CN116938607A - Data transmission method and device applied to intelligent logistics - Google Patents

Abstract

The application relates to a data transmission method and a device applied to intelligent logistics, and relates to the technical field of data transmission, wherein the method comprises the following steps: responding to a logistics dispatching request, and selecting a target logistics site based on a preset logistics site map; executing a preset work order encryption process based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order; the logistics dispatch worksheet is sent to the destination logistics site. The application encrypts the logistics dispatching work orders based on the work order encryption flow through encryption operations of different dimensionalities and different levels, thereby ensuring that the data transmission work of the logistics dispatching work orders has better confidentiality, effectively avoiding information leakage and improving the information security level.

Description

Data transmission method and device applied to intelligent logistics

Technical Field

The application relates to the technical field of data transmission, in particular to a data transmission method and device applied to intelligent logistics.

Background

With the rapid development of logistics industry in recent years, intelligent logistics technology has been developed. Wisdom commodity circulation improves traditional logistics technology through thing networking and big data technology, improves distribution efficiency.

However, at present, the intelligent logistics is focused on the coordination layer of data transmission efficiency and data transmission work. The problem that how to avoid information leakage of users and logistics enterprises in data transmission work is a current urgent need to be solved can be solved because the data volume of the logistics industry is large and certain information security requirements exist.

Therefore, in order to solve the above technical problems, a data transmission technology applied to intelligent logistics is provided.

Disclosure of Invention

The application provides a data transmission method and a data transmission device applied to intelligent logistics, which are used for encrypting and generating a logistics dispatching work order through encryption operations of different dimensions and different levels based on a work order encryption flow, so that the data transmission work of the logistics dispatching work order is guaranteed to have better confidentiality, information leakage is effectively avoided, and the information safety level is improved.

In a first aspect, the present application provides a data transmission method applied to smart logistics, the method comprising the steps of:

responding to a logistics dispatching request, and selecting a target logistics site based on a preset logistics site map;

executing a preset work order encryption process based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

Sending the logistics dispatching work order to the target logistics site;

the work order encryption flow comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm; wherein,

the logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.

Further, the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

The delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm comprises the following steps:

extracting a delivery address character string, a receiving address character string, a delivery period character string and a delivery object information character string corresponding to a delivery address in the logistics delivery request, and correspondingly generating a delivery address encryption character string, a receiving address encryption character string, a delivery period encryption character string and a delivery object information encryption character string based on the work order encryption algorithm;

generating a target logistics site identity information encryption character string based on the target logistics site identity information and the work order encryption algorithm;

and obtaining the logistics dispatching work order based on the shipping address encryption character string, the receiving address encryption character string, the delivery deadline character string, the object information encryption character string and the logistics site identity information encryption character string.

Further, the work order encryption process further comprises the following steps:

Generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

selecting a plurality of corresponding work order encryption algorithms arranged in sequence in a preset encryption algorithm database based on the algorithm selection sequence number and the encryption frequency value;

and generating the generated logistics dispatching work order through multiple times of encryption based on the logistics dispatching request, the target logistics site identity information and multiple sequentially arranged work order encryption algorithms.

Further, the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the generating logistics dispatching work order is generated through multiple times of encryption based on the logistics dispatching request, the target logistics site identity information and a plurality of work order encryption algorithms which are arranged in sequence, and the method comprises the following steps:

extracting a delivery address character string, a receiving address character string, a delivery period character string and a delivery object information character string corresponding to the delivery address in the logistics delivery request, and generating a corresponding delivery address encryption character string, a receiving address encryption character string, a delivery period encryption character string and a delivery object information encryption character string through multiple encryption based on a plurality of work order encryption algorithms arranged in sequence;

Generating a target logistics site identity information encryption character string through multiple encryption based on the target logistics site identity information and a plurality of work order encryption algorithms arranged in sequence;

and obtaining the logistics dispatching work order based on the shipping address encryption character string, the receiving address encryption character string, the delivery deadline character string, the object information encryption character string and the logistics site identity information encryption character string.

Further, a plurality of work order encryption algorithms of different types are sequentially arranged and stored in the encryption algorithm database;

the selecting sequence number and the encrypting frequency value based on the algorithm selects a plurality of corresponding work order encrypting algorithms arranged in sequence in a preset encrypting algorithm database, and the method comprises the following steps:

calculating to obtain an algorithm ordering interval by combining a preset arrangement interval algorithm based on the algorithm selection sequence number and the encryption frequency value;

selecting a plurality of corresponding work order encryption algorithms arranged in sequence in the encryption algorithm database based on the algorithm selection sequence number and the algorithm ordering interval; wherein,

The arrangement interval of each selected work order encryption algorithm in the encryption algorithm database is the same as the algorithm ordering interval.

