CN112367411B - Intelligent POCT detection equipment and management method thereof - Google Patents
Intelligent POCT detection equipment and management method thereof Download PDFInfo
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/14—Session management
- H04L67/141—Setup of application sessions
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/145—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue
- A61B5/14532—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue for measuring glucose, e.g. by tissue impedance measurement
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
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- H04L41/084—Configuration by using pre-existing information, e.g. using templates or copying from other elements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
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- H04L63/10—Network architectures or network communication protocols for network security for controlling access to devices or network resources
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Abstract
The invention discloses a management method of intelligent POCT detection equipment, which comprises the steps that S1, any POCT detection equipment a with a unique identity card number is connected with a server, server information is obtained, the configuration is marked, and the information is fed back to the server; s2, the POCT detection device a serves as a host to send gateway broadcast, the second POCT detection device which is started for the first time receives the identification number and sends the identification number to the POCT detection device a, and the POCT detection device a makes judgment; and S3, the POCT detection device a and a plurality of second POCT detection devices of the same type establish connection and exchange information. The invention also discloses intelligent POCT detection equipment. The invention connects the intelligent POCT detection devices of the same type into an Internet of things, integrates a data management system on each POCT detection device, can carry out device management and data synchronization through any intelligent POCT detection device, gets rid of dependence on an independent data management platform, and realizes data communication synchronization with a hospital information system or an electronic medical record.
Description
Technical Field
The invention belongs to the field of Internet of things of intelligent detection equipment, and particularly relates to Internet of things self-adaptive intelligent POCT detection equipment and a management method thereof.
Background
With the increasing economic development level of China, the material conditions of people are greatly improved, and the number of people who are inpatients, inspects and hospitalized is increased along with the increase and surplus of nutrition intake, which causes the increase of chronic diseases, especially diabetic patients, year by year. In addition to the use of large-scale biochemical equipment to detect blood sugar, blood ketone, uric acid, blood lipid and other indicators during examination and treatment, small-sized portable intelligent POCT detection equipment has also been widely used. At present, monitors for blood sugar, blood ketone, uric acid, blood fat and the like capable of transmitting data through a wired network, a bluetooth network and a wireless network are available. However, such devices need to implement device Management and Data synchronization through a specific Data Management System (DMS), and further synchronize Data transmission with a Hospital Information System (HIS) or a Laboratory Information System (LIS). The data management system is not a component of the intelligent POCT detection equipment, is usually developed by an intelligent POCT detection equipment manufacturer or a third-party software company, has a long product development period and needs abundant resource investment.
As shown in fig. 1, the data management system used in the above method is independent of the installation and operation of the intelligent POCT detection device, and mainly operates on a server in a central machine room of a medical institution or a desktop management computer in a small lan, and has certain requirements on hardware configuration and specific technical requirements on installation implementers, and needs to be maintained by professionals after operation; the operation difficulty and the uncertainty of the system are increased in the practical application scene. Meanwhile, the management function of the intelligent POCT monitoring equipment is realized by means of network communication of LAN (local area network) or WIFI (wireless fidelity) and the like of a medical institution, the data synchronization interaction of each intelligent POCT monitoring equipment can be realized only after the communication is established with an equipment management platform, the real-time performance of information cannot be thoroughly guaranteed, and when a certain POCT monitoring equipment has data synchronization fault due to poor network environment and the like, the medical care service cannot be timely provided.
Disclosure of Invention
In order to overcome the defects of the prior art, the invention provides the intelligent POCT detection equipment and the management method thereof, which can select any POCT detection equipment as a host to realize equipment management and data synchronization without depending on a specific data management system.
