud platform and is used for storing and editing the medical diagnosis data, the data editing interactive terminal can be connected with a user terminal, the user terminal can perform on-line point-to-point control on the currently connected data editing interactive terminal, and the user terminal can realize the editing operation on the medical diagnosis data by controlling the data editing interactive terminal. In actual operation, the medical diagnosis data access request initiated by the user terminal is processed, so that the user terminal is identified, whether the user terminal has data access authority is judged, and the data security of the cloud platform is improved. When the user side has the data access right, extracting the medical diagnosis data keyword information expected to be accessed by the user side from the medical diagnosis data access request, and comparing the medical diagnosis data keyword information with the data storage catalog of the cloud platform, so that the storage address information of the medical diagnosis data expected to be accessed in the cloud platform is obtained through screening, and the corresponding medical diagnosis data can be conveniently and accurately positioned from the cloud platform. In addition, based on the storage address information, the access state of the corresponding medical diagnosis data is identified, so that whether the medical diagnosis data is in a real-time accessed state (namely whether the medical diagnosis data is accessed by other user terminals in real time) is judged. When the medical diagnosis data is in a real-time accessed state, the medical diagnosis data is transferred to an isolated storage space in the cloud platform, so that data isolation processing is performed, and the medical diagnosis data is prevented from being interfered. When the medical diagnosis data is not in the real-time accessed state, the medical diagnosis data is transferred to the isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, so that data isolation processing is performed, and the normal and stable access of the user side which accesses the medical diagnosis data at present can be ensured.

Preferably, the data editing interaction terminal determining module is configured to determine, based on respective working states of all data editing interaction terminals subordinate to the cloud platform, a data editing interaction terminal interfacing with the user terminal after the medical diagnosis data is in a data isolation state, and includes:

when the medical diagnosis data is in a data isolation state, acquiring respective data editing task execution loads of all data editing interaction terminals subordinate to the cloud platform, and taking the data editing interaction terminal with the minimum data editing task execution load as a data editing interaction terminal for docking with the user terminal;

the data editing interaction terminal connection module is used for forming mirror image data of the medical diagnosis data at the butted data editing interaction terminal and constructing a point-to-point online communication channel between the user terminal and the butted data editing interaction terminal, and comprises the following steps:

copying the medical diagnosis data and forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal; and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal based on the respective network positions of the user terminal and the docked data editing interactive terminal.

In the technical scheme, after the medical diagnosis data is in the data isolation state, the data editing task execution loads of all the data editing interaction terminals subordinate to the cloud platform are acquired, and the data editing interaction terminal with the minimum data editing task execution load is used as the data editing interaction terminal for docking with the user terminal, so that the user terminal can be ensured to be connected with the data editing interaction terminal with the minimum data processing load, and the data editing interaction terminal can perform point-to-point communication interaction with the user terminal quickly and efficiently. In addition, after the medical diagnosis data is copied, mirror image data of the medical diagnosis data is formed in the butted data editing interactive terminal, and the mirror image data is used as the copy backup of the medical diagnosis data in the data editing interactive terminal, so that a user side can perform corresponding editing operation based on the mirror image data, and the reliability of the data editing operation of the user side is improved. And based on the network positions of the user end and the data editing interaction terminal, a point-to-point online communication channel between the user end and the data editing interaction terminal is constructed, so that the safety of communication between the user end and the data editing interaction terminal is ensured, and communication crosstalk is avoided.

Preferably, the data editing processing module is configured to edit the mirror image data at the docked data editing interaction terminal based on a data editing instruction initiated by the user terminal, and synchronously return the edited mirror image data segment to the cloud platform based on an execution state of the editing, and includes:

analyzing the data editing instruction initiated by the user side, and determining editing operation type information of the medical diagnosis data expected by the user side; based on the editing operation type information, loading a corresponding editing program on the docked data editing interactive terminal so as to edit the mirror image data;

judging whether the editing program finishes the current editing operation on the mirror image data or not based on the running log of the editing program; if yes, packaging the mirror image data fragments which have been processed by the editing operation, and synchronously returning to the cloud platform;

the data reduction and integration module is configured to restore all the mirror image data segments received by the cloud platform to integrated mirror image data, and includes:

carrying out data content identification processing on all mirror image data fragments received by the cloud platform to obtain data content logic relation information among all mirror image data fragments; and based on the data content logic relation information, splicing and restoring all the mirror image data fragments into integrated mirror image data.

