CN107689025B - Method and device for logistics data processing, logistics information pushing and displaying - Google Patents

Abstract

The document discloses a logistics data processing method, a logistics information pushing method, a logistics information display method and a device, wherein the logistics data processing method comprises the following steps: providing a plurality of first logistics objects, wherein each first logistics object is associated with at least one second logistics object, and each second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information; receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, delivery address information and receiving address information; determining at least one second logistics object according to the selected identification of the first logistics object; and returning the identification information of the second stream object to the first server. The method and the device improve the user experience, reduce the data interaction amount and improve the processing efficiency of the logistics data.

Description

Method and device for logistics data processing, logistics information pushing and displaying

Technical Field

The present application relates to the field of network technologies, and in particular, to a method and an apparatus for processing logistics data, pushing logistics information, and displaying logistics information.

Background

Currently, e-commerce platforms need to interface with logistics provider systems through logistics systems. The logistics system packages logistics data provided by a logistics provider according to logistics process sections, namely sends the logistics data to the e-commerce platform, and the e-commerce platform can only display logistics information according to the logistics process sections.

When a plurality of logistics providers are required to complete logistics in a cooperative manner, the logistics system packages logistics data of the logistics providers in sections according to a logistics process and sends the logistics data to the e-commerce platform, the e-commerce platform displays related data of the logistics providers in each logistics stage in sections, users are required to select and confirm logistics provider information in sections, and user experience is poor.

Disclosure of Invention

In order to solve the technical problem, the application provides a method and a device for logistics data processing, logistics information pushing and displaying.

In one aspect, the present application provides a method for processing logistics data, including:

providing a plurality of first logistics objects, wherein each first logistics object is associated with at least one second logistics object, and each second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, delivery address information and receiving address information;

determining at least one second logistics object according to the selected identification of the first logistics object;

and returning the identification information of the second stream object to the first server.

After determining the at least one second stream object, the method further includes: determining a logistics line and logistics provider information according to the determined second logistics object, the delivery address information and the receiving address information;

when the identification information of the second stream object is returned to the first server, the method further includes: and returning the logistics route information determined according to the second logistics object to the first server.

Wherein, after returning the identification of the second logistics object and the logistics route information, the method further comprises: and receiving the logistics confirmation message from the first server, and determining the finally used logistics route information according to the second logistics object identifier in the logistics confirmation message.

After determining the logistics route information to be finally used, the method further comprises the following steps: and sending a notice to a corresponding logistics provider according to the finally used logistics line information so that the logistics provider can execute logistics operation.

Wherein, after sending the notification to the corresponding logistics provider, the method further comprises: and receiving logistics information fed back by the logistics provider, and returning a logistics state message to the first server, wherein the logistics state message comprises the logistics information, and the logistics information is used for describing the current logistics execution state.

Wherein, the determining the logistics line and the logistics provider information according to the determined second logistics object, the shipping address information and the receiving address information comprises:

determining first logistics provider information according to the receiving address information and the determined second logistics object, wherein the first logistics provider is used for providing delivery service of a receiving place;

determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information, wherein the second logistics provider is used for providing clearance services, and the third logistics provider is used for providing transfer services;

determining fourth logistics provider information according to the address of the collecting bin and the shipping address information in the third logistics provider information, wherein the fourth logistics provider is used for providing delivery service from a shipping place to the collecting bin;

and obtaining logistics line information corresponding to the second logistics object according to the first logistics provider information, the second logistics provider information, the third logistics provider information and the fourth logistics provider information, wherein the logistics line information comprises a shipping address, a collecting and transporting bin address, a transportation mode of transportation, a clearance port and a receiving address.

Wherein the logistics order message further comprises: commodity object information; the determining the second stream provider information and the third stream provider information includes: and determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information and the commodity object information.

Wherein the logistics order message further comprises: commodity object information; the determining the logistics line and the logistics provider information according to the determined second logistics object, the shipping address information and the receiving address information includes: determining fifth logistics provider information according to warehouse data in the shipping address information and the commodity object information, wherein the fifth logistics provider is used for providing warehousing services; and determining sixth logistics provider information according to the determined second logistics object and the receiving address information, wherein the sixth logistics provider is used for providing delivery service.

In another aspect, the present application provides a logistics data processing apparatus, including:

the system comprises a first providing unit, a second providing unit and a display unit, wherein the first providing unit is used for providing a plurality of first logistics objects, the first logistics objects are associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

a first receiving unit, configured to receive a logistics order message from a first server, where the logistics order message includes an identifier of a selected first logistics object, shipping address information, and receiving address information;

the first determining unit is used for determining at least one second logistics object according to the selected identification of the first logistics object;

and the first sending unit is used for returning the identification information of the second stream object to the first server.

The first determining unit is further configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information and the receiving address information after the at least one second logistics object is determined; the first sending unit is further configured to return logistics route information determined according to the second logistics object to the first server when the identification information of the second logistics object is returned to the first server.

The first receiving unit is further configured to receive a logistics confirmation message from the first server; the first determining unit is further configured to determine finally-used logistics route information according to the second logistics object identifier in the logistics confirmation message.

The first sending unit is further configured to send a notification to a corresponding logistics provider according to the logistics route information finally used by the first determining unit, so that the logistics provider can perform logistics operation.

The first receiving unit is further configured to receive logistics information fed back by the logistics provider, where the logistics information is used to describe a current logistics execution state; the first sending unit is further configured to return a logistics state message to the first server, where the logistics state message includes the logistics information.