Further, the logistics site map is configured with an actual urban area map and coordinate information corresponding to each logistics site;

the method for responding to the logistics dispatching request and selecting the target logistics site based on the preset logistics site map comprises the following steps:

identifying the receiving address in the shipping request;

identifying the dispatch distance between the receiving address and each logistics site based on the logistics site map and the receiving address;

and comparing the dispatching distance of each logistics site, and selecting the logistics site corresponding to the smallest dispatching distance value as a target logistics site.

Further, the method further comprises a logistics site monitoring process, wherein the logistics site monitoring process comprises the following steps of:

monitoring the number of work orders of the logistics dispatching work orders received by the logistics site in a preset period;

when the work order quantity is larger than a work order quantity threshold corresponding to the logistics site, monitoring the number of work orders to be sent of the logistics site to be sent;

When the quantity of the to-be-sent work orders of the to-be-sent logistics work orders is larger than a preset quantity threshold value of the to-be-sent work orders, judging that the logistics site is in a work saturation state; wherein,

the to-be-dispatched logistics worksheet is the logistics dispatching worksheet in the to-be-dispatched state.

Further, the method also comprises a first logistics worksheet transferring process, wherein the first logistics worksheet transferring process comprises the following steps of;

when the target logistics site is in a working saturation state and the logistics dispatching work order is received, generating a logistics dispatching and transferring request;

and updating the target logistics site based on a preset logistics site map based on the logistics dispatching request corresponding to the logistics dispatching work order corresponding to the logistics dispatching transfer request.

Further, the method comprises the following steps:

based on a preset work order decryption flow, decrypting the logistics dispatching work order to obtain corresponding target logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information;

the work order decryption process comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

Based on the identity information of the target logistics site, an identity encryption code is generated by using a preset identity encryption algorithm;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

based on the algorithm selection sequence number, applying for obtaining a corresponding work order encryption algorithm from a preset encryption algorithm database;

and decrypting the logistics dispatching worksheet based on a worksheet decryption algorithm corresponding to the worksheet encryption algorithm to obtain corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

Further, the work order decryption process further includes the following steps:

generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

based on the algorithm selection sequence number and the encryption frequency value, applying for a preset encryption algorithm database to obtain a plurality of corresponding work order encryption algorithms which are arranged in sequence;

and decrypting the logistics dispatching work order based on a work order decryption algorithm corresponding to the work order encryption algorithm which is arranged in sequence by combining the encryption frequency value, so as to obtain the corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

Further, the method also comprises a second flow work order transfer process, wherein the second flow work order transfer process comprises the following steps of;

when the target logistics site is in a working saturation state and the logistics dispatching work order is received, generating a logistics dispatching and transferring request;

based on a preset logistics site map, sending the logistics dispatching and delivering request to a logistics site with the distance between the logistics site and the target logistics site being lower than a threshold value of the distance between the logistics sites;

updating the target logistics site based on the logistics site which receives the logistics dispatching and delivering request first; wherein,

the logistics site is configured to inhibit receipt of the logistics dispatch care-of request while in operational saturation.

In a second aspect, the present application provides a data transmission device for use in smart logistics, the device comprising:

the site selection module is used for responding to the logistics dispatching request and selecting a target logistics site based on a preset logistics site map;

the work order generation module is used for executing a preset work order encryption flow based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

The work order sending module is used for sending the logistics sending work order to the target logistics site;

the work order encryption flow comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm; wherein,

the logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.

The technical scheme provided by the application has the beneficial effects that:

The application encrypts the logistics dispatching work orders based on the work order encryption flow through encryption operations of different dimensionalities and different levels, thereby ensuring that the data transmission work of the logistics dispatching work orders has better confidentiality, effectively avoiding information leakage and improving the information security level.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flowchart illustrating steps of a data transmission method for smart logistics according to an embodiment of the present application;

FIG. 2 is a flowchart illustrating a workflow encryption process in a data transmission method applied to smart logistics according to an embodiment of the present application;

fig. 3 is a block diagram of a data transmission device applied to smart logistics according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Embodiments of the present application are described in further detail below with reference to the accompanying drawings.

