CN111192647A - Data collection system and data collection method of physical examination instrument - Google Patents

Abstract

The invention provides a data collection system of a physical examination instrument, which comprises: an input/output port adapted to connect to a physical examination instrument through a connection line; a memory storing instructions executable by the processor; a processor coupled to the physical examination apparatus, the input device, and the memory, the processor configured to execute the instructions to perform the steps of: identifying the physical examination instrument using preset hardware information; receiving first physical examination data from the physical examination instrument; parsing the first volumetric inspection data to obtain a plurality of elements; packaging the plurality of elements into a unified object format to obtain second physical inspection data; and saving the second physical examination data in the memory.

Description

Data collection system and data collection method of physical examination instrument

Technical Field

The invention mainly relates to a data collection system and a data collection method, in particular to a data collection system and a data collection method of a physical examination instrument.

Background

The height and weight scale and the blood pressure measuring instrument are used as an indispensable examination in a first clinical test, and the height and weight scale and the blood pressure measuring instrument are important in the whole test process. The first clinical trial is mainly to study the tolerance of the subject to new drugs, and on the basis, a preliminary, safe and effective administration scheme is proposed to guide the next clinical trial.

In the current first-stage ward management system, data of the height and weight instrument and data of the blood pressure measuring instrument are transcribed manually, namely after a subject finishes checking the data of the height and weight instrument and the blood pressure measuring instrument, the data are transcribed to a paper by an operator and are transcribed to a system form at a later stage.

In the prior art, accurate data analysis of the docking devices is lacked for data docking of the height and weight measuring instrument and the blood pressure measuring instrument, and data analysis needs to be performed on each docking device according to differences of brands and models in the market. Because the in-process of manual transcription under the line causes very easily to omit and wrong, the efficiency of manual transcription receives artificial operating duration and operating condition influence simultaneously, and the accuracy and the efficiency of transcription are not high, can not accomplish real-time synchronization data, can not track historical data information moreover. Meanwhile, the unstable and discontinuous network connection of the physical examination instrument can also cause the loss of physical examination data. The variety of different data formats results in the inability to further analyze and apply the test data, thereby impacting the effectiveness and efficiency of the clinical trial.

Disclosure of Invention

The invention aims to provide a data collection system and a data collection method of a physical examination instrument, and realize the efficient and reliable acquisition, transmission, storage and analysis application of physical examination data.

In order to solve the above technical problems, the present invention provides a data collection system for physical examination instruments, comprising: an input/output port adapted to connect to a physical examination instrument through a connection line; a memory storing instructions executable by the processor; a processor coupled to the physical examination apparatus, the input device, and the memory, the processor configured to execute the instructions to perform the steps of: identifying the physical examination instrument using preset hardware information; receiving first physical examination data from the physical examination instrument; parsing the first volumetric inspection data to obtain a plurality of elements; packaging the plurality of elements into a unified object format to obtain second physical inspection data; and saving the second physical examination data in the memory.

In an embodiment of the invention, the communication module is a serial communication port.

In an embodiment of the invention, the data collection system further comprises an input device adapted to input subject information; the processor is further configured to receive the subject information and associate with the first exam data.

In an embodiment of the invention, the input device comprises a scanner or a keyboard.

In an embodiment of the present invention, the step of parsing the first volume data to obtain a plurality of elements includes: intercepting a data segment of the first volume test data according to the minimum field length and the ending symbol; and analyzing a plurality of elements of the data segment according to the special meaning characters in the data segment.

In an embodiment of the present invention, the step of packaging the plurality of elements into a unified object format to obtain the second volume check data includes: assigning the plurality of elements to a plurality of items in the object format, respectively; and adding a common name corresponding to a keyword in the plurality of elements in the object format according to a dictionary associated with the physical examination device.

In an embodiment of the invention, the processor is further configured to upload the second physical examination data to a remote server.

The present invention also provides a data collection method of a physical examination instrument, adapted to be executed on a data collection system connected to the physical examination instrument by a connection line, the method comprising: identifying the physical examination instrument using preset hardware information; receiving first physical examination data from the physical examination instrument; parsing the first volumetric inspection data to obtain a plurality of elements; packaging the plurality of elements into a unified object format to obtain second physical inspection data; and saving the second physical examination data.

