CN113453171B - Large-scale emergency detection communication method, device, equipment and storage medium - Google Patents

Abstract

The invention discloses a large-scale emergency detection communication method, a device, equipment and a storage medium, wherein the method comprises the steps of establishing a communication link between a first user and at least one second user; sending a sampling data packet at least provided with a first identification information import interface and a second identification information import interface to a second user; repeatedly acquiring first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface, and establishing a mapping relation between the first identification information and the second identification information acquired within each first preset time. The method provided by the invention enables the workers and volunteers in different organizations and different units to form a temporary communication group of the heterogeneous medical team, and realizes the efficient management and efficient data communication process of the heterogeneous team personnel in the large-scale medical sampling process by repeatedly issuing, repeatedly acquiring and repeatedly uploading the medical sampling data packet with the sample information and the identity information of each tested personnel.

Description

Large-scale emergency detection communication method, device, equipment and storage medium

Technical Field

The invention relates to the technical field of medical detection, in particular to a large-scale emergency detection communication method, device, equipment and storage medium.

Background

The medical detection is a process of performing real-time or non-real-time qualitative detection and measurement on a detected object and issuing a detection report, before the medical detection, a sample of the detected object and identity information of the detected object need to be obtained, and the traditional medical sampling generally refers to a process of a patient autonomously going to a detection mechanism for medical sampling, medical information entry and medical detection.

In a special period, such as a period of epidemic of large-scale infectious diseases, mass collective detection is not suitable for being developed, a traditional patient autonomous sampling and detecting method is not suitable, and a temporary medical sampling team of government organization is required to perform large-scale sampling on patients or suspected patients in a point-by-point investigation mode. However, due to the particularity of the temporary medical sampling team, the team members are generally heterogeneous by different organizations, different units of staff or volunteers, and although the flexibility of team construction and work deployment is improved, the following problems are brought about:

1. team personnel have difficulty organizing: the temporary medical sampling team formed by heterogeneous structures of workers or volunteers in different organizations and different units has the problems of complex team construction process, low communication efficiency of team personnel, delayed higher-level instruction issuing feedback and the like.

2. Management of medical sample data is difficult: due to the fact that the point-by-point investigation and whole-person sampling mode is developed, the obtained sampling data are a large amount of sampling information and identity information of the tested person in different sampling points acquired by different temporary medical sampling teams, and the problems that the distribution of the sampling points is disordered, the sampling is missed, the sampling is repeated, the sampling information is not matched with the identity information of the tested person and the like are easily caused.

Chinese patent publication No. CN111739620A discloses a method, an apparatus, a device, and a storage medium for managing detection information, but the technical solution of the patent only describes a method for managing collected sample information and identity information, and does not disclose communication transmission of sampling data between a sampling person and a responsible person during sampling. In the face of large-scale sampling engineering, when a sampling team consisting of heterogeneous personnel samples, the problems of disordered sampling point distribution, issuing of sampling work tasks and corresponding uploading of sampling data and data of a sampled person cannot be solved.

Therefore, how to improve the temporary communication and data transmission efficiency of the heterogeneous team in the large-scale medical sampling process is a technical problem which needs to be solved urgently.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a large-scale emergency detection communication method, a large-scale emergency detection communication device, large-scale emergency detection communication equipment and a large-scale emergency detection communication storage medium, and aims to solve the technical problems that heterogeneous team personnel organization for large-scale medical sampling is difficult and sampling data management is difficult in the prior art.

In order to achieve the above object, the present invention provides a large-scale emergency detection communication method, which comprises the following steps:

establishing a communication link between a first user and at least one second user;

sending a medical sampling data packet at least provided with a first identification information import interface and a second identification information import interface to a second user;

repeatedly acquiring first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface, and establishing a mapping relation between the first identification information and the second identification information acquired within each first preset time.

Optionally, the step of establishing a communication link between the first user and at least one second user specifically includes:

receiving at least one first request message initiated by a first user, creating a temporary communication group corresponding to each first request message, and adding the user information of the first user into the created temporary communication group;

and receiving second request information initiated by at least one second user, adding the user information of the second user into the created corresponding temporary communication group, and establishing mutual communication links among all users in the temporary communication group.

Optionally, the step of receiving at least one first request message initiated by a first user to create a temporary communication group corresponding to each first request message, and adding the user information of the first user to the created temporary communication group specifically includes:

receiving first request information initiated by a first user;

analyzing and verifying the user information, the affiliated detection mechanism information, the detection item information and the temporary communication group creation authority information of the first user in the first request information, and creating a temporary communication group;

and establishing a communication link between the temporary communication group and the medical detection server, and allocating first label information for joining the temporary communication group to the temporary communication group.

Optionally, after the step of establishing a communication link between the temporary communication group and the medical examination server and allocating the first tag information for joining the temporary communication group to the temporary communication group, the method further includes:

the second user resolves the request address in the acquired first tag information,

the request address is accessed and second request information including user information and affiliated institution information is submitted.