The embodiment of the application provides a data transmission method and a data transmission device applied to intelligent logistics, which are used for encrypting and generating a logistics dispatching work order through encryption operations of different dimensions and different levels based on a work order encryption flow, so that the data transmission work of the logistics dispatching work order is guaranteed to have better confidentiality, information leakage is effectively avoided, and the information security level is improved.

In order to achieve the technical effects, the general idea of the application is as follows:

a data transmission method applied to smart logistics, the method comprising the steps of:

s1, responding to a logistics dispatching request, and selecting a target logistics site based on a preset logistics site map;

s2, executing a preset work order encryption process based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

s3, sending the logistics dispatching work order to a target logistics site;

the work order encryption flow comprises the following steps:

a1, generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

a2, generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

A3, based on the time encryption code and the identity encryption code, generating an algorithm selection sequence number by using a preset algorithm selection algorithm;

a4, selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

a5, generating a logistics dispatching work order based on the logistics dispatching request, the identity information of the target logistics site and the work order encryption algorithm; wherein,

the logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.

Embodiments of the present application are described in further detail below with reference to the accompanying drawings.

In a first aspect, referring to fig. 1-2, an embodiment of the present application provides a data transmission method applied to smart logistics, the method includes the following steps:

s1, responding to a logistics dispatching request, and selecting a target logistics site based on a preset logistics site map;

s2, executing a preset work order encryption process based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

s3, sending the logistics dispatching work order to a target logistics site;

The work order encryption flow comprises the following steps:

a1, generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

a2, generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

a3, based on the time encryption code and the identity encryption code, generating an algorithm selection sequence number by using a preset algorithm selection algorithm;

a4, selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

a5, generating a logistics dispatching work order based on the logistics dispatching request, the identity information of the target logistics site and the work order encryption algorithm; wherein,

the logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.

According to the embodiment of the application, the logistics dispatching work order is encrypted and generated through encryption operations of different dimensions and different levels based on the work order encryption flow, so that the data transmission work of the logistics dispatching work order is guaranteed to have good confidentiality, information leakage is effectively avoided, and the information security level is improved.

It should be noted that, the technical scheme of the embodiment of the application is as follows when being implemented in detail:

in step S1, responding to a logistics dispatching request, identifying a receiving address in the logistics dispatching request, and selecting a logistics site matched with the receiving address on a logistics site map as a target logistics site;

the specific matching principle can be that the goods receiving address is screened based on the distance between the goods receiving address and each logistics site on a logistics site map, the selection distance is relatively short, and the selection of the logistics sites can be properly adjusted by taking the distribution workload of each logistics site at the moment as a reference based on a preset rule.

In step S2, since the corresponding destination logistics site is obtained, the corresponding work order can be generated in combination with the logistics distribution request, and the work order generation work can be performed based on the preset work order encryption flow during specific operation, so as to obtain the corresponding logistics distribution work order.

Specifically, when a logistics dispatching work order is generated, specifically executing the steps A1-A5;

step A1 and step A2 aim at generating corresponding parameters required for encrypting the work order based on the corresponding flow, namely an instant encryption code and an identity encryption code;

further, step A3 and step A4 are to select the algorithm required for encrypting the work order based on the obtained time encryption code and identity encryption code;

The two-layer encryption effect is utilized, one layer is to generate a corresponding time encryption code and an identity encryption code, and different logistics sending requests are different in sending time and corresponding target logistics sites, so that the time encryption code and the identity encryption code generated by encryption based on different encryption algorithms have certain encryption concealment on the premise of specificity;

and selecting a work order encryption algorithm based on the time encryption code and the identity encryption code, and selecting a corresponding work order encryption algorithm to encrypt the work order to obtain the generated logistics dispatching work order.

Further, the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

Step A5, generating the generated logistics dispatching work order based on the logistics dispatching request, the destination logistics site identity information and the work order encryption algorithm, including the following steps:

step A500, extracting a shipping address character string, a receiving address character string, a delivery period character string and a delivery object information character string corresponding to a shipping address in the logistics delivery request, and correspondingly generating a shipping address encryption character string, a receiving address encryption character string, a delivery period encryption character string and a delivery object information encryption character string based on the work order encryption algorithm;

step A501, generating a target logistics site identity information encryption character string based on the target logistics site identity information and the work order encryption algorithm;

step a502, obtaining the logistics dispatch worksheet based on the shipping address encryption string, the receiving address encryption string, the delivery deadline string, the object information encryption string, and the logistics site identity information encryption string.

