CN112288348B - Biological safety transfer supervision method and system - Google Patents

Abstract

The invention relates to a biological safety transportation supervision method and a system, wherein the system comprises: the system comprises a user terminal, a biological transfer box, an internal server and a third-party server; wherein: a GPS positioning device is arranged on the biological transfer box; the third-party server is used for realizing specific functions involved in the biological safety transfer supervision; the third-party server is a cloud server; the third-party server comprises a computing server and a storage server, and the internal server selects a proper storage server to register according to the security requirement; the internal server only provides light services for receiving user access and simple verification of the third-party server; and after the internal server receives the function request, analyzing the type of the function request, and sending and distributing the function request to a registered third-party server capable of completing the type of the function request according to the type. The invention provides an effective form of a quick construction system and a safety providing function, and meets the requirement of biological safety transportation supervision.

Description

Biological safety transfer supervision method and system

[ technical field ] A method for producing a semiconductor device

The invention belongs to the technical field of biological medicines, and particularly relates to a biological safety transportation supervision method and system.

[ background of the invention ]

With the rapid development of social science and technology, the logistics industry is rapidly developing in the global scope as a new service department in national economy. Internationally, the logistics industry is considered as the artery and the basic industry for the development of national economy, and the development degree of the logistics industry becomes one of the important marks for measuring the modernization degree and the comprehensive national power. Although the logistics industry in China has been developed rapidly in recent years, compared with the developed countries in the west, the constant-temperature transportation industry in China is relatively lagged in development, the position of goods cannot be tracked in time in the transportation process, and the safety of goods transportation cannot be guaranteed. In particular, the service mode and means are more primitive and singular. At present, most enterprises engaged in logistics service only simply provide transportation and storage service, but do not fully develop in the aspects of logistics value-added service such as circulation processing, logistics information service, inventory management, logistics cost control and the like.

Due to the lack of a good comprehensive information platform and a good management system, information of various links of the constant-temperature transportation business is not smooth, technical equipment and management means of most logistics enterprises are relatively backward thrown away, and a service network and an information system are not perfect. In addition, the current biological collection, transportation and treatment processes have the common technical lagging problems, such as difficulty in tracing biological articles and bacterial strains, relative lagging of information acquisition and feedback, unreasonable scheduling flow, difficulty in controlling the biological and bacterial strains handover link, difficulty in monitoring each object in the treatment link in real time and the like. How to establish an information technology basis for the whole-process biological safety supervision and management of biological sample and bacterial virus seed transportation through the whole-process supervision of the biological and bacterial virus seed safety related sample transportation process. The transportation data related to the biological samples and the bacteria and viruses also need higher safety in many times, the system is strongly urgent to be built, and how to provide the transportation data which can meet the safety and the urgency under the condition of meeting basic functions is a technical problem to be solved. The invention can: (1) based on the B/S architecture, the method innovatively adopts the combination of an internal server and a third-party server to carry out safety guarantee and safety transfer supervision. (2) On the basis of directly utilizing simple services provided by a third-party server, the expansion function is relatively simple, and the system can directly use a non-special server and simultaneously ensure the safety of a physical system by introducing a registration mechanism and a function request for classification, so that the realization difficulty of the system is greatly reduced; (3) function classification and function decomposition are provided, and registration and deregistration of a third-party server are provided based on the satisfied condition, so that the landing difficulty of the system is greatly reduced; (4) a quantitative trend determination method is provided, and the operation is carried out only under the conditions of times indication and trend support, so that operation oscillation is avoided; (5) dynamic fences are presented to enable users to perform dynamic acquisition of supplies, work scheduling, and traffic setup. In a word, because the safety level related to the biosafety transportation is high, and the requirements related to the biosafety often appear very urgently, the invention provides an effective form for quickly building a system and providing a safety function, and meets the supervision requirement of the biosafety transportation of the first party.