Optionally, the step of receiving second request information initiated by at least one second user, adding the user information of the second user to the created corresponding temporary communication group, and establishing mutual communication links between all users in the temporary communication group further includes:

sending the received second request information to the first user;

and adding the user information corresponding to the second user marked by the first user into the created temporary communication group, and establishing the mutual communication between the first user and each second user and between each second user.

Optionally, before the step of sending the medical sampling data packet having at least the first identification information import interface and the second identification information import interface to the second user, the method further includes:

a first user acquires a medical sampling data packet and leads the medical sampling data packet into a temporary communication group;

and the second user initiates a medical sampling data packet acquisition request in the temporary communication group.

Optionally, before the step of obtaining the medical sampling data packet and importing the medical sampling data packet into the temporary communication group, the first user further includes:

a first user initiates a medical sampling data packet acquisition request to a medical sampling server;

analyzing medical sampling keywords in the medical sampling data packet acquisition request, generating an index relational expression in a medical sampling information database in which a plurality of medical sampling data packets are stored, and calling third label information of the first N medical sampling data packets with the highest similarity in the index result;

and transmitting the medical sampling data packet corresponding to the third label information selected by the first user to the first user.

Optionally, before the step of repeatedly obtaining the first identification information and the second identification information imported by the second user through the first identification information import interface and the second identification information import interface and establishing a mapping relationship between the first identification information and the second identification information obtained within each first preset time, the method further includes:

acquiring the operation authority of the data acquisition equipment of a second user;

and respectively matching communication transmission protocols between the data acquisition equipment of the second user and the first identification information import interface and the second identification information import interface.

Optionally, the step of repeatedly obtaining the first identification information and the second identification information imported by the second user through the first identification information import interface and the second identification information import interface, and establishing a mapping relationship between the first identification information and the second identification information obtained every first preset time further includes:

the first user modifies the data item import proportion of the first identification information and the second identification information in the medical sampling data packet, and redistributes the modified medical sampling data packet to each second user;

before first identification information and second identification information which are imported by a second user through a first identification information import interface and a second identification information import interface are obtained each time, the second user detects whether a received medical sampling data packet exists, and if yes, communication transmission protocols between data acquisition equipment of the second user and a new medical sampling data packet are matched again.

Optionally, after the step of repeatedly obtaining the first identification information and the second identification information imported by the second user through the first identification information import interface and the second identification information import interface, and establishing a mapping relationship between the first identification information and the second identification information obtained within each first preset time, the method further includes:

sending a medical sampling data packet comprising first identification information and second identification information with mapping relation to a medical detection server;

and sending the medical sampling data packet comprising the first identification information and the second identification information with the mapping relation to the first user.

Optionally, after the step of sending the medical sampling data packet including the first identification information and the second identification information having the mapping relationship to the medical examination server, the method further includes:

the medical detection server extracts first identification information and second identification information with mapping relation in the medical sampling data packet, and performs data statistics and storage according to a preset rule;

sending the data statistical result of the medical detection server to a medical detection mechanism;

and sending the data statistical result of the medical detection server to the first user.

Optionally, after the step of receiving at least one first request message initiated by the first user to create a temporary communication group corresponding to each first request message, and adding the user information of the first user to the created temporary communication group, the method further includes:

generating second tag information for each temporary communication group transmitted to the first user;

and receiving second label information selected by the first user, sending temporary communication group data corresponding to the second label information to the first user, and switching an interface corresponding to the temporary communication group at the first user.

Optionally, the large-scale emergency detection communication method further includes:

generating fourth tag information for each temporary communication group transmitted to the first user;

and receiving fourth label information selected by the first user, and disconnecting the communication links among all users in the temporary communication group corresponding to the fourth label information.

In addition, in order to achieve the above object, the present invention further provides a large-scale emergency detection communication apparatus, including:

a communication link establishing module for establishing a communication link between a first user and at least one second user;

the data transmission module is used for sending a medical sampling data packet at least provided with a first identification information import interface and a second identification information import interface to a second user;

and the mapping relation establishing module is used for repeatedly acquiring the first identification information and the second identification information imported by the second user through the first identification information import interface and the second identification information import interface and establishing the mapping relation between the first identification information and the second identification information acquired in each first preset time.

In addition, in order to achieve the above object, the present invention further provides a large-scale emergency detection communication device, including: the system comprises a memory, a processor and a large-scale emergency detection communication program stored on the memory and capable of running on the processor, wherein the large-scale emergency detection communication program realizes the steps of the large-scale emergency detection communication method when being executed by the processor.

In addition, to achieve the above object, the present invention further provides a storage medium having a large-scale emergency detection communication program stored thereon, wherein the large-scale emergency detection communication program, when executed by a processor, implements the steps of the large-scale emergency detection communication program method as described above.

