CN111508574A - Inspection and inspection data docking method and system - Google Patents

Abstract

The invention relates to a method and a system for butt joint of inspection and inspection data, and belongs to the technical field of data transmission and synchronization. The verification data docking method and the verification data docking system are adopted, firstly, a data generation system generates user-associated standard data according to a preset data standard; then the data generation system sends the standard data to a network cloud; and the network cloud end stores the standard data in a corresponding database of the associated user. The interval between each index acquisition device or system is broken through by using the standard data, so that the data acquired by each system is efficiently and accurately butted and conveniently collected to the cloud, data exchange and collection analysis among hospitals and between the hospitals and patients are facilitated, and doctors and patients are better helped.

Description

Inspection and inspection data docking method and system

technical field

The invention relates to the technical field of data transmission and synchronization, in particular to the technical field of inspection and inspection data docking, in particular to a method and system for inspection and inspection data docking.

Background technique

At present, hospitals in various regions use their own data collection systems, such as HIS and PACS, to store patient medical records, prescriptions, and the data of each pathological examination. Because the data systems of different hospitals are different, there are also deviations in various indicators, such as indicator units, indicator ranges, etc., which affect the data exchange between hospitals, and cannot effectively and uniformly summarize and analyze the data. Obstacles to the establishment of a complete patient record management system.

On the other hand, with the continuous development of electronic science and technology and the realization of miniaturization and portability of related medical devices, it is more convenient for patients to collect their own physiological indicators, especially blood pressure, blood sugar and other indicators that need to be recorded for a long time. However, the collected data can only be used for self-reference, and it is difficult to directly share it with the hospital system for reference by doctors. It is also impossible to use these self-collected indicators and hospital inspection data to form a more complete long-term record of patient indicators.

Therefore, how to provide a data system that can break the interval between the various physiological index collection devices or systems and enable the data collected by each system to achieve efficient and accurate data docking has become an urgent problem to be solved in the art.

SUMMARY OF THE INVENTION

The purpose of the present invention is to overcome the shortcomings of the above-mentioned prior art, and to provide a method that can break the interval between each indicator collection device or system, so that the data collected by each system can achieve efficient and accurate data docking, and can be conveniently aggregated to the cloud , so as to facilitate data exchange and summary analysis between hospitals and between hospitals and patients, and better help doctors and patients to connect methods and systems for inspection data.

In order to achieve the above-mentioned purpose, the inspection and inspection data docking method of the present invention comprises the following steps:

(1) The data generation system generates the normative data associated with the user according to the preset data specification;

(2) the described data generation system sends described normative data to the network cloud;

(3) The network cloud stores the normative data in the corresponding database of the associated user.

In the inspection and inspection data docking method, the normative data includes user information, indicators, numerical values, data generation system name and data generation date.

In the method for docking inspection data, the user information is user name and/or user ID, the index is the inspection index name, and the data generation system is a hospital pathological inspection system and a home inspection and inspection device.

In the inspection and inspection data docking method, the step (3) specifically includes the following steps:

(31) The network cloud converts the specification data into a unified format;

(32) The network cloud stores the normative data in the corresponding database of the associated user in the unified format.

In the inspection and inspection data docking method, the step (31) is specifically that the network cloud converts the specification data into a unified file format, and converts the numerical value into a unified unit according to the index value of .

In the inspection and inspection data docking method, the unified file format is an xml file format.

In the inspection and inspection data docking method, the method further comprises the following steps between the step (31) and the step (32):

Verify whether the value of the unified unit is a reasonable value, if it is a reasonable value, go to step (32), if it is an unreasonable value, send a prompt to the data generation system, and do not store the unreasonable value.

In the method for docking inspection data, the reasonable values are normal values in the index and abnormal values in a certain range.

In the inspection and inspection data docking method, when the reasonable value is the abnormal value, the step (3) specifically includes the following steps:

(33) Sending warning information to the data generating system.

The present invention also provides an inspection and inspection data docking system, which includes a data generation system and a network cloud connected through a network. When the data generation system and the network cloud run their respective stored computer software, the network is used to realize the above-mentioned various Item's inspection check data connection method.

By adopting the method and system for docking inspection data of the invention, the method firstly generates the normative data associated with the user by the data generating system according to the preset data specification; then the data generating system sends the normative data to the network cloud; The normative data is stored in the corresponding database of the associated user. In this way, the standard data is used to break the interval between each indicator collection device or system, so that the data collected by each system can achieve efficient and accurate data docking, and it can be easily aggregated to the cloud, which is convenient for hospitals and between hospitals and patients. Data exchange and summary analysis can better help doctors and patients, and the inspection data docking method of the present invention has a wide range of applications.

Description of drawings

FIG. 1 is a flow chart of the steps of the inspection and inspection data docking method of the present invention.

FIG. 2 is a schematic diagram of the system architecture of the inspection and inspection data docking system of the present invention in practical application.

Detailed ways

In order to understand the technical content of the present invention more clearly, the following embodiments are given for detailed description.

Please refer to FIG. 1 , which is a flow chart of the steps of the inspection data docking method of the present invention.

In one embodiment, the inspection and inspection data docking method includes the following steps:

(1) The data generation system generates the normative data associated with the user according to the preset data specification;

(2) the described data generation system sends described normative data to the network cloud;

(3) The network cloud stores the normative data in the corresponding database of the associated user.

