CN112242186B - Blood test result output customization system - Google Patents

Abstract

The invention provides a blood detection result output customization system which is better than the prior art based on medical system medical record information, in particular privacy and safety consideration in the blood detection result information transmission of cases, and performs data transmission after fitting blood detection result sets and detector information of a plurality of blood detection objects in a customized manner, the attacker cannot directly obtain the private data of a case and conduct the data separation of a single case from it, meanwhile, the first ciphertext transmission part and the indicated ciphertext matrix are introduced to further improve the defense capability of privacy disclosure output by the blood detection result, and the system data of the base number storage part of the fitting result set is fully referred to at the blood detection data analysis end, and the blood detection result fitting data transmission and the blood detection result separation data checking are realized through skillful introduction of a third blood detection object and a data combination algorithm, so that the system performance is particularly excellent.

Description

Blood test result output customization system

Technical Field

The invention belongs to the technical field of new-generation computer medical information, and particularly relates to a blood detection result output customization system.

Background

With the development of medical information systems, more and more IT technologies and corresponding management information systems are applied to the medical field and deeply participate in the management and system interaction of medical information.

As a representative of informatization in the medical field, a Hospital Information System (HIS for short) has been widely used in developed countries, and has created good social and economic benefits. The medical information system is a necessary technical support and infrastructure for modern hospital operation, and the aim of realizing the medical information system is to strengthen the management of the hospital by means of more modernization, scientification and standardization, improve the working efficiency of the hospital and improve the medical quality, so that a new image of the modern hospital is established, which is an inevitable direction for the development of the hospital in the future.

The hospital information system utilizes the modernized means such as computer software and hardware technology, network communication technology and the like to comprehensively manage the people flow, the logistics and the financial flow of the hospital and all the departments to which the hospital belongs, and collects, stores, processes, extracts, transmits and summarizes data generated in all the stages of medical activities to form various information, thereby providing a comprehensive automatic management and various service information system for the integral operation of the hospital. The hospital information system mainly comprises a hardware system and a software system. In terms of hardware, a high-performance central electronic computer or server, a large-capacity storage device, user terminal equipment distributed throughout departments of a hospital, a data communication line and the like are required to form a computer network for sharing information resources; in terms of software, a computer software system with multiple functions oriented to multiple users is needed, including system software, application software, software development tools and the like, and various hospital information databases and database management systems are needed.

From a subdivision of functions and systems, hospital information systems can generally be divided into three parts: the first is a management information system which meets the management requirements; the second is a medical information system which meets medical requirements; and thirdly, the information service system meets the two requirements, and each subsystem can be divided into a plurality of subsystems. In addition, many hospitals also undertake tasks such as clinical teaching, scientific research, social health care, medical insurance and the like, so corresponding information systems should be arranged in hospital information systems. The hospital information system should have the following basic functions: all data required by the hospital is collected and permanently stored. Since hospital information, particularly patient information, has a dynamic data structure and a characteristic of rapid increase of data, a hospital information system should have a large capacity storage function. And (4) sharing data. Various data required by hospital work can be provided quickly and accurately at any time, and various basic activities in hospital operation are supported. The system has the functions of single transaction processing, comprehensive transaction processing and decision assistance. The system has effective functions of data management and data communication, and ensures the accuracy, reliability, confidentiality and safety of data. In order to ensure that the medical activities and the hospital activities operate uninterruptedly, the system should have a function of continuous operation. Has practical and effective safety and maintenance measures, and ensures the safety of the system. And the system is provided with necessary software and a database for supporting system development and research work. The method has good user environment, and the application and operation of the terminal user are simple, convenient, easy to learn and understand. The system has expandability.