In an embodiment of the present invention, the step of parsing the first volume data to obtain a plurality of elements includes: intercepting a data segment of the first volume test data according to the minimum field length and the ending symbol; and analyzing a plurality of elements of the data segment according to the special meaning characters in the data segment.

In an embodiment of the present invention, the step of packaging the plurality of elements into a unified object format to obtain the second volume check data includes: assigning the plurality of elements to a plurality of items in the object format, respectively; and adding a common name corresponding to a keyword in the plurality of elements in the object format according to a dictionary associated with the physical examination device.

In an embodiment of the invention, the data collection method includes uploading the second physical examination data to a remote server.

The invention also provides a computer-readable medium having stored thereon computer program code which, when executed by a processor, implements a method as described above.

Compared with the prior art, the invention has the following advantages: the butt joint equipment of the data collection system automatically inputs data into the system, thereby effectively avoiding omission and errors possibly caused by artificial transcription, and simultaneously overcoming the influence of artificial working time and working state on the efficiency of artificial transcription, thereby improving the accuracy and efficiency of transcription; meanwhile, data loss caused by unstable network, low network strength or no network can be avoided; and the data format is uniformly packaged, so that the analysis and the application of the data are facilitated, and the subsequent expansion of other physical examination equipment is facilitated. The effectiveness and the overall efficiency of the first-stage clinical test are improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the principle of the invention. In the drawings:

FIG. 1 is a schematic diagram of an implementation environment of a data collection system according to an embodiment of the invention.

Fig. 2 is a schematic structural diagram of a docking device of the data collection system according to an embodiment of the present invention.

FIG. 3 is an exemplary flowchart of the steps performed by the processor of the data collection system of one embodiment of the present invention.

FIG. 4 is a schematic view of a display interface of a display device of a data collection system according to an embodiment of the invention.

FIG. 5 is a schematic view of a display interface of a display device of a data collection system according to an embodiment of the invention.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only examples or embodiments of the application, from which the application can also be applied to other similar scenarios without inventive effort for a person skilled in the art. Unless otherwise apparent from the context, or otherwise indicated, like reference numbers in the figures refer to the same structure or operation.

As used in this application and the appended claims, the terms "a," "an," "the," and/or "the" are not intended to be inclusive in the singular, but rather are intended to be inclusive in the plural unless the context clearly dictates otherwise. In general, the terms "comprises" and "comprising" merely indicate that steps and elements are included which are explicitly identified, that the steps and elements do not form an exclusive list, and that a method or apparatus may include other steps or elements.

Figure 1 is a schematic diagram of an environment for implementing a data collection system of a physical examination apparatus according to an embodiment of the present invention. The data collection system may include a physical examination instrument 101, an input device 102, a docking device 104, a network 105, a server 106, and a server data store 107.

The structure of the docking device 104 may illustratively be as shown in FIG. 2, including a communication bus 201, a processor 202, input/output ports 206, communication ports 205, and memory, which may include Read Only Memory (ROM)203, Random Access Memory (RAM)204, and hard disk 207, among others. The memory has stored therein instructions executable by the processor 202. The docking device 104 may also include a display device 208. The processor 202 is connected to the memory through the communication bus 201, and the processor 202 can also be connected to the physical examination apparatus 101 (not shown in fig. 2) and the input device 102 (not shown in fig. 2) through the communication bus 201, the input/output port 206 and the connection line. The communication port 205 may be from/to the network 105 (not shown in fig. 2).

In a non-limiting embodiment, the processor 202 may be configured to execute the instructions to perform the steps of the exemplary flow diagram shown in fig. 3, which in a non-limiting embodiment may include step 301 identifying the physical examination instrument using preset hardware information, step 302 receiving first physical examination data from the physical examination instrument, step 303 parsing the first physical examination data to obtain a plurality of elements, step 304 packaging the plurality of elements into a unified object format to obtain second physical examination data, and step 305 saving the second physical examination data to memory.