It should be noted that, step a500 and step a501 aim to encrypt the identity information of the destination logistics site and each information in the logistics distribution request respectively, so as to obtain a plurality of corresponding character strings, and step a502 further encrypts the second time, so as to obtain the final logistics distribution work order;

By the arrangement, the data of the logistics distribution work order can be in an encryption state according to the same, encryption complexity can be improved to a certain extent, and data security is improved.

Further, the work order encryption process further comprises the following steps:

b1, generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

b2, selecting a sequence number and the encryption frequency value based on the algorithm, and selecting a plurality of corresponding work order encryption algorithms arranged in sequence in a preset encryption algorithm database;

and B3, generating the generated logistics dispatching work order through multiple encryption based on the logistics dispatching request, the target logistics site identity information and multiple work order encryption algorithms which are arranged in sequence.

If necessary, a work order encryption mode of multiple encryption can be adopted, namely, the times of multiple encryption are obtained firstly through B1 and B2, and then multiple work order encryption algorithms are selected;

of course, the algorithm selection sequence number is obtained, the first work order encryption algorithm can be selected through the algorithm selection sequence number, and because a plurality of work order encryption algorithms are sequentially stored in the preset encryption algorithm database, the subsequent work order encryption algorithm can be obtained based on the selected first work order encryption algorithm and the encryption frequency value according to the preset rule, and the number of all selected work order encryption algorithms is the same as the number of the encryption frequency value, however, if the number of the work order encryption algorithms in the preset encryption algorithm database is less, the situation that the number of the types of all work order encryption algorithms is smaller than the number of the encryption frequency value can occur, namely, the same work order encryption algorithm is selected more than once for the encryption operation corresponding to different encryption frequencies.

It should be noted that, the steps B1 to B3 are based on the corresponding flows in the steps A1 to A4, and the specific operation flow may be, but not limited to, the following cases:

a1, generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

a2, generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

a3, generating an algorithm selection sequence number by using a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

b1, generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

b2, selecting a sequence number and the encryption frequency value based on the algorithm, and selecting a plurality of corresponding work order encryption algorithms arranged in sequence in a preset encryption algorithm database;

and B3, generating the generated logistics dispatching work order through multiple encryption based on the logistics dispatching request, the target logistics site identity information and multiple work order encryption algorithms which are arranged in sequence.

Further, the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

The delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

and B3, generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm, wherein the method comprises the following steps of:

step B300, extracting a delivery address character string, a receiving address character string, a delivery period character string and a delivery object information character string corresponding to the delivery address in the logistics delivery request, and generating a corresponding delivery address encryption character string, a receiving address encryption character string, a delivery period encryption character string and a delivery object information encryption character string through multiple encryption based on a plurality of work order encryption algorithms arranged in sequence;

step B301, generating a target logistics site identity information encryption character string through multiple encryption based on the target logistics site identity information and a plurality of work order encryption algorithms arranged in sequence;

and step B302, obtaining the logistics dispatching work order based on the shipping address encryption character string, the receiving address encryption character string, the delivery deadline character string, the object information encryption character string and the logistics site identity information encryption character string.

Further, a plurality of work order encryption algorithms of different types are sequentially arranged and stored in the encryption algorithm database;

and step B2, selecting a plurality of corresponding work order encryption algorithms arranged in sequence in a preset encryption algorithm database based on the algorithm selection sequence number and the encryption frequency value, wherein the method comprises the following steps of:

step B200, calculating to obtain an algorithm ordering interval by combining a preset arrangement interval algorithm based on the algorithm selection sequence number and the encryption frequency value;

step B201, selecting a plurality of work order encryption algorithms which are arranged in sequence in the encryption algorithm database based on the algorithm selection sequence number and the algorithm ordering interval; wherein,

the arrangement interval of each selected work order encryption algorithm in the encryption algorithm database is the same as the algorithm ordering interval.

Further, the logistics site map is configured with an actual urban area map and coordinate information corresponding to each logistics site;

step S1, responding to a logistics dispatching request, selecting a target logistics site based on a preset logistics site map, and comprising the following steps:

step S100, identifying and obtaining the receiving address in the logistics distribution request;

Step S101, identifying the dispatch distance between the receiving address and each logistics site based on the logistics site map and the receiving address;

step S102, comparing the dispatching distance of each logistics site, and selecting the logistics site corresponding to the smallest dispatching distance value as a target logistics site.