The normative data may include information such as user information, indicators, numerical values, the name of the data generation system, and the date of data generation. The user information is the user name and/or user ID, the index is the name of the inspection index, such as blood pressure, blood sugar, neutrophil percentage, white blood cell count, etc., and the data generation system is a hospital pathological examination. System and household inspection and inspection equipment, such as the biochemical department of the A hospital, the blood pressure monitor of the A user, etc.

In a more preferred embodiment, the step (3) specifically includes the following steps:

(31) The network cloud converts the specification data into a unified format;

(32) The network cloud stores the normative data in the corresponding database of the associated user in the unified format.

In a further preferred embodiment, the step (31) is specifically that the network cloud converts the specification data into a unified xml file format or other unified format, and converts the numerical value according to the Metrics are converted to numerical values in uniform units.

In a further preferred embodiment, the method further comprises the following steps between the steps (31) and (32):

Verify whether the value of the unified unit is a reasonable value, if it is a reasonable value, go to step (32), if it is an unreasonable value, send a prompt to the data generation system, and do not store the unreasonable value. For example, the blood pressure index, with mmHg as the unit, can be set as a reasonable value range from 30 to 500. Outside this range, it is regarded as an incorrect and unreasonable value.

The reasonable values described are normal values in the indicator and abnormal values within a certain range. For example, the blood pressure index, in mmHg, may be set to a normal value according to the age of the user, such as 60 to 150, and so on.

In a more preferred embodiment, when the reasonable value is the abnormal value, the step (3) specifically includes the following steps:

(33) Sending warning information to the data generating system.

The present invention also provides an inspection and inspection data docking system, which includes a data generation system and a network cloud connected through a network. When the data generation system and the network cloud run their respective stored computer software, the network is used to realize the above-mentioned Check the data connection method.

In practical application, the architecture of the inspection data docking system of the present invention is shown in FIG. 2 .

Based on the determination of the system data platform used by each hospital, such as the HIS system, and the corresponding interface. Then the patient's client software adjusts and adapts, allowing the program to automatically and regularly obtain the corresponding interface data and upload it to the cloud. Further, the data uploaded to the cloud is standardized and converted according to a unified standard, and the converted data is synchronized to The MMC system is convenient for doctors and patients to manage and query.

The patient's client software is generally installed on a mobile phone or tablet, and the mobile phone and tablet can be connected with household devices such as electronic blood pressure monitors and blood glucose meters to obtain inspection data. Then, the corresponding interface can be used to upload the data to the cloud.

The specific implementation may include the following steps:

1. Determine the hospital data platform interface type and input parameters;

2. Adjust the client software to make it suitable for the interface;

3. Open the client, obtain interface data by passing the correct parameters, and generate files and upload them to the cloud at the same time;

4. Standardize and convert the data uploaded to the cloud according to unified standards. As shown in the example below, we will parse and convert the various xml files obtained through the program and write them into the database.

The data written into the database can be easily viewed through the hospital HIS system. Individuals can also import relevant data to the client software on the mobile phone or tablet for viewing after identity authentication.

By adopting the method and system for docking inspection data of the invention, the method firstly generates the normative data associated with the user by the data generating system according to the preset data specification; then the data generating system sends the normative data to the network cloud; The normative data is stored in the corresponding database of the associated user. In this way, the standard data is used to break the interval between each indicator collection device or system, so that the data collected by each system can achieve efficient and accurate data docking, and it can be easily aggregated to the cloud, which is convenient for hospitals and between hospitals and patients. Data exchange and summary analysis can better help doctors and patients, and the inspection data docking method of the present invention has a wide range of applications.

In this specification, the invention has been described with reference to specific embodiments thereof. However, it will be evident that various modifications and changes can still be made without departing from the spirit and scope of the invention. Accordingly, the specification and drawings are to be regarded in an illustrative rather than a restrictive sense.

Claims (10)

1. An inspection data docking method, comprising the steps of:

(1) the data generation system generates user-associated specification data according to a preset data specification;

(2) the data generation system sends the standard data to a network cloud;

(3) and the network cloud stores the specification data in a corresponding database of the associated user.

2. The docking method for inspection data according to claim 1, wherein said specification data comprises user information, index, value, name of data generation system and date of data generation.

3. The docking method for the examination and examination data of claim 2, wherein the user information is a user name and/or a user ID, the index is an examination and examination index name, and the data generating system is a hospital pathology examination system and a home examination and examination device.

4. The docking method for inspection data according to claim 1, wherein the step (3) comprises the following steps:

(31) the network cloud converts the standard data into a uniform format;

(32) and the network cloud stores the specification data in a corresponding database of the associated user in the uniform format.

5. The method according to claim 4, wherein the step (31) is to convert the specification data into a unified file format by the cloud, and convert the numerical value into a numerical value in a unified unit according to the index.

6. The method of claim 5, wherein said unified file format is an xml file format.

7. The docking method for inspection data according to claim 5, further comprising the following steps between the steps (31) and (32):

and verifying whether the numerical value of the unified unit is a reasonable numerical value, if so, entering a step (32), and if not, sending a prompt to the data generation system without storing the unreasonable numerical value.

8. The method as claimed in claim 7, wherein the reasonable values are normal values and a range of abnormal values in the index.

9. The docking method for inspection data according to claim 8, wherein when the reasonable value is the abnormal value, the step (3) comprises the following steps:

(33) and sending out warning information to the data generation system.

10. An inspection data docking system comprising a data generating system and a network cloud connected via a network, wherein when the data generating system and the network cloud run their respective stored computer software, the inspection data docking method of any one of claims 1 to 9 is implemented using the network.

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