The technical scheme adopted by the invention for solving the technical problems is as follows: an intelligent POCT detection equipment management method comprises the following steps:
s1, connecting any POCT detection equipment a with the unique identity card number with a server, acquiring server information, marking the server information as configured, and feeding back the information to the server;
s2, the POCT detection device a serves as a host to send gateway broadcast, after a second POCT detection device which is started for the first time receives the gateway broadcast, the POCT detection device a sends the identity card number of the POCT detection device a in a broadcast mode, and the POCT detection device a judges whether the POCT detection device a is the same type of device or not and whether the POCT detection device a is in a device white list or not according to the identity card number naming rule;
and S3, performing information interaction after the POCT detection device a and a plurality of similar second POCT detection devices are connected, synchronously updating the POCT detection device a and the plurality of similar second POCT detection devices, marking the similar second POCT detection devices as configured, wherein the synchronous updating and the marking of the second POCT devices as configured are not in sequence and times, and only indicates that two contents of the synchronous updating and the marking of the second POCT devices as configured exist in the whole process.
Further, the identification number is one or more than two of a serial number, a MAC address, and an ID of a Zigbee or WIFI DIRECT module of the device determined before the device leaves a factory or is sold.
Further, in the step S3, the list of usable similar devices in the POCT test device a is updated synchronously.
The invention also discloses a management method of the intelligent POCT detection equipment, which comprises the following steps:
1) the second POCT detection device is used as a slave to send a connection request broadcast to the POCT detection device a, and sends the identity card number of the second POCT detection device a to the POCT detection device a in a broadcast mode, the POCT detection device a is used as a host, and whether the POCT detection device a is the same type of device or not and whether the POCT detection device a is in a device white list or not is judged according to the identity card number naming rule, wherein the POCT detection device a can be any POCT detection device in the environment where the second POCT detection device is located, and not a specific device;
2) the POCT detection equipment a acquires server information through communication with a server, and judges whether a data packet of second POCT detection equipment is legal or not, or the POCT detection equipment a judges whether the type of the data packet of the second POCT detection equipment is consistent with the type of data to be transmitted;
3) and communicating with the server according to the judgment result.
Further, in the step 2), the legality of the data packet is judged according to whether the operation authority and the use place of the corresponding personnel meet the requirements.
Further, in the step 2), the POCT detecting device a determines whether the transmission data type in the data packet of the second POCT detecting device completely matches the transmission data type that the data to be transmitted should have, and if yes, the POCT detecting device a forwards the data packet to the server.
Further, in step 1), the POCT detecting device a determines that the data packet of the second POCT detecting device is a data packet of a custom security protocol type, and the POCT detecting device a marks the second POCT detecting device as a non-white list device, and forwards the data packet of the second POCT detecting device and the data packet of the second POCT detecting device to the server through the POCT detecting device a.
Further, in the step 1), after determining whether the second POCT detection device is the same type of device, it is determined whether the second POCT detection device is configured.
The invention also discloses an intelligent POCT detection device, which comprises
A detection module;
a power supply module;
the network communication unit comprises a first network communication unit and a second network communication unit, wherein the first network communication unit is used for establishing communication connection between the intelligent POCT detection equipment and the server, and the second network communication unit is used for mutual communication connection between the intelligent POCT detection equipment;
the user interaction module comprises a detection interaction interface and an equipment management interaction interface;
and the data management module comprises a scene configuration unit, a detection data unit and a similar equipment unit.
Further, the parameters set in the scene configuration unit include a server IP and a port, or further include a server root path, a message server port, and a message queue prefix.
Furthermore, the scene configuration unit is used for configuring network parameters required for communicating with the server and synchronizing data, and process parameters of other corresponding POCT detection equipment.
Furthermore, the detection data unit is used for transmitting, recording and storing corresponding personnel information, detection results and other data.
Furthermore, the similar equipment units are used for managing similar intelligent POCT detection equipment, management is performed by setting and identifying a white list, and any one of the serial number, the MAC address, the ID of the Zigbee or WIFI DIRECT module and the like of the detection equipment with a unique attribute code can be used as a setting basis of the white list.
The invention has the beneficial effects that: the invention connects the intelligent POCT detection devices of the same type into an Internet of things, and integrates a data management system on each POCT detection device, so that all the intelligent POCT detection devices in a specific medical institution are connected through the Internet of things, and the device management and data synchronization can be carried out through any one intelligent POCT detection device, thereby realizing the data communication synchronization function with a hospital information system or an electronic medical record while getting rid of the dependence on an independent data management platform, and realizing the intelligent Internet of things management operation and maintenance.
