CN114595478A

CN114595478A - Logistics information transmission method and device, electronic equipment and storage medium

Info

Publication number: CN114595478A
Application number: CN202210294108.0A
Authority: CN
Inventors: 吴昊; 杨振燕; 王志辉; 周才军; 樊鹏辉; 宁海亮; 罗燕武; 曾依峰; 陈培杰
Original assignee: Shenzhen Digital Certificate Authority Center Co ltd
Current assignee: Shenzhen Digital Certificate Authority Center Co ltd
Priority date: 2022-03-24
Filing date: 2022-03-24
Publication date: 2022-06-07

Abstract

The application is applicable to the technical field of data processing, and provides a method and a device for transmitting logistics information, electronic equipment and a storage medium, wherein the method comprises the following steps: if receiving a logistics list to be distributed sent by a service server, encrypting target information in the logistics list to obtain an encrypted logistics list; sending the encrypted logistics list to a logistics server so that the logistics server determines a distribution area according to the encrypted logistics list and sends the encrypted logistics list to a distribution terminal associated with the distribution area; receiving a communication request sent by a distribution terminal; the communication request is generated when the delivery terminal arrives at the fuzzy delivery address; decrypting the encrypted logistics list in the communication request, and determining a first communication address of a target terminal corresponding to the encrypted logistics list; and establishing communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal. By adopting the method, two aspects of information confidentiality and distribution task completion can be considered at the same time.

Description

Logistics information transmission method and device, electronic equipment and storage medium

Technical Field

The present application belongs to the technical field of data processing, and in particular, to a method and an apparatus for transmitting logistics information, an electronic device, and a storage medium.

Background

With the increasing of electronic shopping platforms, online shopping becomes the most common shopping mode for people, and another emerging industry which is inseparable from online shopping is logistics industry. A large number of commodities need to be transported end to end through the logistics platform, and data of a receiver or data of a shipper are recorded into the logistics platform.

However, in the existing transmission technology of the logistics information, the logistics server and the terminals of all distribution objects can record a large amount of privacy information of delivery objects and receiving objects, so that the leakage risk of user information is greatly increased, and the confidentiality of the user information is reduced.

Disclosure of Invention

The embodiment of the application provides a transmission method and device of logistics information, electronic equipment and a storage medium, and can solve the problems that in the existing transmission technology of logistics information, a logistics server and terminals of all distribution objects can record privacy information of a large number of delivery objects and receiving objects, leakage risks of user information are greatly increased, and confidentiality of the user information is reduced.

In a first aspect, an embodiment of the present application provides a method for transmitting logistics information, including:

if receiving a logistics list to be distributed sent by a service server, encrypting target information in the logistics list to obtain an encrypted logistics list; the distribution object information in the encrypted logistics list is in an encrypted state; the encrypted logistics list comprises a fuzzy distribution address;

sending the encrypted logistics list to a logistics server so that the logistics server determines a distribution area according to the encrypted logistics list and sends a distribution task generated based on the encrypted logistics list to a distribution terminal associated with the distribution area;

receiving a communication request sent by the distribution terminal; the communication request is generated when the delivery terminal arrives at the fuzzy delivery address; the communication request comprises the delivery task;

decrypting the encrypted logistics list corresponding to the communication request, and determining a first communication address of a target terminal corresponding to the encrypted logistics list;

and establishing communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal.

In a possible implementation manner of the first aspect, the receiving a communication request sent by the delivery terminal includes:

sending a positioning feedback instruction to a distribution terminal; the positioning feedback instruction is used for controlling the distribution terminal to feed back a plurality of positioning information acquired by the positioning module within a preset time period before the positioning feedback instruction is received;

receiving the plurality of positioning information fed back by the distribution terminal, and generating a distribution route of the distribution terminal based on the plurality of positioning information;

extracting an accurate distribution address of a distribution object corresponding to a target terminal from the encrypted logistics list, and determining a distribution confidence coefficient of the distribution terminal according to the distribution route and the accurate distribution address;

and if the distribution confidence is greater than a preset confidence threshold, performing an operation of decrypting the encrypted logistics list corresponding to the communication request and determining a first communication address of a target terminal corresponding to the encrypted logistics list.

In a possible implementation manner of the first aspect, the obtaining, by the intermediate server, an accurate delivery address of a receiving object corresponding to the encrypted delivery order, and determining a delivery confidence between the delivery route and the accurate delivery address by the intermediate server includes:

if the distribution confidence is smaller than or equal to the confidence threshold, returning request failure information to the distribution terminal, and increasing an abnormal index of the distribution terminal;

and if the abnormal index of any delivery terminal is detected to be larger than a preset abnormal threshold, adding the delivery terminal of which the abnormal index is larger than the abnormal threshold to a delivery blacklist.

In a possible implementation manner of the first aspect, the extracting an accurate delivery address of a delivery object corresponding to a target terminal from the encrypted delivery list, and determining a delivery confidence of the delivery terminal according to the delivery route and the accurate delivery address includes:

acquiring a regional map corresponding to the distribution route, and determining a key building on the distribution route according to the fact that the regional map comprises a plurality of existing buildings;

respectively calculating a characteristic distance value between the accurate distribution address and each key building;

generating a predicted action path according to the distribution moving direction corresponding to the distribution route;

calculating the shortest moving path from the delivery address to the predicted action path;

guiding all the characteristic distance values and the shortest moving path into a preset confidence coefficient conversion algorithm, and calculating the distribution confidence coefficient; the confidence conversion algorithm is as follows:

wherein TrustLv is the delivery confidence; distance_iA characteristic distance value between the ith key building and the receiving address; TimeWeight_iA weight value for the collection time of the ith key building; n is the total number of the key buildings; MinRoute is the shortest moving path; long (x) calculates a function for the path length.