[ summary of the invention ]

In order to solve the above problems in the prior art, the present invention provides a biosafety transportation supervision method and system, the system comprising: the system comprises: the system comprises a user terminal, a biological transfer box, an internal server and a third-party server; wherein: a GPS positioning device is arranged on the biological transfer box;

the third-party server is used for realizing specific functions involved in the biological safety transfer supervision; the third-party server is a cloud server; the third-party server comprises a computing server and a storage server, and the internal server selects a proper storage server to register according to the security requirement;

the internal server only provides light services for receiving user access and simple verification of the third-party server; and after the internal server receives the function request, analyzing the type of the function request, and sending and distributing the function request to a registered third-party server capable of completing the type of the function request according to the type.

Further, the internal server is a server for completing the biological safety transfer monitoring, and the server is independent of the cloud computing platform.

Further, the user terminal is configured to receive a function request sent by a user, and send the function request to the internal server.

Further, the internal server is configured to receive the function request, provide a corresponding function interface based on the function request, receive, through the function interface, function data required for completing the function request, and send the function data to the registered third-party server.

Further, the function request includes a simple function and a complex function.

Further, the number of the user terminals is one or more.

Further, the number of the internal servers is one or more.

A biosafety transport supervision method applied to any one of claims 1 to 7, characterized by comprising: the method comprises the following steps: step S1, providing new user registration for the new user;

step S2: providing user login for the old user;

step S3: the login user maintains and manages the biological transfer box and the account;

step S4: and carrying out transfer management on the biological transfer box.

Further, the user registers the user name in a mobile phone authentication mode.

Further, the user logs in by using the registered mobile phone number and the password.

The beneficial effects of the invention include: (1) based on the B/S architecture, the method innovatively adopts the combination of an internal server and a third-party server to carry out safety guarantee and safety transfer supervision. (2) On the basis of directly utilizing simple services provided by a third-party server, the expansion function is relatively simple, and the system can directly use a non-special server and simultaneously ensure the safety of a physical system by introducing a registration mechanism and a function request for classification, so that the realization difficulty of the system is greatly reduced; (3) function classification and function decomposition are provided, and registration and deregistration of a third-party server are provided based on the satisfied condition, so that the landing difficulty of the system is greatly reduced; (4) a quantitative trend determination method is provided, and the operation is carried out only under the conditions of times indication and trend support, so that operation oscillation is avoided; (5) dynamic fences are presented to enable users to perform dynamic acquisition of supplies, work scheduling, and traffic setup. In a word, because the safety level related to the biosafety transportation is high, and the requirements related to the biosafety often appear very urgently, the invention provides an effective form for quickly building a system and providing a safety function, and meets the supervision requirement of the biosafety transportation of the first party.

[ description of the drawings ]

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, and are not to be considered limiting of the invention, in which:

fig. 1 is a schematic diagram of the biological safety transportation supervision method of the invention.

Fig. 2 is a schematic view of the biosafety transportation supervision system of the invention.

Fig. 3 is a diagram of a prior art map fence.

Fig. 4 is a schematic diagram of a map fence according to the present invention.

[ detailed description ] embodiments

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions are provided only for the purpose of illustrating the present invention and are not to be construed as limiting the present invention.

According to the method and the system, the positioning and the track tracking of the biological safety box are realized, and the whole-course dynamic tracking management of the whole process of application, transportation and handover can be realized in the sample transportation; the biological safety monitoring equipment management supports 4G/5G network signals and GPS/Beidou positioning; flexible user and authority management is provided, and user end equipment registration and distribution are realized.