Drawings
Fig. 1 is a schematic block diagram of a data management system according to the background art.
Fig. 2 is a block diagram of the intelligent POCT detection apparatus according to the present invention.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present 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.
As shown in fig. 2, an intelligent POCT detection apparatus includes:
a detection module;
a power supply module;
the network communication unit 10 includes a first network communication unit 101 and a second network communication unit 102. The first network communication unit 101 is mainly used for the POCT detection device and the server, and in this embodiment, the server may be a Hospital Information System (HIS) or a Laboratory Information System (LIS), which communicate with each other, connect to the local area network of the medical institution through a LAN or WIFI, and perform data interaction according to a TCP/IP protocol. The second network communication unit 102 is mainly used for mutual communication between the POCT devices, and performs communication using Ad hoc network technology modules such as Zigbee or WIFI-DIRECT and a wireless Ad hoc network On-Demand planar Distance Vector Routing protocol (AODV).
The user interaction module 20 comprises a detection interaction interface 201 and a device management interaction interface 202;
the data management module 30 implements a function of a data management platform (DMS), and specifically includes a scene configuration unit 301 configured to configure network parameters required for communicating with and synchronizing data with an information system (HIS) or a Laboratory Information System (LIS) of a hospital and corresponding intelligent POCT detection device process parameters managed by a medical institution, and at least includes addresses and ports of Hospital Information Systems (HIS) or Laboratory Information Systems (LIS) servers, and further includes detection items, departments, personnel roles, and the like, and can be configured by controlled manual input or scan input.
More specifically, the parameters set in the scenario configuration unit 301 must include a server IP and a port, and optionally include a server root path, a message server port, a message queue prefix, and the like.
A detection data unit 302 for transmitting, recording and storing data such as personnel information and detection results; the similar equipment unit 303 is used for managing similar POCT detection equipment, and is managed by setting and identifying a white list, any one of unique attribute codes such as a serial number, an MAC address, an ID of a Zigbee or WIFI DIRECT module and the like of the POCT detection equipment can be used as a setting basis for the white list, when the POCT detection equipment leaves a factory or is sold, a manufacturer or an appointed service provider forms a white list of POCT detection equipment from all equipment purchased in the same hospital according to the selected unique attribute code list, and a customer can also import and group-manage the white list by logging in a Hospital Information System (HIS) or a Laboratory Information System (LIS), so that the white list management in different areas or departments of the hospital is realized.
An intelligent POCT detection equipment management method comprises the following steps:
s1, connecting any POCT detection equipment a with the unique identity card number with a server through a wired LAN or a wireless WIFI (wireless fidelity), acquiring server information, marking the server information as configured, and feeding back the information to the server;
specifically, in this embodiment, the POCT detection device a is an intelligent blood glucose meter a, and the server is a local area network of a medical institution; therefore, the intelligent blood glucose meter a is accessed to a local area network of a medical institution through a wired LAN or a wireless WIFI, an equipment management interactive interface 202 of the intelligent blood glucose meter a is opened, a corresponding administrator account and a password are input, a server IP and a port are input in the scene configuration unit 301, server information is successfully acquired, the server information comprises doctor information, nurse information, patient information, detection tasks, operators, a use department, a belonging ward, a quality control type, a test paper lot number, a quality control liquid lot number and other business process information and an equipment white list, an identification number of the intelligent blood glucose meter a, such as SN1001001, is marked as configured in the similar equipment unit 303, and a usable equipment list is generated and returned to the server.
The identity card number is any one of a serial number, an MAC address, an ID of a Zigbee or WIFIDIRECT module and the like of the equipment which is determined to be detected before the equipment leaves a factory or is sold and has a unique attribute code. And the identity card number is used as a setting basis of the white list to form a device white list, and the device white list is imported into the HIS. The manner of import may be controlled, manual entry or scan code entry.