The first determining unit is configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information, and includes: determining first logistics provider information according to the receiving address information and the determined second logistics object, wherein the first logistics provider is used for providing delivery service of a receiving place; determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information, wherein the second logistics provider is used for providing clearance services, and the third logistics provider is used for providing transfer services; determining fourth logistics provider information according to the address of the collecting bin and the shipping address information in the third logistics provider information, wherein the fourth logistics provider is used for providing delivery service from a shipping place to the collecting bin; and obtaining logistics line information corresponding to the second logistics object according to the first logistics provider information, the second logistics provider information, the third logistics provider information and the fourth logistics provider information, wherein the logistics line information comprises a shipping address, a collecting and transporting bin address, a transportation mode of transportation, a clearance port and a receiving address.

Wherein the logistics order message further comprises: commodity object information; the first determination unit is configured to determine second stream provider information and third stream provider information, and includes: and determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information and the commodity object information.

Wherein the logistics order message further comprises: commodity object information; the first determining unit is configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information, and includes: determining fifth logistics provider information according to warehouse data in the shipping address information and the commodity object information, wherein the fifth logistics provider is used for providing warehousing services; and determining sixth logistics provider information according to the determined second logistics object and the receiving address information, wherein the sixth logistics provider is used for providing delivery service.

On the other hand, the application also provides a logistics data processing device, which comprises a processor and a memory; the storage is used for storing a program for processing logistics data; when being read and executed by the processor, the program for logistics data processing performs the following operations:

providing a plurality of first logistics objects, wherein each first logistics object is associated with at least one second logistics object, and each second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, delivery address information and receiving address information;

determining at least one second logistics object according to the selected identification of the first logistics object;

and returning the identification information of the second stream object to the first server.

On the other hand, the application also provides a method for pushing logistics information, which comprises the following steps:

providing at least one first logistics object to a first user terminal;

generating a logistics order message according to a first confirmation message from the first user terminal, and sending the logistics order message to a second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

and receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal.

Wherein, the receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal includes:

receiving identification information of at least one second logistics object returned by the second server and logistics route information determined according to the second logistics object;

and providing the identification information of the at least one second logistics object and the logistics route information determined according to the second logistics object to the first user terminal.

Wherein the providing at least one first logistics object to the first user terminal comprises:

receiving an order message from the first user terminal, wherein the order message comprises commodity object information;

and providing at least one first logistics object to the first user terminal according to the commodity object information.

Wherein the providing at least one first logistics object to the first user terminal comprises:

receiving an order message from the first user terminal, wherein the order message comprises a first user identifier and a second user identifier;

determining receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user;

and providing at least one first logistics object to the first user terminal according to the receiving address information and the delivery address information.

Wherein the providing at least one first logistics object to the first user terminal comprises:

receiving an order message from the first user terminal, wherein the order message comprises commodity object information, a second user identifier and a first user identifier;

determining receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user;

and providing at least one first logistics object to the first user terminal according to the commodity object information, the receiving address information and the delivery address information.

After receiving the identification information of the at least one second stream object returned by the second server and providing the identification information to the first user terminal, the method further includes:

receiving a second confirmation message from the first user terminal, wherein the second confirmation message comprises an identifier of the selected second stream object;

and generating a logistics confirmation message and sending the logistics confirmation message to the second server, wherein the logistics confirmation message comprises the identifier of the selected second logistics object.

After generating the logistics confirmation message and sending the logistics confirmation message to the second server, the method further comprises:

receiving logistics state information returned by the second server, wherein the logistics state information comprises logistics information, and the logistics information is used for describing the current logistics execution state;

and providing the logistics information to the first user terminal.

On the other hand, the present application further provides an apparatus for pushing logistics information, including:

a second providing unit for providing at least one first logistics object to the first user terminal; and providing the identification information of the at least one second stream object received by the second receiving unit to the first user terminal;

the first generating unit is used for generating a logistics order message according to a first confirmation message from the first user terminal and sending the logistics order message to the second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

and the second receiving unit is used for receiving the identification information of at least one second stream object returned by the second server.

The second receiving unit is further configured to receive logistics route information returned by the second server when receiving identification information of at least one second logistics object returned by the second server;

the second providing unit is further configured to provide the logistics route information to the first user terminal when the identification information of the at least one second logistics object is provided to the first user terminal.

The second receiving unit is further configured to receive an order message from the first user terminal, where the order message includes commodity object information; the first providing unit is used for providing at least one first logistics object to the first user terminal according to the commodity object information in the ordering message.

The second receiving unit is further configured to receive a subscription message from the first user terminal, where the subscription message includes a first user identifier and an identifier of a second user; further comprising: the second determining unit is used for determining the receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user; the second providing unit is configured to provide at least one first logistics object to the first user terminal according to the receiving address information and the delivery address information.

The second receiving unit is further configured to receive an order message from the first user terminal, where the order message includes commodity object information, a second user identifier, and a first user identifier; further comprising: the second determining unit is used for determining the receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user; the second providing unit is further configured to provide at least one first logistics object to the first user terminal according to the commodity object information, the receiving address information, and the delivery address information.

The second receiving unit is further configured to receive a second confirmation message from the first user terminal, where the second confirmation message includes an identifier of the selected second stream object; the first generating unit is further configured to generate a logistics confirmation message and send the logistics confirmation message to the second server, where the logistics confirmation message includes the identifier of the selected second logistics object.

The second receiving unit is further configured to receive a logistics state message returned by the second server, where the logistics state message includes logistics information, and the logistics information is used to describe a current logistics execution state; the second providing unit is further configured to provide the logistics information to the first user terminal.

On the other hand, the present application further provides an apparatus for pushing logistics information, including: a processor and a memory; the storage is used for storing a program used for pushing logistics information; when the program for pushing logistics information is read and executed by the processor, the following operations are performed:

providing at least one first logistics object to a first user terminal;

generating a logistics order message according to a first confirmation message from the first user terminal, and sending the logistics order message to a second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

and receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal.

On the other hand, the application also provides a method for displaying logistics information, which comprises the following steps:

displaying identification information of at least one first logistics object provided by a first server;

sending a first confirmation message to the first server, wherein the first confirmation message comprises the identification of the selected first logistics object, the receiving address information and the identification of the second user;

and displaying the identification information of at least one second stream object provided by the first server.