In a possible implementation manner of the first aspect, if the to-be-delivered logistics list sent by the service server is received, encrypting the target information in the logistics list to obtain an encrypted logistics list includes:

extracting the information of the receiving objects to be encrypted in the logistics list, and determining the accurate delivery addresses of the receiving objects based on the information of the receiving objects;

acquiring a plurality of historical distribution records associated with the geographical area according to the geographical area where the accurate distribution address is located;

respectively determining historical receiving addresses of a plurality of historical delivery records, and performing cluster analysis on all the historical receiving addresses to obtain common receiving addresses;

generating the fuzzy distribution address based on the common goods receiving address, and encrypting the distribution object information through a preset encryption algorithm to obtain a distribution ciphertext;

and generating the encrypted logistics list based on the fuzzy distribution address and the distribution ciphertext.

In a possible implementation manner of the first aspect, after the establishing a communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal, the method further includes:

if the communication connection activation is detected, starting an active timer for the communication connection;

if the count value of the effective counter is greater than a preset duration threshold, sending a connection duration request to the target terminal;

and if a duration confirmation instruction fed back by the target terminal based on the connection duration request is not received in a preset waiting duration, or a duration refusing instruction fed back by the target terminal based on the connection duration request is received in the waiting duration, disconnecting the communication connection.

In a possible implementation manner of the first aspect, the establishing, based on the first communication address and the second communication address of the delivery terminal, a communication connection between the delivery terminal and the target terminal includes:

creating a jump link for establishing the first communication address and the second communication address, and generating a two-dimensional code image of the jump link;

pushing the two-dimensional code image to the distribution terminal according to the second communication address; and the two-dimension code image is used for the distribution terminal to obtain the jump link by scanning the two-dimension code image, and the communication connection between the distribution terminal and the target terminal is established based on the jump link.

In a second aspect, an embodiment of the present application provides a device for transmitting logistics information, including:

the logistics list encryption unit is used for encrypting the target information in the logistics list to obtain an encrypted logistics list if receiving the logistics list to be distributed sent by the service server; the distribution object information in the encrypted logistics list is in an encrypted state; the encrypted logistics list comprises a fuzzy distribution address;

the encrypted logistics list sending unit is used for sending the encrypted logistics list to a logistics server so that the logistics server determines a distribution area according to the encrypted logistics list and sends a distribution task generated based on the encrypted logistics list to a distribution terminal associated with the distribution area;

a communication request receiving unit configured to receive a communication request sent by the delivery terminal; the communication request is generated when the delivery terminal arrives at the fuzzy delivery address; the communication request comprises the delivery task;

a first communication address determining unit, configured to decrypt the encrypted logistics list corresponding to the communication request, and determine a first communication address of a target terminal corresponding to the encrypted logistics list;

a communication connection establishing unit, configured to establish a communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal.

In a third aspect, an embodiment of the present application provides an electronic device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, and the processor, when executing the computer program, implements the method according to any one of the above first aspects.

In a fourth aspect, the present application provides a computer-readable storage medium, which stores a computer program, and when the computer program is executed by a processor, the computer program implements the method according to any one of the above first aspects.

In a fifth aspect, embodiments of the present application provide a computer program product, which when run on a server, causes the server to perform the method of any one of the first aspect.

Compared with the prior art, the embodiment of the application has the advantages that: when a logistics list which is sent by a business server and needs to be distributed is received, target information related to user privacy is encrypted to obtain a corresponding encrypted logistics list, the logistics list is encrypted to serve the logistics server, the logistics server can determine a distribution terminal corresponding to a threshold value according to a fuzzy distribution address contained in the logistics server, when the distribution terminal reaches the fuzzy distribution address, a communication request can be initiated, communication connection between the target terminal and the distribution terminal is established in response to the communication request, and accordingly logistics distribution tasks can be completed under the condition that the user privacy information is not leaked. Compared with the prior logistics distribution technology, the receiving object information and the delivery object information are not directly displayed in the logistics server and the distribution terminal, but are hidden in an encryption mode, so that the leakage risk of user privacy information is reduced, meanwhile, in order to not influence normal logistics distribution, a fuzzy distribution address is generated, so that the logistics server and the distribution terminal can distribute according to the fuzzy distribution address, and the two aspects of information confidentiality and distribution task completion can be considered at the same time.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a logistics distribution system according to an embodiment of the present application;

fig. 2 is a flowchart illustrating an implementation of a method for transmitting logistics information according to an embodiment of the present application;

fig. 3 is a flowchart illustrating an implementation of a method S203 for transmitting logistics information according to an embodiment of the present application;

fig. 4 is a schematic diagram illustrating an implementation manner of S201 of a method for transmitting logistics information according to an embodiment of the present application;

fig. 5 is a schematic diagram illustrating an implementation manner of a method for transmitting logistics information according to an embodiment of the present application;

fig. 6 is a schematic diagram illustrating an implementation manner of S205 of a method for transmitting logistics information according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a transmission device for logistics information provided by an embodiment of the present application;

fig. 8 is a schematic structural diagram of an electronic device provided in an embodiment of the present application.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. It will be apparent, however, to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

Furthermore, in the description of the present application and the appended claims, the terms "first," "second," "third," and the like are used for distinguishing between descriptions and not necessarily for describing or implying relative importance.