In other embodiments, an IP address or a website address, such as poctlogin.cn or 192.168.100.100, pre-specified by the user interaction module 20 of the intelligent glucose meter a may also be opened in the browser by a computer or other mobile device connected to the same network to which the intelligent glucose meter a is connected in a wireless or wired manner, a corresponding administrator account and password are input, and after login, scene configuration, i.e., information acquisition and feedback, is performed.
S2, the POCT detection device a serves as a host to send gateway broadcast at a certain frequency, after the second POCT detection device which is started for the first time receives the gateway broadcast, the second POCT detection device sends the identity card number of the POCT detection device a to the POCT detection device a in a broadcast mode, and the POCT detection device a judges whether the POCT detection device a is the same type of device or not and whether the POCT detection device a is in a device white list or not according to the identity card number naming rule;
specifically, the intelligent blood glucose meter a sends gateway broadcast to the surroundings through the second network communication unit 102 at the frequency of once every 30 seconds according to the planar distance vector routing protocol required by the wireless ad hoc network, the broadcast must include the identity number SN 1001001001001 of the intelligent blood glucose meter a and configured marks, and the same kind of equipment which is initially started in a certain range, namely, the second POCT detection equipment, the number of which is not limited, such as the intelligent blood glucose meter b, the intelligent blood glucose meter c, the intelligent blood glucose meter d, and the like, receives the gateway broadcast through the second network communication unit 102, determines that the intelligent blood glucose meter a is the same kind of equipment according to the identity number naming rule, and is in the configured state, that is, the verification request is sent to the intelligent blood glucose meter a in a broadcast manner, and the identity numbers of the intelligent blood glucose meter b, the intelligent blood glucose meter c, the intelligent blood glucose meter d, and the like are sent in the same broadcast manner as the intelligent blood glucose meter a, for example, SN1001001002, SN1001001003, SN1001001004, etc., respectively, the intelligent blood glucose meter a determines whether the identification numbers of the intelligent blood glucose meters b, c, d are in the device white list, if not, the intelligent blood glucose meter a feeds back the identification number of the blood glucose meter not in the device white list to a Hospital Information System (HIS) or a Laboratory Information System (LIS) for later verification.
If the intelligent blood glucose meter a judges that the identity card numbers of the intelligent blood glucose meter b, the intelligent blood glucose meter c and the intelligent blood glucose meter d are in the white list of the equipment, connection is established;
and S3, after the POCT detection device a and the plurality of similar POCT detection devices are connected, performing information interaction, synchronously updating the POCT detection device a and the plurality of similar second POCT detection devices, and marking the similar second POCT detection devices as configured.
When the intelligent blood glucose meter a is connected with a second POCT detection device, the intelligent blood glucose meter a sends business process information such as doctor information, nurse information and patient information and a device white list in the form of a broadcast packet, the intelligent blood glucose meter b, the intelligent blood glucose meter c, the intelligent blood glucose meter d and the like successfully receive the broadcast sent by the intelligent blood glucose meter a through a second network communication unit 102, the devices are updated according to the information in the broadcast packet, the device identity numbers of the devices of the same type are marked as configured in a device unit 303 of the same type and are included in a device list of the same type, the device list of the same type which can be used is updated, the updated lists are respectively fed back to the intelligent blood glucose meter a through the second network communication unit 102 in the form of the broadcast packet by the intelligent blood glucose meter b, the intelligent blood glucose meter c and the intelligent blood glucose meter d and the like, the device list of the same type can be further updated after the broadcast packet is received, and sending the updated list of the usable similar devices to the intelligent blood glucose meter b, the intelligent blood glucose meter c and the intelligent blood glucose meter d, or simultaneously sending the updated list of the usable similar devices to a server.