In the technical scheme, the data editing instruction initiated by the user terminal is analyzed, the editing operation type information of the medical diagnosis data expected by the user terminal is determined, so that the corresponding editing program is loaded on the docked data editing interactive terminal, the mirror image data is edited, the data editing function of the data editing interactive terminal can be flexibly changed, and the editing function diversity of the medical diagnosis data is improved. Judging whether the editing program finishes the current editing operation on the mirror image data or not based on the running log of the editing program; if yes, the mirror image data fragments which have been processed by the editing operation are packaged and then synchronously returned to the cloud platform, so that the mirror image data fragments which have been edited can be timely and efficiently returned to the cloud platform, and the situation that the mirror image data fragments which have been edited are lost is avoided. And then carrying out data content identification processing on all the mirror image data fragments received by the cloud platform to obtain data content logic relation information among all the mirror image data fragments, so that all the mirror image data fragments are spliced and restored into integrated mirror image data, and the correct and comprehensive editing of the original medical diagnosis data is ensured.

Preferably, the data status identifying module is configured to compare the integrated mirror image data with the medical diagnostic data, and determine whether the integrated mirror image data is in a normal status, and includes:

comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, and judging that the integrated mirror image data is not in a normal state if the data error rate of the integrated mirror image data is larger than the data error rate of the medical diagnosis data; otherwise, judging that the integrated mirror image data is in a normal state;

the data storage adjustment module is configured to, when the integrated mirror image data is in a normal state, remove isolation of the medical diagnosis data, and adjust storage states of the medical diagnosis data and the integrated mirror image data on the cloud platform based on real-time storage feature information of the cloud platform, including:

when the integrated mirror image data is in a normal state, transferring the medical diagnosis data from an isolated storage space in the cloud platform, so that the isolation of the medical diagnosis data is relieved;

judging whether the storage interval of the medical diagnosis data by the cloud platform is in a storage saturation state, if so, replacing the medical diagnosis data by the integrated mirror image data and storing the integrated mirror image data in the storage interval; if not, the integrated mirror image data and the medical diagnosis data are stored in the storage section in a correlated mode.

In the above technical solution, comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, so as to determine whether the integrated mirror image data is edited normally; and when the integrated mirror image data is in a normal state, the medical diagnosis data is transferred from the isolated storage space inside the cloud platform, so that the isolation of the medical diagnosis data is released, the medical diagnosis data is released from the cloud platform conveniently, and the medical diagnosis data is operated in different modes. Judging whether the storage interval of the cloud platform to the medical diagnosis data is in a storage saturation state or not, if so, replacing the medical diagnosis data with the integrated mirror image data and storing the integrated mirror image data in the storage interval; if not, the integrated mirror image data and the medical diagnosis data are stored in the storage interval in a correlated mode, so that the cloud platform can store the integrated mirror image data correctly and reliably.

As can be seen from the foregoing embodiments, the method and system for editing medical diagnostic data based on an online peer-to-peer mode identify medical diagnostic data that a positioning user desires to access from a cloud platform, and determine whether to perform data isolation processing based on a real-time data access state of the medical diagnostic data; based on the working state of all data editing interactive terminals subordinate to the cloud platform, selecting the data editing interactive terminal butted with the user side and forming mirror image data corresponding to isolated medical diagnosis data on the data editing interactive terminal, through the on-line point-to-point communication between the user side and the data editing interactive terminal butted with the user side, the user side can edit the mirror image data on the data editing interactive terminal, excessive data processing workload of the cloud platform is avoided, all mirror image data fragments which are edited are returned to the cloud platform mirror to be integrated mirror image data, the storage state of the medical diagnosis data and the integrated mirror image data on the cloud platform is adjusted, and the data storage safety and editing reliability are improved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The medical diagnosis data editing method based on the on-line point-to-point mode is characterized by comprising the following steps of:

