CN111932166A - Intelligent management method for transferring logistics information to sample - Google Patents

Abstract

The invention discloses an intelligent management method for transferring logistics information to a sample, which comprises the following steps: when receiving a plurality of sample transfer requests, acquiring a plurality of transfer information, the transfer information including: recipient information, topic information, and sample information; classifying the plurality of transfer information into n types according to the same condition of the sample information; counting and combining different quantities of forwarding information corresponding to each of the n types, and generating n sample delivery lists after counting and combining are completed; and storing the n sample delivery lists, and sending the n sample delivery lists to a subject PI and a main and subordinate department of a department for auditing after the storage is finished, so as to obtain an auditing result. The forwarding information with the same sample information can be combined to generate a sample delivery list, and the examination of the sample delivery list is equivalent to the examination of a plurality of sample delivery lists at ordinary times, so that the examination progress and efficiency are greatly improved.

Description

Intelligent management method for transferring logistics information to sample

Technical Field

The invention relates to the technical field of information management, in particular to an intelligent management method for transferring logistics information to a sample.

Background

At present, with the development and progress of science and technology, the medical field is particularly deep, in most of hospitals in the society at present, there are many hospitals cooperating with schools, which provide samples for schools to enable students in schools to complete experiments, not limited to schools, but there are many institutions or individuals in society to need samples to perform experiments or experiments, and meanwhile, scientific research medical samples of each medical institution often flow among departments, hospitals and among institutions due to work requirements, so that the number of samples provided by hospitals every day is greatly increased, and therefore, a large amount of sample transfer is required, but before the sample transfer, the sample providing institution needs to register the transfer logistics information of the samples to record the removal and use of the samples, and then uniformly manage and store the samples, the existing sample logistics information management method is to apply for each individual or institution and the samples issued by the hospitals, the method comprises the steps of obtaining subject information of the method, memorizing sample information by receiver information to generate a sample delivery list, sending the sample delivery list to a main department of a department for auditing, storing and recording the sample delivery list after auditing is finished, and starting to transfer the sample, but the method has the following problems: when the number of the sample delivery lists is too large, the auditing is performed one by one according to the sequence when the auditing is received, so that the auditing progress is seriously influenced, and the working efficiency is greatly reduced.

Disclosure of Invention

Aiming at the problems shown above, the method generates a sample delivery list based on the transfer information with the same sample information in the plurality of transfer information, and then sends the sample delivery list to the subject PI and the department for auditing to obtain the auditing result.

An intelligent management method for sample transfer logistics information comprises the following steps:

upon receiving a plurality of sample transfer requests, obtaining a plurality of transfer information, the transfer information including: recipient information, topic information, and sample information;

classifying the plurality of transfer information into n types according to the same condition of the sample information;

counting and combining different quantities of forwarding information corresponding to each of the n types, and generating n sample delivery lists after counting and combining are completed;

and storing the n sample delivery lists, and sending the n sample delivery lists to a subject PI and a department main and subordinate place for auditing after the storage is finished, so as to obtain an auditing result.

Preferably, the recipient information includes: name, phone, address (or department) of the sample recipient;

the topic information includes: topic name, topic researcher phone;

the sample information includes: sample name and type, sample quantity and unit, total amount of the outgoing samples, detection content and transfer condition.

Preferably, when receiving a plurality of sample transfer requests, the apparatus acquires a plurality of transfer information, and the transfer information includes: recipient information, topic information, and sample information, comprising:

when receiving the plurality of sample transfer requests, sending a prompt for inputting the receiver information, the subject information and the sample information to a second terminal of the receiver;

acquiring a specific request time for each sample transfer request after receiving the plurality of pieces of recipient information, the plurality of pieces of subject information, and the plurality of pieces of sample information;

a first number of folders is to be constructed, the first number being greater than the number of sample requests;

constructing a second number of sub-folders in each of the first number of folders;

naming a plurality of folders in a first number of folders according to a plurality of specific request times;

after naming, distributing the plurality of sender information, the plurality of receiver information, the plurality of subject information and the plurality of sample information to corresponding folders respectively;

and counting the files in the plurality of subfolders after the distribution is finished so as to obtain the plurality of transfer information.