The method for transmitting logistics information provided by the embodiment of the application can be applied to electronic equipment capable of transmitting logistics information, such as a smart phone, a server, a tablet computer, a notebook computer, an ultra-mobile personal computer (UMPC), a netbook, and a server. The embodiment of the present application does not set any limit to the specific type of the electronic device.

In particular, the electronic device is specifically a middleware server, and the middleware server can perform encryption processing on the received streaming ticket. Fig. 1 schematically illustrates a structure of a logistics distribution system according to an embodiment of the present application. Referring to fig. 1, the logistics distribution system comprises: a service server 11, a middleware server 12, a logistics server 13, at least one distribution terminal 14, and a user terminal 15. Wherein, the delivery object can release the product to be sold on the shopping platform corresponding to the service server 11, the delivery object and the receiving object can generate a logistics list related to the product after completing the transaction on the product on the shopping platform corresponding to the service server 11, the service server 11 can forward the generated logistics list to the middleware server 12, the middleware server 12 can send the encrypted logistics list to the logistics server 13 after completing the encryption operation on the logistics list, so that the logistics server 13 arranges the corresponding delivery object for delivery, at this time, the delivery object can receive the delivery task related to the encrypted logistics list through the delivery terminal 14, based on that the delivery terminal 14 can initiate a communication request when reaching the fuzzy delivery address specified by the delivery task, the middleware server 12 can establish a communication connection between the delivery terminal 14 and the target user terminal 15, therefore, distribution of the logistics list is achieved, namely the middleware is used for bridging communication between each server and each terminal, and therefore user information can be guaranteed not to be leaked.

Referring to fig. 2, fig. 2 is a schematic diagram illustrating an implementation of a method for transmitting logistics information according to an embodiment of the present application, where the method includes the following steps:

in S201, if a to-be-distributed logistics list sent by a service server is received, encrypting target information in the logistics list to obtain an encrypted logistics list; the distribution object information in the encrypted logistics list is in an encrypted state; the encrypted logistics list comprises the fuzzy distribution address.

In this embodiment, the service server may receive transaction records between users, and if it is detected that a certain transaction record needs to be delivered, a logistics list corresponding to the transaction record may be generated. The logistics list contains information of delivery objects, and the delivery objects include receiving objects and delivery objects, so the information of delivery objects includes information of receiving objects (such as receiving address, name of receiving person and telephone of receiving person) and information of delivery objects (such as delivery address, name of delivering person and telephone of delivering person).

In this embodiment, the service server may send the logistics list to be delivered to the middleware server, the middleware server may analyze the logistics list, determine the delivery target information included in the logistics list, and encrypt the logistics list based on the delivery target information, and the other information except the delivery target information in the logistics list may be retained, determine the fuzzy delivery address corresponding to the delivery address based on the receiving address and the delivery address in the delivery target information, and generate the encrypted logistics list using the encrypted delivery target information and the fuzzy delivery address.

In a possible implementation manner, the logistics list includes a plurality of different information items, the different information items are used for recording different types of information, and the middleware server may encrypt the content recorded in the information item according to the information item corresponding to the information to be delivered, and does not encrypt other information items, thereby achieving the purpose of identifying and encrypting the information to be delivered.

Illustratively, the delivery address in a certain delivery object information is: 5, building 805 of the new city plaza of the red ridge south street in the futian region of Guandong Shenzhen city, the middleware server can hide the content of the specific position part, so as to obtain a fuzzy delivery address, for example, the new city plaza of the new city of the red ridge south street in the futian region of Guandong Shenzhen city; for another example, a region range including the delivery address is generated, for example, the 3 th-9 th floor of the new city plaza in the south red ridge street in the futian region of Guandong Shenzhen city, and the specific address fuzzy algorithm can be determined according to the actual situation, and is not limited herein.

In S202, the encrypted logistics list is sent to a logistics server, so that the logistics server determines a distribution area according to the encrypted logistics list, and sends a distribution task generated based on the encrypted logistics list to a distribution terminal associated with the distribution area.

In this embodiment, after completing encrypting the distribution object information related to the user privacy in the logistics list, the middleware server may send the encrypted logistics list to the logistics server, so that the logistics server arranges the corresponding distribution object to complete the logistics list.

In this embodiment, since the distribution object information in the encrypted logistics list is in an encrypted state, that is, the distribution object information is not known by the logistics server, the risk of leakage of the distribution object information is reduced. In order to ensure smooth completion of the distribution task, the encrypted logistics list includes the fuzzy distribution address, and the logistics server may determine the corresponding operator according to the fuzzy distribution address, for example, determine the operator corresponding to the geographic area according to the geographic area corresponding to the fuzzy distribution address, and send the encrypted logistics list to the terminal corresponding to the corresponding operator, that is, the distribution terminal, so that the operator completes the distribution task.