step S1, based on a medical diagnosis data access request initiated by a user side, determining medical diagnosis data attribute information which the user side desires to access; identifying and positioning corresponding medical diagnosis data from a cloud platform based on the medical diagnosis data attribute information, and determining whether to perform data isolation processing on the medical diagnosis data based on a real-time data access state of the medical diagnosis data;

step S2, after the medical diagnosis data is in a data isolation state, determining a data editing interaction terminal which is in butt joint with the user terminal based on the respective working states of all data editing interaction terminals subordinate to the cloud platform, wherein the step comprises the steps of acquiring respective data editing task execution loads of all data editing interaction terminals subordinate to the cloud platform after the medical diagnosis data is in the data isolation state, and taking the data editing interaction terminal with the minimum data editing task execution load as the data editing interaction terminal which is in butt joint with the user terminal; forming mirror image data of the medical diagnosis data at the docked data editing interactive terminal, and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal;

Step S3, editing the mirror image data at the docked data editing interactive terminal based on a data editing instruction initiated by the user terminal, and synchronously returning the edited mirror image data fragment to the cloud platform based on the editing execution state; restoring all mirror image data fragments received by the cloud platform into integrated mirror image data;

s4, comparing the integrated mirror image data with the medical diagnosis data, and judging whether the integrated mirror image data is in a normal state or not; and when the integrated mirror image data is in a normal state, removing isolation of the medical diagnosis data, and adjusting the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform based on the real-time storage characteristic information of the cloud platform.

2. The on-line point-to-point mode-based medical diagnosis data editing method according to claim 1, wherein:

in the step S1, based on a medical diagnosis data access request initiated by a user terminal, determining medical diagnosis data attribute information which the user terminal desires to access; identifying and locating corresponding medical diagnostic data from a cloud platform based on the medical diagnostic data attribute information, and determining whether to perform data isolation processing on the medical diagnostic data based on a real-time data access state of the medical diagnostic data, including:

Analyzing and processing a medical diagnosis data access request initiated by a user side to obtain terminal identity information of the user side; if the terminal identity information exists in a preset identity information list, determining that the user has data access authority; if not, determining that the user terminal does not have the data access right;

when the user side has the data access authority, extracting medical diagnosis data keyword information which the user side expects to access from the medical diagnosis data access request; screening the data storage catalogue of the cloud platform based on the medical diagnosis data keyword information, and determining the storage address information of the medical diagnosis data expected to be accessed on the cloud platform;

judging whether the medical diagnosis data which is expected to be accessed is in a real-time accessed state or not based on the storage address information; if not, transferring the medical diagnosis data to an isolated storage space in the cloud platform so as to perform data isolation processing; if yes, transferring the medical diagnosis data to an isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, and then conducting data isolation processing.

3. The on-line point-to-point mode-based medical diagnosis data editing method according to claim 1, wherein:

in the step S2, the forming of mirror image data of the medical diagnosis data at the docked data editing interactive terminal, and the constructing of a peer-to-peer on-line communication channel between the user terminal and the docked data editing interactive terminal, includes:

copying the medical diagnosis data and forming mirror image data of the medical diagnosis data on the butted data editing interactive terminal; and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal based on the network positions of the user terminal and the docked data editing interactive terminal.

