CN116153451A - Disease receiving and curing seed analysis system based on data processing - Google Patents

Abstract

The invention relates to the technical field of medical systems, in particular to a disease receiving and curing seed analysis system based on data processing, which comprises the following components: a plurality of user terminals for transmitting information to the medical system; the medical terminals are used for transmitting information to the medical system and acquiring information from the medical system; the authorization module is used for granting the operation authorities corresponding to the user end and the medical end; the medical server is used for storing a medical information catalog of a user, storing corresponding medical information in a preset storage mode and providing corresponding information for a corresponding user end and/or a medical end which acquire the first permission and/or the second permission; the block chain networking is performed by means of the module, and the information with hidden danger to the user is screened and isolated while the confidentiality of medical information is effectively improved, so that the credibility of the system is effectively improved.

Description

Disease receiving and curing seed analysis system based on data processing

Technical Field

The invention relates to the technical field of medical systems, in particular to a disease receiving and curing seed analysis system based on data processing.

Background

The blockchain is used as a data preservation technology which is not tamperable and has high credibility, and can play a role in promoting information circulation of a medical system on the premise of guaranteeing personal privacy. Chinese patent application publication No.: CN113345570a discloses a big data extraction method and big data system based on blockchain and smart medical treatment, and the big data extraction method and big data system based on blockchain and smart medical treatment are utilized, the target user portrait characteristic is generated based on portrait component characteristics of multiple user portrait dimensions of smart medical users of the smart medical treatment distributed equipment, and can represent behavioral portrait characteristics of feedback behavioral big data, and when the feedback behavioral big data is processed, behavioral persistence characteristics and behavioral portrait characteristics of the feedback behavioral big data are comprehensively considered, and finally accurate behavioral trend attribute can be obtained, so that the classification accuracy of the feedback behavioral big data is improved, and then the big data extraction strategy of the subsequent smart medical big data is updated, so that specific smart medical big data is mined more pertinently, and the big data mining efficiency and accuracy are improved; chinese patent application publication No.: CN113192586a discloses a blockchain-based intelligent medical archive sharing method and a medical big data system, which utilize intelligent medical archive sharing data sent by any blockchain sharing node terminal to update a shared archive without adopting a specific intelligent medical archive acquisition terminal, so that updating cost of the shared archive is greatly reduced.

It can be seen that the above technical solution has the following problems: the medical information of the user cannot be effectively utilized to follow up and early warn the treatment of the user, and the medical difficulty is increased in actual operation.

Disclosure of Invention

Therefore, the invention provides a disease receiving and curing seed analysis system based on data processing, which is used for solving the problem that the prior art cannot effectively utilize the medical information of a user to follow up and early warn the treatment process of the user.

In order to achieve the above object, the present invention provides a disease receiving and curing seed analysis system based on data processing, comprising:

the system comprises a plurality of user terminals, a medical server and a plurality of user terminals, wherein the user terminals are loaded on interactive equipment and connected with the medical server, and the single user terminal is used for inputting first medical information of a single user in a first preset mode under a first preset state so that the medical server stores the first medical information of a corresponding user;

the medical terminals are loaded on the interactive equipment and connected with the medical server, and are used for transmitting second medical information of the corresponding user to the medical server in a second preset mode in a second preset state and acquiring the first medical information of the corresponding user from the medical server in a third preset mode;

the authorization module is connected with each user terminal and used for granting the first permission to the corresponding medical terminal according to the optimal allocation principle under the first interaction initiation condition, granting the second permission to the corresponding medical terminal under the second interaction initiation condition and canceling the permission state of the corresponding medical terminal under the interaction time reaching the limit condition;

the medical server is connected with the user terminals, the medical terminals and the authorization module and used for storing user medical information catalogues, storing corresponding user medical information in a preset storage mode and triggering a preset emergency processing mode under the condition that the interaction times exceed the limit;

the first preset state is that a user side initiates a medical application, the second preset state is that the authorization module grants the corresponding medical side of a single user side with the second permission, the first permission is that the corresponding medical side is authorized to read the first medical information of the corresponding user, the second permission is that the corresponding medical side is authorized to edit the second medical information of the corresponding user, and the optimal allocation principle is that the patient treatment speed preset by the medical server is the highest;

the first preset mode is to edit the first medical information of a single user, the second preset mode is to edit the second medical information of a corresponding user, the third preset mode is to read the medical information of the corresponding user, the preset storage mode is to store the medical information of the user into a blockchain, and the preset emergency processing mode is to alarm a preset emergency contact person;

the first interaction initiation condition is that a user side initiates a medical application and finishes inputting first medical information, and the second interaction initiation condition is that second medical information of a corresponding user is transmitted to the medical server in the second preset mode;

the interaction time limit condition is that the duration time of the first permission is greater than or equal to a preset standard time, and the interaction times exceeding condition is that the continuous times of the first permission are greater than or equal to preset continuous times.