Modern hospitals are large in scale, complex in relationship, and high in requirements for high sharing and response time of clinical information and management information, and therefore, a hospital information system based on a computer network has the following characteristics: technical support is as follows: computer, computer network (and communication) technology is the hardware support of hospital information systems; network management systems, database technologies and database systems are the software environment of hospital information systems. Support for online transactions: information flow in a hospital occurs along with various window business processes, which may be administrative management business of people, property and things in the hospital, or medical affairs of closing doors, emergency patients and inpatients; the HIS is divided into subsystems and sub-systems, and the subsystems are designed to support the daily and large amount of foreground transaction processing. And information summarization and analysis of the management department are supported: departments of a hospital are burdened with heavy management tasks, and as the management work of the departments is scientific, the departments increasingly rely on basic data collected from the basic level to perform summarization, statistics and analysis so as to evaluate the working conditions of basic level departments and individuals managed by the departments, and accordingly plan, supervise and prompt execution, generate reports and make decisions. The computerized information system supports the data collection, integration, aggregation, report analysis and storage of the middle level department. Complexity and standardization of medical information: the information of the patient is expressed by various data types, and not only has characters and data, but also needs figures, charts, images and the like; the data objects processed by the method have both structured data and semi-structured or unstructured data; even some data and structures are more affected by human intervention and social factors. The key for solving the problem of complex medical information is to realize medical information standardization. Security and confidentiality of information: patient medical records are legal documents that play an important role not only in medical dispute cases, but also in many other legal procedures, while often relating to patient privacy. There are strict confidentiality requirements for personnel, financial, and even patient medical information. The life of the hospital information system: the hospital information system is the mapping of the actual business management and management of the hospital and the innovation scheme in the information system, and plays a promoting role in the management, management and innovation of the hospital after the hospital information system of the hospital is built; but at the same time, the defects and shortcomings of the information system are highlighted in the new practical environment and the new cooperative requirements of all departments; information systems are faced with new conflicts and new improvements are needed. The dependency relationship of the hospital information system on the actual hospital system is just the concrete embodiment of the life of the hospital information system. The stationary phase of a hospital information system occurs only when the hospital business has progressed to a relatively saturated and stable stage.

Blood detection is one of necessary means for medical detection and assay, and provides effective basis for collecting blood information data of a detected object, and carrying out symptomatic medicine administration and subsequent diagnosis. However, since blood detection relates to patient privacy, the security and confidentiality of information becomes important with the introduction of information systems during blood detection, and how to transmit the detection result to the target administrator seamlessly through the system improvement, anti-theft, privacy and data structuring without easy disclosure of the detection result becomes one of the technical problems to be realized in the blood detection system by customizing the information of the blood detection system.

The invention is based on privacy and security in the case history information transmission, have proposed a blood test result output customization system that is especially better than prior art, 1. through carrying on the data fitting of the first test result set and second test result set, avoid transmitting the test and analysis result of single person in the blood test analysis and output system, and customize and carry on the data transmission with the blood test result set, inspector's information of the first blood test object and second blood test object at the same time, even the attacker obtains the test data after fitting through the security attack, because the particular data of data structure and each field stored in it are the data after fitting, therefore the attacker can't obtain the privacy data of the case directly and implement the data separation of single case from it; 2. by introducing the first ciphertext transmission part and the ciphertext matrix indicated by the first ciphertext transmission part, setting a specific corresponding mask masking factor for the first blood detection object and the second blood detection object which are subjected to fitting detection at each time, and introducing the mask length associated with the combination of the first blood detection object and the second blood detection object in the data load field, the initial position setting of a fitting structure body of the unspecific first blood detection object and the second blood detection object is realized, the difficulty of an attacker for guessing the data availability and the data real position of the data field of the data packet load is increased, and the defense capability for data attack and data privacy disclosure is further improved; 3. the separation of the transmission of the ciphertext matrix and the data structure body is realized by avoiding the ciphertext matrix from being carried in data transmission and adopting a ciphertext matrix localization strategy, so that an attacker can intercept a data packet of blood detection data and can not analyze a mask and corresponding meanings of the mask; 4. at a blood detection data analysis end, system data of a fitting result set basis number storage part is fully referred to, an original data structure body of single separation data is obtained under model calculation of multiple fitting data through ingenious introduction of a third blood detection object and a data combination algorithm, and blood detection result component data represented by each field is further obtained, so that excellent system safety performance of fitting data transmission-separation data checking is achieved, and better blood detection data acquisition, transmission and display effects are achieved.

Disclosure of Invention

The present invention is directed to a blood test result output customization system that is superior to the prior art.

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

a blood test result output customization system is provided, and the system comprises the following modules:

the first detection result set is used for carrying out blood detection on a first blood detection object and acquiring first result set data, and the first result set data at least comprises the blood detection result of the first blood detection object;

and the first detection result set is used for carrying out blood detection on the second blood detection object and acquiring second result set data. The second result set data includes at least a blood test result of a second blood test object;

a detection result fitting unit for performing data fitting of the first result set data and the second result set data to obtain fitting result set data;

the performing of the data fitting of the first result set data and the second result set data specifically includes:

fitting a first result set data structure with a second result set data structure, wherein the first result set data structure and the second result set data structure have the same data structure;

said fitting the first result set data structure with the second result set data structure further comprises at least:

searching corresponding fields in the first result set data structure body and the second result set data structure body;