In the invention, a temporary communication group with a responsible person and a plurality of sampling persons is constructed by acquiring first request information of a first user as the responsible person and second request information of a second user as the sampling person; each sampler repeatedly obtains a medical sampling data packet with a first identification information import interface and a second identification information import interface through the temporary communication group, establishes a mapping relation between the first identification information and the second identification information obtained within preset time, imports the identification information with the established mapping relation into the medical sampling data packet, uploads the medical sampling data packet to the temporary communication group, and then sends the medical sampling data packet to the medical detection server. The method provided by the invention enables workers and volunteers of different organizations and different units to form a heterogeneous medical team temporary communication group, issues the medical sampling data packet for sampling in the temporary communication group, and realizes the efficient management and efficient data communication process of the heterogeneous team personnel in the large-scale medical sampling process by repeatedly acquiring the medical sampling data packet and repeatedly uploading the medical sampling data packet with the first identification information and the second identification information of each tested personnel.

Drawings

Fig. 1 is a schematic structural diagram of a hardware operating environment and a large-scale emergency detection communication device according to an embodiment of the present invention.

Fig. 2 is a schematic flow chart of a large-scale emergency detection communication method according to a first embodiment of the present invention.

Fig. 3 is a flowchart illustrating a large-scale emergency detection communication method according to a second embodiment of the present invention.

Fig. 4 is a flowchart illustrating an embodiment of creating a temporary communication group according to the present invention.

FIG. 5 is a flowchart illustrating an embodiment of establishing communication links according to the present invention.

Fig. 6 is a flowchart illustrating a large-scale emergency detection communication method according to a third embodiment of the present invention.

FIG. 7 is a flowchart illustrating an embodiment of the present invention for modifying the ratio of import data items of a medical sample data packet.

Fig. 8 is a flowchart illustrating a large-scale emergency detection communication method according to a fourth embodiment of the present invention.

Fig. 9 is a block diagram of a first embodiment of a large-scale emergency detection communication apparatus according to the present invention.

The implementation, functional features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a hardware operating environment and a large-scale emergency detection communication device according to an embodiment of the present invention.

As shown in fig. 1, the large-scale emergency detection communication apparatus may include: a processor: a processor 1001, such as a Central Processing Unit (CPU), a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. The communication bus 1002 is used to implement connection communication among these components. The user interface 1003 may include a Display screen (Display), and the optional user interface 1003 may further include a standard wired interface and a wireless interface, and the wired interface for the user interface 1003 may be a USB interface in the present invention. The network interface 1004 may optionally include a standard wired interface, a WIreless interface (e.g., a WIreless-FIdelity (WI-FI) interface). The memory 1005 may be a Random Access Memory (RAM) memory, or a Non-volatile memory (NVM), such as a disk memory. The memory 1005 may alternatively be a storage device separate from the processor 1001 described previously.

Those skilled in the art will appreciate that the configuration shown in fig. 1 does not constitute a limitation of a large-scale emergency detection communication device, and may include more or fewer components than those shown, or some components in combination, or a different arrangement of components.

As shown in FIG. 1, a memory 1005, identified as a computer storage medium, may include an operating system, a network communication module, a user interface module, and a mass emergency detection communication program.

In the large-scale emergency detection communication device shown in fig. 1, the network interface 1004 is mainly used for connecting a background server and communicating data with the background server; the user interface 1003 is mainly used for connecting user equipment, and the large-scale emergency detection communication equipment calls a large-scale emergency detection communication program stored in the memory 1005 through the processor 1001 and executes the large-scale emergency detection communication method provided by the embodiment of the invention.

Based on the hardware structure, the embodiment of the large-scale emergency detection communication method is provided.

Referring to fig. 2, fig. 2 is a schematic flow chart of a large-scale emergency detection communication method according to a first embodiment of the present invention, and the first embodiment of the large-scale emergency detection communication method is provided.

In a first embodiment, a large-scale emergency detection communication method includes the steps of:

step S10: a communication link is established between the first user and at least one second user.

It should be noted that the main execution body of the method of the present embodiment is a large-scale emergency detection communication device, which may be a mobile phone, a tablet, a computer, or the like. Of course, other devices with similar functions may also be used, and the present embodiment is not limited thereto.

It should be noted that the first user equipment and the second user equipment, which perform data interaction with the large-scale emergency detection communication equipment to implement the large-scale emergency detection communication method, may be mobile phones, tablets, computers, and other equipment. Of course, other devices with similar functions may also be used, and the present embodiment is not limited thereto.

In a specific implementation, a large-scale emergency detection communication device establishes a communication link between a first user and at least one second user by accessing the first user and the at least one second user into a user interface.

It will be appreciated that with the communication link established, it is possible to implement at a large-scale emergency detection communication device: and the first user equipment and the large-scale emergency detection communication equipment, the second user equipment and the large-scale emergency detection communication equipment and the first user equipment and at least one second user equipment interact data.

It can be understood that, when large-scale medical sampling is performed, a heterogeneous personnel communication link between different detection personnel belonging to different units is constructed, and the communication link is used for sending instruction issuing and sampling feedback between a first user as a management superior level and a second user as a sampling personnel, so that temporary communication and sampling data transmission of the heterogeneous personnel during large-scale medical sampling are realized.