Further, the authorization module determines whether to adjust the corresponding permission state according to the authorized authority duration under the authorized triggering condition, the maximum authorized duration is arranged in the authorization module,

if the permission duration is smaller than the maximum permission duration, the permission module keeps the current permission state;

and if the permission duration is longer than or equal to the maximum permission duration, the permission module sends permission expiration information to the corresponding permission object and cancels the permission state of the permission object.

The authorization triggering condition is that the authorization module authorizes the first license to be completed or the authorization module authorizes the second license to be completed.

Further, the medical server determines the category of the second medical information according to the interaction times of the user,

if the interaction times are smaller than the preset standard times, the medical server judges that the second medical information is second category information;

if the interaction times are greater than or equal to the preset standard times, the medical server judges that the second medical information is third-class information;

and, the medical server marks the first medical information as first category information;

the interaction times are the uploading times of the second medical information of the single user;

the first category information is information edited by the user side, and the second category information and the third category information are information which can be edited by the medical side;

and, the first category information and the second category information may be acquired by the user terminal or the medical terminal, and the third category information may be acquired by the medical terminal.

Further, the medical server uploads the first category information of the single user to a blockchain from a corresponding user terminal according to a first permission authorization state of the authorization module for the user under the first interaction initiation condition;

the medical server uploads the second category information and the third category information of the user to a blockchain from a corresponding medical terminal according to a second permission authorization state of the authorization module for the single user under the second interaction initiation condition;

the authorization status is that the corresponding first license or the second license is authorized.

Further, the medical server divides the medical information of the user uploaded by the medical terminal under the condition that the interaction times reach the limit, the medical terminal is provided with a preset continuous number k, wherein 0 is smaller than k and k is an integer, when the authorization module grants the first permission corresponding to the ith user to the same medical terminal for continuous k times, the medical server judges the first permission grant times Fi of the same medical terminal according to the ith user and divides the medical information of the user uploaded by the medical terminal according to the judging result,

if Fi is smaller than k, the medical server judges that the medical times of the user are in a preset health tolerance range, and classifies the medical information of the user uploaded by the medical terminal into the second category information;

if k is less than or equal to Fi, the medical server judges that the medical times of the user exceeds a preset health tolerance range, and classifies the medical information of the user uploaded by the medical terminal into the third category information;

wherein the health tolerance range is a corresponding range of the examination times of single diseases obtained according to statistics, i=1, 2,3, …, n is more than or equal to 2, and n is an integer.

Further, the medical server extracts the contact way of the emergency contact person stored in the first medical information corresponding to the ith user under the preset emergency treatment condition, and when the medical server judges that the ith user reaches the preset emergency condition, the medical server transmits the third category information of the medical end corresponding to the ith user to the emergency contact person by adopting the contact way;

the preset emergency processing condition is that the medical server detects that the medical end uploads the third category information aiming at the ith user.

Further, the medical server adjusts the preset continuous times under the preset adjusting condition, when the medical end of the jth department transmits the third category information to the medical server for the ith user, the medical server records the checking times Tij of the medical end of the jth department to the ith user, the medical server records the preset continuous times k of the jth department as kj, adjusts the value of kj with the preset adjusting time period as a period, wherein the value of kj is determined by a formula (1),

kj=λ×（T1j+T2j+……Tij）/i （1）

wherein lambda is an adjustment coefficient, which is determined by the j-th department business field;

the preset adjusting condition is that the medical server determines that the preset duration of the preset continuous times k of the single medical end is greater than or equal to the preset adjusting duration, j=1, 2,3, …, m and m are the total number of all departments.