adding the values of the field values of the corresponding fields in the first result set data structure and the second result set data structure to obtain the values of the field values of the corresponding fields in the fitting structure;

combining the field values of the fields corresponding to the first result set data structure and the second result set data structure into fitting structure data K1+2 after all the field values are obtained;

the first ciphertext transmission part is used for transmitting a first ciphertext matrix preset by the system, and the first ciphertext matrix is used for representing the corresponding relation between the information combination of the testers participating in the detection and the data integration factor;

a first examiner information transmission unit for transmitting examiner information on the first blood test object and the second blood test object to the test data integration unit;

a detection data integration part at least used for obtaining a detector ciphertext according to the detector information of the first ciphertext matrix, the first blood detection object and the second blood detection object and obtaining an integrated blood detection result by calculation according to the detector ciphertext and the fitting result set data;

the detection software analysis part receives the integrated blood detection result, performs integrated blood detection result data packet analysis based on the fitting result set base number storage part, obtains the separated blood detection result in the integrated blood detection result, and stores the analysis result into the fitting result set base number storage part, wherein the analysis result at least comprises the fitting structure data of the integrated blood detection result data packet analysis and the corresponding detector combination;

a fitting result set base number storage part for storing a fitting result set base number, namely fitting structure body data serving as a comparison base number and used for subsequent integrated blood detection result data packet analysis, and corresponding detector combinations;

and the detection software output part is used for sending and displaying the separated blood detection result to a system user according to the user requirement.

Preferably, each row of the ciphertext matrix at least comprises a detector information column participating in detection and a data integration factor column, the detector information column comprises various different detector information combinations, the detector information combination is a combination of any two pieces of detector information, the detector information column and the data integration factor column are in one-to-one correspondence in the ciphertext matrix according to row numbers, and the corresponding data integration factor can be obtained by inputting any detector information combination based on the ciphertext matrix.

Preferably, the inspector information includes: a subject ID of a blood test subject, which is a system preset numerical value ID.

Preferably, the fitting result set base number storage unit is configured to store a fitting result set base number, that is, a comparison base number fitting result set for subsequently integrating blood test result data packet analysis, and specifically includes:

the fitting result set base number storage unit stores fitting structure data received in the system history, and records the tester information, that is, the tester ID combination, of the first blood test object and the second blood test object corresponding to the fitting.

Preferably, the detection data integrating part is at least configured to obtain a ciphertext of the detector according to the first ciphertext matrix, the first blood detection object, and the detector information of the second blood detection object, and calculate an integrated blood detection result according to the ciphertext of the detector and the fitting result set data, and specifically:

acquiring corresponding data integration factors according to the first ciphertext matrix, the first blood detection object and the detector information of the second blood detection object;

and taking the fitting structure data as fitting result set data, directly connecting the information of the testers of the first blood test object and the second blood test object, taking the whole body as a load field of the integrated blood test result data packet, adding a mask at the initial position of the load field according to the integration factor, namely the length indicated by the ciphertext of the testers, wherein the mask is an interference code preset by a system and is used for masking the initial position of the real fitting structure data from an attacker.

Preferably, the data integration factor is used to indicate the length of a mask in the integrated blood test result, the mask being used to specify the start position of the fitting structure in the load portion of the integrated blood test result data packet;

the mask is an interference code preset by the system, and specifically comprises the following steps: the system presets the interference code exceeding the load length, and intercepts the interference code from the low order according to the length appointed by the integration factor, and the interference code is used as a mask used in the integration of the detection result.

Preferably, the mask is used to specify the start position of the fitting structure at the load part of the integrated blood test result data packet, specifically:

the initial position of the fitting structure in the integrated blood test result data packet load part is N +1 byte, where N is the length of the mask, i.e. the length specified by the integration factor.

Preferably, a first ciphertext matrix is preset in a detection software analysis part of the system.

Preferably, the detection software analysis unit receives the integrated blood detection result, performs analysis on the integrated blood detection result data packet, and obtains the separated blood detection result in the integrated blood detection result, specifically:

obtaining the tester IDs of the first blood test object and the second blood test object in the integrated blood test result data packet;

searching a local first ciphertext matrix to obtain a corresponding data integration factor;

judging the mask length of the load data field according to the corresponding data integration factor, and judging the initial position of the fitting structure body data based on the mask length;

acquiring fitting structure data K1+ 2;

selecting a third blood test object based on the stored data of the fitting result set basis number storage unit, wherein:

the fitting result set radix number storage unit stores corresponding fitting structure data K1+3 of a combination of first blood test object and third blood test object detector information and corresponding fitting structure data K2+3 of a combination of second blood test object and third blood test object detector information;