Wherein, before displaying the identification information of the at least one first logistics object provided by the first server, the method further comprises: and sending an order message to the first server, wherein the order message comprises commodity object information, a first user identification and an identification of a second user, so that the first server determines the at least one first logistics object.

Wherein the displaying of the identification information of the at least one second stream object provided by the first server includes:

and displaying the identification information of the at least one second logistics object provided by the first server and the logistics route information determined according to the second logistics object.

Wherein, after displaying the identification information of the at least one second stream object provided by the first server, the method further comprises:

sending a second confirmation message to the first server, the second confirmation message containing an identification of the selected second stream object.

Wherein, after sending the second confirmation message to the first server, the method further comprises:

and displaying logistics information provided by the first server, wherein the logistics information is used for describing the current logistics execution state.

On the other hand, this application still provides a device of show logistics information, includes:

the display unit is used for displaying the identification information of at least one first logistics object provided by the first server; the identification information of at least one second stream object provided by the first server is displayed;

and the second sending unit is used for sending a first confirmation message to the first server, wherein the first confirmation message comprises the identification of the selected first logistics object, the receiving address information and the identification of the second user.

The second sending unit is further configured to send an order message to the first server, where the order message includes commodity object information, a first user identifier, and a second user identifier, so that the first server determines the at least one first logistics object.

The display unit is configured to display the identification information of the at least one second logistics object provided by the first server and logistics route information determined according to the second logistics object.

The second sending unit is further configured to send a second confirmation message to the first server, where the second confirmation message includes an identifier of the selected second stream object.

The display unit is further configured to display logistics information provided by the first server, where the logistics information is used to describe a current logistics execution state.

On the other hand, the present application further provides a device for displaying logistics information, including: a processor and a memory; the storage is used for storing a program for displaying logistics information; when the program for displaying logistics information is read and executed by the processor, the following operations are performed:

displaying identification information of at least one first logistics object provided by a first server;

sending a first confirmation message to the first server, wherein the first confirmation message comprises the identification of the selected first logistics object, the receiving address information and the identification of the second user;

and displaying the identification information of at least one second stream object provided by the first server.

The application includes the following advantages:

according to at least one embodiment of the application, a first logistics object containing transportation mode information and a second logistics object containing receiving mode information can be provided, a user can determine complete logistics line information and logistics provider information after selecting the first logistics object and the second logistics object, specific data related to the logistics provider information are processed by a logistics side, the e-commerce side only needs to provide identification information of the first logistics object and the second logistics object for a user terminal, and only needs to provide part of logistics line information concerned by the user when needed, the user does not need to participate in selection and confirmation of the logistics provider information in each logistics stage, user experience is improved, data interaction amount between the logistics side and the e-commerce side is reduced, and logistics data processing efficiency is improved.

Of course, it is not necessary for any product to achieve all of the above-described advantages at the same time for the practice of the present application.

Drawings

The accompanying drawings are included to provide a further understanding of the claimed subject matter and are incorporated in and constitute a part of this specification, illustrate embodiments of the subject matter and together with the description serve to explain the principles of the subject matter and not to limit the subject matter.

FIG. 1 is a flow chart of a method for processing logistics data according to the present application;

fig. 2 is a flowchart of a method for pushing logistics information according to the present application;

FIG. 3 is a flow chart of a method for displaying logistics information according to the present application;

fig. 4 is a flowchart illustrating a specific implementation of the logistics data processing, the logistics information pushing, and the logistics information displaying according to the present application;

FIG. 5 is an exemplary diagram of a logistics path during cross-border transportation;

FIG. 6 is a schematic diagram of the second server notifying the logistics provider to perform logistics operations during cross-border transportation;

FIG. 7 is a schematic diagram of the structure of the logistics data processing apparatus of the present application;

fig. 8 is a schematic structural diagram of a device for pushing logistics information according to the present application;

fig. 9 is a schematic diagram of a structure of the apparatus for displaying logistics information according to the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

In one exemplary configuration of the present application, a computing device includes one or more processors (CPUs), input/output interfaces, a network interface, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.

The steps illustrated in the flow charts of the figures may be performed in a computer system such as a set of computer-executable instructions. Also, while a logical order is shown in the flow diagrams, in some cases, the steps shown or described may be performed in an order different than here.

Example one

As shown in fig. 1, the present application provides a method for processing logistics data, which may include:

step 101, providing a plurality of first logistics objects, wherein the first logistics objects are associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information;

the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

step 102, receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, shipping address information and receiving address information;

103, determining at least one second logistics object according to the selected identification of the first logistics object;

after determining the at least one second stream object, the method further includes: and determining a logistics line and logistics provider information according to the determined second logistics object, the delivery address information and the receiving address information.

And 104, returning the identification information of the second stream object to the first server.

Wherein, when returning the identification information of the second stream object to the first server, the method further comprises: and returning the logistics route information determined according to the second logistics object to the first server.

After the identifier of the second logistics object and the logistics route information are returned, the method may further include: and receiving the logistics confirmation message from the first server, and determining the finally used logistics route information according to the second logistics object identifier in the logistics confirmation message.

In one implementation, after determining the logistics route information to be finally used, the method may further include: and sending a notice to a corresponding logistics provider according to the finally used logistics line information so that the logistics provider can execute logistics operation. Here, after the notifying the corresponding logistics provider, the method may further include: and receiving logistics information fed back by the logistics provider, and returning a logistics state message to the first server, wherein the logistics state message comprises the logistics information, and the logistics information is used for describing the current logistics execution state.