Preferably, the method for prompting a recipient terminal to input recipient information, issue information, and sample information when the plurality of sample transfer requests are received includes:

confirming a request mode of the plurality of sample requests, wherein the request mode comprises: telephone requests, short message requests and network online requests;

when the request mode is a telephone request or a short message request, confirming whether the target telephone number sending the sample request is a receiver, and sending a prompt for inputting receiver information, subject information and sample information to a mobile phone terminal of the target telephone number after the confirmation is finished;

when the request mode is a network online request, verifying first identity information of a receiver, wherein the first identity information comprises an account number and a password registered by the receiver on a sample transfer applet;

and after the verification is passed, sending a prompt for inputting the information of the receiver and the subject information to the computer terminal of the receiver, and displaying a pre-established virtual sample library to the receiver so that the receiver selects a target sample in the virtual sample library to generate the sample information.

Preferably, the classifying the plurality of transfer information into n categories according to the same condition of the sample information includes:

acquiring a plurality of sample information in the plurality of transfer information;

determining each sample information as a category, obtaining a plurality of sample information categories, and respectively inserting the transfer information into the corresponding receiver information categories;

determining whether there is the same sample information in the plurality of sample information;

if so, integrating the sample information types containing the same sample information, and merging the sample information types into the same sample information type;

and after the integration is finished, counting the number of the sample information types to obtain n types of transfer information.

Preferably, the counting and combining the different amounts of the forwarding information corresponding to each of the n categories, and generating n sample delivery sheets after the counting and combining are completed includes:

a step a1 of confirming the number of transfer information included in the current category among the n categories;

a step a2 of acquiring the quantity and content of subject information and the quantity and content of recipient information in the current category based on the quantity of transfer information contained in the current category;

step A3, inserting the subject information quantity and content and the receiver information quantity and content into a preset subject information column and a preset receiver information column;

step A4, checking whether the information of the subject information column and the receiver information column is correct after the insertion is finished;

if yes, locking and encrypting the subject information column and the receiver information column;

otherwise, reinserting correct subject information quantity and content and receiver information quantity and content;

step A5, generating a current sample delivery list according to the locked and encrypted subject information column and the encrypted receiver information column;

repeating the steps A1-A5 to generate the n sample shipping sheets.

Preferably, the method further comprises:

when the auditing result is 'transfer approval', acquiring second identity information of a transfer person, wherein the second identity information comprises the name and the mobile phone number of the transfer person;

adding the second identity information to the n sample outgoing tickets;

after the addition is finished, encrypting the n sample delivery lists;

and generating two-dimensional codes after encryption, and respectively sending the two-dimensional codes to mobile phone terminals of a plurality of receivers so that the plurality of receivers scan the two-dimensional codes to obtain second identity information of transfer personnel and decryption passwords of the sample delivery list.

Preferably, the encrypting the n sample delivery lists after the adding is completed includes:

setting an encryption key for the n sample delivery lists;

generating a group of sub-secret keys by the encryption secret key according to a preset algorithm;

calculating the electronic file memory of the n sample delivery lists;

arranging the n sample delivery lists according to the sequence of the electronic file memory from big to small, and distributing a sub secret key to each sample delivery list in the n sample delivery lists after the arrangement is finished;

carrying out encryption operation on the distributed n sub-secret keys to obtain n password blocks;

and the n password blocks jointly form a decryption password.

Preferably, when the request mode is a network online request, the verifying the first identity information of the receiver includes:

when a current network online request is received, analyzing a channel of the current network online request:

wherein, X_tRepresenting the network signal received for the t channel, Q representing the total number of channels, t representing the t channel, S (t) representing the first signal sequence of the current network online request, V_t(T) is expressed as the received noise at time T,

a second signal sequence represented at time T;

the network signal is split by using the following formula, and a first identifier in each piece of data is determined:

wherein A is_kExpressed as parameter values in each piece of data, E as total number of segments of said network signal, k as kth piece of data, E_k(G, J) is a first integral corresponding to the kth data, e (M, N) is a second integral of the whole network signal, u_oExpressed as cross parameters;

determining all first identifications according to all parameter values;

combining all the first identifications to generate a second identification;

acquiring a current key according to the second identifier, and verifying whether the current key is a preset key corresponding to the first identity information of the receiver;

and when the current secret key is the preset secret key, confirming that the identity information of the receiver passes the verification.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