first result set data of a first blood test subject and second result set data of a second blood test subject are obtained using the following calculation method:

the first result set data ═ K1+2+ K1+3-K2+ 3)/2;

second result set data ═ K1+2+ K2+3-K1+ 3)/2;

wherein K1+2+ K1+3 represents numerical addition of the corresponding field values of the structure K1+2 and the structure K1+ 3; k1+2 to K1+3 are values of the corresponding field values of the structure K1+2 and the structure K1+3 subtracted from each other; and/2 represents that the corresponding field value of the structure is divided by 2, the parenthesis represents the operation sequence, and the operation sequence in the parenthesis has priority.

Preferably, the detection software output unit provides data of a result set of a corresponding blood test object based on a tester ID corresponding to the blood test object input by a user, and displays the data by field based on a structure data structure of the result set of the blood test object.

The invention provides a blood detection result output customization system, which is better than the prior art based on privacy and safety consideration in medical record information transmission, 1, the invention avoids transmitting the detection and analysis results of a single person in a blood detection analysis and output system by performing data fitting of a first detection result set and a second detection result set, and the blood detection result set and the detector information of the first blood detection object and the second blood detection object are transmitted in a customized manner, even if an attacker acquires the fitted detection data through security attack, because the stored data structure and the specific data of each field are the fitted data, the attacker cannot directly acquire the private data of a case and conduct data separation of a single case from it; 2. by introducing the first ciphertext transmission part and the ciphertext matrix indicated by the first ciphertext transmission part, setting a specific corresponding mask masking factor for the first blood detection object and the second blood detection object which are subjected to fitting detection at each time, and introducing the mask length associated with the combination of the first blood detection object and the second blood detection object in the data load field, the initial position setting of a fitting structure body of the unspecific first blood detection object and the second blood detection object is realized, the difficulty of an attacker for guessing the data availability and the data real position of the data field of the data packet load is increased, and the defense capability for data attack and data privacy disclosure is further improved; 3. the separation of the transmission of the ciphertext matrix and the data structure body is realized by avoiding the ciphertext matrix from being carried in data transmission and adopting a ciphertext matrix localization strategy, so that an attacker can intercept a data packet of blood detection data and can not analyze a mask and corresponding meanings of the mask; 4. at a blood detection data analysis end, system data of a fitting result set basis number storage part is fully referred to, an original data structure body of single separation data is obtained under model calculation of multiple fitting data through ingenious introduction of a third blood detection object and a data combination algorithm, and blood detection result component data represented by each field is further obtained, so that excellent system safety performance of fitting data transmission-separation data checking is achieved. The blood detection data acquisition, transmission and display effects are better.

Drawings

FIG. 1 is a diagram showing a basic system configuration of a blood test result output customizing system according to the present invention;

FIG. 2 is a diagram illustrating an embodiment of the basic data structure of a blood test result output customization system according to the present invention;

FIG. 3 is a schematic diagram of a first ciphertext matrix of an exemplary embodiment of the present invention illustrating a blood test result output customization system;

FIG. 4 is a diagram illustrating a preferred embodiment of integrating blood test result data packets in a blood test result output customization system according to the present invention.

FIG. 5 is a schematic diagram of a preferred embodiment of the present invention showing the calculation of the first result set data and the second result set data in the blood test result output customization system.

Detailed Description

Several embodiments and benefits of the blood test result output-based customized system claimed herein are described in detail below to facilitate a more detailed review and decomposition of the present invention.

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that although the terms first, second, etc. may be used in embodiments of the invention to describe methods and corresponding apparatus, these keywords should not be limited to these terms. These terms are only used to distinguish keywords from each other. For example, the first result set data structure, the first ciphertext matrix, etc. may also be referred to as the second result set data, the second result set data structure, the second ciphertext matrix, and similarly, the second result set data structure, the second ciphertext matrix, etc. may also be referred to as the first result set data, the first result set data structure, the first ciphertext matrix, etc. without departing from the scope of embodiments of the present invention.

The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination" or "in response to a detection", depending on the context. Similarly, the phrases "if determined" or "if detected (a stated condition or event)" may be interpreted as "when determined" or "in response to a determination" or "when detected (a stated condition or event)" or "in response to a detection (a stated condition or event)", depending on the context.