In the above process of establishing connection update configuration normally for the first time, there are different network states in the actual usage scenario, and if there is a second POCT detection device that needs to perform detection data transmission, the second POCT detection device may be a second POCT detection device that has been updated and configured before and has no normal connection due to network congestion or local network congestion after detection, or may be a second POCT detection device that has not been updated and configured before and after detection; that is, it may be configured or unconfigured, and may be in the device white list or not; the second POCT detection device can be used as a slave to send a connection request broadcast to the POCT detection device a, and send the identification number of the second POCT detection device to the POCT detection device a in a broadcast mode, and the POCT detection device a judges whether the POCT detection device is the same type of device or not according to the identification number naming rule.
Of course, in other embodiments, the second POCT detecting device may be directly connected to the server for configuration and become the master and may perform information interaction with the POCT detecting device a (master), and when the network is congested or the local network is not available, it becomes the slave and connects to any one of the masters in the current environment for data interaction. That is, any one detection device can be a master within a certain range, and multiple masters can exist in one environment, and the state of any one detection device can be changed according to the change of the environment, and can be a slave or a master.
If the second POCT detection device is configured or the second POCT detection device is in a device white list, so that the POCT detection device a updates information of the second POCT detection device and completes configuration, the POCT detection device a judges whether the transmission data type in a data packet of the second POCT detection device is completely consistent with the transmission data type of the data to be transmitted, and if so, the POCT detection device a forwards the data packet to a server;
if the second POCT detection equipment is not in the equipment white list, the POCT detection equipment a judges that a data packet of the second POCT detection equipment is a data packet of a user-defined safety protocol type, the POCT detection equipment a marks the second POCT detection equipment as non-white list equipment, and the data packet of the second POCT detection equipment are forwarded to a server through the POCT detection equipment a; and the POCT detection equipment a judges that the data packet of the second POCT detection equipment is not the data packet of the custom security protocol type, and discards or destroys the data packet.
In particular, when the intelligent blood glucose meter e which completes the detection needs to be connected with the intelligent blood glucose meter a which is used as a host,
1) the intelligent blood glucose meter e with abnormal network communication sends a connection request broadcast to the periphery through the second network communication unit 102, the broadcast comprises an identity card number SN1001001005 and a configuration condition of the intelligent blood glucose meter e, the intelligent blood glucose meter a with normal network connection judges whether the intelligent blood glucose meter e is the same equipment or not according to an identity card naming rule after receiving the connection request broadcast, if not, the connection is not established, if so, the intelligent blood glucose meter a returns the configuration condition (configured with configured marks) and the identity card number SN 1001001001001, the intelligent blood glucose meter e judges whether the intelligent blood glucose meter a is the same equipment or not according to the identity card naming rule, if not, the connection is not established, if so, the intelligent blood glucose meter e judges whether the intelligent blood glucose meter a has the configured marks or not, if so, the connection is established, the intelligent blood glucose meter e sends data to the intelligent blood glucose meter a, the intelligent blood glucose meter a judges whether the intelligent blood glucose meter e has a configured mark, if the judgment result is negative, the intelligent blood glucose meter e is continuously judged whether to be in an equipment white list, if the judgment result is negative, the protocol for sending data by the intelligent blood glucose meter e is judged whether to be a safety protocol; in the above determining process, the intelligent blood glucose meter a determines whether the intelligent blood glucose meter e is in the device white list, if so, then continues to determine whether the intelligent blood glucose meter e has a configured flag, and if not, then determines whether a protocol for sending data by the intelligent blood glucose meter e is a safe protocol;
the above determination process has three situations, the first situation is that the identification number of the intelligent blood glucose meter e is in the white list of the device and has no configured mark; the second situation is that the identity card number of the intelligent blood glucose meter e is in the white list of the equipment and has a configured mark; the third situation is that the identification number of the intelligent blood glucose meter e is not in the white list of devices.