In this embodiment, the logistics server may generate a corresponding delivery task according to a fuzzy delivery address included in the encrypted logistics list, where the delivery task includes the fuzzy delivery address of the delivery object and the fuzzy delivery address of the receiving object, and the logistics server may issue the delivery task to all delivery terminals in the delivery area according to the delivery area to which the fuzzy delivery address belongs, and if response information about the delivery task is fed back by any delivery terminal, the delivery terminal may be identified as a target delivery terminal for delivering the logistics list, for example, a correspondence relationship between the delivery terminal and the delivery task is established.

It should be noted that, corresponding delivery tasks may be generated in both the receiving process and the delivering process, and corresponding delivery terminals are determined according to delivery areas corresponding to the delivery tasks, that is, the delivery tasks in the delivering process and the delivery tasks in the receiving process may be completed by different delivery terminals, but both the delivery tasks and the delivery tasks are generated based on an encrypted logistics list, and both the delivery terminals in the delivering process and the delivery terminals in the receiving process acquire fuzzy delivery addresses and not precise delivery addresses, so that privacy information of a user can be protected.

In S203, receiving a communication request sent by the delivery terminal; the communication request is generated when the delivery terminal arrives at the fuzzy delivery address; the communication request includes the delivery task.

In this embodiment, the delivery terminal may perform the delivery operation after receiving the delivery task. The distribution terminal is internally provided with a positioning module, a communication prompt message can be generated after the positioning module detects that the distribution terminal reaches the fuzzy distribution address, if the positioning module detects that an operator corresponding to the distribution terminal clicks a communication confirmation control in the communication prompt message, the operator is identified to need to communicate with a distribution object (namely a delivery object or a receiving object), and at the moment, the distribution terminal can send a communication request to the middleware server, so that the middleware server can establish communication connection between the distribution terminal and a target terminal.

In this embodiment, the communication request includes a corresponding delivery task, and the middleware server may determine the encrypted logistics list corresponding to the delivery task according to the delivery task.

In S204, the encrypted logistics list corresponding to the communication request is decrypted, and a first communication address of a target terminal corresponding to the encrypted logistics list is determined.

In this embodiment, the middleware server may obtain the encrypted logistics list corresponding to the delivery task according to the delivery task, and since the delivery process includes a receiving process and a delivery process, according to the fuzzy delivery address corresponding to the delivery task, the middleware server may determine a target terminal of the required communication, that is, determine a user terminal that is a delivery object or a user terminal that is a receiving object, and decrypt corresponding information in the encrypted logistics list, so as to obtain a communication address of the target terminal, that is, the first communication address. The communication address may be a telephone number of the target terminal or a network address of the target terminal.

In S205, a communication connection between the delivery terminal and the target terminal is established based on the first communication address and the second communication address of the delivery terminal.

In this embodiment, after determining the first communication address of the target terminal, the middleware server may establish a communication connection between the two.

In a possible implementation manner, the middleware server may convert the first communication address to obtain a converted first communication address, and send the converted first communication address to the distribution terminal, and the distribution terminal may establish a communication connection with the local according to the first communication address. Or, the middleware server may convert the second communication address to obtain a converted second communication address, and send the converted second communication address to the target terminal, and the target terminal may establish a communication connection with the distribution terminal according to the converted second communication address.

As can be seen from the above, in the logistics information transmission method provided in the embodiment of the application, when a logistics list which needs to be distributed and is sent by a service server is received, target information related to user privacy can be encrypted to obtain a corresponding encrypted logistics list, the logistics list is encrypted by a logistics server, the logistics server can determine a distribution terminal corresponding to a threshold according to a fuzzy distribution address contained in the logistics server, when the distribution terminal reaches the fuzzy distribution address, a communication request can be initiated, and a communication connection between the target terminal and the distribution terminal is established in response to the communication request, so that a logistics distribution task can be completed under the condition that the user privacy information is not leaked. Compared with the prior logistics distribution technology, the receiving object information and the delivery object information are not directly displayed in the logistics server and the distribution terminal, but are hidden in an encryption mode, so that the leakage risk of user privacy information is reduced, meanwhile, in order to not influence normal logistics distribution, a fuzzy distribution address is generated, so that the logistics server and the distribution terminal can distribute according to the fuzzy distribution address, and the two aspects of information confidentiality and distribution task completion can be considered at the same time.

Fig. 3 shows a flowchart of a specific implementation of the method S203 for transmitting logistics information according to the second embodiment of the present invention. Referring to fig. 3, with respect to the embodiment shown in fig. 2, in the method for transmitting logistics information provided in this embodiment, S203 includes: s2031 to S2036 are specifically described as follows:

further, the determining a signature type of the electronic document if a signature request for the electronic document to be signed is received includes:

in S2031, a positioning feedback instruction is sent to a distribution terminal; the positioning feedback instruction is used for controlling the distribution terminal to feed back a plurality of positioning information acquired by the positioning module in a preset time period before the distribution terminal receives the positioning feedback instruction.

In this embodiment, in order to avoid the distribution terminal frequently contacting the target terminal and causing disturbance to the user, when the middleware server receives the communication request, the middleware server does not immediately establish a communication connection between the distribution terminal and the target terminal, but determines the distribution confidence corresponding to the distribution terminal. The distribution confidence is determined according to the position of the distribution terminal, and based on this, the middleware server may send a positioning feedback instruction to the distribution terminal to determine the positioning information of the distribution terminal in the latest time.