Further, the authorization module performs continuous authorization query on a single user terminal under the condition that the interaction time reaches a limit, determines whether the corresponding authorization is continued or not according to the authorization reply result of the ith user terminal if the maximum authorization time is reached for the authorization time of the first license or the second license corresponding to the ith user terminal,

if the authorization reply result of the ith user side is a holding application, the medical server increases the checking frequency record of the medical side corresponding to the ith user once, and records the information transmitted to the medical system by the second preset mode after the medical side continuously acquires the time point of permission condition authorization as the third category information.

Further, the authorization module allocates each medical end according to the optimized allocation principle under the authorization triggering condition, and for the ith user end,

if the ith user terminal designates a single medical terminal, the authorization module grants the first permission to the designated medical terminal;

if the ith user end does not designate a medical end, the authorization module grants the first permission to a first orthotopic medical end;

and the first order medical end is the medical end with the longest duration from the last time of obtaining the first license among all medical ends which do not obtain the first license.

Further, the medical server stores the medical information to the blockchain, and stores a storage catalog of the corresponding medical information in a storage area of the medical server;

the block chain is composed of a medical server serving as a block head, and the user ends and the medical ends serving as block bodies.

Compared with the prior art, the method has the beneficial effects that the block chain networking is performed by arranging a plurality of user terminals, a plurality of medical terminals, an authorization module and a medical server, and the confidentiality of medical information is effectively improved, and meanwhile, the information with hidden danger to the user is screened and isolated, so that the credibility of the system is effectively improved.

Furthermore, by means of timing, uploading and reading authorities of the user side and the medical side are limited, so that the working efficiency of the medical system is effectively improved, and meanwhile, the credibility of the system is further improved.

Furthermore, the medical information of the user is classified, so that the user is reasonably kept secret, the medical information processing difficulty is effectively reduced, and the credibility of the system is further improved.

Furthermore, by independently storing the medical information of the user, the system space utilization efficiency is effectively improved, and the credibility of the user side is enhanced, so that the credibility of the system is further improved.

Further, by screening the treatment condition of the user, whether the information uploaded by the medical end needs to be kept secret or not is judged, and the reliability of the information is effectively enhanced, and meanwhile, the reliability of the system is further improved.

Furthermore, by setting the emergency condition, the condition of the user is informed to the corresponding personnel, so that the medical risk is effectively reduced, and the reliability of the system is further improved.

Furthermore, by adjusting the parameters in a stepwise manner, the environment is adaptively adjusted, so that the universality of the system is effectively improved, and meanwhile, the reliability of the system is further improved.

Further, the accuracy of system judgment is improved by means of denser judgment, and reliability of the system is further improved while stability of the system for emergency judgment is effectively improved.

Furthermore, by means of setting the maximum authorization time periods respectively, the medical end difference is effectively improved, and meanwhile, the reliability of the system is further improved.

Furthermore, by storing the medical information of the user into the blockchain, the system reliability is enhanced while the non-tampering of the medical information is effectively improved, so that the system reliability is further improved.

Drawings

FIG. 1 is a schematic diagram of a system for analyzing disease seeds based on data processing according to the present invention;

FIG. 2 is a block chain architecture diagram according to an embodiment of the present invention;

FIG. 3 is a schematic view illustrating editing of medical information of a user according to an embodiment of the present invention;

fig. 4 is a schematic diagram of user medical information storage according to an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, a schematic structural diagram of a system for analyzing disease types based on data processing according to the present invention is shown, including:

the system comprises a plurality of user terminals, a medical server and a plurality of user terminals, wherein the user terminals are loaded on interactive equipment and connected with the medical server, and the single user terminal is used for inputting first medical information of a single user in a first preset mode under a first preset state so that the medical server stores the first medical information of a corresponding user;

the medical terminals are loaded on the interactive equipment and connected with the medical server, and are used for transmitting second medical information of the corresponding user to the medical server in a second preset mode in a second preset state and acquiring the first medical information of the corresponding user from the medical server in a third preset mode;

the authorization module is connected with each user terminal and used for granting the first permission to the corresponding medical terminal according to the optimal allocation principle under the first interaction initiation condition, granting the second permission to the corresponding medical terminal under the second interaction initiation condition and canceling the permission state of the corresponding medical terminal under the interaction time reaching the limit condition;