A biosafety transport surveillance system for use with the present invention is described in detail, as shown in fig. 1, the system comprising: the system comprises a user terminal, a biological transfer box, an internal server and a third-party server; wherein: the biological transfer box is provided with a GPS positioning device. The invention is based on B/S architecture and innovatively adopts a mode of combining an internal server and a third-party server to carry out safety guarantee and safety transfer supervision, the third-party server is used for realizing third-party services, such as user authority management and the like, the internal server only provides light services of receiving user access, interface provision and the like and registration and verification of the third-party server, and specific functions related to biological safety transfer supervision are completed by the third-party server;

preferably: the third-party server is a cloud server; the third-party server comprises a computing server and a storage server, and the internal server can select a proper storage server to register according to the security requirement;

the user terminal is used for receiving a function request sent by a user and sending the function request to the internal server; the function request includes: the method comprises the following steps of logging in, registering and logging in a user to maintain and manage the biological transfer box and an account, and managing the operation of the transfer box;

the internal server is used for receiving the function request, providing a corresponding function interface based on the function request, receiving the function data required by the function request input by the user through the terminal through the function interface, and sending the function data to the registered third-party server;

the internal server is a server for completing biological safety transfer monitoring, and the server is independent of a cloud computing platform; for example: the internal server is arranged for the transportation supervision of the sample by the disease control center, and can support the biological safety transportation supervision method and system; one or more internal servers;

after the internal server receives the function request, analyzing the type of the function request, and sending and distributing the function request to a registered third-party server capable of completing the type of the function request according to the type;

the function request includes a simple function and a complex function. The internal server judges the type of the function request after receiving the function request, and when the function request is a simple type, the internal server sends the function request to a registered third-party server corresponding to the function type; the simple function is a function which can be completed by requesting an independent third-party server, and the internal server only needs to send the function request and the collected function data to the third-party server, receive a function processing result returned by the third-party server and send the function processing result to the user terminal; when the function request is a complex type, decomposing the function request according to a decomposition table corresponding to the function type to obtain decomposed sub-function requests, suspending the function request, sending the decomposed sub-function requests to a corresponding third-party server, suspending the function request after all the sub-function requests are completed, and sending a spliced processing result to the user terminal;

wherein: the decomposition table comprises a decomposition mode and a decomposition sequence, the sub-function requests obtained after decomposition are ordered, and when the sub-processing results of the sub-function requests are obtained, the sub-processing results and the suspended function requests are stored in an associated mode or sent to a next third-party server in sequence according to the decomposition sequence until the sub-function requests are all decomposed; and splicing the sub-processing results under the guidance of the decomposition table to form a processing result and sending the processing result to the user terminal. The decomposition mode is the sub-function requests which are decomposed, how the sub-processing results are spliced and the like;

preferably: the function request and the sub-function request comprise request identifiers, and the requests are sent and completed through the identifiers;

preferably: an associated storage function type and a resolution table; when the system wants to expand a new function, only the decomposition table needs to be expanded, so that the landing difficulty of the system is greatly reduced;

the internal server classifies and decomposes the functions, so that the expansion function is relatively simple on the basis of directly utilizing simple services provided by a third-party server, and a registration mechanism is introduced, so that the system can directly use a non-special server, the safety of a physical system is guaranteed, and the realization difficulty of the system is greatly reduced; because the safety level related to the biological safety transportation is high, and the requirements related to the biological safety are very urgent, the invention provides an effective form for quickly building a system and safely providing functions;

preferably: the number of the internal servers is one or more;

the sending of the functional data to the registered third-party server specifically includes: and sending the function request or the sub-function request to the cloud computing platform, and sending a registered third party server list corresponding to the function type to the cloud computing platform. After the function request or the sub-function request is sent out, the completion condition of the function is semitransparent for the user terminal, and as a conventional third-party server is adopted, the task allocation rule of the cloud computing platform is a system internal rule and is opaque to the outside, the cloud computing platform only needs to allocate tasks according to the required task types, and simultaneously sends and registers a third-party server list, so that the cloud computing platform allocates tasks according to the list when the cloud computing server is selected, and the system safety is guaranteed;

the third-party server provides a request server capable of completing the function for the cloud computing platform, and registers the third-party server as a third-party server authenticated by the internal server; the cloud computing platform comprises a plurality of third-party servers, each third-party server can complete one or more function requests, and the third-party servers are general servers and can provide corresponding function services for different types of users;