Step S20: and sending a medical sampling data packet at least comprising a first identification information import interface and a second identification information import interface to a second user.

It is to be understood that the information to be recorded for each medical sample data packet is the sample data of the person to be sampled for each sample and the source information of the sample data.

It should be noted that the medical sampling data packet provides records for the medical detection server, which include a data packet to be filled, which includes a sampling category, a sampling point position, a sampling responsible person, first identification information, second identification information, and the like, related to the medical sampling data of this time.

Through the filling of the at least five data, the medical sampling data packet can record the type, the position, the responsible person and the sampling data of each sampling, and the medical sampling data corresponding to each sampling and the source information of the medical sampling data can be obtained through analyzing the medical sampling data packet.

In a specific implementation, in the process of acquiring the medical sampling data packet, the medical sampling data packet received by the second user is automatically filled with source information of the medical sampling data including sampling types, sampling point positions, sampling responsible persons and the like, and a first identification information import interface for importing first identification information of the second user and a second identification information import interface for importing second identification information are provided on the medical sampling data packet.

Based on the implementation of the above functions, in this embodiment, the first identification information is sampling sample identification information, specifically, identification information of a sampling sample container is stored, and may be a radio frequency identification card disposed in the sampling sample container or a two-dimensional code printed on the sampling sample container; the second identification information is the identification information of the sampled person, specifically the identification information of the device for storing the identification information of the sampled person, and may be an identification card carried by the sampled person or a health two-dimensional code of a certification authority.

It can be understood that in the constructed communication link, the second user acquires the medical sampling data packet to be filled, which includes the sampling category, the sampling point position, the sampling responsible person, the first identification information and the second identification information, and then transmits the medical sampling data packet in the communication link, constructs a medical sampling transmission dedicated channel, and performs issuing and uploading management on the sampling data.

Step S30: repeatedly acquiring first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface, and establishing a mapping relation between the first identification information and the second identification information acquired within each first preset time.

It should be noted that after the second user acquires the medical sampling data packet having the filled sampling type, the sampling point position, the sampling responsible person, and the first identification information and the second identification information which are not filled, the first identification information and the second identification information which are not filled in the medical sampling data packet are filled by acquiring the sampling sample identification information and the identification information of the person to be sampled which are acquired by the second user by using the data acquisition device.

It should be noted that, in order to ensure that the identification information of the sampling sample imported by the first identification information import interface of the medical sampling data packet and the identification information of the person to be sampled imported by the second identification information import interface have a corresponding relationship, a first preset time is set, and a mapping relationship is established between a piece of identification information of the sampling sample and a piece of identification information of the person to be sampled, which are acquired within the first preset time.

In the specific implementation, the first preset time is set to 15s, after a piece of sampling sample identification information is received, whether the identification information of the person to be sampled is imported in the 15s or not is detected, and if the identification information of the person to be sampled is imported, a mapping relation is established between the sampling sample identification information and the identification information of the person to be sampled; and if not, deleting the received identification information of the sampling sample, and re-receiving and acquiring the identification information of the sampling sample and the identification information of the person to be sampled.

Optionally, for flexibility of importing sampling data, the order of obtaining the identification information of the person to be sampled and the identification information of the sampling sample within the first preset time is not limited, that is, after receiving one piece of identification information of the person to be sampled, whether the identification information of the sampling sample is imported within 15s is detected, and if yes, a mapping relation is established between the identification information of the sampling sample and the identification information of the person to be sampled; and if not, deleting the received identification information of the sampled person, and re-receiving and acquiring the identification information of the sampled sample and the identification information of the sampled person.

It should be understood that, in order to adapt to sampling environments of different sampling points and increase flexibility of storage of sampling data, the medical sampling data packet may be configured to store single-person sampling data or multi-person sampling data.

When single-person sampling data is stored, after a medical sampling data packet is obtained, the sampling data of a tested person is imported, a mapping relation is established, the medical sampling data packet is stored or sent, and the medical sampling data packet is obtained again;

when the medical sampling data is stored, after a medical sampling data packet is obtained, the sampling data of each tested person is sequentially imported and a mapping relation is established, and after the number of the medical sampling data packets reaches an upper limit value or a second user finishes the medical sampling data packet, the medical sampling data packet is stored or sent, and the medical sampling data packet is obtained again.

It should be understood that the manner of acquiring the first identification information and the second identification information includes direct acquisition by the second user equipment and indirect acquisition by connecting a data acquisition device to the second user equipment.

Optionally, the two-dimensional code printed on the sampling sample container and the health two-dimensional code printed on the authentication organization side are scanned by directly acquiring the available second user equipment such as a smart phone through the second user equipment, and the identification information of the sampling sample and the identification information of the person to be sampled are respectively acquired.

Optionally, the second user equipment is connected with the data acquisition device for indirect acquisition, and the radio frequency reading device and the identification card reader can be used for respectively acquiring the identification information of the sampled sample and the identification information of the person to be sampled.