the medical server is connected with the user terminals, the medical terminals and the authorization module and used for storing user medical information catalogues, storing corresponding user medical information in a preset storage mode and triggering a preset emergency processing mode under the condition that the interaction times exceed the limit;

the first preset state is that a user side initiates a medical application, the second preset state is that the authorization module grants the corresponding medical side of a single user side with the second permission, the first permission is that the corresponding medical side is authorized to read the first medical information of the corresponding user, the second permission is that the corresponding medical side is authorized to edit the second medical information of the corresponding user, and the optimal allocation principle is that the patient treatment speed preset by the medical server is the highest;

referring to fig. 2, a block chain structure is shown according to an embodiment of the present invention:

the first preset mode is to edit the first medical information of a single user, the second preset mode is to edit the second medical information of a corresponding user, the third preset mode is to read the medical information of the corresponding user, the preset storage mode is to store the medical information of the user into a blockchain, and the preset emergency processing mode is to alarm a preset emergency contact person;

the first interaction initiation condition is that a user side initiates a medical application and finishes inputting first medical information, and the second interaction initiation condition is that second medical information of a corresponding user is transmitted to the medical server in the second preset mode;

the interaction time limit condition is that the duration time of the first permission is greater than or equal to a preset standard time, and the interaction times exceeding condition is that the continuous times of the first permission are greater than or equal to preset continuous times.

The block chain networking is performed by setting a plurality of user terminals, a plurality of medical terminals, an authorization module and a medical server, so that the confidentiality of medical information is effectively improved, and meanwhile, the information with hidden danger to the user is screened and isolated, thereby effectively improving the credibility of the system.

Specifically, the authorization module determines whether to adjust the corresponding permission state according to the authorized authority duration under the authorized triggering condition, the maximum authorized duration is set in the authorization module,

if the permission duration is smaller than the maximum permission duration, the permission module keeps the current permission state;

and if the permission duration is longer than or equal to the maximum permission duration, the permission module sends permission expiration information to the corresponding permission object and cancels the permission state of the permission object.

The authorization triggering condition is that the authorization module authorizes the first license to be completed or the authorization module authorizes the second license to be completed.

By means of timing, uploading and reading authorities of the user side and the medical side are limited, and the working efficiency of the medical system is effectively improved, and meanwhile the credibility of the system is further improved.

Please refer to fig. 3 and fig. 4, which are a schematic diagram of editing user medical information and a schematic diagram of storing user medical information according to an embodiment of the present invention, respectively:

the medical server determines the category of the second medical information according to the interaction times of the user,

if the interaction times are smaller than the preset standard times, the medical server judges that the second medical information is second category information;

if the interaction times are greater than or equal to the preset standard times, the medical server judges that the second medical information is third-class information;

and, the medical server marks the first medical information as first category information;

the interaction times are the uploading times of the second medical information of the single user;

the first category information is information edited by the user side, and the second category information and the third category information are information which can be edited by the medical side;

and, the first category information and the second category information may be acquired by the user terminal or the medical terminal, and the third category information may be acquired by the medical terminal.

By means of classifying the medical information of the user, the user is reasonably kept secret, the medical information processing difficulty is effectively reduced, and meanwhile the reliability of the system is further improved.

Specifically, the medical server uploads the first category information of a single user to a blockchain from a corresponding user terminal according to a first permission authorization state of the authorization module for the user under the first interaction initiation condition;

the medical server uploads the second category information and the third category information of the user to a blockchain from a corresponding medical terminal according to a second permission authorization state of the authorization module for the single user under the second interaction initiation condition;

the authorization status is that the corresponding first license or the second license is authorized.

By independently storing the medical information of the user, the system space utilization efficiency is effectively improved, and the credibility of the user side is enhanced, so that the credibility of the system is further improved.

Specifically, the medical server divides the medical information of the user uploaded by the medical terminal under the condition that the interaction times reach a limit, the medical terminal is provided with a preset continuous number k, wherein 0 is smaller than k and k is an integer, when the authorization module grants the first permission corresponding to the ith user to the same medical terminal for continuous k times, the medical server judges the first permission grant times Fi of the same medical terminal according to the ith user and divides the medical information of the user uploaded by the medical terminal according to the judging result,

if Fi is smaller than k, the medical server judges that the medical times of the user are in a preset health tolerance range, and classifies the medical information of the user uploaded by the medical terminal into the second category information;

if k is less than or equal to Fi, the medical server judges that the medical times of the user exceeds a preset health tolerance range, and classifies the medical information of the user uploaded by the medical terminal into the third category information;

wherein the health tolerance range is a corresponding range of the examination times of single diseases obtained according to statistics, i=1, 2,3, …, n is more than or equal to 2, and n is an integer.