If the first situation is the case, namely if the identification number of the intelligent blood glucose meter e is in the white list of the equipment and no configured mark exists, executing the subsequent step 2);
2) the intelligent blood glucose meter e sends a data packet of self Information to the intelligent blood glucose meter a through the second network communication unit 102, the intelligent blood glucose meter a determines whether the data packet of the intelligent blood glucose meter e is legal through communication with a Hospital Information System (HIS) or a Laboratory Information System (LIS), namely whether a corresponding person has operation authority, whether a use place meets requirements and the like, if yes, the data packet is forwarded to the Hospital Information System (HIS) or the Laboratory Information System (LIS), and if not, the data packet is forwarded to the HIS and marked as illegal data so that a manager can check the data packet.
Or the intelligent blood glucose meter a is used as a host to update and configure the information of the intelligent blood glucose meter e according to the normal connection establishment process, and then the intelligent blood glucose meter e is executed according to the second situation.
If the second situation is the case, namely if the identity card number of the intelligent blood glucose meter e is in the white list of the equipment and the configured mark exists, executing the step 3);
3) the intelligent blood glucose meter e sends a data packet of self Information to the intelligent blood glucose meter a through the second network communication unit 102, the intelligent blood glucose meter a judges whether the transmission data type in the data packet of the intelligent blood glucose meter e is completely consistent with the transmission data type of the data to be transmitted, if so, the intelligent blood glucose meter a forwards the data packet to a Hospital Information System (HIS) or a Laboratory Information System (LIS) through the first network communication unit 101, and forwards the data packet from the Hospital Information System (HIS) or the Laboratory Information System (LIS) to the intelligent blood glucose meter e through the second network communication unit. If the type of the data transmitted by the intelligent blood glucose meter e is inconsistent with the data to be transmitted, the intelligent blood glucose meter a forwards the data packet to a Hospital Information System (HIS) or a Laboratory Information System (LIS), and at the same time, the data packet of the intelligent blood glucose meter e is added and confirmed by starting the device management interactive interface 202 of the built-in APP access user interactive module in the intelligent blood glucose meter e.
If the situation is the third situation, namely if the identification number of the intelligent blood glucose meter e is not in the white list of the equipment, executing the step 4);
4) the intelligent blood glucose meter a judges a protocol format of a data packet sent by the intelligent blood glucose meter e, if the data packet is a data packet of a self-defined safety protocol type, the intelligent blood glucose meter a marks the intelligent blood glucose meter e as a non-white list device, and forwards the data packet of the intelligent blood glucose meter e to a Hospital Information System (HIS) or a Laboratory Information System (LIS), the Hospital Information System (HIS) or the Laboratory Information System (LIS) through a first network communication unit 101 of the intelligent blood glucose meter a to check and judge whether to add the intelligent blood glucose meter e into a device white list, and update the updated device white list to the intelligent blood glucose meter a. And if the intelligent blood glucose meter a judges that the data packet protocol format of the intelligent blood glucose meter e is a non-safety protocol, directly discarding or instantly destroying the data packet protocol.
The foregoing detailed description is intended to illustrate and not limit the invention, which is intended to be within the spirit and scope of the appended claims, and any changes and modifications that fall within the true spirit and scope of the invention are intended to be covered by the following claims.
Claims (4)
1. An intelligent POCT detection equipment management method is characterized by comprising the following steps:
1) the second POCT detection device is used as a slave to send a connection request broadcast to the POCT detection device a, and sends the identity card number of the second POCT detection device and the configuration condition of the second POCT detection device to the POCT detection device a in a broadcast mode, the POCT detection device a is used as a host to judge whether the POCT detection device a is the same type of device according to the identity card number naming rule, if yes, the POCT detection device a returns the configuration condition of the POCT detection device a and the identity card number, the second POCT detection device judges whether the POCT detection device a is the same type of device, if yes, the second POCT detection device judges whether the POCT detection device a is configured with a mark, if yes, connection is established, and the second POCT detection device sends data to the POCT detection device a;
2) when the POCT detection equipment a judges that the identity card number of the second POCT detection equipment is in the equipment white list and has no configuration mark, the POCT detection equipment a acquires server information through communication with the server, judges whether a data packet of the second POCT detection equipment is legal or not, and forwards the data packet to the server by the POCT detection equipment a if the data packet is legal;
or when the POCT detection equipment a judges that the identity card number of the second POCT detection equipment is in the equipment white list and is configured with a mark, the POCT detection equipment a acquires server information through communication with the server, the POCT detection equipment a judges whether the type of a data packet of the second POCT detection equipment is consistent with the type of data to be transmitted, and if so, the POCT detection equipment a forwards the data packet to the server;
or when the POCT detection device a judges that the identity card number of the second POCT detection device is not in the device white list, the POCT detection device a judges that the data packet of the second POCT detection device is a data packet of a self-defined safety protocol type, the POCT detection device a marks the second POCT detection device as a non-white list device, and the data packet of the second POCT detection device are forwarded to the server through the POCT detection device a.