the registered third-party server is a third-party server with the safety performance capable of meeting the system requirement, and the third-party server becomes the registered third-party server after the internal server registers the third-party server; the server may also be selected according to other requirements, for example: communication overhead, charging conditions, etc.;

preferably: the internal server registers the third-party server according to the function requirement; specifically, the method comprises the following steps: the internal server records the request times of each type of function, determines the satisfaction condition of the current registered third-party server to the corresponding type of function based on the request times, and performs registration and de-registration of the third-party server based on the satisfaction condition;

registering and deregistering a third-party server based on the satisfied condition, specifically; when the request times indicate that the registered third-party server over meets the functions of the corresponding types and the request times are in a descending trend, selecting the corresponding type to register the third-party server for deregistration; otherwise, when the request times indicate that the registered third-party server does not meet the functions of the corresponding type and the request times are in an ascending trend, selecting the corresponding type to register the third-party server for registration; when the two are consistent, keeping the current registered third-party server unchanged; the invention provides that the registration and the de-registration of the server are carried out only under the condition that the times indication and the trend support are both clear, thereby avoiding the oscillation caused by repeated registration; under the condition that the trend is not determined, the operation is not carried out, and finally the trend and the operation return to the condition of matching;

the request times are in an ascending trend, and specifically include: acquiring an access sequence in a first time interval, dividing the access sequence into N subsequences, counting the times that the access times in the next subsequence exceed the access times in the previous subsequence for every two adjacent subsequences, and determining that the access times are in an ascending trend when the times are more than N/2; otherwise, when the times are less than N/2, determining that the trend is down;

preferably: the segmentation is a fixed time length segmentation; the first time interval may be selected to span two different conventional access change intervals;

preferably: here, the statistics on the number of requests are performed in functional types;

preferably: the first time interval is a preset value; when the length of the first time interval is smaller than a length threshold, determining the trend by adopting a thickness and granularity combination mode; specifically, the method comprises the following steps: respectively counting the number of times that the number of accesses in a later subsequence exceeds the number of times that the number of accesses in a previous subsequence in two adjacent subsequences and two subsequences which are spaced by x subsequences, and determining that the number of times is in an ascending trend when the number of times is greater than a trend threshold value; otherwise, when the times are smaller than the trend threshold value, determining that the trend is down; the trend threshold value can be set to be N/2, and the trend threshold value can be dynamically changed according to the oscillation adjusting situation; wherein: n is a preset value; preferably: x is 2;

a biosafety transportation supervision method applied to the biosafety transportation supervision system is explained in detail, and the method comprises the following steps;

step S1, providing new user registration for the new user;

preferably: a user registers a user name in a mobile phone verification mode; the user registration information can be stored in a registration third-party server with guaranteed safety, preferably in an internal server, so that the internal server is used as a storage server, and when the third-party server completes a task, the address is redirected to the internal server to acquire registration and login data;

step S2: providing user login for the old user;

preferably: the user logs in by using the registered mobile phone number and the password; the third-party server acquires user registration information from the first internal server, verifies the registration information, sends a login calculation result serving as a processing result to the second internal server, and sends the processing result to the user terminal by the second internal server; the second internal server is an internal server providing access when a user logs in, the first internal server is a storage server for storing data, and the first internal server and the second internal server can be the same or different;

by the mode, calculation and data storage are separated, access and calculation functions are separated, and light-weight operation and maintenance of the system are maintained;

step S3: the login user maintains and manages the biological transfer box and the account;

the management comprises the following steps: carrying out information maintenance on the box and user maintenance;

the information maintenance of the box comprises: distributing boxes to different organization units, adding group names of the boxes, and carrying out grouping management on the transport boxes;

the maintaining the account comprises: maintaining and operating the information of the administrator, and managing the administrator in groups or units;

step S4: carrying out transfer management on the biological transfer box;

the diversion management comprises: real-time operation management is carried out on the biological transport box, and related management and remote management are carried out on the biological transport box;

the real-time operation management of the biological transport box specifically comprises the following steps:

step A1: and adding sample sending application information to the transfer box, wherein the sample sending application information comprises information such as box numbers, receiving units, sample sending personnel and predicted arrival time.