In one implementation, the determining the logistics route and the logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information may include: determining first logistics provider information according to the receiving address information and the determined second logistics object, wherein the first logistics provider is used for providing delivery service of a receiving place; determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information, wherein the second logistics provider is used for providing clearance services, and the third logistics provider is used for providing transfer services; determining fourth logistics provider information according to the address of the collecting bin and the shipping address information in the third logistics provider information, wherein the fourth logistics provider is used for providing delivery service from a shipping place to the collecting bin; and obtaining logistics line information corresponding to the second logistics object according to the first logistics provider information, the second logistics provider information, the third logistics provider information and the fourth logistics provider information, wherein the logistics line information comprises a shipping address, a collecting and transporting bin address, a transportation mode of transportation, a clearance port and a receiving address.

In one implementation, the logistics order message may further include: commodity object information; the determining the second stream provider information and the third stream provider information includes: and determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information and the commodity object information. In practical applications, the commodity object information may include: identification, category, volume, weight, etc. of the merchandise object. Specifically, the logistics provider information may be determined according to any one or more of the category, volume, and weight of the commodity object in the commodity object information.

In one implementation, the determining the logistics route and the logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information may include: determining fifth logistics provider information according to warehouse data in the shipping address information and the commodity object information, wherein the fifth logistics provider is used for providing warehousing services; and determining sixth logistics provider information according to the determined second logistics object and the receiving address information, wherein the sixth logistics provider is used for providing delivery service. In practical applications, the fifth logistics provider information and/or the sixth logistics provider information may be determined according to any one or more of the category, the volume and the weight of the commodity object in the commodity object information.

In practical applications, the method of the present embodiment may be implemented by a server. In particular, the above method can be implemented by a server in a logistics system.

In this embodiment, a logistics data processing apparatus is further provided, which includes a processor and a memory; the memory is used for storing a program for logistics data processing; the program for logistics data processing, when read and executed by the processor, performs the operations as shown in fig. 1. Specifically, the method comprises the following steps:

providing a plurality of first logistics objects, wherein each first logistics object is associated with at least one second logistics object, and each second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, delivery address information and receiving address information;

determining at least one second logistics object according to the selected identification of the first logistics object;

and returning the identification information of the second stream object to the first server.

The logistics data processing device in this embodiment can implement all the processes of the above method, and the specific process is described above and will not be described again. In practical applications, the logistics data processing apparatus can be a server or a server cluster, a computing device or a cluster formed by computing devices. In one implementation, the logistics data processing apparatus can be a computing device, a server, or a cluster in a logistics system.

Example two

As shown in fig. 2, the present application further provides a method for pushing logistics information, including:

step 201, providing at least one first logistics object to a first user terminal;

step 202, generating a logistics order message according to a first confirmation message from the first user terminal, and sending the logistics order message to a second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to an identifier of a second user;

step 203, receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal.

Wherein, step 203 may specifically include: receiving identification information of at least one second logistics object returned by the second server and logistics route information determined according to the second logistics object; and providing the identification information of the at least one second logistics object and the logistics route information determined according to the second logistics object to the first user terminal.

In one implementation, the providing at least one first logistics object to the first user terminal in step 201 may include: receiving an order message from the first user terminal, wherein the order message comprises commodity object information; and providing at least one first logistics object to the first user terminal according to the commodity object information.

In one implementation, the providing at least one first logistics object to the first user terminal in step 201 may include: receiving an order message from the first user terminal, wherein the order message comprises a first user identifier and a second user identifier; determining receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user; and providing at least one first logistics object to the first user terminal according to the receiving address information and the delivery address information.

In one implementation, the providing at least one first logistics object to the first user terminal in step 201 may include: receiving an order message from the first user terminal, wherein the order message comprises commodity object information, a second user identifier and a first user identifier; determining receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user; and providing at least one first logistics object to the first user terminal according to the commodity object information, the receiving address information and the delivery address information.

After receiving the identification information of the at least one second stream object returned by the second server and providing the identification information to the first user terminal in step 203, the method may further include: receiving a second confirmation message from the first user terminal, wherein the second confirmation message comprises an identifier of the selected second stream object; and generating a logistics confirmation message and sending the logistics confirmation message to the second server, wherein the logistics confirmation message comprises the identifier of the selected second logistics object.

After generating the logistics confirmation message and sending the logistics confirmation message to the second server, the method may further include: receiving logistics state information returned by the second server, wherein the logistics state information comprises logistics information, and the logistics information is used for describing the current logistics execution state; and providing the logistics information to the first user terminal.

The method of the embodiment may be implemented by a server, and in particular, may be implemented by a device associated with an e-commerce platform.

The embodiment also provides a device for pushing logistics information, which includes: a processor and a memory; the memory is used for storing a program for pushing logistics information; when being read and executed by the processor, the program for pushing logistics information performs the operation shown in fig. 2, and includes the following steps:

providing at least one first logistics object to a first user terminal;

generating a logistics order message according to a first confirmation message from the first user terminal, and sending the logistics order message to a second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

and receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal.

The device for pushing logistics information in this embodiment can implement all the processes of the above method, and the specific process may refer to the above description and is not described again. In practical applications, the apparatus for pushing logistics information may be a server or a server cluster, a computing device or a cluster formed by computing devices. In one implementation, the means for pushing logistics information may be a computing device, a server, or a cluster in an e-commerce platform.

EXAMPLE III

As shown in fig. 3, the present application also provides a method for displaying logistics information, including:

step 301, displaying identification information of at least one first logistics object provided by a first server;

step 302, sending a first confirmation message to the first server, wherein the first confirmation message comprises the identifier of the selected first logistics object, the receiving address information and the identifier of the second user;

step 303, displaying the identification information of the at least one second stream object provided by the first server.

Before the step 301 shows the identification information of the at least one first logistics object provided by the first server, the method may further include: and sending an order message to the first server, wherein the order message comprises commodity object information, a first user identification and an identification of a second user, so that the first server determines the at least one first logistics object.

Specifically, step 303 may include displaying the identification information of the at least one second logistics object provided by the first server and logistics route information determined according to the second logistics object.