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 specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a flowchart illustrating an intelligent management method for transferring logistics information to a sample according to the present invention;

FIG. 2 is a screenshot of a sample posting form provided by the present invention;

FIG. 3 is another flowchart of the intelligent management method for sample logistics information transfer according to the present invention;

fig. 4 is another flowchart of the intelligent management method for sample logistics information transfer according to the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

At present, with the development and progress of science and technology, the medical field is particularly deep, in most of hospitals in the society at present, there are many hospitals cooperating with schools, which provide samples for schools to enable students in schools to complete experiments, not limited to schools, but there are many institutions or individuals in society to need samples to perform experiments or experiments, and meanwhile, scientific research medical samples of each medical institution often flow among departments, hospitals and among institutions due to work requirements, so that the number of samples provided by hospitals every day is greatly increased, and therefore, a large amount of sample transfer is required, but before the sample transfer, the sample providing institution needs to register the transfer logistics information of the samples to record the removal and use of the samples, and then uniformly manage and store the samples, the existing sample logistics information management method is to apply for each individual or institution and the samples issued by the hospitals, the method comprises the steps of obtaining subject information of the method, memorizing sample information by receiver information to generate a sample delivery list, sending the sample delivery list to a main department of a department for auditing, storing and recording the sample delivery list after auditing is finished, and starting to transfer the sample, but the method has the following problems: when the number of the sample delivery lists is too large, the auditing is performed one by one according to the sequence when the auditing is received, so that the auditing progress is seriously influenced, and the working efficiency is greatly reduced. In order to solve the above problem, the present embodiment discloses a method for generating a sample delivery sheet based on transfer information having the same sample information among a plurality of pieces of transfer information, and then sending the sheet to a subject PI and a department for auditing, thereby obtaining an audit result.

An intelligent management method for sample transfer logistics information, as shown in fig. 1, includes the following steps:

step S101, upon receiving a plurality of sample transfer requests, acquires a plurality of transfer information, the transfer information including: recipient information, topic information, and sample information;

step S102, classifying a plurality of pieces of transfer information into n types according to the same condition of sample information;

step S103, counting and combining different amounts of forwarding information corresponding to each of the n types, and generating n sample delivery lists after counting and combining are completed;

s104, storing the n sample delivery lists, and sending the n sample delivery lists to a subject PI and a department main and subordinate place for auditing after the storage is finished to obtain an auditing result;

in this embodiment, n is a positive integer of 2 or more, when a plurality of sample transfer requests are received, the sender of the plurality of sample transfer requests may acquire a plurality of transfer information including the recipient information, the subject study information, and the sample information of the sample for one or more of an individual, a research institution, and a hospital, confirm whether the same sample information exists in each transfer information after the plurality of transfer information are acquired, classify the transfer information having the same sample information into one type and generate n sample delivery sheets, and at this time, only one sample information is displayed on the sample delivery sheet having the same sample information, and the n sample delivery sheets are sent to the subject PI and the principal of the department for approval in accordance with the plurality of recipient information and the subject information and are sent on-line at the network side, and finally obtaining an auditing result, wherein the topic PI refers to a topic researcher in the topic information.

The working principle of the technical scheme is as follows: when receiving a plurality of sample transfer requests, acquiring a plurality of transfer information, the transfer information including: recipient information, topic information, and sample information; classifying the plurality of transfer information into n types according to the same condition of the sample information; counting and combining different quantities of forwarding information corresponding to each of the n types, and generating n sample delivery lists after counting and combining are completed; and storing the n sample delivery lists, and sending the n sample delivery lists to a subject PI and a main and subordinate department of a department for auditing after the storage is finished, so as to obtain an auditing result.