In this embodiment, the positioning module of the distribution terminal may obtain the positioning information corresponding to the distribution terminal at a preset time interval, and configure corresponding acquisition time for each positioning information. After receiving the positioning feedback instruction sent by the middleware server, the distribution terminal can acquire a plurality of positioning information within a preset time period before receiving the positioning feedback instruction.

In S2032, the plurality of positioning information fed back by the delivery terminal is received, and a delivery route of the delivery terminal is generated based on the plurality of positioning information.

In this embodiment, after receiving the plurality of positioning information fed back by the distribution terminal, the middleware server may sequentially connect the positioning information according to the acquisition time of the positioning information, so as to generate a distribution route of the distribution terminal within a preset time period.

In S2033, an accurate delivery address of a delivery object corresponding to a target terminal is extracted from the encrypted logistics list, and a delivery confidence of the delivery terminal is determined according to the delivery route and the accurate delivery address.

In this embodiment, the middleware server may obtain the accurate delivery address of the delivery object through the encrypted logistics list, and determine the corresponding delivery confidence according to the accurate delivery address and the delivery route generated based on the delivery terminal. If the accurate delivery address is on the delivery route, the corresponding delivery confidence coefficient is higher; if the distance between the accurate delivery address and the delivery route is farther, the corresponding delivery confidence coefficient is lower, and the middleware server can calculate to obtain the corresponding delivery confidence coefficient by calculating the distance value between the accurate delivery address and the delivery route.

Further, as another embodiment of the present application, S2033 includes the following five steps, which are specifically described as follows:

in S2033.1, obtaining a regional map corresponding to the distribution route, and determining a key building on the distribution route according to the fact that the regional map includes a plurality of existing buildings;

in S2033.2, a characteristic distance value between the precise delivery address and each of the key buildings is calculated.

At S2033.3, a predicted action path is generated based on the delivery moving direction corresponding to the delivery route.

At S2033.4, the shortest movement path from the delivery address to the predicted movement path is calculated.

In S2033.5, importing all the feature distance values and the shortest moving path into a preset confidence conversion algorithm, and calculating the distribution confidence; the confidence conversion algorithm is as follows:

wherein TrustLv is the delivery confidence; distance_iA characteristic distance value between the ith key building and the receiving address; TimeWeight_iA weight value for the acquisition time of the ith key building; n is the total number of the key buildings; MinRoute is the shortest moving path; long (x) calculates a function for the path length.

In this embodiment, the middleware server may obtain an area map corresponding to the delivery route through a third-party map application, and mark the delivery route in the area map. The regional map comprises road information and building information near the road, the middleware server can mark key buildings related to the distribution route in the regional map, and determine whether the distribution terminal passes through the building where the accurate distribution address is located according to the characteristic distance value between each accurate distribution address and each key building; in addition, the middleware server may predict a future moving route of the delivery terminal according to a delivery direction corresponding to the generated delivery route, so as to obtain the predicted action path, so as to determine whether the delivery terminal moves towards the position of the accurate delivery address, and the middleware server may determine a delivery confidence of the delivery terminal according to the characteristic distance value and a shortest moving path from the accurate delivery address to the predicted action path. Wherein, the shorter the characteristic distance value is, the higher the distribution confidence coefficient is; the closer the predicted moving path of the delivery terminal is to the accurate delivery address, the higher the corresponding delivery confidence is.

In the embodiment of the application, the middleware server can determine the corresponding delivery confidence according to the delivery path and the accurate delivery address by generating the delivery path corresponding to the delivery terminal, so that the accuracy of the delivery confidence can be improved.

In S2034, if the distribution confidence is greater than a preset confidence threshold, an operation of decrypting the encrypted logistics list corresponding to the communication request and determining a first communication address of a target terminal corresponding to the encrypted logistics list is performed.

In this embodiment, when it is detected that the delivery confidence of the delivery terminal is high, the communication connection between the delivery terminal and the target terminal may be established in response to a communication request of the delivery terminal.

In the embodiment of the application, when the communication request is received, the delivery confidence of the delivery terminal can be calculated, so that the delivery terminal can be prevented from contacting the target terminal under the condition of a long distance, the condition that the delivery terminal frequently contacts the target terminal is reduced, and the condition that a user is harassed by express delivery is reduced.

Further, as another embodiment of the present application, after the obtaining, by the intermediate server, an accurate delivery address of a receiving object corresponding to the encrypted delivery order, and determining a delivery confidence between the delivery route and the accurate delivery address, the method further includes:

in S2035, if the delivery confidence is less than or equal to the confidence threshold, returning request failure information to the delivery terminal, and increasing an abnormal indicator of the delivery terminal.

In S2036, if it is detected that the abnormal index of any delivery terminal is greater than a preset abnormal threshold, the delivery terminal whose abnormal index is greater than the abnormal threshold is added to a delivery blacklist.

In this embodiment, when detecting that the delivery confidence is less than or equal to the confidence threshold, the middleware server refuses to establish a communication connection between the two, but sends the request failure information to the delivery terminal, so that the delivery terminal adjusts its own position, and when reaching the fuzzy delivery address more accurately, initiates the communication request again, at this time, the middleware server records an abnormal operation of the delivery terminal, and increments the value of the abnormal index by one. And if the abnormal index of a certain distribution terminal is detected to be larger than the preset abnormal threshold, adding the distribution terminal into a distribution blacklist.