The first permission grant times Fi are determined by experience times or adjustment times, wherein the experience times are average times of the treatment of patients suffering from serious illness in each hospital in the area in the last 3 years, and the adjustment times are average times obtained by eliminating non-confidence times in the experience times;

the non-confidence times are times which are not in normal distribution confidence intervals.

By screening the treatment conditions of the users, whether the information uploaded by the medical end needs to be kept secret or not is judged, and the reliability of the information is effectively enhanced, and meanwhile, the reliability of the system is further improved.

Specifically, the medical server extracts the contact way of the emergency contact person stored in the first medical information corresponding to the ith user under the preset emergency treatment condition, and when the medical server judges that the ith user reaches the preset emergency condition, the medical server transmits the third category information of the medical end corresponding to the ith user to the emergency contact person by adopting the contact way;

the preset emergency processing condition is that the medical server detects that the medical end uploads the third category information aiming at the ith user.

By setting the emergency, the doctor information of the user is informed to the corresponding personnel, so that the medical risk is effectively reduced, and the reliability of the system is further improved.

Specifically, the medical server adjusts the preset continuous times under a preset adjusting condition, when the medical end of the jth department transmits the third category information to the medical server for the ith user, the medical server records the checking times Tij of the medical end of the jth department to the ith user, the medical server records the preset continuous times k of the jth department as kj, adjusts the value of kj with the preset adjusting time period as a period, wherein the value of kj is determined by a formula (1),

kj=λ×（T1j+T2j+……Tij）/i （1）

wherein lambda is an adjustment coefficient, which is determined by the j-th department business field;

the preset adjusting condition is that the medical server determines that the preset duration of the preset continuous times k of the single medical end is greater than or equal to the preset adjusting duration, j=1, 2,3, …, m and m are the total number of all departments.

By adjusting the parameters in a stepwise manner, the environment is adaptively adjusted, so that the universality of the system is effectively improved, and meanwhile, the reliability of the system is further improved.

Specifically, the authorization module performs continuous authorization query on a single user terminal under the condition that the interaction time reaches a limit, determines whether the corresponding authorization is continued or not according to the authorization reply result of the ith user terminal if the maximum authorization time is reached for the authorization time of the first license or the second license corresponding to the ith user terminal,

if the authorization reply result of the ith user side is a holding application, the medical server increases the checking frequency record of the medical side corresponding to the ith user once, and records the information transmitted to the medical system by the second preset mode after the medical side continuously acquires the time point of permission condition authorization as the third category information.

The accuracy of system judgment is improved by using denser judgment, and the reliability of the system is further improved while the stability of the system for emergency judgment is effectively improved.

Specifically, the authorization module allocates each medical end according to the optimized allocation principle under the authorization triggering condition, and for the ith user end,

if the ith user terminal designates a single medical terminal, the authorization module grants the first permission to the designated medical terminal;

if the ith user end does not designate a medical end, the authorization module grants the first permission to a first orthotopic medical end;

and the first order medical end is the medical end with the longest duration from the last time of obtaining the first license among all medical ends which do not obtain the first license.

By means of the mode that the maximum authorization time is set respectively, the medical end difference is effectively improved, and meanwhile the reliability of the system is further improved.

Specifically, the medical server stores the medical information to the blockchain, and stores a storage catalog of the corresponding medical information in a storage area of the medical server;

the block chain is composed of a medical server serving as a block head, and the user ends and the medical ends serving as block bodies.

By storing the medical information of the user into the blockchain, the system reliability is enhanced while the non-tampering of the medical information is effectively improved, so that the system reliability is further improved.