After step 303, the method may further include: sending a second confirmation message to the first server, the second confirmation message containing an identification of the selected second stream object. Here, after sending the second acknowledgement message to the first server, the method may further include: and displaying logistics information provided by the first server, wherein the logistics information is used for describing the current logistics execution state.

The method of this embodiment may be implemented by a user terminal, which may be a browser or an application running on a PC or a mobile terminal or the like.

This embodiment also provides a device for showing logistics information, includes: a processor and a memory; the memory is used for storing a program for displaying logistics information; when being read and executed by the processor, the program for displaying logistics information performs the operations shown in fig. 3, including:

displaying identification information of at least one first logistics object provided by a first server;

sending a first confirmation message to the first server, wherein the first confirmation message comprises the identification of the selected first logistics object, the receiving address information and the identification of the second user;

and displaying the identification information of at least one second stream object provided by the first server.

The device for displaying logistics information in this embodiment can implement all the processes of the above method, and the specific process can be referred to the above records and is not described again. In practical applications, the device for displaying logistics information may be implemented by a user terminal, and the user terminal may be a browser or an application running on a PC, a mobile terminal, or other devices.

Example four

This embodiment will explain the implementation process of the above method of the present application in detail.

As shown in fig. 4, the specific process of this embodiment may include:

step 401, a second server and a first server agree a first logistics object in advance, wherein the first logistics object comprises transportation mode information;

after the first logistics object is contracted, the attribute of each first logistics object can be configured at the first server, wherein the attribute comprises commodity object types supported by the first logistics object, and/or a receiving area and/or a delivery area not supported by the first logistics object, and/or a transportation range (cross-border transportation and in-border transportation) supported by the first logistics object.

In some implementations, the identification of the first logistics object can be preconfigured on the first server and the second server in the form of a character string to reduce the storage space occupied and the amount of data exchanged.

In some implementations, the first logistics object can be: direct delivery, centralized transportation and domestic distribution.

For example, the attributes that may configure "direct" on the first server include one or more of: the system does not support the distribution/pickup of goods in specified remote areas, does not support the transportation of commodity objects (such as food, forbidden drugs and the like) in specified categories, and supports cross-border transportation;

as another example, the attributes that may configure the "hub" on the first server may include one or more of: supporting the distribution in remote areas, not supporting the transportation of commodity objects (such as food, forbidden drugs and the like) of specified categories, and supporting the cross-border transportation;

as another example, the attribute that may be configured on the first server for "domestic distribution" may include one or more of: support for delivery/pickup of goods in designated remote areas, support for transportation of goods objects of designated categories (e.g., contraband), support for in-home transportation.

Step 402, a first user (for example, a buyer, etc.) orders at a first user terminal, and the first user terminal generates an order message and sends the order message to a first server;

wherein, the subscription message at least comprises: the system comprises commodity object information, a first user identification and a second user identification.

In some implementations, the first user identification may be an ID or the like that a first user (e.g., buyer or the like) registers with a transaction platform provided by the first server.

In some implementations, the second user identifier may be a store ID or the like registered by the second user (e.g., a seller or the like) on the trading platform provided by the first server, and the store is a virtual store registered by the second user on the trading platform provided by the first server for selling the commodity object.

In some implementations, the merchandise object information may include one or more of: a commodity object identification (e.g., a corresponding commodity name, a corresponding commodity code, etc.), a commodity object attribute (e.g., a color, a size, a model number, etc.), and so forth. For example, the item object attribute may be a stock item object minimum sales attribute (SKU), or the like.

In practical application, a first user selects a commodity object to be purchased and a category thereof on a commodity page displayed by a first user terminal (the commodity page is provided for the first server to the first user terminal), and selects "purchase", so that the first user terminal generates the order message, and the order message includes commodity object information, a second user identifier, a first user identifier and other contents selected by the first user.

Step 403, the first server receives the order message and provides information of the first logistics object to the first user terminal;

in some implementations, the first server may provide all of the first logistics object information to the first user terminal by default. That is, regardless of which specific contents the subscription message contains, the first server provides information of all the first logistics objects to the first user terminal as long as the subscription message is received. For example, the first server may provide "direct transport", "hub", "domestic distribution" to the first user terminal by default.

In some implementations, the first server may provide, according to the commodity object information in the order message, the first logistics object matched with the commodity object attribute in the order message to the first user terminal. For example, according to the attribute of the pre-configured first logistics object and the attribute of the commodity object in the commodity object information, the first logistics object supporting the transportation of the commodity object is provided to the first user terminal. For example, the attribute of the commodity object indicates that the commodity object cannot be stored for a long time (e.g., cold-chain goods) and is not suitable for "shipment", and the first server may provide "direct delivery" and "domestic delivery" to the first user terminal.

In some implementations, the first server may provide the first user terminal with a first logistics object supporting the corresponding shipping/receiving area according to the shipping address and the receiving address after determining the shipping address information and the receiving address information. For example, when the receiving area or the delivery area is a remote area, and it is found that "direct delivery" does not support the remote area and "bulk delivery" and "domestic delivery" support, the first server may provide "bulk delivery" and "domestic delivery" to the first user terminal.

In some implementations, the first server may determine whether to transport across or within the country according to the shipping address and the receiving address after determining the shipping address information and the receiving address information, and if the transport is a cross-country transport, "ship-together" and "direct" may be provided to the first user terminal. In the case of domestic delivery, the first user terminal may be provided with "domestic distribution". For example, when the shipping address is mainland china and the receiving address is tokyo, japan, it is determined that cross-border transportation is required, and the first physical distribution object information provided by the first server to the first user terminal is "bulk transportation" and "direct delivery".

In some implementations, the first server may further combine the commodity object information, the receiving address information, the sending address information, and the like to screen out a first logistics object that supports the corresponding commodity object and supports pickup/delivery of the corresponding region, and then provide the first logistics object information to the first user terminal.