The beneficial effects of the above technical scheme are: the method and the device can combine the forwarding information with the same sample information to generate a sample delivery list, and the auditing of the sample delivery list is equivalent to the auditing of a plurality of sample delivery lists at ordinary times during auditing, so that the auditing progress and efficiency are greatly improved, and the problems that the auditing progress is seriously influenced and the working efficiency is greatly reduced because the auditing is performed sequentially one by one when the auditing is received in the prior art are solved.

In one embodiment, the recipient information includes: name, phone, address (or department) of the sample recipient;

the topic information includes: topic name, topic researcher phone;

the sample information includes: sample name and type, sample quantity and unit, total amount of the outgoing sample, detection content and transfer condition;

in the embodiment, as shown in fig. 2, the receiver information including the name, telephone, and address (or department) of the receiver is displayed at the top end of the display screen of the mobile phone, and the topic information is displayed in the middle of the display screen of the mobile phone, including: the title, title and research person name and telephone of the title research person, which display sample information at the lower end of the display screen of the mobile phone, comprises: the sample name and category, the number and unit of samples, the total amount of the outgoing samples, the detection content and the transfer condition can confirm that the transfer request is valid after each column is filled, if any column is not filled sufficiently or is not filled, the transfer request is defaulted to be invalid, and the transfer information is acquired again for the user.

The beneficial effects of the above technical scheme are: the sample providing mechanism can accurately know the information of the sample receiver, the type, the number, the application and the like of the sample, the safety of the sample is guaranteed, meanwhile, the recording and the query are convenient, and the convenience is improved.

In one embodiment, upon receiving a plurality of sample transfer requests, obtaining a plurality of transfer information, the transfer information comprising: recipient information, topic information, and sample information, comprising:

when receiving a plurality of sample transfer requests, sending a prompt for inputting recipient information, subject information and sample information to a second terminal of a recipient;

acquiring a specific request time for each sample transfer request after receiving the plurality of pieces of recipient information, the plurality of pieces of subject information, and the plurality of pieces of sample information;

constructing a first number of folders, the first number being greater than the number of sample requests;

constructing a second number of sub-folders in each of the first number of folders;

naming a plurality of folders in a first number of folders according to a plurality of specific request times;

after naming is finished, distributing a plurality of sender information, a plurality of receiver information, a plurality of subject information and a plurality of sample information to corresponding folders;

counting files in the plurality of subfolders after the distribution is finished so as to obtain a plurality of transfer information;

in this embodiment, the specific request time is month plus date, and the forwarding requests of the same date can be classified into one category by using the specific request time naming folder.

The beneficial effects of the above technical scheme are: each transfer request can be stored and recorded respectively, the occurrence of sample recording error caused by confusion of a large number of sample requests during processing is avoided, the fault tolerance rate is improved, furthermore, the sample requests for sample application sent on the same day can be accurately recorded by naming the folders in a time sequence, manual registration is not needed, and the working efficiency is improved.

In one embodiment, as shown in fig. 3, when a plurality of sample transfer requests are received, issuing a prompt to a terminal of a recipient to input recipient information, subject information, and sample information includes:

step S301, confirming a request mode of a plurality of sample requests, wherein the request mode comprises the following steps: telephone requests, short message requests and network online requests;

step S302, when the request mode is a telephone request or a short message request, whether the target telephone number sending the sample request is a receiver is confirmed, and after the confirmation is finished, a prompt for inputting the receiver information, the subject information and the sample information is sent to a mobile phone terminal of the target telephone number;

step S303, when the request mode is a network online request, verifying first identity information of the receiver, wherein the first identity information comprises an account and a password registered by the receiver on the sample transfer applet;

and step S304, after the verification is passed, sending a prompt for inputting the information of the receiver and the subject information to the computer terminal of the receiver, and displaying a pre-established virtual sample library to the receiver so that the receiver selects a target sample in the virtual sample library to generate the sample information.

The beneficial effects of the above technical scheme are: the identity information of the receiver is verified in multiple modes, the situation that the sample cannot be sent to the target receiver due to the fact that the identity information is recorded wrongly is avoided, meanwhile, various choices are provided for the user, the user can send out sample forwarding requests in different modes under different environments, the experience feeling of the user is improved, and meanwhile, the safety is enhanced.