Further, the method further comprises a logistics site monitoring process, wherein the logistics site monitoring process comprises the following steps of:

monitoring the number of work orders of the logistics dispatching work orders received by the logistics site in a preset period;

when the work order quantity is larger than a work order quantity threshold corresponding to the logistics site, monitoring the number of work orders to be sent of the logistics site to be sent;

when the quantity of the to-be-sent work orders of the to-be-sent logistics work orders is larger than a preset quantity threshold value of the to-be-sent work orders, judging that the logistics site is in a work saturation state; wherein,

the to-be-dispatched logistics worksheet is the logistics dispatching worksheet in the to-be-dispatched state.

It should be noted that, because the logistics site has a capacity threshold for receiving the dispatch worksheet, the logistics site needs to be monitored to know the working condition of the logistics site so as to prompt the logistics site for later dispatching of worksheets.

Further, the method also comprises a first logistics worksheet transferring process, wherein the first logistics worksheet transferring process comprises the following steps of;

when the target logistics site is in a working saturation state and the logistics dispatching work order is received, generating a logistics dispatching and transferring request;

and updating the target logistics site based on a preset logistics site map based on the logistics dispatching request corresponding to the logistics dispatching work order corresponding to the logistics dispatching transfer request.

When updating the destination logistics site based on the logistics dispatching request corresponding to the logistics dispatching work order corresponding to the logistics dispatching transfer request and the preset logistics site map, reference may be made to step S102, and the specific operation is as follows:

and based on the logistics dispatching request corresponding to the logistics dispatching work order corresponding to the logistics dispatching transfer request, comparing dispatching distances of other logistics sites after the target logistics sites are eliminated based on a preset logistics site map, and selecting the logistics sites which have the smallest dispatching distance value and are not in a working saturation state as updated target logistics sites.

Further, the method also comprises a second flow work order transfer process, wherein the second flow work order transfer process comprises the following steps of;

When the target logistics site is in a working saturation state and the logistics dispatching work order is received, generating a logistics dispatching and transferring request;

based on a preset logistics site map, sending the logistics dispatching and delivering request to a logistics site with the distance between the logistics site and the target logistics site being lower than a threshold value of the distance between the logistics sites;

updating the target logistics site based on the logistics site which receives the logistics dispatching and delivering request first; wherein,

the logistics site is configured to inhibit receipt of the logistics dispatch care-of request while in operational saturation.

In actual operation, the first and second logistics worksheets may be selected according to the requirement, so as to properly update the destination logistics site.

Further, the method comprises the following steps:

based on a preset work order decryption flow, decrypting the logistics dispatching work order to obtain corresponding target logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information;

the work order decryption process comprises the following steps:

Generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

based on the identity information of the target logistics site, an identity encryption code is generated by using a preset identity encryption algorithm;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

based on the algorithm selection sequence number, applying for obtaining a corresponding work order encryption algorithm from a preset encryption algorithm database;

and decrypting the logistics dispatching worksheet based on a worksheet decryption algorithm corresponding to the worksheet encryption algorithm to obtain corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

The work order decryption flow corresponds to a work order encryption flow, specifically corresponds to a work order encryption flow for performing a single encryption operation, and performs a corresponding decryption operation based on the encryption operation.

Further, the work order decryption process further includes the following steps:

generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

Based on the algorithm selection sequence number and the encryption frequency value, applying for a preset encryption algorithm database to obtain a plurality of corresponding work order encryption algorithms which are arranged in sequence;

and decrypting the logistics dispatching work order based on a work order decryption algorithm corresponding to the work order encryption algorithm which is arranged in sequence by combining the encryption frequency value, so as to obtain the corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

The work order decryption flow corresponds to a work order encryption flow, specifically corresponds to a work order encryption flow for performing encryption operations multiple times, and performs a corresponding decryption operation based on the encryption operation.

It should be noted that, step numbers of each step in the embodiment of the present application are not limited to the order of each operation in the technical solution of the present application.

In a second aspect, referring to fig. 3, an embodiment of the present application provides a data transmission device applied to smart logistics, where the device includes:

the site selection module is used for responding to the logistics dispatching request and selecting a target logistics site based on a preset logistics site map;

The work order generation module is used for executing a preset work order encryption flow based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

the work order sending module is used for sending the logistics sending work order to the target logistics site;

the work order encryption flow comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm; wherein,

the logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.

According to the embodiment of the application, the logistics dispatching work order is encrypted and generated through encryption operations of different dimensions and different levels based on the work order encryption flow, so that the data transmission work of the logistics dispatching work order is guaranteed to have good confidentiality, information leakage is effectively avoided, and the information security level is improved.