4. The on-line point-to-point mode-based medical diagnosis data editing method according to claim 1, wherein:

in the step S3, based on the data editing instruction initiated by the user terminal, editing the mirror image data at the docked data editing interactive terminal, and based on the execution state of the editing, synchronously returning the edited mirror image data fragment to the cloud platform; and restoring all the mirror image data fragments received by the cloud platform into integrated mirror image data, wherein the method comprises the following steps of:

Analyzing the data editing instruction initiated by the user side, and determining editing operation type information of the medical diagnosis data expected by the user side; based on the editing operation type information, loading a corresponding editing program on the docked data editing interactive terminal so as to edit the mirror image data;

judging whether the editing program finishes the current editing operation of the mirror image data or not based on the running log of the editing program; if yes, packaging the mirror image data fragments which have been processed by the editing operation, and synchronously returning to the cloud platform;

carrying out data content identification processing on all mirror image data fragments received by the cloud platform to obtain data content logic relation information among all mirror image data fragments; and based on the data content logic relation information, splicing and restoring all the mirror image data fragments into integrated mirror image data.

5. The on-line point-to-point mode-based medical diagnosis data editing method according to claim 1, wherein:

in the step S4, the integrated mirror image data is compared with the medical diagnosis data, and whether the integrated mirror image data is in a normal state is determined; when the integrated mirror image data is in a normal state, removing isolation of the medical diagnosis data, and adjusting the storage state of the medical diagnosis data and the integrated mirror image data in the cloud platform based on the real-time storage characteristic information of the cloud platform, wherein the method comprises the following steps:

Comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, and judging that the integrated mirror image data is not in a normal state if the data error rate of the integrated mirror image data is larger than the data error rate of the medical diagnosis data; otherwise, judging that the integrated mirror image data is in a normal state;

when the integrated mirror image data is in a normal state, transferring the medical diagnosis data out of an isolated storage space in the cloud platform, so that the isolation of the medical diagnosis data is relieved;

judging whether a storage interval of the cloud platform to the medical diagnosis data is in a storage saturation state or not, if so, replacing the medical diagnosis data by the integrated mirror image data and storing the integrated mirror image data in the storage interval; and if not, storing the integrated mirror image data and the medical diagnosis data in the storage section in a correlated manner.

6. An on-line point-to-point mode-based medical diagnostic data editing system, comprising:

the access request identification module is used for determining medical diagnosis data attribute information which the user side expects to access based on a medical diagnosis data access request initiated by the user side;

The data positioning and isolating module is used for identifying and positioning corresponding medical diagnosis data from the cloud platform based on the medical diagnosis data attribute information and determining whether to perform data isolating processing on the medical diagnosis data based on the real-time data access state of the medical diagnosis data;

the data editing interaction terminal determining module is used for determining a data editing interaction terminal which is in butt joint with the user terminal based on the respective working state of all data editing interaction terminals subordinate to the cloud platform after the medical diagnosis data are in a data isolation state, and comprises the steps of acquiring respective data editing task execution loads of all data editing interaction terminals subordinate to the cloud platform after the medical diagnosis data are in the data isolation state, and taking the data editing interaction terminal with the minimum data editing task execution load as the data editing interaction terminal which is in butt joint with the user terminal;

the data editing interaction terminal connection module is used for forming mirror image data of the medical diagnosis data on the butted data editing interaction terminal and constructing a point-to-point online communication channel between the user terminal and the butted data editing interaction terminal;

The data editing processing module is used for editing the mirror image data at the docked data editing interactive terminal based on a data editing instruction initiated by the user terminal, and synchronously returning the edited mirror image data fragments to the cloud platform based on the editing execution state;

the data reduction and integration module is used for reducing all the mirror image data fragments received by the cloud platform into integrated mirror image data;

the data state identification module is used for comparing the integrated mirror image data with the medical diagnosis data and judging whether the integrated mirror image data is in a normal state or not;

and the data storage adjustment module is used for removing isolation of the medical diagnosis data when the integrated mirror image data is in a normal state and adjusting the storage states of the medical diagnosis data and the integrated mirror image data on the cloud platform based on the real-time storage characteristic information of the cloud platform.