In the embodiment of the application, the number of times that the delivery terminal contacts the target terminal under the unnecessary condition is recorded by setting the abnormal index, so that the safety of user information can be improved, and the user is prevented from being disturbed by the delivery terminal frequently.

Fig. 4 shows a flowchart of a specific implementation of a method S201 for transmitting logistics information according to a third embodiment of the present invention. Referring to fig. 4, with respect to the embodiment shown in fig. 1, in the method for transmitting logistics information provided in this embodiment, S201 includes: s2011 to S2015 are specifically detailed as follows:

further, if the to-be-delivered logistics list sent by the service server is received, encrypting the target information in the logistics list to obtain an encrypted logistics list, including:

in S2011, the information of the shipment object to be encrypted in the logistics list is extracted, and an accurate delivery address of the shipment object is determined based on the information of the shipment object.

In S2012, a plurality of historical delivery records associated with the geographic area are obtained according to the geographic area where the precise delivery address is located.

In S2013, historical shipping addresses of the plurality of historical shipping records are respectively determined, and all the historical shipping addresses are subjected to cluster analysis to obtain common shipping addresses.

In S2014, the fuzzy delivery address is generated based on the common shipping address, and the delivery object information is encrypted by a preset encryption algorithm to obtain a delivery ciphertext.

In S2015, the encrypted logistics list is generated based on the fuzzy delivery address and the delivery ciphertext.

In this embodiment, when determining the fuzzy delivery address, the middleware server may obtain an accurate delivery address of a receiving object, obtain a geographic area corresponding to the accurate delivery address, and determine a common receiving address used by the geographic area according to a plurality of historical delivery records corresponding to the geographic area.

Fig. 5 is a flowchart illustrating a specific implementation of a method for transmitting logistics information according to a fourth embodiment of the present invention. Referring to fig. 5, with respect to any one of the embodiments in fig. 1 to 4, after the establishing a communication connection between the distribution terminal and the target terminal based on the first communication address and the second communication address of the distribution terminal, the method for transmitting logistics information according to this embodiment further includes: s501 to S503 are specifically detailed as follows:

further, after the establishing of the communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal, the method further includes:

in S501, if the communication connection activation is detected, a validity timer for the communication connection is started.

In S502, if the count value of the valid counter is greater than a preset duration threshold, a connection duration request is sent to the target terminal.

In S503, if a duration confirmation instruction fed back by the target terminal based on the connection duration request is not received within a preset waiting duration, or a duration rejection instruction fed back by the target terminal based on the connection duration request is received within the waiting duration, the communication connection is disconnected.

In this embodiment, after establishing a communication connection between a target terminal and a delivery terminal, and detecting activation of the communication connection, a middleware server may start an active timer of the communication connection, and maintain the communication connection between the target terminal and the delivery terminal if a count value of the active timer is less than or equal to a duration threshold; on the contrary, if the valid timer is greater than the preset duration threshold, a connection renewal request can be sent to the target terminal so that the target terminal can confirm whether to continue to communicate with the distribution terminal, and if a renewal confirmation instruction is received within the preset waiting duration, the count value of the valid timer is reset; otherwise, the identification target terminal does not need to communicate with the distribution terminal, and the communication connection between the identification target terminal and the distribution terminal can be disconnected.

In the embodiment of the application, the effective timer is set and the connection duration of the communication connection is calculated, so that the long-time communication between the distribution terminal and the target terminal can be avoided, the situation that the user of the target terminal is harassed by the operating personnel of the distribution terminal is reduced, and the use experience of the user is improved.

Fig. 6 shows a flowchart of a specific implementation of the method S205 for transmitting logistics information according to a fifth embodiment of the present invention. Referring to fig. 6, with respect to any one of the embodiments shown in fig. 2 to 5, in the method for transmitting logistics information provided in this embodiment, S205 includes: s2051 to S2052 are specifically described as follows:

further, the establishing a communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal includes:

in S2051, a jump link for establishing the first communication address and the second communication address is created, and a two-dimensional code image of the jump link is generated.

In S2052, pushing the two-dimensional code image to the distribution terminal according to the second communication address; and the two-dimension code image is used for the distribution terminal to obtain the jump link by scanning the two-dimension code image, and the communication connection between the distribution terminal and the target terminal is established based on the jump link.

In this embodiment, the middleware server may generate a corresponding jump link through the two communication addresses, and generate a corresponding two-dimensional code image, and the distribution terminal may scan the two-dimensional code image after receiving the two-dimensional code image, so as to obtain the jump link locally. The jump connection comprises the second communication address of the distribution terminal, so that the communication address of the terminal initiating scanning can be matched and identified based on the jump connection, if the communication address of the terminal initiating scanning, namely the terminal establishing communication connection with the target terminal through the jump connection is the second communication address, the jump operation is identified to be legal, the communication connection is established, otherwise, the communication connection between the terminal initiating scanning and the target terminal is not established, and the confidentiality of the communication address and the safety of communication can be improved.

Fig. 7 is a block diagram illustrating a structure of a method and an apparatus for transmitting logistics information according to an embodiment of the present invention, where the server includes units for executing steps implemented by an intermediate server in the embodiment corresponding to fig. 2. Please refer to fig. 2 and fig. 2 for the corresponding description of the embodiment. For convenience of explanation, only the portions related to the present embodiment are shown.