As shown in fig. 1, the blood test result output customization system of the claimed invention comprises:

the first detection result set is used for carrying out blood detection on a first blood detection object and acquiring first result set data, and the first result set data at least comprises the blood detection result of the first blood detection object;

and the first detection result set is used for carrying out blood detection on the second blood detection object and acquiring second result set data. The second result set data includes at least a blood test result of a second blood test object;

a detection result fitting unit for performing data fitting of the first result set data and the second result set data to obtain fitting result set data;

the performing of the data fitting of the first result set data and the second result set data specifically includes:

fitting a first result set data structure with a second result set data structure, wherein the first result set data structure and the second result set data structure have the same data structure;

referring to fig. 2 of the present application, as another embodiment that can be superimposed, fig. 2 is a diagram illustrating an embodiment of a basic data structure of a blood test result output customization system, wherein a first result set data structure and a second result set data structure have the same data structure detection-status, and the data structure at least includes:

a field Int _ percent num1 for storing a detected Hemoglobin-related parameter, such as content, and a corresponding parameter value Hemoglobin;

a field Int _ percentNum2 for storing the detected platelet-related parameter (e.g. content), and the corresponding parameter value Platelets;

and the like, not listed here, and those skilled in the art can set reasonable data structure fields of the result set according to various factors such as blood detection requirements, specific technical environment, system requirements and the like;

as another preferred embodiment that can be superimposed, the result set data structure body field is always a numeric field that can be added or subtracted in a numeric sense, such as int, etc.;

in another preferred embodiment, which can be superimposed, Int _ percentNum1, Int _ percentNum2, etc. are all numeric fields.

Said fitting the first result set data structure with the second result set data structure further comprises at least:

searching corresponding fields in the first result set data structure body and the second result set data structure body;

adding the values of the field values of the corresponding fields in the first result set data structure and the second result set data structure to obtain the values of the field values of the corresponding fields in the fitting structure;

combining the field values of the fields corresponding to the first result set data structure and the second result set data structure into fitting structure data K1+2 after all the field values are obtained;

the first ciphertext transmission part is used for transmitting a first ciphertext matrix preset by the system, and the first ciphertext matrix is used for representing the corresponding relation between the information combination of the testers participating in the detection and the data integration factor;

a first examiner information transmission unit for transmitting examiner information on the first blood test object and the second blood test object to the test data integration unit;

a detection data integration part at least used for obtaining a detector ciphertext according to the detector information of the first ciphertext matrix, the first blood detection object and the second blood detection object and obtaining an integrated blood detection result by calculation according to the detector ciphertext and the fitting result set data;

the detection software analysis part receives the integrated blood detection result, performs integrated blood detection result data packet analysis based on the fitting result set base number storage part, obtains the separated blood detection result in the integrated blood detection result, and stores the analysis result into the fitting result set base number storage part, wherein the analysis result at least comprises the fitting structure data of the integrated blood detection result data packet analysis and the corresponding detector combination;

a fitting result set base number storage part for storing a fitting result set base number, namely fitting structure body data serving as a comparison base number and used for subsequent integrated blood detection result data packet analysis, and corresponding detector combinations;

and the detection software output part is used for sending and displaying the separated blood detection result to a system user according to the user requirement.

As a preferred embodiment that can be superimposed, each row of the ciphertext matrix at least includes a detector information column participating in detection and a data integration factor column, the detector information column includes various different detector information combinations, the detector information combination is a combination of any two pieces of detector information, the detector information column and the data integration factor column are in one-to-one correspondence in the ciphertext matrix according to row numbers, and based on the ciphertext matrix, a corresponding data integration factor can be obtained by inputting any detector information combination.

Referring to FIG. 3 of the present application, as another preferred embodiment that can be superimposed, FIG. 3 is a schematic diagram of a first ciphertext matrix of a blood test result output customization system according to a preferred embodiment of the present invention; the system comprises a detector information column, a data integration factor acquisition unit and a data integration factor acquisition unit, wherein the detector information column comprises any detector information ID combination which can be acquired from an admission or hospitalized medical record related information system interface, each detector information ID represents a potential detector which possibly needs blood detection, and the data integration factor acquisition unit distributes the data integration factor to all combinations in advance;

as another stackable preferred embodiment, the data integration factor may be specifically set by a system operator or administrator according to a specific system preset scrambling code exceeding the load length, a system setting rule, or a mask length required to be implemented;

as another superimposable preferred embodiment, the detector information specifically includes: a subject ID of a blood test subject, which is a system preset numerical value ID.

As another superimposable preferred embodiment, the fitting result set base number storage unit is configured to store a fitting result set base number, that is, a comparison base number fitting result set for subsequent integrated blood test result data packet analysis, specifically:

the fitting result set base number storage unit stores fitting structure data received in the system history, and records the tester information, that is, the tester ID combination, of the first blood test object and the second blood test object corresponding to the fitting.