7. The on-line point-to-point mode based medical diagnostic data editing system according to claim 6, wherein:

the access request identification module is configured to determine medical diagnosis data attribute information that the user side desires to access, based on a medical diagnosis data access request initiated by the user side, and includes:

Analyzing and processing a medical diagnosis data access request initiated by a user side to obtain terminal identity information of the user side; if the terminal identity information exists in a preset identity information list, determining that the user has data access authority; if not, determining that the user terminal does not have the data access right;

when the user side has the data access authority, extracting medical diagnosis data keyword information which the user side expects to access from the medical diagnosis data access request; screening the data storage catalogue of the cloud platform based on the medical diagnosis data keyword information, and determining the storage address information of the medical diagnosis data expected to be accessed on the cloud platform;

the data positioning and isolating module is configured to identify and position corresponding medical diagnosis data from a cloud platform based on the medical diagnosis data attribute information, and determine whether to perform data isolation processing on the medical diagnosis data based on a real-time data access state of the medical diagnosis data, and includes:

judging whether the medical diagnosis data which is expected to be accessed is in a real-time accessed state or not based on the storage address information; if not, transferring the medical diagnosis data to an isolated storage space in the cloud platform so as to perform data isolation processing; if yes, transferring the medical diagnosis data to an isolated storage space in the cloud platform until the medical diagnosis data expected to be accessed completes the current accessed operation, and then conducting data isolation processing.

8. The on-line point-to-point mode based medical diagnostic data editing system according to claim 6, wherein:

the data editing interaction terminal connection module is configured to form mirror image data of the medical diagnosis data at the docked data editing interaction terminal, and construct a peer-to-peer online communication channel between the user terminal and the docked data editing interaction terminal, and includes:

copying the medical diagnosis data and forming mirror image data of the medical diagnosis data on the butted data editing interactive terminal; and constructing a point-to-point online communication channel between the user terminal and the docked data editing interactive terminal based on the network positions of the user terminal and the docked data editing interactive terminal.

9. The on-line point-to-point mode based medical diagnostic data editing system according to claim 6, wherein:

the data editing processing module is configured to edit the mirror image data at the docked data editing interaction terminal based on a data editing instruction initiated by the user terminal, and synchronously return the edited mirror image data segment to the cloud platform based on an execution state of the editing, where the data editing processing module includes:

Analyzing the data editing instruction initiated by the user side, and determining editing operation type information of the medical diagnosis data expected by the user side; based on the editing operation type information, loading a corresponding editing program on the docked data editing interactive terminal so as to edit the mirror image data;

judging whether the editing program finishes the current editing operation of the mirror image data or not based on the running log of the editing program; if yes, packaging the mirror image data fragments which have been processed by the editing operation, and synchronously returning to the cloud platform;

the data reduction and integration module is configured to restore all the mirror image data segments received by the cloud platform to integrated mirror image data, and includes:

carrying out data content identification processing on all mirror image data fragments received by the cloud platform to obtain data content logic relation information among all mirror image data fragments; and based on the data content logic relation information, splicing and restoring all the mirror image data fragments into integrated mirror image data.

10. The on-line point-to-point mode based medical diagnostic data editing system according to claim 6, wherein:

The data state identification module is configured to compare the integrated mirror image data with the medical diagnosis data, and determine whether the integrated mirror image data is in a normal state, including:

comparing the data error rate of the integrated mirror image data with the data error rate of the medical diagnosis data, and judging that the integrated mirror image data is not in a normal state if the data error rate of the integrated mirror image data is larger than the data error rate of the medical diagnosis data; otherwise, judging that the integrated mirror image data is in a normal state;

the data storage adjustment module is configured to, when the integrated mirror image data is in a normal state, remove isolation of the medical diagnosis data, and adjust storage states of the medical diagnosis data and the integrated mirror image data on the cloud platform based on real-time storage feature information of the cloud platform, including:

when the integrated mirror image data is in a normal state, transferring the medical diagnosis data out of an isolated storage space in the cloud platform, so that the isolation of the medical diagnosis data is relieved;

judging whether a storage interval of the cloud platform to the medical diagnosis data is in a storage saturation state or not, if so, replacing the medical diagnosis data by the integrated mirror image data and storing the integrated mirror image data in the storage interval; and if not, storing the integrated mirror image data and the medical diagnosis data in the storage section in a correlated manner.