In some implementations, the manner in which the first server provides the information of the part of the first logistics object to the first user terminal may be: providing information of part of the first logistics object to the first user terminal in a selectable form, and providing the first logistics object in an unselected form (for example, performing gray processing on the information of the first logistics object which is not selectable); alternatively, information of a part of the first physical distribution object is provided to the first user terminal in a selectable form, and the first physical distribution object information other than that is not provided to the first user terminal. In this way, the first user can select only part of the first logistics objects, so as to avoid the first user from selecting a wrong transportation mode.

In some implementations, when the first server provides the information of the first logistics object to the first user terminal, the first server further provides first prompt information for filling a receiving address or second prompt information for confirming the receiving address to the first user terminal. Specifically, the first server queries a receiving address pre-registered by the first user from a local database according to a first user identifier in the ordering message, and if the receiving address of the first user is queried, provides second prompt information containing the receiving address information and the first logistics object information to the first user terminal so as to prompt the first user to confirm the receiving address and select the first logistics object; if the receiving address of the first user is not inquired, the first prompt message and the first logistics object message can be provided for the first user terminal to prompt the first user to fill in the receiving address and select the first logistics object.

In some implementations, the first server may provide the first prompt information for filling in the shipping address or the second prompt information for confirming the shipping address to the first user terminal after receiving the order message before providing the first logistics object information, and provide the first logistics object information to the first user terminal after receiving the shipping address information filled in or confirmed by the first user. Similarly, the first server may also provide the first logistics object information to the first user terminal, and provide the first prompt information for filling in the shipping address or the second prompt information for confirming the shipping address to the first user terminal after receiving the first logistics object information selected by the first user. The first server can also provide prompt information related to the receiving address and the first logistics object information to the first user terminal at the same time, so that the first user can select the first logistics object when filling or confirming the receiving address. The order of providing the prompt information related to the receiving address and the first logistics object information is not limited in this document.

In practical application, the first user may fill in a receiving address of the first user in advance on a trading platform provided by the first server, the first server stores the first user identifier and the receiving address in a database in a corresponding manner, and the receiving address information of the first user can be obtained by querying the database when needed.

In some implementations, the first server can determine shipping address information based on the second user identification in the order message. In practical applications, the shipping address of the second user may be pre-filled by the second user on the transaction platform provided by the first server, the first server may store the shipping address provided by the second user in the database in correspondence with the user identifier thereof, and the database may be queried based on the second user identifier to obtain shipping address information if necessary.

In some implementations, the second user is preconfigured with a plurality of warehouses and warehouse information is pre-stored on the trading platform provided by the first server, the warehouse information including the warehouse configuration of the second user, and the shipping area and inventory data for each warehouse. The first server may query warehouse information thereof according to the second user identifier in the order message, determine a shipping warehouse according to the commodity object information, the determined receiving address information, and the inventory data and shipping area of each warehouse in the order message, and determine an address of the shipping warehouse as the shipping address.

In some implementations, if the second user pre-stores a specified shipping address on the trading platform provided by the first server, the first server may query the corresponding shipping address based on the second user identification in the order message.

Step 404, the first user terminal displays the information of the first logistics object to the first user;

in some implementations, the information of the first logistics object may be a name of a transportation mode included in the first logistics object, or may be a customized name, and the like. The first user terminal can directly display the name of the first logistics object or the corresponding transportation mode name. For example, words such as "integrated transportation", "direct delivery", "domestic distribution", and the like can be directly displayed, so that the first user can intuitively know the transportation mode corresponding to the first logistics object.

In some implementation manners, when the first user terminal displays the information of the first logistics object, the first user terminal may also simultaneously display first prompt information for filling in a receiving address or second prompt information for confirming the receiving address so as to prompt the first user to fill in or confirm the receiving address.

In some implementation manners, the first user terminal may also display, in advance, the first prompt information for filling in the receiving address or the second prompt information for confirming the receiving address before displaying the information of the first logistics object, and display the information of the first logistics object after the first user fills in or confirms the receiving address.

In some implementations, the first user terminal may also display information of the first logistics object first, and after the first user selects the first logistics object, display first prompt information for filling in the shipping address or second prompt information for confirming the shipping address to prompt the first user to fill in or confirm the shipping address.

Step 405, a first user selects a first logistics object on the first user terminal, which is equivalent to inputting a first confirmation instruction, and the first user terminal sends a first confirmation message to the first server, where the first confirmation message includes an identifier of the first logistics object selected by the first user;

in some implementations, the first user further confirms the shipping address when selecting the first logistics object, and the first confirmation instruction may further include shipping address information confirmed or filled by the first user. In practical applications, the first user may confirm or fill in the receiving address information before inputting the first confirmation instruction, or may confirm or fill in the receiving address information after inputting the first confirmation instruction.

In some implementations, the first confirmation message can be a message that conforms to the HTTP protocol specification.

Step 406, the first server receives the first confirmation message, generates a logistics order message and sends the logistics order message to the second server;

in some implementations, the logistics order message can include at least: the first logistics object identification selected by the first user, the receiving address confirmed by the first user and the corresponding delivery address identified by the second user. In addition, the logistics order message may further include: and commodity object information (such as identification, attribute and the like of the commodity object), wherein the commodity object information is the commodity object information in the ordering message.

In some implementations, after receiving the order message, the first server may determine shipping address information according to the commodity object information and the second user identifier in the order message. The specific implementation process is described in the above related description of step 403, and is not described in detail.

Specifically, the first server receives and analyzes the first confirmation message, extracts a first logistics object identifier and the like, and packages the first logistics object identifier, the receiving address information, the sending address information and the like in a predetermined format to generate the logistics order message. The predetermined format may be a format that is pre-agreed by the first server and the second server. Here, the receiving address information and the delivering address information may be determined before generating the logistics order message in this step, may be determined when the order message is received in step 403, and may be determined when the first logistics object is provided to the first user terminal in the providing step 404, which is not limited herein. The specific determination method is described in the related description above.