As another superimposable preferred embodiment, the detection data integrating part is configured to obtain a detector ciphertext according to at least the first ciphertext matrix, the first blood detection object and the detector information of the second blood detection object, and calculate an integrated blood detection result according to the detector ciphertext and the fitting result set data, and specifically includes:

acquiring corresponding data integration factors according to the first ciphertext matrix, the first blood detection object and the detector information of the second blood detection object;

and taking the fitting structure data as fitting result set data, directly connecting the information of the testers of the first blood test object and the second blood test object, taking the whole body as a load field of the integrated blood test result data packet, adding a mask at the initial position of the load field according to the integration factor, namely the length indicated by the ciphertext of the testers, wherein the mask is an interference code preset by a system and is used for masking the initial position of the real fitting structure data from an attacker.

Referring to fig. 4 of the drawings, as another embodiment, fig. 4 is a schematic diagram illustrating a blood test result data packet integrated in a blood test result output customization system according to a preferred embodiment of the present invention. The integrated blood detection result data packet comprises a data packet header and a check field of a conventional protocol, and the data packet header, the check field and a load field set by a system self-defined protocol can be used, wherein the load field at least comprises a mask of a starting position, fitting structure data, a first detector ID and a second detector ID;

as another superimposable preferred embodiment, the data integration factor is used to indicate the length of a mask in the integrated blood test results, the mask being used to specify the starting position of the fitting structure at the payload portion of the integrated blood test results data packet;

the mask is an interference code preset by the system, and specifically comprises the following steps: the system presets the interference code exceeding the load length, and intercepts the interference code from the low order according to the length appointed by the integration factor, and the interference code is used as a mask used in the integration of the detection result.

As another stackable preferred embodiment, the mask is used to specify the start position of the fitting structure in the load portion of the integrated blood test result data packet, specifically:

the initial position of the fitting structure in the integrated blood test result data packet load part is N +1 byte, where N is the length of the mask, i.e. the length specified by the integration factor.

As another superimposable preferred embodiment, a first ciphertext matrix is preset in a detection software analysis part of the system.

As another stackable preferred embodiment, the detection software analysis unit receives the integrated blood detection result, performs integrated blood detection result data packet analysis, and obtains the separated blood detection result in the integrated blood detection result, specifically:

obtaining the tester IDs of the first blood test object and the second blood test object in the integrated blood test result data packet;

searching a local first ciphertext matrix to obtain a corresponding data integration factor;

judging the mask length of the load data field according to the corresponding data integration factor, and judging the initial position of the fitting structure body data based on the mask length;

acquiring fitting structure data K1+ 2;

selecting a third blood test object based on the stored data of the fitting result set basis number storage unit, wherein:

the fitting result set radix number storage unit stores corresponding fitting structure data K1+3 of a combination of first blood test object and third blood test object detector information and corresponding fitting structure data K2+3 of a combination of second blood test object and third blood test object detector information;

referring to fig. 5 of the present application, as another embodiment that can be superimposed, fig. 5 is a schematic diagram of a preferred embodiment of the present invention showing the calculation of the first result set data and the second result set data in the blood test result output customization system. First result set data of a first blood test subject and second result set data of a second blood test subject are obtained using the following calculation method:

the first result set data ═ K1+2+ K1+3-K2+ 3)/2;

second result set data ═ K1+2+ K2+3-K1+ 3)/2;

wherein K1+2+ K1+3 represents numerical addition of the corresponding field values of the structure K1+2 and the structure K1+ 3; k1+2 to K1+3 are values of the corresponding field values of the structure K1+2 and the structure K1+3 subtracted from each other; and/2 represents that the corresponding field value of the structure is divided by 2, the parenthesis represents the operation sequence, and the operation sequence in the parenthesis has priority.

The corresponding fields in the structure body are numerical fields, so the addition and subtraction values are arithmetic addition and subtraction values, and after model calculation and reduction, the original result set data of each separated detector ID can be obtained.

As another superimposable preferred embodiment, the detection software output section gives data of a result set of a corresponding blood test object based on a tester ID corresponding to the blood test object input by the user, and presents the data by field based on a structure data structure of the result set of the blood test object.