Step A2: after the submission of the submission sample submission application, the sample unit needs to accept confirmation, and the sample submitting personnel is responsible for sending the sample after confirmation.

Step A3: and after the sample receiving unit confirms, pushing information to a submission unit.

It is worth noting that: the inspection unit can set an electronic fence for the destination of the box, and know the possible arrival situation by setting the electronic fence so as to carry out work arrangement and traffic setting, such as opening up a special channel and the like; due to the particularity of biological transportation, the electronic fence enables a target party to actively acquire transported materials.

Preferably: a user sets an electronic fence on a map, an internal server sends an inquiry request to a third-party server based on map address information corresponding to the fence, inquires biological transport boxes of which GPS data fall in the range of the fence, and displays the identifications of the biological transport boxes at real-time positions on the map;

preferably: the range, shape and orientation of the electronic fence is adjustable; the prior art electronic fences are circular as shown in fig. 3. It is inconvenient to perform traffic setting according to real-time traffic conditions and to perform work arrangement according to topographical conditions. The electronic fence can be in various optional shapes, and the shapes can be overlapped, so long as a communication area can be formed among the shapes, and the electronic fence can be used as a primary electronic fence function request; the range size of the shapes is adjustable; as shown in fig. 4, the electronic fence can be configured into two basic shapes, namely a combination of a round and a square, and the two shapes form a communication area;

preferably: when the fence shape is asymmetric, the graphic direction can be adjusted by a user;

preferably: judging the number of the vertexes of the connected region, wherein when the number of the vertexes meets a threshold value, the electronic fence is successfully set, otherwise, the internal server prompts that the electronic fence is unsuccessfully set;

preferably: when the internal server provides interface information and receives functional data, the internal server sends a functional request after judging the validity of the functional data;

the biological transport box is managed in a related way, and the method specifically comprises the following steps: and (3) carrying out related management on the boxes: checking the operation condition of the box, managing the problem box and setting a circuit; wherein: after the sample receiving unit confirms the application, the administrator of the submission unit and the administrator of the sample receiving unit can check the real-time positioning information of the transfer box in real time.

Preferably: the user can perform operations such as tracking, checking and stopping, navigation and track checking on the biological sample transfer box by the terminal, call map live-action navigation information, and conveniently track, check position stopping information of the box, check transfer lines of the box and the like.

The remote management includes: issuing a remote operation instruction to the positioning device; wherein: the remote operation instruction comprises instructions of equipment restarting, repositioning and the like;

as will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus 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 apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, as for the apparatus embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Those skilled in the art will appreciate that all or part of the steps in the above method embodiments may be implemented by a program to instruct relevant hardware to perform the steps, and the program may be stored in a computer-readable storage medium, which is referred to herein as a storage medium, such as: ROM/RAM, magnetic disk, optical disk, etc.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (7)

1. A biosafety transit surveillance system, the system comprising: the system comprises a user terminal, a biological transfer box, an internal server and a third-party server; wherein: a GPS positioning device is arranged on the biological transfer box;

the user terminal is used for receiving a function request sent by a user and sending the function request to the internal server; the function request includes: the method comprises the following steps that a login user carries out maintenance and management on a biological transfer box and an account, and the operation management of the transfer box;

the internal server is a server for completing biological safety transfer monitoring, and the server is independent of a cloud computing platform;