Further, the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the work order generation module is further used for extracting a delivery address character string, a receiving address character string, a delivery deadline character string and a delivery object information character string corresponding to the delivery address in the logistics delivery request, and correspondingly generating a delivery address encryption character string, a receiving address encryption character string, a delivery deadline encryption character string and a delivery object information encryption character string based on the work order encryption algorithm;

the work order generation module is also used for generating a target logistics site identity information encryption character string based on the target logistics site identity information and the work order encryption algorithm;

The work order generation module is further configured to obtain the logistics dispatch work order based on the shipping address encryption string, the receiving address encryption string, the delivery deadline string, the object information encryption string, and the logistics site identity information encryption string.

Further, the work order encryption process further comprises the following steps:

generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

selecting a plurality of corresponding work order encryption algorithms arranged in sequence in a preset encryption algorithm database based on the algorithm selection sequence number and the encryption frequency value;

and generating the generated logistics dispatching work order through multiple times of encryption based on the logistics dispatching request, the target logistics site identity information and multiple sequentially arranged work order encryption algorithms.

Further, the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

The work order generation module is also used for extracting a delivery address character string, a receiving address character string, a delivery deadline character string and a delivery object information character string corresponding to the delivery address in the logistics delivery request, and generating a corresponding delivery address encryption character string, a receiving address encryption character string, a delivery deadline encryption character string and a delivery object information encryption character string through multiple encryption based on a plurality of work order encryption algorithms which are arranged in sequence;

the work order generation module is also used for generating a target logistics site identity information encryption character string through multiple encryption based on the target logistics site identity information and a plurality of work order encryption algorithms which are arranged in sequence;

the work order generation module is further configured to obtain the logistics dispatch work order based on the shipping address encryption string, the receiving address encryption string, the delivery deadline string, the object information encryption string, and the logistics site identity information encryption string.

Further, a plurality of work order encryption algorithms of different types are sequentially arranged and stored in the encryption algorithm database;

The selecting sequence number and the encrypting frequency value based on the algorithm selects a plurality of corresponding work order encrypting algorithms arranged in sequence in a preset encrypting algorithm database, and the method comprises the following steps:

calculating to obtain an algorithm ordering interval by combining a preset arrangement interval algorithm based on the algorithm selection sequence number and the encryption frequency value;

selecting a plurality of corresponding work order encryption algorithms arranged in sequence in the encryption algorithm database based on the algorithm selection sequence number and the algorithm ordering interval; wherein,

the arrangement interval of each selected work order encryption algorithm in the encryption algorithm database is the same as the algorithm ordering interval.

Further, the logistics site map is configured with an actual urban area map and coordinate information corresponding to each logistics site;

the site selection module is further configured to identify the receiving address in the shipping request;

the site selection module is further used for identifying the dispatch distance between the receiving address and each logistics site based on the logistics site map and the receiving address;

the station selecting module is further configured to compare the dispatch distance of each logistics station, and select the logistics station corresponding to the dispatch distance value with the smallest dispatch distance value as a target logistics station.

Further, the device also comprises a logistics site monitoring module;

the logistics site monitoring module is used for monitoring the number of work orders of the logistics dispatching work orders received by the logistics site in a preset period;

the logistics site monitoring module is used for monitoring the quantity of to-be-sent work orders of the logistics site to-be-sent logistics work orders when the quantity of the work orders is larger than a work order quantity threshold corresponding to the logistics site;

the logistics site monitoring module is used for judging that the logistics site is in a work saturation state when the to-be-sent work order quantity of the to-be-sent logistics work order is larger than a preset to-be-sent work order quantity threshold value; wherein,

the to-be-dispatched logistics worksheet is the logistics dispatching worksheet in the to-be-dispatched state.

Further, the device also comprises a first logistics worksheet transfer module;

the first logistics worksheet transfer module is used for generating a logistics dispatching transfer request when the target logistics site is in a work saturation state and the logistics dispatching worksheet is received;

the first logistics worksheet transferring module is used for updating the target logistics site based on the logistics dispatching request corresponding to the logistics dispatching worksheet corresponding to the logistics dispatching transferring request and a preset logistics site map.