The method can be understood that the problem of confusion of field sampling data is solved by setting the time range of acquiring the identification information of the person to be sampled and the identification information of the sampling sample, only one piece of identification information of the person to be sampled and one piece of identification information of the sampling sample are received within the preset time, corresponding information is deleted if overtime reception or information types are not matched, data is acquired again, and the accuracy of the sampling data is improved.

In a first embodiment, in a communication link of a constructed heterogeneous medical sampling team, a second user uploads acquired identification information of a person to be sampled and sampling sample identification information establishing a mapping relationship with the acquired identification information of the person to be sampled through second user equipment, and then uploads a medical sampling data packet containing one or more groups of identification information of the person to be sampled and sampling sample identification information establishing a mapping relationship with the identification information of the person to be sampled to a medical detection server or a first user through the communication link, the data packet records a corresponding relationship between the sampling sample and a person to be detected, and the corresponding relationship is used for recording a detection result of the corresponding person to be detected after the sampling detection result is obtained, so that the transmission and management efficiency of the sampling data and the detection data is improved.

Referring to fig. 3, fig. 3 is a flowchart illustrating a large-scale emergency detection communication method according to a second embodiment of the present invention, which is proposed based on the first embodiment shown in fig. 2.

In the second embodiment, step S10: establishing a communication link between a first user and at least one second user, specifically comprising:

step S101: receiving at least one first request message initiated by a first user, creating a temporary communication group corresponding to each first request message, and adding the user information of the first user into the created temporary communication group.

It should be understood that the first user as a responsible person can be responsible for managing medical sampling work of multiple sampling points, and for heterogeneous team management of different medical sampling points, multiple temporary communication groups can be constructed by initiating the first request information for multiple times, and the second user corresponding to the sampling person is added into the corresponding temporary communication group, so that unified management of the sampling persons at different sampling points is met.

It should be noted that, in this embodiment, as shown in fig. 4, which is a flowchart of a specific embodiment of creating a temporary communication group, step S101: receiving at least one first request message initiated by a first user to create a temporary communication group corresponding to each first request message, and adding the user message of the first user to the created temporary communication group, specifically including:

step S1011: first request information initiated by a first user is received.

Step S1012: and analyzing and verifying the user information, the affiliated detection mechanism information, the detection item information and the temporary communication group creation authority information of the first user in the first request information, and creating the temporary communication group.

Step S1013: and establishing a communication link between the temporary communication group and the medical detection server, and allocating first label information for joining the temporary communication group to the temporary communication group.

Step S1014: and the second user resolves the request address in the acquired first label information.

Step S1015: the request address is accessed and second request information including user information and affiliated institution information is submitted.

It is to be understood that the first label information is an admission identifier assigned by the medical detection server for each temporary communication group. And the second user acquires the access identifier, extracts the temporary communication group number corresponding to the access identifier stored in the medical detection server by the injection identifier, and then joins the second user into the temporary communication group corresponding to the number.

Optionally, the access identifier may be fixed or time-transformed two-dimensional code information, verification code information, input password information, or the like.

Step S102: and receiving second request information initiated by at least one second user, adding the user information of the second user into the created corresponding temporary communication group, and establishing mutual communication links among all users in the temporary communication group.

It should be noted that, in this embodiment, as shown in fig. 5, which is a flowchart of a specific embodiment of establishing a mutual communication link, step S102: receiving second request information initiated by at least one second user, adding the user information of the second user into the created corresponding temporary communication group, and establishing mutual communication links among all users in the temporary communication group, which specifically comprises the following steps:

step S1021: at least one second user-initiated second request message is received.

Step S1022: and sending the received second request information to the first user.

Step S1023: and adding the user information corresponding to the second users marked by the first user into the created temporary communication group, and establishing the mutual communication between the first user and each second user and between each second user.

Note that, based on step S20 of the first embodiment: before sending the medical sampling data packet at least having the first identification information import interface and the second identification information import interface to the second user, the method further comprises the following steps:

step A10: the first user acquires a medical sampling data packet and imports the medical sampling data packet into a temporary communication group.

Step A20: and the second user initiates a medical sampling data packet acquisition request in the temporary communication group.

It should be understood that, the medical sampling data packet acquired by the second user as the sampler in the temporary communication group is acquired by the first user as the responsible person sharing the medical sampling data packet that can be directly used by the sampler to the cloud storage space allocated by the medical detection server for the temporary communication group, and the sampler initiates an acquisition request to the temporary communication group.

Based on step a10, step S20: before sending the medical sampling data packet at least having the first identification information import interface and the second identification information import interface to the second user, the method further comprises the following steps:

step B10: the first user initiates a medical sampling data packet acquisition request to a medical sampling server.

Step B20: and analyzing the medical sampling keywords in the medical sampling data packet acquisition request, generating an index relational expression in a medical sampling information database in which a plurality of medical sampling data packets are stored, and calling third label information of the first N medical sampling data packets with highest similarity in the index result.