Taking a patient C corresponding to the user C as a medical user for medical treatment as an example:

when a C patient is in a medical treatment state, the C user side sends medical treatment broadcasting outwards, meanwhile, an authorization module authorizes the corresponding A medical treatment side of the A doctor to have a first permission according to the medical treatment broadcasting, meanwhile, the C user side automatically generates medical treatment information according to the uploaded first medical treatment information of the C patient and uploads the medical treatment information to a medical treatment server, after the A doctor performs diagnosis, the authorization module grants a second permission to the A medical treatment side, and the A medical treatment side uploads the medical treatment information of the C user to the medical treatment server and controls the authorization module to cancel the authorization to the A medical treatment side;

after a plurality of times, the C patient visits the doctor B in the same department again, and at the moment, the medical end B held by the doctor B can review and edit the contents uploaded by the doctor A and the user end C when obtaining the authorization;

at this time, if the doctor B is diagnosing the patient C for the 5 th time continuously, and the authorization module triggers the emergency processing mode, and at the same time, the diagnosis result of the doctor B is uploaded as the third category information, and at this time, the diagnosis result of the doctor B is transmitted to the emergency contact person of the patient C;

further, if the B doctor judges the diagnosis result as a non-urgent result, the B doctor uploads the corresponding diagnosis result from the third category information to the second category information through the B medical end.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to 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 (10)

1. A disease receiving and curing seed analysis system based on data processing, comprising:

the system comprises a plurality of user terminals, a medical server and a plurality of user terminals, wherein the user terminals are loaded on interactive equipment and connected with the medical server, and the single user terminal is used for inputting first medical information of a single user in a first preset mode under a first preset state so that the medical server stores the first medical information of a corresponding user;

the medical terminals are loaded on the interactive equipment and connected with the medical server, and are used for transmitting second medical information of the corresponding user to the medical server in a second preset mode in a second preset state and acquiring the first medical information of the corresponding user from the medical server in a third preset mode;

the authorization module is connected with each user terminal and used for granting the first permission to the corresponding medical terminal according to the optimal allocation principle under the first interaction initiation condition, granting the second permission to the corresponding medical terminal under the second interaction initiation condition and canceling the permission state of the corresponding medical terminal under the interaction time reaching the limit condition;

the medical server is connected with the user terminals, the medical terminals and the authorization module and used for storing user medical information catalogues, storing corresponding user medical information in a preset storage mode and triggering a preset emergency processing mode under the condition that the interaction times exceed the limit;

the first preset state is that a user side initiates a medical application, the second preset state is that the authorization module grants the corresponding medical side of a single user side with the second permission, the first permission is that the corresponding medical side is authorized to read the first medical information of the corresponding user, the second permission is that the corresponding medical side is authorized to edit the second medical information of the corresponding user, and the optimal allocation principle is that the medical server preset corresponding allocation principle with the fastest user medical application speed;

the first preset mode is to edit the first medical information of a single user, the second preset mode is to edit the second medical information of a corresponding user, the third preset mode is to read the medical information of the corresponding user, the preset storage mode is to store the medical information of the user into a blockchain, and the preset emergency processing mode is to alarm a preset emergency contact person;

the first interaction initiation condition is that a user side initiates a medical application and finishes inputting first medical information, and the second interaction initiation condition is that second medical information of a corresponding user is transmitted to the medical server in the second preset mode;

the interaction time limit condition is that the duration time of the first permission is greater than or equal to a preset standard time, and the interaction times exceeding condition is that the continuous times of the first permission are greater than or equal to preset continuous times.

2. The system for analyzing the received and treated seeds based on data processing as claimed in claim 1, wherein the authorization module determines whether to adjust the corresponding permission status according to the duration of the authority under the condition of authorization triggering, the authorization module is provided with the maximum duration of the authority,

if the permission duration is smaller than the maximum permission duration, the permission module keeps the current permission state;

if the permission duration is longer than or equal to the maximum authorization duration, the authorization module sends authorization expiration information to the corresponding permission object and cancels the permission state of the permission object;

the authorization triggering condition is that the authorization module authorizes the first license to be completed or the authorization module authorizes the second license to be completed.

3. The system for analyzing the received and treated seeds based on data processing as claimed in claim 2, wherein the medical server determines the category of the second medical information according to the number of interactions of the user,

if the interaction times are smaller than the preset standard times, the medical server judges that the second medical information is second category information;

if the interaction times are greater than or equal to the preset standard times, the medical server judges that the second medical information is third-class information;

and, the medical server marks the first medical information as first category information;

the interaction times are the uploading times of the second medical information of the single user;

the first category information is information edited by the user side, and the second category information and the third category information are information which can be edited by the medical side;

and, the first category information and the second category information may be acquired by the user terminal or the medical terminal, and the third category information may be acquired by the medical terminal.