Referring to fig. 7, the logistics information transmission apparatus includes:

a logistics list encryption unit 71, configured to encrypt target information in a logistics list to obtain an encrypted logistics list if a to-be-distributed logistics list sent by a service server is received; the distribution object information in the encrypted logistics list is in an encrypted state; the encrypted logistics list comprises a fuzzy distribution address;

an encrypted logistics list sending unit 72, configured to send the encrypted logistics list to a logistics server, so that the logistics server determines a distribution area according to the encrypted logistics list, and sends a distribution task generated based on the encrypted logistics list to a distribution terminal associated with the distribution area;

a communication request receiving unit 73 configured to receive a communication request transmitted by the delivery terminal; the communication request is generated when the delivery terminal arrives at the fuzzy delivery address; the communication request comprises the delivery task;

a first communication address determining unit 74, configured to decrypt the encrypted logistics list corresponding to the communication request, and determine a first communication address of a target terminal corresponding to the encrypted logistics list;

a communication connection establishing unit 75, configured to establish a communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal.

Optionally, the communication request receiving unit 73 includes:

the positioning feedback instruction sending unit is used for sending a positioning feedback instruction to the distribution terminal; the positioning feedback instruction is used for controlling the distribution terminal to feed back a plurality of positioning information acquired by the positioning module within a preset time period before the positioning feedback instruction is received;

the positioning feedback unit is used for receiving the positioning information fed back by the distribution terminal and generating a distribution route of the distribution terminal based on the positioning information;

the distribution confidence determining unit is used for extracting an accurate distribution address of a distribution object corresponding to a target terminal from the encrypted logistics list and determining the distribution confidence of the distribution terminal according to the distribution route and the accurate distribution address;

and the communication triggering unit is used for executing the operation of decrypting the encrypted logistics list corresponding to the communication request and determining the first communication address of the target terminal corresponding to the encrypted logistics list if the distribution confidence is greater than a preset confidence threshold.

Optionally, the device for transmitting logistics information further includes:

an abnormal index increasing unit, configured to, if the delivery confidence is smaller than or equal to the confidence threshold, return request failure information to the delivery terminal, and increase an abnormal index of the delivery terminal;

and the blacklist adding unit is used for adding the distribution terminal with the abnormal index larger than the abnormal threshold value to a distribution blacklist if the abnormal index of any distribution terminal is detected to be larger than the preset abnormal threshold value.

Optionally, the delivery confidence determining unit includes:

the key building determining unit is used for acquiring a regional map corresponding to the distribution route and determining a key building on the distribution route according to the fact that the regional map contains a plurality of existing buildings;

the characteristic distance value calculating unit is used for calculating characteristic distance values between the accurate distribution address and the key buildings respectively;

a predicted action path determining unit for generating a predicted action path according to the delivery moving direction corresponding to the delivery route;

a shortest moving path determining unit for calculating a shortest moving path from the delivery address to the predicted action path;

a distribution confidence coefficient calculation unit, configured to introduce all the feature distance values and the shortest moving path into a preset confidence coefficient conversion algorithm, and calculate the distribution confidence coefficient; the confidence conversion algorithm is as follows:

wherein TrustLv is the delivery confidence; distance_iA characteristic distance value between the ith key building and the receiving address; TimeWeight_iRight of acquisition time for the ith critical buildingA weight value; n is the total number of the key buildings; MinRoute is the shortest moving path; long (x) calculates a function for the path length.

Optionally, the logistics list encryption unit 71 includes:

the accurate delivery address determining unit is used for extracting the receiving object information to be encrypted in the logistics list and determining an accurate delivery address of the receiving object based on the receiving object information;

the historical distribution record determining unit is used for acquiring a plurality of historical distribution records related to the geographical area according to the geographical area where the accurate distribution address is located;

the common receiving address determining unit is used for respectively determining the historical receiving addresses of the plurality of historical distribution records and performing cluster analysis on all the historical receiving addresses to obtain common receiving addresses;

the delivery ciphertext generating unit is used for generating the fuzzy delivery address based on the common delivery address and encrypting the delivery object information through a preset encryption algorithm to obtain a delivery ciphertext;

and the packaging unit is used for generating the encrypted logistics list based on the fuzzy distribution address and the distribution ciphertext.

Optionally, the device for transmitting logistics information further includes:

an activity timer starting unit configured to start an activity timer for the communication connection if the communication connection activation is detected;

a connection continuation request sending unit, configured to send a connection continuation request to the target terminal if the count value of the valid counter is greater than a preset duration threshold;

and the connection disconnection unit is used for disconnecting the communication connection if a duration confirmation instruction fed back by the target terminal based on the connection duration request is not received in a preset waiting duration or a duration rejection instruction fed back by the target terminal based on the connection duration request is received in the waiting duration.

Optionally, the communication connection establishing unit 75 includes:

the two-dimensional code image generating unit is used for creating a jump link for establishing the first communication address and the second communication address and generating a two-dimensional code image of the jump link;

the two-dimensional code image sending unit is used for pushing the two-dimensional code image to the distribution terminal according to the second communication address; and the two-dimension code image is used for the distribution terminal to obtain the jump link by scanning the two-dimension code image, and the communication connection between the distribution terminal and the target terminal is established based on the jump link.