In step 301, the physical examination instrument is identified using preset hardware information. The physical examination instrument may exemplarily include a height and weight measuring instrument, a blood pressure measuring instrument, and the like, and the identification and connection of the physical examination instrument is realized in the docking device 104 by setting information of hardware to be docked and a device port number. Through the setting of different hardware information, can realize the connection of butt joint equipment and the physical examination equipment of different producers, different models. The setting of different hardware information can be realized through corresponding development languages. After the connection of the physical examination instrument to the docking device is made, first physical examination data from the physical examination instrument is received at step 302. The first physical examination data may be obtained by detecting the subject by the physical examination apparatus 101, such as one or more of height, weight, blood pressure, blood sugar, heart rate, pulse, and the like. After a first physical examination receipt of the examinee is obtained on the physical examination instrument, data is transmitted to the docking device through the connecting line and the input/output port. The communication mode of the input/output port and the connecting line can be a serial communication mode, and other wired communication modes such as a USB connection mode, a TCP/IP connection mode and the like can be selected according to actual conditions and requirements. Through the wired connection of the physical examination instrument and the docking equipment, the problems that the physical examination instrument, such as data loss caused by network instability and data cannot be sent due to insufficient network strength caused by the fact that wireless network connection of a height and weight instrument, a blood pressure measuring instrument and the like is possible can be avoided, and the reliability and the stability of physical examination data acquisition are improved.

After receiving the first medical data from the medical examination instrument, the first medical data is parsed to obtain a plurality of elements at step 303. For example, when the first detected data is height and weight, or other measured data, a corresponding parsing template can be configured, and the data to be parsed is intercepted in the parsing template through the setting of the minimum field length and the ending symbol. For example, a piece of height data may be set to about 60 characters, and blood pressure data may be set to about 80 characters. The number of characters can be different for different manufacturers and different models of physical examination instruments, and the number of characters can be determined by referring to specifications of different instruments and information provided by different equipment manufacturers, such as data types, data processing interfaces and the like.

In analyzing the first volume test data, the determination condition may be a dual condition determination of a character length and an end symbol. Specifically, for example, the minimum character length of the height data is set to 60, and the end symbol is "═" so that only when the character length satisfies both the condition of 60 or more and the condition of occurrence of the end symbol "═" are satisfied, the height data is determined to be normal height data, and then the data element, that is, a data segment of the first physical examination, is intercepted. If an end symbol appears, for example, "═ when the character length reaches 60, for example, 40 characters, it is determined that the condition for capturing data is not satisfied, and the counting is continued until the double determination condition is satisfied. Similarly, the minimum character length can be 80 and the end symbol ": "to judge blood pressure, the interception of other types of data, such as blood pressure, blood sugar, heart rate, pulse, etc., can also set the judgment condition according to the difference of data type and data processing interface.

After the first data are intercepted to obtain a plurality of data segments, a plurality of elements of the data segments are analyzed according to special meaning characters in the data segments. Special meaning characters such as "height", "value", "key" may indicate data types such as height, weight, blood pressure, etc., respectively.

After parsing the first review data to obtain a plurality of elements, in step 304, the plurality of data elements are packaged into a unified object format, for example, if the plurality of data elements obtained in the first review data are height data "height", weight data "value", and blood pressure data "key", a plurality of different data elements such as the intercepted "height", "value", and "key" may be put into a preset object format, and specifically, the plurality of data elements may be respectively assigned to a plurality of items in the object format. The preset object format may add a common name corresponding to a keyword among the plurality of elements in the object format according to an equipment dictionary associated with the physical examination equipment.

Illustratively, for example, the data segment intercepted from the first physical examination data transmitted by the physical examination instrument is one-end Buffer data: [ 87584854554648327258495455465013 ], based on a certain analysis rule, for example, ASIC code analysis method, data of types such as height and weight are obtained. The parsing rules can be defined and modified according to actual conditions and requirements. For example, the aforementioned data segment can be resolved into: W067.2H 166.0. By referring to the device dictionary and the specification, the packaging format of the second physical examination is determined, and for example, the parsed data may be packaged as:

[ { name: 'body weight', value:0.672, item: 'W' },

the data format of { name: 'height', value:166.0, item: 'H' } the data formed after encapsulation will be displayable on the interface of the display device 208 of the access device 104. The unit of data, for example, the weight in kilograms (kg) and the height in centimeters (cm) can be obtained according to the specification of the device, and thus the unit may not be displayed on the interface, and an exemplary display mode is shown in fig. 4.