4. The system of claim 3, wherein the medical server uploads the first category information of a single user from a corresponding client to a blockchain based on a first license authorization status of the authorization module for the user under the first interaction initiation condition;

the medical server uploads the second category information and the third category information of the user to a blockchain from a corresponding medical terminal according to a second permission authorization state of the authorization module for the single user under the second interaction initiation condition;

the authorization status is that the corresponding first license or the second license is authorized.

5. The system for analyzing the received and treated disease based on data processing as claimed in claim 4, wherein the medical server divides the medical information of the user uploaded by the medical terminal under the condition that the number of interactions reaches a limit, the medical terminal is provided with a preset continuous number k, wherein 0 < k and k are integers, when the authorization module grants the first permission corresponding to the ith user to the same medical terminal continuously k times, the medical server determines the first permission grant number Fi of the same medical terminal according to the ith user, and divides the medical information of the user uploaded by the medical terminal according to the determination result,

if Fi is smaller than k, the medical server judges that the medical times of the user are in a preset health tolerance range, and classifies the medical information of the user uploaded by the medical terminal into the second category information;

if k is less than or equal to Fi, the medical server judges that the medical times of the user exceeds a preset health tolerance range, and classifies the medical information of the user uploaded by the medical terminal into the third category information;

wherein the health tolerance range is a corresponding range of the examination times of single diseases obtained according to statistics, i=1, 2,3, …, n is more than or equal to 2, and n is an integer.

6. The system for analyzing received and treated disease based on data processing according to claim 5, wherein the medical server extracts a contact way of an emergency contact person stored in the first medical information corresponding to the ith user under a preset emergency treatment condition, and when the medical server judges that the ith user reaches a preset emergency condition, the medical server transmits the third category information of a medical end corresponding to the ith user to the emergency contact person by adopting the contact way;

the preset emergency processing condition is that the medical server detects that the medical end uploads the third category information aiming at the ith user.

7. The system according to claim 6, wherein the medical server adjusts the preset continuous number of times under a preset adjustment condition, and for a medical terminal of a j-th department, when the medical terminal of the j-th department transmits the third category information to the medical server for the i-th user, the medical server records the number of times Tij of checking the medical terminal of the j-th department for the i-th user, the medical server records the preset continuous number k of the j-th department as kj, and adjusts a value of kj in a period of a preset adjustment period, wherein the value of kj is determined by formula (1),

kj=λ×（T1j+T2j+……Tij）/i （1）

wherein lambda is an adjustment coefficient, which is determined by the j-th department business field;

the preset adjusting condition is that the medical server determines that the preset duration of the preset continuous times k of the single medical end is greater than or equal to the preset adjusting duration, j=1, 2,3, …, m and m are the total number of all departments.

8. The system of claim 7, wherein the authorization module performs continuous authorization query on a single ue under the condition that the interaction time reaches a limit, determines whether the corresponding authorization is continued according to the authorization reply result of the ith ue if the authorization time reaches the maximum authorization time for the first license or the second license corresponding to the ith ue,

if the authorization reply result of the ith user side is a holding application, the medical server increases the checking frequency record of the medical side corresponding to the ith user once, and marks the second medical information transmitted to the medical server by the second preset mode after the medical side continuously acquires the time point of permission condition authorization as the third category information.

9. The system for analyzing the types of diseases received based on data processing according to claim 8, wherein the authorization module assigns each medical terminal according to the optimal assignment principle under the authorization trigger condition, and for the ith user terminal,

if the ith user terminal designates a single medical terminal, the authorization module grants the first permission to the designated medical terminal;

if the ith user end does not designate a medical end, the authorization module grants the first permission to a first orthotopic medical end;

and the first order medical end is the medical end with the longest duration from the last time of obtaining the first license among all medical ends which do not obtain the first license.

10. The data processing-based disease receiving and curing seed analysis system of claim 9, wherein the medical server stores the medical information to the blockchain and stores a storage directory of the corresponding medical information in a storage area of the medical server;

the block chain is composed of a medical server serving as a block head, and the user ends and the medical ends serving as block bodies.

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