Further, the device also comprises a second stream work order transfer module;

the second flow work order transfer module is used for generating a flow dispatching transfer request when the target flow site is in a working saturation state and the flow dispatching work order is received;

the second flow work order forwarding module is used for sending the flow sending forwarding request to a flow site, wherein the distance between the flow site and the target flow site is lower than the threshold value of the distance between the flow sites, based on a preset flow site map;

the second flow work order forwarding module is used for updating the target flow site based on the first flow site receiving the flow dispatching forwarding request; wherein,

the logistics site is configured to inhibit receipt of the logistics dispatch care-of request while in operational saturation.

Further, the device further comprises a work order decryption module:

the work order decryption module is used for decrypting the logistics dispatching work order based on a preset work order decryption flow to obtain the corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information;

The work order decryption process comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

based on the identity information of the target logistics site, an identity encryption code is generated by using a preset identity encryption algorithm;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

based on the algorithm selection sequence number, applying for obtaining a corresponding work order encryption algorithm from a preset encryption algorithm database;

and decrypting the logistics dispatching worksheet based on a worksheet decryption algorithm corresponding to the worksheet encryption algorithm to obtain corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

Further, the work order decryption process further includes the following steps:

generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

based on the algorithm selection sequence number and the encryption frequency value, applying for a preset encryption algorithm database to obtain a plurality of corresponding work order encryption algorithms which are arranged in sequence;

And decrypting the logistics dispatching work order based on a work order decryption algorithm corresponding to the work order encryption algorithm which is arranged in sequence by combining the encryption frequency value, so as to obtain the corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

It should be noted that, the data transmission device applied to the intelligent logistics provided by the embodiment of the application has the corresponding technical problems, technical means and technical effects, and is similar to the data transmission method applied to the intelligent logistics in principle.

It should be noted that in the present application, relational terms such as "first" and "second" and the like are 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. Moreover, 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 one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing is merely exemplary of embodiments of the present application to enable those skilled in the art to understand or practice the application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A data transmission method applied to smart logistics, characterized in that the method comprises the following steps:

responding to a logistics dispatching request, and selecting a target logistics site based on a preset logistics site map;

executing a preset work order encryption process based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

sending the logistics dispatching work order to the target logistics site;

the work order encryption flow comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

Generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm; wherein,

the logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.

2. The data transmission method for intelligent logistics according to claim 1, wherein the shipping address, the receiving address, the delivery deadline and the shipping item information of the logistics shipping request are stored in an array form;

the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

The generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm comprises the following steps:

extracting a delivery address character string, a receiving address character string, a delivery period character string and a delivery object information character string corresponding to a delivery address in the logistics delivery request, and correspondingly generating a delivery address encryption character string, a receiving address encryption character string, a delivery period encryption character string and a delivery object information encryption character string based on the work order encryption algorithm;

generating a target logistics site identity information encryption character string based on the target logistics site identity information and the work order encryption algorithm;

and obtaining the logistics dispatching work order based on the shipping address encryption character string, the receiving address encryption character string, the delivery deadline character string, the object information encryption character string and the logistics site identity information encryption character string.

3. The data transmission method applied to the smart logistics according to claim 1, wherein the work order encryption process further comprises the steps of:

Generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

selecting a plurality of corresponding work order encryption algorithms arranged in sequence in a preset encryption algorithm database based on the algorithm selection sequence number and the encryption frequency value;

and generating the generated logistics dispatching work order through multiple times of encryption based on the logistics dispatching request, the target logistics site identity information and multiple sequentially arranged work order encryption algorithms.

4. The data transmission method for intelligent logistics according to claim 3, wherein the shipping address, the receiving address, the delivery deadline and the shipping item information of the logistics shipping request are stored in an array form;

the delivery address, the receiving address, the delivery period and the delivery object information of the logistics delivery request are stored in an array form;

the generating logistics dispatching work order is generated through multiple times of encryption based on the logistics dispatching request, the target logistics site identity information and a plurality of work order encryption algorithms which are arranged in sequence, and the method comprises the following steps:

extracting a delivery address character string, a receiving address character string, a delivery period character string and a delivery object information character string corresponding to the delivery address in the logistics delivery request, and generating a corresponding delivery address encryption character string, a receiving address encryption character string, a delivery period encryption character string and a delivery object information encryption character string through multiple encryption based on a plurality of work order encryption algorithms arranged in sequence;

Generating a target logistics site identity information encryption character string through multiple encryption based on the target logistics site identity information and a plurality of work order encryption algorithms arranged in sequence;

and obtaining the logistics dispatching work order based on the shipping address encryption character string, the receiving address encryption character string, the delivery deadline character string, the object information encryption character string and the logistics site identity information encryption character string.