And then, putting the data corresponding to the preset object format into an array, and returning the array to obtain second physical examination data. After the second volume check data is obtained, the second volume check data is stored in the memory in step 305. The data collection system realizes the automatic input of data through the processes of transmission, analysis, data element acquisition and encapsulation of physical examination data, thereby effectively avoiding possible omission and errors caused by artificial transcription and improving the accuracy and efficiency of data transcription. Meanwhile, the data is packaged into a uniform object format, so that the subsequent expansion of other hardware equipment is facilitated.

It is understood that the data collection system of the physical examination apparatus of the present invention can be modified according to the actual needs by executing the steps executed by the processor, and the above embodiment is only an exemplary sequence. In some embodiments, some steps may be omitted or further refined to make the data collection system of the medical examination apparatus of the present invention more applicable.

In an embodiment of the present invention, the data collection system may further include an input device adapted to input the subject information, for example, the input device may include a scanner or a keyboard, or may be other portable input devices. Accordingly, the processor is further configured to receive the subject information and associate the subject information with the first volume data to make the corresponding subject unambiguous in subsequent processing of the first volume data. The correspondence between the subject and the physical examination data is crucial, so the information of the subject is still input through the manual check, such as scanning the code on site, typing the number on site, etc., to ensure the correspondence between the first physical examination data and the second detection data and the subject. Fig. 5 is a schematic diagram of the state to be entered by the subject number on the interface of the display device 208 of the docking device 104.

In an embodiment of the invention, the processor of the data collection system may be further configured to upload the second physical examination data to a remote server via a network. After the second inventory data is saved in the memory in the aforementioned step 305, the second inventory data is uploaded to a remote server in the case of a network. Even if no network exists, the data can still be collected and analyzed, and the data are uploaded to a server side under the condition of the existence of the network. And the second inspection data is uniformly transferred to the server to form a history record, so that the information can be conveniently tracked and the data can be conveniently checked subsequently. The data collection system is arranged in a network connection mode and a data storage mode of the data collection system, so that physical examination data can be acquired, stored and transmitted more stably and reliably, data loss caused by unstable networks, low network strength or no networks is avoided, the integrity and reliability of the data are ensured, and the follow-up further analysis and application of the data are facilitated.

The data collection system of the physical examination instrument can automatically input data through the docking equipment, effectively avoid omission or errors caused by artificial transcription, and simultaneously avoid data loss caused by no network. The data can be used under the condition of having or not having a network, and the data is sent to the management system server under the condition of having the network, so that paperless data acquisition and information processing are realized.

The data collection system of the physical examination instrument disclosed by the invention improves the first-stage ward management standard by using an informatization ward management mode, realizes informatization of first-stage ward test data, and improves the accuracy and the compliance of a BE (Bioequivalency) test and a first-stage clinical test in a drug clinical test. Effectively avoid error and loss that manual operation brought. Through setting the network connection mode and the data storage mode of the data collection system, the physical examination data can be acquired, stored and transmitted more stably and reliably, and the data loss is avoided. And meanwhile, the efficiency of data analysis and application is improved, so that the effectiveness and the overall efficiency of a first-stage clinical test are improved.

The present invention also provides a data collection method of a physical examination instrument, adapted to be executed on a data collection system connected to the physical examination instrument by a connection line, the method comprising: identifying the physical examination instrument using preset hardware information; receiving first physical examination data from the physical examination instrument; parsing the first volumetric inspection data to obtain a plurality of elements; packaging the plurality of elements into a unified object format to obtain second physical inspection data; and saving the second physical examination data.

In an embodiment of the present invention, the step of parsing the first volume data to obtain a plurality of elements in the data collection method includes: intercepting a data segment of the first volume test data according to the minimum field length and the ending symbol; and analyzing a plurality of elements of the data segment according to the special meaning characters in the data segment.

In an embodiment of the present invention, the step of packaging the plurality of elements into a unified object format to obtain the second volume inspection data in the data collection method includes: assigning the plurality of elements to a plurality of items in the object format, respectively; and adding a common name corresponding to a keyword in the plurality of elements in the object format according to a dictionary associated with the physical examination device.

It is understood that the steps of the data collection method of the physical examination apparatus of the present invention may be modified according to actual needs, and the above embodiment is only an exemplary sequence. In some embodiments, some steps may be omitted or further refined to make the data collection method of the medical examination apparatus more operable.

In an embodiment of the present invention, the data collection method further includes uploading the second physical examination data to a remote server.