Step B30: and transmitting the medical sampling data packet corresponding to the third label information selected by the first user to the first user.

In a specific implementation, a first user as a responsible person sends a medical sampling data packet acquisition request to a medical sampling server, where the request includes a sampling point position, a sampling type, a sampling responsible person, and a temporary communication group number responsible for the sampling point.

It should be understood that the medical sampling server counts the sampling process of each sampling point and sampling type for the information in the requests sent by all the responsible persons, and the whole medical sampling distribution content can be obtained at the medical sampling server side.

In the second embodiment, the first label information generated by the request of the responsible person is sent to the sampling person, the request address in the first label information is obtained through analysis, the heterogeneous team building process that the responsible person invites a plurality of sampling persons is realized, in the process, the identity information of the responsible person and the identity information of the sampling persons need to be verified respectively, and the strict admittance of the responsible person and the sampling persons corresponding to the medical sampling point is ensured.

Referring to fig. 6 and fig. 6 are schematic flow charts of a large-scale emergency detection communication method according to a third embodiment of the present invention, which is proposed based on the second embodiment shown in fig. 3.

In the third embodiment, step S30: the method includes the steps of repeatedly acquiring first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface, and before establishing a mapping relation between the first identification information and the second identification information acquired within each first preset time, further including:

step C10: and acquiring the operation authority of the data acquisition equipment of the second user.

Step C20: and respectively matching communication transmission protocols between the data acquisition equipment of the second user and the first identification information import interface and the second identification information import interface.

It should be noted that the first identification information and the second identification information acquired by the second user as the sampler are respectively sampling sample identification information and person-to-be-sampled identification information, where the sampling sample identification information is identification information of a container in which a sampling sample of the person to be sampled is loaded, and the person-to-be-sampled identification information is identification information of a device for storing the identity information of the person to be sampled.

In the specific implementation, a sampler collects the first identification information and the second identification information and respectively collects a container of a sample to be sampled and an identity information device through a data collection device, and the first identification information and the second identification information collected are uploaded by a second user device through the data collection device.

It is to be understood that the data acquisition device includes a first identification information acquisition device of an rf reader for reading an rf identification card on a container for sampling a sample or an id card reader for reading id card information and a second identification information acquisition device of a barcode scanning gun for scanning a two-dimensional code on an identification container or a barcode scanning device for scanning and identifying a two-dimensional code in which id information is stored.

In another possible embodiment, the first identification information acquisition device and the second identification information acquisition device are integrated in the second user device, and the sampler can acquire and transmit the first identification information and the second identification information through the second user device.

It should be noted that, in this embodiment, as shown in fig. 7, which is a flowchart of a specific embodiment of establishing a mapping relationship, step S30: the step of repeatedly acquiring first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface, and establishing a mapping relation between the first identification information and the second identification information acquired within each first preset time further comprises the following steps:

step S301: the first user modifies the data item import proportion of the first identification information and the second identification information in the medical sampling data packet, and redistributes the modified medical sampling data packet to each second user;

step S302: before first identification information and second identification information which are imported by a second user through a first identification information import interface and a second identification information import interface are obtained each time, the second user detects whether a received medical sampling data packet is received or not;

step S303: and re-matching the communication transmission protocol between the data acquisition equipment of the second user and the first identification information import interface and the second identification information import interface of the new medical sampling data packet.

In specific implementation, different sampling points can perform different operation treatments during sampling according to conditions, for example, in a large-scale area with tight sampling time and heavy inspection task, a container for loading a sampling sample is limited, and the sample detection speed cannot meet the sampling speed. At this time, it is necessary to adjust the item number import ratio of the first identification information to the second identification information for each medical sample data packet.

Specifically, after obtaining the operation authority, the first user as a responsible person sets the first identification information introducible item number and the second identification information introducible item number of the medical sampling data packet in the temporary communication group, detects that the detection parameter in a certain sampling sample container does not reach the standard by adjusting the proportion of mixed sampling and mixed detection, and further performs deep detection on a corresponding sampled person in the sampling sample container until the sampled person with the detection parameter not reaching the standard is detected, so that the use pressure of the sampling sample container is reduced, and the group detection speed is improved.

It should be understood that after the medical sampling data packet is sent by the sampler each time, that is, before the next medical sampling data packet is received, whether the medical sampling data packet in the temporary communication group is updated is detected, if the medical sampling data packet is updated, the medical sampling data packet is acquired, the first identification information and the second identification information acquired next time are imported into the medical sampling data packet, and the first identification information and the second identification information corresponding to the number of items are imported according to the number of items import ratio.

Optionally, in the case of pursuing extremely high sampling efficiency, the number of terms import ratio of the first identification information to the second identification information may be adopted, i.e., 1: 10; correspondingly, when sampling, the second user only acquires and introduces the first identification information of one sampling sample container and the second identification information of ten sampled persons into the medical sampling data packet, and places the sampling samples of the ten persons into one sampling sample container, so that the mixed sampling process of the ten persons can be realized.