In one embodiment, classifying the plurality of transfer information into n categories according to the same condition of the sample information includes:

acquiring a plurality of sample information in a plurality of transfer information;

determining each sample information as a category, obtaining a plurality of sample information categories, and respectively inserting the forwarding information into the corresponding receiver information categories;

determining whether there is the same sample information among the plurality of sample information;

if so, integrating the sample information types containing the same sample information, and merging the sample information types into the same sample information type;

after the integration is completed, the number of sample information categories is counted to obtain n types of forwarding information.

The beneficial effects of the above technical scheme are: the forwarding information applying the same sample information can be classified into a whole, and because the subject information is the same, during statistics, only the receiver information and the subject information in the forwarding information need to be counted, and the sample information in each forwarding information does not need to be counted, so that the working pressure is greatly reduced, meanwhile, the occurrence of counting errors caused by carelessness of a large amount of forwarding information is avoided, and the accuracy is improved.

In one embodiment, the counting and combining the different amounts of forwarding information corresponding to each of the n categories, and generating n sample delivery lists after the counting and combining are completed, includes:

a step a1 of confirming the number of transfer information included in the current category among the n categories;

a step a2 of acquiring the quantity and content of subject information and the quantity and content of recipient information in the current category based on the quantity of transfer information contained in the current category;

step A3, inserting the number and content of topic information and the number and content of recipient information into a preset topic information column and a preset recipient information column;

step A4, checking whether the information of the subject information column and the receiver information column is correct after the insertion is finished;

if yes, locking and encrypting the subject information column and the receiver information column;

otherwise, reinserting correct subject information quantity and content and receiver information quantity and content;

step A5, generating a current sample delivery list according to the locked and encrypted subject information column and the encrypted receiver information column;

repeating steps A1-A5 to generate n sample shipping sheets.

The beneficial effects of the above technical scheme are: the safety of the receiver information and the subject information is guaranteed, namely the privacy of the user is guaranteed, the experience of the user is further improved, meanwhile, the subject information and the receiver information which are the same in sample information are displayed on a sample delivery sheet at the same time, the cost can be saved to a certain extent, the auditing amount can be greatly reduced when the sample delivery sheet is sent to a subject PI and a principal and subordinate department of a department for auditing, only the receiver information and the subject information need to be audited, the working efficiency is further improved, the auditing time is shortened, and time guarantee is provided for the transfer of the sample.

In one embodiment, as shown in fig. 4, the method further includes:

step S401, when the auditing result is 'transfer agreement', acquiring second identity information of the transfer personnel, wherein the second identity information comprises the name and the mobile phone number of the transfer personnel;

step S402, adding the second identity information into the n sample delivery lists;

s403, after the addition is finished, encrypting the n sample delivery lists;

and S404, generating two-dimensional codes after encryption, and respectively sending the two-dimensional codes to mobile phone terminals of a plurality of receivers so that the plurality of receivers scan the two-dimensional codes to obtain second identity information of transfer personnel and decryption passwords of the sample delivery list.

The beneficial effects of the above technical scheme are: the safety of the sample information applied by the receiver can be ensured, the two-dimensional code is sent to the mobile phone terminal of the receiver, the situation that an illegal person falsely submits the sample and even uses the sample to carry out illegal processing can be prevented, and the safety of the sample is further improved.

In one embodiment, encrypting the n sample shipping tickets after the adding is completed includes:

setting an encryption key for the n sample delivery lists;

generating a group of sub-keys from the encryption key according to a preset algorithm;

calculating the electronic file memory of the n sample delivery lists;

arranging the n sample delivery lists according to the sequence of the electronic file memory from big to small, and distributing a sub secret key to each sample delivery list in the n sample delivery lists after the arrangement is finished;

carrying out encryption operation on the distributed n sub-secret keys to obtain n password blocks;

and the n cipher blocks jointly form a decryption cipher.