The invention provides a blood detection result output customization system, which is better than the prior art based on privacy and safety consideration in medical record information transmission, 1, the invention avoids transmitting the detection and analysis results of a single person in a blood detection analysis and output system by performing data fitting of a first detection result set and a second detection result set, and the blood detection result set and the detector information of the first blood detection object and the second blood detection object are transmitted in a customized manner, even if an attacker acquires the fitted detection data through security attack, because the stored data structure and the specific data of each field are the fitted data, the attacker cannot directly acquire the private data of a case and conduct data separation of a single case from it; 2. by introducing the first ciphertext transmission part and the ciphertext matrix indicated by the first ciphertext transmission part, setting a specific corresponding mask masking factor for the first blood detection object and the second blood detection object which are subjected to fitting detection at each time, and introducing the mask length associated with the combination of the first blood detection object and the second blood detection object in the data load field, the initial position setting of a fitting structure body of the unspecific first blood detection object and the second blood detection object is realized, the difficulty of an attacker for guessing the data availability and the data real position of the data field of the data packet load is increased, and the defense capability for data attack and data privacy disclosure is further improved; 3. the separation of the transmission of the ciphertext matrix and the data structure body is realized by avoiding the ciphertext matrix from being carried in data transmission and adopting a ciphertext matrix localization strategy, so that an attacker can intercept a data packet of blood detection data and can not analyze a mask and corresponding meanings of the mask; 4. at a blood detection data analysis end, system data of a fitting result set basis number storage part is fully referred to, an original data structure body of single separation data is obtained under model calculation of multiple fitting data through ingenious introduction of a third blood detection object and a data combination algorithm, and blood detection result component data represented by each field is further obtained, so that excellent system safety performance of fitting data transmission-separation data checking is achieved, and better blood detection data acquisition, transmission and display effects are achieved.

In all the above embodiments, in order to meet the requirements of some special data transmission and read/write functions, the above method and its corresponding devices may add devices, modules, devices, hardware, pin connections or memory and processor differences to expand the functions during the operation process.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described method, apparatus and unit may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the method steps into only one logical or functional division may be implemented in practice in another manner, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as individual steps of the method, apparatus separation parts may or may not be logically or physically separate, or may not be physical units, and may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, the method steps, the implementation thereof, and the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

The above-described method and apparatus may be implemented as an integrated unit in the form of a software functional unit, which may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a Processor (Processor) to execute some steps of the methods according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), an NVRAM, a magnetic disk, or an optical disk, and various media capable of storing program codes.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

It should be noted that: the above embodiments are only used to explain and illustrate the technical solution of the present invention more clearly, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A blood test result output customization system, the system comprising:

the first detection result set is used for carrying out blood detection on a first blood detection object and acquiring first result set data, and the first result set data at least comprises the blood detection result of the first blood detection object;

the second detection result set is used for carrying out blood detection on a second blood detection object and acquiring second result set data, and the second result set data at least comprises the blood detection result of the second blood detection object;

a detection result fitting unit for performing data fitting of the first result set data and the second result set data to obtain fitting result set data;

the performing of the data fitting of the first result set data and the second result set data specifically includes:

fitting a first result set data structure with a second result set data structure, wherein the first result set data structure and the second result set data structure have the same data structure;

said fitting the first result set data structure with the second result set data structure further comprises at least:

searching corresponding fields in the first result set data structure body and the second result set data structure body;

adding the values of the field values of the corresponding fields in the first result set data structure and the second result set data structure to obtain the values of the field values of the corresponding fields in the fitting structure;

combining the field values of the fields corresponding to the first result set data structure and the second result set data structure into fitting structure data K1+2 after all the field values are obtained;

the first ciphertext transmission part is used for transmitting a first ciphertext matrix preset by the system, and the first ciphertext matrix is used for representing the corresponding relation between the information combination of the testers participating in the detection and the data integration factor;

a first examiner information transmission unit for transmitting examiner information on the first blood test object and the second blood test object to the test data integration unit;

a detection data integration part at least used for obtaining a detector ciphertext according to the detector information of the first ciphertext matrix, the first blood detection object and the second blood detection object and obtaining an integrated blood detection result by calculation according to the detector ciphertext and the fitting result set data;

the detection software analysis part receives the integrated blood detection result, performs integrated blood detection result data packet analysis based on the fitting result set base number storage part, obtains the separated blood detection result in the integrated blood detection result, and stores the analysis result into the fitting result set base number storage part, wherein the analysis result at least comprises the fitting structure data of the integrated blood detection result data packet analysis and the corresponding detector combination;

a fitting result set base number storage part for storing a fitting result set base number, namely a fitting result set used as a comparison base number for the subsequent integrated blood test result data packet analysis, and a corresponding tester combination;

and the detection software output part is used for sending and displaying the separated blood detection result to a system user according to the user requirement.