In this embodiment, step S30: after the steps of repeatedly acquiring first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface and establishing a mapping relation between the first identification information and the second identification information acquired within each first preset time, the method further comprises the following steps:

step D10: and sending the medical sampling data packet comprising the first identification information and the second identification information with the mapping relation to a medical detection server.

Step D20: and sending the medical sampling data packet comprising the first identification information and the second identification information with the mapping relation to the first user.

It is to be understood that, the first identification information and the second identification information which are stored in the acquired medical sampling data packet and have mapping relations, and the acquired medical sampling data are simultaneously sent to the medical detection server and the first user; the medical detection server stores the medical data packet and imports the monitoring result into the medical data packet after receiving the detection result of the detection mechanism; the first user stores second identification information of the medical data packet, and the second identification information is used for the responsible person to check the overall sampling progress of the heterogeneous team.

In this embodiment, step S303: after the step of sending the medical sampling data packet including the first identification information and the second identification information with the mapping relationship to the medical detection server, the method further includes:

step E10: the medical detection server extracts the first identification information and the second identification information which have the mapping relation in the medical sampling data packet, and performs data statistics and storage according to a preset rule.

Step E20: and sending the data statistical result of the medical detection server to a medical detection institution.

Step E30: and sending the data statistical result of the medical detection server to the first user.

It should be understood that after the medical detection server receives the medical sampling data packets uploaded by different sampling points and different temporary communication groups, the medical detection server performs statistics on the first identification information and the second identification information in all the medical sampling data packets, and the statistical data is respectively sent to the medical detection mechanism and the first user serving as a responsible person.

In a third embodiment, the medical sampling data packet acquired by the responsible person in the first user equipment is modified, the mixed sampling proportion is adjusted, the sampling efficiency is improved, and meanwhile, the sampled first identification information and the sampled second identification information are sent to a medical detection mechanism or fed back to the responsible person, so that the communication of the sampled data of the responsible person and a plurality of sampling persons in the temporary communication group is realized.

Referring to fig. 8 and fig. 8 are schematic flow diagrams illustrating a large-scale emergency detection communication method according to a fourth embodiment of the present invention, which is proposed based on the third embodiment shown in fig. 6.

In the fourth embodiment, step S101: after the step of receiving at least one first request message initiated by a first user to create a temporary communication group corresponding to each first request message and adding the user message of the first user to the created temporary communication group, the method further comprises:

step F10: second tag information for each temporary communication group transmitted to the first user is generated.

Step F20: and receiving second label information selected by the first user, sending temporary communication group data corresponding to the second label information to the first user, and switching an interface corresponding to the temporary communication group at the first user.

It should be noted that, the large-scale emergency detection communication method further includes:

step G10: fourth tag information for each temporary communication group transmitted to the first user is generated.

Step G20: and receiving fourth label information selected by the first user, and disconnecting the communication links among all users in the temporary communication group corresponding to the fourth label information.

In the fourth embodiment, in data communication management in which a person in charge faces a plurality of temporary communication groups at a plurality of sampling points, communication interfaces of different temporary communication groups on the first user equipment can be switched by the second tag serving as switching control. In addition, after sampling at a certain sampling point is finished or large-scale medical sampling is finished, the selected temporary communication group can be dispersed through the fourth label used as dispersion control, and the management pressure of data communication of a responsible person is reduced.

In addition, an embodiment of the present invention further provides a storage medium, where a large-scale emergency detection communication program is stored on the storage medium, and the large-scale emergency detection communication program, when executed by a processor, implements the steps of the large-scale emergency detection communication method as described above.

In addition, referring to fig. 9, an embodiment of the present invention further provides a large-scale emergency detection communication apparatus, where the large-scale emergency detection communication apparatus includes:

a communication link establishing module 10, configured to establish a communication link between a first user and at least one second user;

the data transmission module 20 is configured to send a medical sampling data packet having at least a first identification information import interface and a second identification information import interface to a second user;

the mapping relationship establishing module 30 is configured to repeatedly acquire first identification information and second identification information imported by a second user through a first identification information import interface and a second identification information import interface, and establish a mapping relationship between the first identification information and the second identification information acquired every first preset time.

In this embodiment, a communication link establishing module, a data transmission module, and a mapping relationship establishing module are arranged in the large-scale emergency detection communication device to perform transmission communication of medical data with the first user equipment and the second user equipment, respectively, so as to implement the temporary communication of heterogeneous teams in the large-scale medical sampling.