The beneficial effects of the above technical scheme are: the n password blocks are used for forming the decryption password, so that the password cannot be cracked easily, sample information cannot be leaked, and the safety is further improved.

In one embodiment, when the request mode is a network online request, verifying the first identity information of the receiver comprises:

when receiving the current network online request, analyzing the channel of the current network online request:

wherein, X_tExpressed as the network signal received for the t channel, Q expressed as the total number of channels, t expressed as the t channel, s (t) expressed as the first signal sequence of the current network presence request, V_t(T) is expressed as the received noise at time T,

a second signal sequence represented at time T;

the network signal is split by using the following formula, and a first identifier in each piece of data is determined:

wherein A is_kExpressed as parameter values in each piece of data, E is expressed as the total number of segments of the network signal, k is expressed as the kth piece of data, E_k(G, J) is a first integral corresponding to the kth data, e (M, N) is a second integral of the whole network signal, u_oExpressed as cross parameters;

determining all first identifications according to all parameter values;

combining all the first identifications to generate a second identification;

acquiring a current key according to the second identifier, and verifying whether the current key is a preset key corresponding to the first identity information of the receiver;

and when the current secret key is the preset secret key, confirming that the identity information of the receiver passes the verification.

The beneficial effects of the above technical scheme are: the key can be directly obtained from the network request by obtaining the key according to the representation and comparing the key with the preset key without fussy user name and password verification, and meanwhile, the situation that the user name and the password of a receiver are stolen or the user name and the password are forgotten and the identity information cannot be effectively verified is avoided.

It will be understood by those skilled in the art that the first and second terms of the present invention refer to different stages of application.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. An intelligent management method for sample transfer logistics information is characterized by comprising the following steps:

upon receiving a plurality of sample transfer requests, obtaining a plurality of transfer information, the transfer information including: recipient information, topic information, and sample information;

classifying the plurality of transfer information into n types according to the same condition of the sample information;

counting and combining different quantities of forwarding information corresponding to each of the n types, and generating n sample delivery lists after counting and combining are completed;

and storing the n sample delivery lists, and sending the n sample delivery lists to a subject PI and a department main and subordinate place for auditing after the storage is finished, so as to obtain an auditing result.

2. The intelligent management method for sample transfer logistics information of claim 1,

the recipient information includes: name, phone, address (or department) of the sample recipient;

the topic information includes: topic name, topic researcher phone;

the sample information includes: sample name and type, sample quantity and unit, total amount of the outgoing samples, detection content and transfer condition.

3. The intelligent management method for sample transfer logistics information according to claim 1, wherein said obtaining a plurality of transfer information when receiving a plurality of sample transfer requests, said transfer information comprises: recipient information, topic information, and sample information, comprising:

when receiving the plurality of sample transfer requests, sending a prompt for inputting the receiver information, the subject information and the sample information to a second terminal of the receiver;

acquiring a specific request time for each sample transfer request after receiving the plurality of pieces of recipient information, the plurality of pieces of subject information, and the plurality of pieces of sample information;

a first number of folders is to be constructed, the first number being greater than the number of sample requests;

constructing a second number of sub-folders in each of the first number of folders;

naming a plurality of folders in a first number of folders according to a plurality of specific request times;

after naming, distributing the plurality of sender information, the plurality of receiver information, the plurality of subject information and the plurality of sample information to corresponding folders respectively;

and counting the files in the plurality of subfolders after the distribution is finished so as to obtain the plurality of transfer information.

4. The intelligent management method for sample transfer logistics information according to claim 3, wherein the step of issuing a prompt to a terminal of a receiver to input receiver information, subject information and sample information when the plurality of sample transfer requests are received comprises:

confirming a request mode of the plurality of sample requests, wherein the request mode comprises: telephone requests, short message requests and network online requests;

when the request mode is a telephone request or a short message request, confirming whether the target telephone number sending the sample request is a receiver, and sending a prompt for inputting receiver information, subject information and sample information to a mobile phone terminal of the target telephone number after the confirmation is finished;

when the request mode is a network online request, verifying first identity information of a receiver, wherein the first identity information comprises an account number and a password registered by the receiver on a sample transfer applet;

and after the verification is passed, sending a prompt for inputting the information of the receiver and the subject information to the computer terminal of the receiver, and displaying a pre-established virtual sample library to the receiver so that the receiver selects a target sample in the virtual sample library to generate the sample information.