2. The intelligent POCT detection equipment management method according to claim 1, characterized in that: in the step 2), the legality of the data packet is judged according to whether the operation authority and the use place of the corresponding personnel meet the requirements.
3. An intelligent POCT detection device applying the management method of the intelligent POCT detection device as claimed in any one of claims 1-2, characterized by comprising:
a detection module;
a power supply module;
the network communication unit comprises a first network communication unit and a second network communication unit, wherein the first network communication unit is used for establishing communication connection between the intelligent POCT detection equipment and the server, and the second network communication unit is used for mutual communication connection between the intelligent POCT detection equipment;
the user interaction module comprises a detection interaction interface and an equipment management interaction interface;
and the data management module comprises a scene configuration unit, a detection data unit and a similar equipment unit.
4. The intelligent POCT detection device of claim 3, wherein: the parameters set in the scene configuration unit comprise a server IP and a port, or further comprise a server root path, a message server port and a message queue prefix; the scene configuration unit is used for configuring network parameters required by communication and data synchronization with the server and process parameters of other corresponding POCT detection equipment; the detection data unit is used for transmitting, recording and storing corresponding personnel information and detection result data; the similar equipment units are used for managing similar intelligent POCT detection equipment, management is carried out in a white list setting and identifying mode, and any one of serial numbers, MAC addresses and IDs of Zigbee or WIFI DIRECT modules of the detection equipment can be used as a setting basis of the white list.
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Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104853449A (en) * | 2015-05-12 | 2015-08-19 | 广东欧珀移动通信有限公司 | Networking method of wireless sound box, device and system |
| CN105873083A (en) * | 2016-05-13 | 2016-08-17 | 安徽南瑞中天电力电子有限公司 | Wireless network networking method |
| EP3091457A1 (en) * | 2015-05-02 | 2016-11-09 | F. Hoffmann-La Roche AG | Point-of-care testing system |
| CN107397539A (en) * | 2017-08-28 | 2017-11-28 | 北京大学深圳医院 | Health care remote monitoring system |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103475524B (en) * | 2013-09-13 | 2016-02-10 | 长沙威胜信息技术有限公司 | Based on the layering network-building method of master-slave node communication network |
| CN104934050A (en) * | 2015-06-29 | 2015-09-23 | 深圳市奋达科技股份有限公司 | Audio networking playing method and system based on wireless network |
-
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Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP3091457A1 (en) * | 2015-05-02 | 2016-11-09 | F. Hoffmann-La Roche AG | Point-of-care testing system |
| CN104853449A (en) * | 2015-05-12 | 2015-08-19 | 广东欧珀移动通信有限公司 | Networking method of wireless sound box, device and system |
| CN105873083A (en) * | 2016-05-13 | 2016-08-17 | 安徽南瑞中天电力电子有限公司 | Wireless network networking method |
| CN107397539A (en) * | 2017-08-28 | 2017-11-28 | 北京大学深圳医院 | Health care remote monitoring system |
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Denomination of invention: An intelligent POCT detection device and its management method Granted publication date: 20210511 Pledgee: Zhejiang Hangzhou Yuhang Rural Commercial Bank Co.,Ltd. Science and Technology City Branch Pledgor: Hangzhou Weice Biotechnology Co.,Ltd. Registration number: Y2024980004386 |
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