5. The data transmission method applied to intelligent logistics according to claim 3, wherein a plurality of different types of work order encryption algorithms are sequentially arranged and stored in the encryption algorithm database;

the selecting sequence number and the encrypting frequency value based on the algorithm selects a plurality of corresponding work order encrypting algorithms arranged in sequence in a preset encrypting algorithm database, and the method comprises the following steps:

calculating to obtain an algorithm ordering interval by combining a preset arrangement interval algorithm based on the algorithm selection sequence number and the encryption frequency value;

selecting a plurality of corresponding work order encryption algorithms arranged in sequence in the encryption algorithm database based on the algorithm selection sequence number and the algorithm ordering interval; wherein,

The arrangement interval of each selected work order encryption algorithm in the encryption algorithm database is the same as the algorithm ordering interval.

6. The data transmission method applied to intelligent logistics according to claim 1, wherein the logistics site map is configured with an actual urban area map and coordinate information corresponding to each logistics site;

the method for responding to the logistics dispatching request and selecting the target logistics site based on the preset logistics site map comprises the following steps:

identifying the receiving address in the shipping request;

identifying the dispatch distance between the receiving address and each logistics site based on the logistics site map and the receiving address;

and comparing the dispatching distance of each logistics site, and selecting the logistics site corresponding to the smallest dispatching distance value as a target logistics site.

7. The data transmission method applied to intelligent logistics according to claim 1, further comprising a logistics site monitoring process, wherein the logistics site monitoring process comprises the steps of:

monitoring the number of work orders of the logistics dispatching work orders received by the logistics site in a preset period;

When the work order quantity is larger than a work order quantity threshold corresponding to the logistics site, monitoring the number of work orders to be sent of the logistics site to be sent;

when the quantity of the to-be-sent work orders of the to-be-sent logistics work orders is larger than a preset quantity threshold value of the to-be-sent work orders, judging that the logistics site is in a work saturation state; wherein,

the to-be-dispatched logistics worksheet is the logistics dispatching worksheet in the to-be-dispatched state.

8. The data transmission method applied to the smart logistics of claim 1, further comprising the steps of:

based on a preset work order decryption flow, decrypting the logistics dispatching work order to obtain corresponding target logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information;

the work order decryption process comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

based on the identity information of the target logistics site, an identity encryption code is generated by using a preset identity encryption algorithm;

Generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

based on the algorithm selection sequence number, applying for obtaining a corresponding work order encryption algorithm from a preset encryption algorithm database;

and decrypting the logistics dispatching worksheet based on a worksheet decryption algorithm corresponding to the worksheet encryption algorithm to obtain corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

9. The data transmission method applied to the smart material flow according to claim 3, wherein the work order decryption process further comprises the steps of:

generating an encryption number value by using a preset encryption number setting algorithm based on the time encryption number and the identity encryption number;

based on the algorithm selection sequence number and the encryption frequency value, applying for a preset encryption algorithm database to obtain a plurality of corresponding work order encryption algorithms which are arranged in sequence;

and decrypting the logistics dispatching work order based on a work order decryption algorithm corresponding to the work order encryption algorithm which is arranged in sequence by combining the encryption frequency value, so as to obtain the corresponding destination logistics site identity information, the delivery address, the receiving address, the delivery period and the dispatching object information.

10. A data transmission device for intelligent logistics, the device comprising:

the site selection module is used for responding to the logistics dispatching request and selecting a target logistics site based on a preset logistics site map;

the work order generation module is used for executing a preset work order encryption flow based on the logistics dispatching request and the target logistics site, and encrypting to generate a logistics dispatching work order;

the work order sending module is used for sending the logistics sending work order to the target logistics site;

the work order encryption flow comprises the following steps:

generating a time encryption code by using a preset time encryption algorithm based on the sending time corresponding to the logistics dispatching request;

generating an identity encryption code by using a preset identity encryption algorithm based on the identity information of the target logistics site;

generating an algorithm selection sequence number by utilizing a preset algorithm selection algorithm based on the time encryption code and the identity encryption code;

selecting a corresponding work order encryption algorithm in a preset encryption algorithm database based on the algorithm selection sequence number;

generating the generated logistics dispatching work order based on the logistics dispatching request, the target logistics site identity information and the work order encryption algorithm; wherein,

The logistics dispatching request comprises a delivery address, a receiving address, a delivery period and dispatching object information;

the logistics dispatching work order comprises destination logistics site identity information, a delivery address, a receiving address, a delivery period and dispatching object information.