5. The intelligent management method for sample transfer logistics information according to claim 3, wherein said classifying said plurality of transfer information into n categories according to the same condition of sample information comprises:

acquiring a plurality of sample information in the plurality of transfer information;

determining each sample information as a category, obtaining a plurality of sample information categories, and respectively inserting the transfer information into the corresponding receiver information categories;

determining whether there is the same sample information in the plurality of sample information;

if so, integrating the sample information types containing the same sample information, and merging the sample information types into the same sample information type;

and after the integration is finished, counting the number of the sample information types to obtain n types of transfer information.

6. The intelligent management method for sample transfer logistics information according to claim 1, wherein the step of counting and combining the transfer information with different quantities corresponding to each of the n types and generating n sample delivery lists after counting and combining is completed comprises:

a step a1 of confirming the number of transfer information included in the current category among the n categories;

a step a2 of acquiring the quantity and content of subject information and the quantity and content of recipient information in the current category based on the quantity of transfer information contained in the current category;

step A3, inserting the subject information quantity and content and the receiver information quantity and content into a preset subject information column and a preset receiver information column;

step A4, checking whether the information of the subject information column and the receiver information column is correct after the insertion is finished;

if yes, locking and encrypting the subject information column and the receiver information column;

otherwise, reinserting correct subject information quantity and content and receiver information quantity and content;

step A5, generating a current sample delivery list according to the locked and encrypted subject information column and the encrypted receiver information column;

repeating the steps A1-A5 to generate the n sample shipping sheets.

7. The intelligent management method for sample transfer logistics information of claim 1, further comprising:

when the auditing result is 'transfer approval', acquiring second identity information of a transfer person, wherein the second identity information comprises the name and the mobile phone number of the transfer person;

adding the second identity information to the n sample outgoing tickets;

after the addition is finished, encrypting the n sample delivery lists;

and generating two-dimensional codes after encryption, and respectively sending the two-dimensional codes to mobile phone terminals of a plurality of receivers so that the plurality of receivers scan the two-dimensional codes to obtain second identity information of transfer personnel and decryption passwords of the sample delivery list.

8. The intelligent management method for sample transfer logistics information of claim 7, wherein the encrypting the n sample shipping lists after the adding is completed comprises:

setting an encryption key for the n sample delivery lists;

generating a group of sub-secret keys by the encryption secret key according to a preset algorithm;

calculating the electronic file memory of the n sample delivery lists;

arranging the n sample delivery lists according to the sequence of the electronic file memory from big to small, and distributing a sub secret key to each sample delivery list in the n sample delivery lists after the arrangement is finished;

carrying out encryption operation on the distributed n sub-secret keys to obtain n password blocks;

and the n password blocks jointly form a decryption password.

9. The intelligent management method for sample transfer logistics information of claim 4, wherein the verifying the first identity information of the receiver when the request mode is a network online request comprises:

when a current network online request is received, analyzing a channel of the current network online request:

wherein, X_tRepresenting the network signal received for the t channel, Q representing the total number of channels, t representing the t channel, S (t) representing the first signal sequence of the current network online request, V_t(T) is expressed as the received noise at time T,

a second signal sequence represented at time T;

the network signal is split by using the following formula, and a first identifier in each piece of data is determined:

wherein A is_kExpressed as parameter values in each piece of data, E as total number of segments of said network signal, k as kth piece of data, E_k(G, J) is a first integral corresponding to the kth data, e (M, N) is a second integral of the whole network signal, u_oExpressed as cross parameters;

determining all first identifications according to all parameter values;

combining all the first identifications to generate a second identification;

acquiring a current key according to the second identifier, and verifying whether the current key is a preset key corresponding to the first identity information of the receiver;

and when the current secret key is the preset secret key, confirming that the identity information of the receiver passes the verification.

Images