The invention also provides a computer-readable medium having stored thereon computer program code which, when executed by a processor, implements a method as described above. For example, the processes of the data collection method of the physical examination apparatus described above can be implemented as a computer program, stored in a hard disk, and recorded in a processor for execution to implement the method of the present invention.

According to the data collection system and the data collection method of the physical examination instrument, data are automatically recorded into the system through the docking equipment, so that omission and errors possibly caused by artificial transcription are effectively avoided, and the problem that the efficiency of the artificial transcription is influenced by the artificial working duration and the working state is solved. Meanwhile, data loss caused by unstable network, low network strength or no network can be avoided; and realize the uniform encapsulation of data format, facilitate the analysis and application of the data. And the subsequent docking of other physical examination equipment can be expanded. Thereby improving the effectiveness and the overall efficiency of the first clinical trial.

Having thus described the basic concept, it will be apparent to those skilled in the art that the foregoing disclosure is by way of example only, and is not intended to limit the present application. Various modifications, improvements and adaptations to the present application may occur to those skilled in the art, although not explicitly described herein. Such modifications, improvements and adaptations are proposed in the present application and thus fall within the spirit and scope of the exemplary embodiments of the present application.

Although the present application has been described with reference to the present specific embodiments, it will be recognized by those skilled in the art that the foregoing embodiments are merely illustrative of the present application and that various changes and substitutions of equivalents may be made without departing from the spirit of the application, and therefore, it is intended that all changes and modifications to the above-described embodiments that come within the spirit of the application fall within the scope of the claims of the application.

Claims (12)

1. A data collection system of a physical examination apparatus, comprising:

an input/output port adapted to connect to a physical examination instrument through a connection line;

a memory storing instructions executable by the processor;

a processor coupled to the physical examination apparatus, the input device, and the memory, the processor configured to execute the instructions to perform the steps of:

identifying the physical examination instrument using preset hardware information;

receiving first physical examination data from the physical examination instrument;

parsing the first volumetric inspection data to obtain a plurality of elements;

packaging the plurality of elements into a unified object format to obtain second physical inspection data; and

saving the second transaction data to the memory.

2. The data collection system of claim 1, wherein the input/output port is a serial communication port.

3. The data collection system of claim 1, further comprising an input device adapted to input subject information;

the processor is further configured to receive the subject information and associate with the first exam data.

4. The data collection system of claim 3, wherein the input device comprises a scanner or a keyboard.

5. The data collection system of claim 1, wherein the step of parsing the first volumetric data to obtain a plurality of elements comprises:

intercepting a data segment of the first volume test data according to the minimum field length and the ending symbol;

and analyzing a plurality of elements of the data segment according to the special meaning characters in the data segment.

6. The data collection system of claim 1, wherein the step of packaging the plurality of elements into a unified object format to obtain second volumetric data comprises:

assigning the plurality of elements to a plurality of items in the object format, respectively; and

adding a common name corresponding to a keyword of the plurality of elements in the object format according to a dictionary associated with the physical examination device.

7. The data collection system of claim 1, wherein the processor is further configured to upload the second physical inspection data to a remote server over a network.

8. A data collection method of a physical examination instrument adapted to be executed on a data collection system connected to the physical examination instrument by a connection line, the method comprising:

identifying the physical examination instrument using preset hardware information;

receiving first physical examination data from the physical examination instrument;

parsing the first volumetric inspection data to obtain a plurality of elements;

packaging the plurality of elements into a unified object format to obtain second physical inspection data; and

saving the second physical examination data.

9. The data collection method of claim 8, wherein the step of parsing the first volumetric data to obtain a plurality of elements comprises:

intercepting a data segment of the first volume test data according to the minimum field length and the ending symbol;

and analyzing a plurality of elements of the data segment according to the special meaning characters in the data segment.

10. The data collection method of claim 8, wherein the step of packaging the plurality of elements into a unified object format to obtain second volumetric data comprises:

assigning the plurality of elements to a plurality of items in the object format, respectively; and

adding a common name corresponding to a keyword of the plurality of elements in the object format according to a dictionary associated with the physical examination device.

11. The data collection method of claim 8, further comprising uploading the second physical inspection data to a remote server.

12. A computer-readable medium having stored thereon computer program code which, when executed by a processor, implements the method of any of claims 8-11.

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