2. The blood test result output customization system according to claim 1, wherein each row of the ciphertext matrix at least comprises a tester information column participating in the test and a data integration factor column, the tester information column comprises various tester information combinations, the tester information combination is a combination of any two tester information, the tester information column and the data integration factor column are in one-to-one correspondence in the ciphertext matrix according to a row number, and the corresponding data integration factor can be obtained by inputting any tester information combination based on the ciphertext matrix.

3. The blood test result output customization system according to claim 2, wherein the tester information is specifically: a subject ID of a blood test subject, which is a system preset numerical value ID.

4. The blood test result output customization system according to claim 1, wherein:

the fitting result set base number storage part is used for storing a fitting result set base number, namely used for analyzing a subsequent integrated blood detection result data packet and used as a comparison base number fitting result set, and specifically comprises the following steps:

the fitting result set base number storage unit stores fitting structure data received in the system history, and records the tester information, that is, the tester ID combination, of the first blood test object and the second blood test object corresponding to the fitting.

5. The blood test result output customizing system according to claim 3, wherein:

the detection data integration part is at least used for obtaining a detector ciphertext according to the detector information of the first ciphertext matrix, the first blood detection object and the second blood detection object, and obtaining an integrated blood detection result by calculating according to the detector ciphertext and the fitting result set data, and specifically comprises the following steps:

acquiring corresponding data integration factors according to the first ciphertext matrix, the first blood detection object and the detector information of the second blood detection object;

and taking the fitting structure data as fitting result set data, directly connecting the information of the testers of the first blood test object and the second blood test object, taking the whole body as a load field of the integrated blood test result data packet, adding a mask at the initial position of the load field according to the integration factor, namely the length indicated by the ciphertext of the testers, wherein the mask is an interference code preset by a system and is used for masking the initial position of the real fitting structure data from an attacker.

6. The blood test result output customization system according to claim 5, wherein:

the data integration factor is used for indicating the length of a mask in the integrated blood test result, and the mask is used for specifying the starting position of the fitting structural body in the load part of the integrated blood test result data packet;

the mask is an interference code preset by the system, and specifically comprises the following steps: the system presets the interference code exceeding the load length, and intercepts the interference code from the low order according to the length appointed by the integration factor, and the interference code is used as a mask used in the integration of the detection result.

7. The blood test result output customization system according to claim 6, wherein:

the mask is used for designating the initial position of the fitting structural body at the load part of the integrated blood detection result data packet, and specifically comprises the following steps:

the initial position of the fitting structure in the integrated blood test result data packet load part is N +1 byte, where N is the length of the mask, i.e. the length specified by the integration factor.

8. The blood test result output customization system according to claim 6, wherein:

a first ciphertext matrix is preset in a detection software analysis part of the system.

9. The blood test result output customization system according to claim 7, wherein:

the detection software analysis part receives the integrated blood detection result, performs integrated blood detection result data packet analysis, and obtains a separated blood detection result in the integrated blood detection result, specifically:

obtaining the tester IDs of the first blood test object and the second blood test object in the integrated blood test result data packet;

searching a local first ciphertext matrix to obtain a corresponding data integration factor;

judging the mask length of the load data field according to the corresponding data integration factor, and judging the initial position of the fitting structure body data based on the mask length;

acquiring fitting structure data K1+ 2;

selecting a third blood test object based on the stored data of the fitting result set basis number storage unit, wherein:

the fitting result set radix number storage unit stores corresponding fitting structure data K1+3 of a combination of first blood test object and third blood test object detector information and corresponding fitting structure data K2+3 of a combination of second blood test object and third blood test object detector information;

first result set data of a first blood test subject and second result set data of a second blood test subject are obtained using the following calculation method:

the first result set data ═ K1+2+ K1+3-K2+ 3)/2;

second result set data ═ K1+2+ K2+3-K1+ 3)/2;

wherein K1+2+ K1+3 represents numerical addition of the corresponding field values of the structure K1+2 and the structure K1+ 3; k1+2 to K1+3 are values of the corresponding field values of the structure K1+2 and the structure K1+3 subtracted from each other; and/2 represents that the corresponding field value of the structure is divided by 2, the parenthesis represents the operation sequence, and the operation sequence in the parenthesis has priority.

10. The blood test result output customization system according to claim 7, wherein: the detection software output part provides corresponding blood detection object result set data based on the detector ID corresponding to the blood detection object input by the user, and displays the structure data structure of the blood detection object result set according to fields.

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