Therefore, the method and the device for transmitting logistics information provided by the embodiment of the invention can also encrypt the target information related to user privacy when receiving the logistics list which is sent by the service server and needs to be distributed, so as to obtain the corresponding encrypted logistics list, and encrypt the logistics list to the logistics server, wherein the logistics server can determine the distribution terminal corresponding to the threshold value according to the fuzzy distribution address contained in the logistics server, and when the distribution terminal reaches the fuzzy distribution address, a communication request can be initiated, and the communication connection between the target terminal and the distribution terminal is established in response to the communication request, so that the logistics distribution task can be completed under the condition of ensuring that the user privacy information is not leaked. Compared with the prior logistics distribution technology, the receiving object information and the delivery object information are not directly displayed in the logistics server and the distribution terminal, but are hidden in an encryption mode, so that the leakage risk of user privacy information is reduced, meanwhile, in order to not influence normal logistics distribution, a fuzzy distribution address is generated, so that the logistics server and the distribution terminal can distribute according to the fuzzy distribution address, and the two aspects of information confidentiality and distribution task completion can be considered at the same time.

It should be understood that, in the structural block diagram of the logistics information transmission method apparatus shown in fig. 7, each module is used to execute each step in the embodiment corresponding to fig. 2 to fig. 6, and each step in the embodiment corresponding to fig. 2 to fig. 6 has been explained in detail in the above embodiment, and specific reference is made to the relevant description in the embodiments corresponding to fig. 2 to fig. 6 and fig. 2 to fig. 6, which is not repeated herein.

Fig. 8 is a block diagram of an electronic device according to another embodiment of the present application. As shown in fig. 8, the electronic apparatus 800 of this embodiment includes: a processor 88, a memory 820, and a computer program 830, such as a program of a transmission method of logistics information, stored in the memory 820 and executable on the processor 88. The processor 88 executes the computer program 830 to implement the steps in the various embodiments of the method for transmitting logistics information, such as S201 to S205 shown in fig. 2. Alternatively, the processor 88, when executing the computer program 830, implements the functions of the modules in the embodiment corresponding to fig. 8, for example, the functions of the units 71 to 75 shown in fig. 7, and refer to the related description in the embodiment corresponding to fig. 7 specifically.

Illustratively, the computer program 830 may be partitioned into one or more modules, which are stored in the memory 820 and executed by the processor 88 to accomplish the present application. One or more of the modules may be a series of computer program instruction segments capable of performing certain functions that are used to describe the execution of the computer program 830 in the electronic device 800. For example, the computer program 830 may be divided into unit modules, each of which functions as described above.

The electronic device 800 may include, but is not limited to, a processor 88, a memory 820. Those skilled in the art will appreciate that fig. 8 is merely an example of an electronic device 800 and does not constitute a limitation of electronic device 800, and may include more or fewer components than shown, or some components in combination, or different components, e.g., an electronic device may also include input-output devices, network access devices, buses, etc.

The processor 88 may be a central processing unit, but may also be other general purpose processors, digital signal processors, application specific integrated circuits, off-the-shelf programmable gate arrays or other programmable logic devices, discrete hardware components, and the like. A general purpose processor may be a microprocessor or any conventional processor or the like.

The storage 820 may be an internal storage unit of the electronic device 800, such as a hard disk or a memory of the electronic device 800. The memory 820 may also be an external storage device of the electronic device 800, such as a plug-in hard disk, a smart card, a flash memory card, etc. provided on the electronic device 800. Further, the memory 820 may also include both internal storage units and external storage devices of the electronic device 800.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims

1. A method for transmitting logistics information is characterized by comprising the following steps:

2. The transmission method according to claim 1, wherein the receiving of the communication request sent by the delivery terminal includes:

3. The method according to claim 2, wherein the obtaining an accurate delivery address of the delivery object corresponding to the encrypted delivery order and determining a delivery confidence between the delivery route and the accurate delivery address comprises:

and if the abnormal index of any distribution terminal is detected to be larger than a preset abnormal threshold, adding the distribution terminal of which the abnormal index is larger than the abnormal threshold to a distribution blacklist.

4. The transmission method according to claim 2, wherein the extracting an accurate delivery address of a delivery object corresponding to a target terminal from the encrypted delivery bill and determining a delivery confidence of the delivery terminal according to the delivery route and the accurate delivery address comprises:

wherein TrustLv is the distribution confidence coefficient; distance_iThe characteristic distance value between the ith key building and the receiving address is obtained; TimeWeight_iA weight value for the acquisition time of the ith key building; n is the total number of the key buildings; MinRoute is the shortest moving path; long (x) calculates a function for the path length.

5. The transmission method according to claim 1, wherein the encrypting the target information in the logistics list to obtain the encrypted logistics list if receiving the logistics list to be distributed sent by the service server comprises:

extracting receiving object information to be encrypted in the logistics list, and determining an accurate delivery address of a receiving object based on the receiving object information;

6. The transmission method according to any one of claims 1 to 5, further comprising, after the establishing of the communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal:

7. The transmission method according to any one of claims 1 to 5, wherein the establishing of the communication connection between the delivery terminal and the target terminal based on the first communication address and the second communication address of the delivery terminal includes:

8. A transmission device of logistics information is characterized by comprising:

a communication request receiving unit configured to receive a communication request transmitted by the delivery terminal; the communication request is generated when the delivery terminal arrives at the fuzzy delivery address; the communication request comprises the delivery task;

9. An electronic device comprising a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the method of any of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the method according to any one of claims 1 to 7.