Step 407, the second server receives the logistics order message, searches for at least one second logistics object associated with the first logistics object identifier according to the first logistics object identifier in the logistics order message, and returns the identifier information of the at least one second logistics object to the first server;

in some implementations, after the first logistics object is contracted, at least one second logistics object associated with each first logistics object may be preconfigured at the second server, the second logistics object being associated with at least one logistics provider information, the second logistics object containing receiving mode information. For example, the second stream object may be: "delivery to home", "pick up from pick-up point", "pick up from convenience store", etc.

In some implementations, when determining the at least one second stream object, the method may further include: and determining logistics line information and logistics provider information corresponding to each second logistics object according to the delivery address information and the receiving address information in the logistics order message.

In some implementations, the second logistics object and its association relationship with logistics provider information (e.g., logistics data of logistics provider, etc. from logistics provider) can be configured in advance at the second server. When determining the logistics route information, the logistics provider information associated with the second logistics object may be queried first, and then the logistics provider information is screened according to the delivery address and the receiving address, and finally the logistics route information is formed. The logistics line information is used for describing a complete logistics line which takes the delivery address as a starting point, takes the receiving address as an end point, adopts a transportation mode corresponding to the first logistics object and is matched with a receiving mode corresponding to the second logistics object. The second logistics object and the logistics line information are in a one-to-one correspondence relationship, once the second logistics object is determined, the corresponding logistics line information is determined, and once the logistics line information is determined, the logistics line information is equivalent to a complete logistics line from a delivery address to a receiving address.

In some implementations, the logistics route information can include information for each logistics stage in a complete logistics route from the shipping address to the receiving address.

Here, for cross-border transportation, the complete logistics line may comprise the following logistics stages: a delivery section (delivery of a delivery address to a shipping warehouse, etc.), an international transfer section (cross-border transfer), a clearance section (clearance operation), a receiving section (delivery of a shipping warehouse to a receiving address, etc.), and corresponding logistics line information may include: delivery section information, transportation section information, clearance section information and receipt section information etc. wherein, delivery section delivery information can include: the information of taking, packing, sorting, delivering and the like of the delivery place, and the information of the transfer section can comprise: the address of the centralized transportation bin, the warehousing, warehousing and packing of the centralized transportation bin, the distribution of international transportation and other information, and the clearance section information can comprise: information related to clearance operations, clearance port addresses and the like, and the receiving section information may include: delivery, etc. of the receiving location. The corresponding logistics provider information may include: logistics provider information providing delivery service at a delivery location, logistics provider information providing international diversion service, logistics provider information providing clearance service, and logistics provider information providing delivery at a receiving location. In some implementations, the logistics route information can also be a collection of logistics provider information for various logistics stages. That is, for cross-border transportation, the logistics route information may include: logistics provider information providing delivery service at a delivery location, logistics provider information providing international diversion service, logistics provider information providing clearance service, and logistics provider information providing delivery at a receiving location.

Here, for domestic transport, a complete logistics line may comprise the following logistics stages: warehouse section (warehouse, warehouse-out, etc.), delivery section (delivery from warehouse to shipping address), and corresponding logistics route information may include: storage section information, delivery section information, and the like. Wherein, the warehousing section information may include: the warehouse address, the information such as fetching, packing, sorting of warehouse, delivery section information can include: the delivery information from the warehouse to the delivery to the receiving address, and the corresponding logistics provider information may include: logistics provider information of the warehousing section and logistics provider information of the delivery section. In some implementations, the logistics route information can also be a collection of logistics provider information for various logistics stages. That is, for domestic transport, the logistics route information may include: logistics provider information providing warehousing services and logistics provider information providing delivery services.

In some implementations, the logistics of the commodity object may be restricted due to different attributes of the commodity object, and therefore, the attribute factor of the commodity object may also be considered in determining the logistics route information and the logistics provider information. That is, the logistics order message may further include commodity object information, and in this step, the logistics route information and the logistics provider information corresponding to each second logistics object may be determined according to the shipping address information, the receiving address information and the commodity object information in the logistics order message.

The commodity object information in the logistics order message may include: a merchandise object identification, a category of the merchandise object, a weight of the merchandise object, a volume of the merchandise object, and the like. If the commodity object information in the order message from the first user terminal only contains the commodity object identifier, the first server may query locally stored relevant data of the commodity object according to the commodity object identifier to obtain data of the category, weight, volume and the like of the corresponding commodity object, and include the data of the category, weight, volume and the like of the commodity object in the commodity object information of the logistics order message. Here, the physical distribution line information and the physical distribution provider information corresponding to each second physical distribution object may be determined according to the shipping address information, the receiving address information, and the category, weight, and the like of the commodity object in the physical distribution order message.

In some implementations, when the identification information of the second stream objects is returned, the second server may also return stream route information corresponding to each second stream object to the first server. In practical applications, a part of contents (e.g., a part of logistics provider information of a receiving section) in the logistics route information may be returned to the first server, or the whole contents of the logistics route information may be returned to the first server.

In practical application, the user pays more attention to the charging and service limitation of the receiving section in cross-border transportation, and based on the charging and service limitation, the second server can return charging data, service limitation data (such as package volume limitation and package weight limitation) and the like in logistics provider information for providing delivery of the receiving area to the first server, so that the charging and service limitation data and the like can be displayed to the user together with the second logistics object, and the user can conveniently select the second logistics object according to the requirement of the user.

In practical application, users in intra-transportation pay more attention to the delivery section information, and based on this, the second server may return logistics provider information (such as a logistics provider name) and the like providing delivery services to the first server, so as to present this data and the second logistics object to the users together, so that the users can select the second logistics object according to their own needs.