Other embodiments or specific implementation manners of the large-scale emergency detection communication device according to the present invention may refer to the above method embodiments, and are not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element described by the phrase "comprising" does not exclude the presence of additional identical elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering and these words may be interpreted as names.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention or portions thereof contributing to the prior art may be embodied in the form of a software product, where the computer software product is stored in a storage medium (such as a Read Only Memory (ROM)/Random Access Memory (RAM), a magnetic disk, and an optical disk), and includes several instructions for enabling a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. The large-scale emergency detection communication method is characterized by comprising the following steps of:

s10: establishing a communication link between a first user and at least one second user;

s20: sending a sampling data packet at least provided with a first identification information import interface and a second identification information import interface to a second user;

s30: repeatedly acquiring first identification information and second identification information which are imported by a second user through a first identification information import interface and a second identification information import interface after acquiring a sampling data packet, and establishing a mapping relation between the first identification information and the second identification information acquired in each first preset time; the step of establishing the mapping relationship further comprises the following steps:

s301: the first user modifies the data item import proportion of the first identification information and the second identification information in the sampling data packet, and redistributes the modified sampling data packet to each second user;

s302: before acquiring first identification information and second identification information which are imported by a second user through a first identification information import interface and a second identification information import interface each time, the second user detects whether a received sampling data packet is received;

s303: and re-matching the communication transmission protocol between the data acquisition equipment of the second user and the first identification information import interface and the second identification information import interface of the new sampling data packet.

2. The large-scale emergency detection communication method according to claim 1, wherein the step of establishing a communication link between the first user and at least one second user specifically comprises:

s101: receiving at least one first request message initiated by a first user, creating a temporary communication group corresponding to each first request message, and adding the user information of the first user into the created temporary communication group;

s102: and receiving second request information initiated by at least one second user, adding the user information of the second user into the created corresponding temporary communication group, and establishing mutual communication links among all users in the temporary communication group.

3. The large scale emergency detection communication method according to claim 2, wherein before the step of sending the sampling packet having at least the first identification information import interface and the second identification information import interface to the second user, the method further comprises:

a10: a first user acquires a sampling data packet and leads the sampling data packet into a temporary communication group;

a20: and the second user initiates a sampling data packet acquisition request in the temporary communication group.

4. The massive emergency detection communication method according to claim 3, wherein the step of obtaining the sample packet by the first user and introducing the sample packet into the temporary communication group further comprises:

b10: a first user initiates a sampling data packet acquisition request to a sampling server;

b20: analyzing sampling keywords in the sampling data packet acquisition request, generating an index relational expression in a sampling information database in which a plurality of sampling data packets are stored, and calling third label information of the first N sampling data packets with the highest similarity in an index result;

b30: and transmitting the sampling data packet corresponding to the third label information selected by the first user to the first user.

5. The large-scale emergency detection communication method according to any one of claims 1 to 4, wherein before the step of repeatedly acquiring the first identification information and the second identification information imported by the second user through the first identification information import interface and the second identification information import interface after the sampling data packet is acquired, and establishing a mapping relationship between the first identification information and the second identification information acquired every first preset time, the method further comprises:

c10: acquiring the operation authority of the data acquisition equipment of a second user;

c20: and respectively matching communication transmission protocols between the data acquisition equipment of the second user and the first identification information import interface and the second identification information import interface.

6. The large-scale emergency detection communication method according to claim 1, wherein after the step of repeatedly acquiring the first identification information and the second identification information imported by the second user through the first identification information import interface and the second identification information import interface after the sampling data packet is acquired, and establishing a mapping relationship between the first identification information and the second identification information acquired every first preset time, the method further comprises:

sending a sampling data packet comprising first identification information and second identification information with mapping relation to a detection server;

sending a sampling data packet comprising first identification information and second identification information with mapping relation to a first user;

the detection server extracts first identification information and second identification information with mapping relations in the sampling data packet, and performs data statistics and storage according to a preset rule;

sending the data statistical result of the detection server to a detection mechanism;

and sending the data statistical result of the detection server to the first user.

7. Large-scale emergency detection communication device, characterized in that it comprises:

a communication link establishing module for establishing a communication link between a first user and at least one second user;

the data transmission module is used for sending a sampling data packet at least provided with a first identification information import interface and a second identification information import interface to a second user;

the mapping relationship establishing module is configured to repeatedly obtain first identification information and second identification information, which are imported by a second user through a first identification information import interface and a second identification information import interface after obtaining a sampling data packet, and establish a mapping relationship between the first identification information and the second identification information obtained every first preset time, and the mapping relationship establishing module further includes:

the first user modifies the data item import proportion of the first identification information and the second identification information in the sampling data packet, and redistributes the modified sampling data packet to each second user;

before first identification information and second identification information which are imported by a second user through a first identification information import interface and a second identification information import interface are obtained each time, the second user detects whether a received sampling data packet exists or not;

and re-matching the communication transmission protocol between the data acquisition equipment of the second user and the first identification information import interface and the second identification information import interface of the new sampling data packet.

8. Large-scale emergency detection communication equipment, characterized in that it comprises: memory, a processor and a large-scale emergency detection communication program stored on the memory and executable on the processor, the large-scale emergency detection communication program when executed by the processor implementing the steps of the large-scale emergency detection communication method according to any one of claims 1 to 6.

9. Storage medium, characterized in that it has stored thereon a large-scale emergency detection communication program which, when executed by a processor, implements a large-scale emergency detection communication method according to any one of claims 1 to 6.

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