the function request comprises a simple function and a complex function; the internal server judges the type of the function request after receiving the function request, and when the function request is a simple type, the internal server sends the function request to a registered third-party server corresponding to the function type; the simple function is a function which can be completed by requesting an independent third-party server, and the internal server only needs to send the function request and the collected function data to the third-party server, receive a function processing result returned by the third-party server and send the function processing result to the user terminal; when the function request is a complex type, decomposing the function request according to a decomposition table corresponding to the function type to obtain decomposed sub-function requests, suspending the function request, sending the decomposed sub-function requests to a corresponding third-party server, suspending the function request after all the sub-function requests are completed, and sending a spliced processing result to the user terminal; the decomposition table comprises a decomposition mode and a decomposition sequence, the sub-function requests obtained after decomposition are ordered, and when the sub-processing results of the sub-function requests are obtained, the sub-processing results and the suspended function requests are stored in an associated mode or sent to a next third-party server in sequence according to the decomposition sequence until the sub-function requests are all decomposed; splicing the sub-processing results under the guidance of the decomposition table to form a processing result and sending the processing result to the user terminal;

an associated storage function type and a resolution table; when the system wants to expand a new function, only the expansion of the decomposition table is needed; the sending of the functional data to the registered third-party server specifically includes: the method comprises the steps that a function request or a sub-function request is sent to a cloud computing platform, and meanwhile a registered third party server list corresponding to a function type is sent to the cloud computing platform; after the function request or the sub-function request is sent out, the completion condition of the function is semitransparent for the user terminal, the task allocation rule of the cloud computing platform is a system internal rule and is opaque to the outside, the cloud computing platform only needs to allocate tasks according to the required task types and simultaneously sends a list of registered third-party servers, so that the cloud computing platform allocates the tasks according to the list when the cloud computing server is selected, and the safety of the system is guaranteed;

the third-party server is used for realizing specific functions involved in the biological safety transfer supervision; the third-party server is a cloud server; the third-party server comprises a computing server and a storage server, and the internal server selects a proper storage server to register according to the security requirement;

the internal server only provides light service for receiving user access and simple verification of the third-party server; after the internal server receives the function request, analyzing the type of the function request, and sending and distributing the function request to a registered third-party server capable of completing the type of the function request according to the type;

the internal server registers the third-party server according to the function requirement; specifically, the method comprises the following steps: the internal server records the request times of each type of function, determines the satisfaction condition of the current registered third-party server to the corresponding type of function based on the request times, and performs registration and de-registration of the third-party server based on the satisfaction condition;

registering and deregistering a third-party server based on the satisfied condition, specifically; when the request times indicate that the registered third-party server over meets the functions of the corresponding types and the request times are in a descending trend, selecting the corresponding type to register the third-party server for deregistration; otherwise, when the request times indicate that the registered third-party server does not meet the functions of the corresponding type and the request times are in an ascending trend, selecting the corresponding type to register the third-party server for registration; when the two are consistent, keeping the current registered third-party server unchanged;

the request times are in an ascending trend, and specifically include: acquiring an access sequence in a first time interval, dividing the access sequence into N subsequences, counting the times that the access times in the next subsequence exceed the access times in the previous subsequence for every two adjacent subsequences, and determining that the access times are in an ascending trend when the times are more than N/2; and conversely, when the number of times is less than N/2, determining that the number of times is in a descending trend.

2. The biosafety transportation regulatory system of claim 1, wherein the internal server is configured to receive a function request, provide a corresponding function interface based on the function request, receive function data required to complete the function request through the function interface, and send the function data to the registered third party server.

3. The biosafety transit surveillance system according to claim 2, wherein the user terminals are one or more.

4. The biosafety diversion surveillance system according to claim 3, wherein said internal server is one or more.

5. A biosafety transportation supervision method applied to the biosafety transportation supervision system according to any one of claims 1 to 3, comprising: the method comprises the following steps:

step S1: providing new user registration for the new user;

step S2: providing user login for the old user;

step S3: the login user maintains and manages the biological transfer box and the account;

step S4: and carrying out transfer management on the biological transfer box.

6. The biosafety diversion supervision method according to claim 5, wherein the user registers a user name by means of mobile phone authentication.

7. The biosafety diversion supervision method according to claim 6, wherein the user logs in using a registered mobile phone number and password.

Images