Step 408, the first server receives the identification information of the second stream object returned by the second server, and provides the identification information of the second stream object to the first user terminal;

in some implementations, the first server further receives logistics route information corresponding to each second logistics object, and provides the logistics route information to the first user terminal.

In some implementations, the logistics route information provided by the first server to the first user terminal may include: billing data and service restriction data for logistics providers that provide delivery services at the receiving location.

In some implementations, the logistics route information provided by the first server to the first user terminal may include: the name of the logistics provider providing the delivery service of the receiving place.

Step 409, the first user terminal displays the identifier of the second stream object provided by the first server;

in some implementations, the first user terminal may display a name of the second logistics object, and display corresponding logistics provider information corresponding to the name of the second logistics object, for example, a name of a logistics provider, a billing description, a volume limitation description, a weight limitation description, and the like.

For example, the second logistics object identification information and the corresponding logistics route information displayed by the first user terminal are shown in the following table 1:

TABLE 1

Step 410, the first user selects the second stream object, and the first user terminal receives a second confirmation instruction input by the first user, generates a second confirmation message and sends the second confirmation message to the first server;

here, the second confirmation instruction includes a second stream object identifier selected by the first user; the second confirmation message may adopt a format agreed in advance by the first user terminal and the first server or a format specified by HTTP, and the content of the second confirmation message includes an identifier of the second stream object selected by the first user.

Step 411, the first server receives the second confirmation message, generates a logistics confirmation message, and sends the logistics confirmation message to the second server, where the logistics confirmation message includes an identifier of the second logistics object selected by the first user;

here, the first server receives the second confirmation message and analyzes the second confirmation message to obtain the identifier of the second logistics object selected by the first user, and generates the logistics confirmation message according to the message format agreed with the second server by using the identifier of the second logistics object as a content.

Here, the logistics confirmation message may further include contents such as shipping address information and receiving address information.

Step 412, the second server receives the logistics confirmation message, and determines the finally used logistics route information according to the second logistics object identifier in the logistics confirmation message;

in one implementation, the method may further include: prompting the user to confirm the final logistics line; after determining the finally used logistics route information in step 412, the second server may further send a notification to the first server, notifying the first server of the finally determined logistics route information; and the first server receives the notification and provides the finally determined logistics route information to the first user terminal for the first user to confirm. After receiving the third confirmation message sent by the first user terminal, the first server sends a logistics execution notification message to the second server, and the second server executes step 413 after receiving the logistics execution notification message. Wherein the third confirmation message indicates that the first user confirms the adoption of the finally used logistics route.

Step 413, the second server sends a notification to a corresponding logistics provider according to the finally used logistics route information, and receives logistics information fed back by the logistics provider, so as to notify the logistics provider to execute a corresponding logistics operation;

in practical application, the second server notifies the corresponding logistics provider to execute the corresponding logistics operation according to the finally used logistics line information and the logistics provider in the next logistics stage to execute the logistics operation when determining that the next logistics stage can be executed after receiving the logistics information fed back by the logistics provider, and the process is circulated until the logistics is completed. Wherein the logistics information is used for describing the current logistics execution state.

In one implementation, for cross-border transportation, the second server first notifies the logistics provider providing the delivery service of the delivery location to perform delivery of the delivery address to the delivery location shipping container, after receiving the logistics information fed back by the logistics provider, confirming that the logistics provider has been delivered to the collecting and transporting warehouse, informing the logistics provider providing international transit service to execute international transit, after receiving the logistics information fed back by the logistics provider, confirming that the logistics provider is delivered to the receiving place collecting and transporting warehouse, then informing the logistics provider providing clearance service to execute clearance operation, after receiving the logistics information fed back by the logistics provider and confirming that the clearance is completed, then informing the logistics provider providing the receiving place delivery service to execute the delivery of the receiving place collecting and transporting warehouse to the receiving address, receiving the logistics information fed back by the logistics provider and confirming that the logistics information is delivered to the receiving address, and finishing the logistics.

In one implementation manner, for domestic transportation, the second server first notifies a logistics provider providing warehousing services to notify the operation of performing packaging ex-warehouse, after receiving logistics information fed back by the logistics provider, confirms that packaging ex-warehouse is completed, and then notifies the logistics provider providing delivery services to perform delivery, receives logistics information fed back by the logistics provider and confirms that delivery to a delivery address is completed, and logistics is finished.

Step 414, the second server sends a logistics state message to the first server, where the logistics state message includes logistics information fed back by the logistics provider.

In practical applications, each time the second server receives the logistics information from the logistics provider in step 413, the second server may generate a corresponding logistics status message and send the corresponding logistics status message to the first server, so as to notify the first user of the logistics execution status in real time.

In one implementation, the second server may also notify the first server of the partial logistics information. For example, for cross-border transportation, the second server generates a logistics status message and sends it to the first server upon confirmation that "delivered to the shipping location shipping warehouse" so that the first server provides the order close prompt to the first user terminal as needed.

Step 415, the first server receives the logistics state message sent by the second server, and provides the logistics information therein to the first user terminal;

in one implementation manner, the first server may provide the logistics information in the logistics state message to the first user terminal in real time, or may selectively provide part of the logistics information to the first user terminal.

For example, when receiving logistics information indicating that the logistics information is delivered to the shipping location shipping warehouse, the first server provides the logistics information to the first user terminal, and may provide order combination prompt information to the first user terminal, so that the first user can perform order combination operation. Here, the physical distribution information indicating "delivered to the delivery destination collecting warehouse" also includes commodity object information, collection order number information, physical distribution fee information, and the like. The first server may provide the order-combining prompt information to the first user terminal when it is determined that the current first logistics object is "trucking". The order-combination prompt information is used for prompting the first user to combine a plurality of cross-border transportation orders, and comprises commodity object information, collection order number information, logistics expense information and the like.

The order combining operation can be specifically performed after the first server confirms that the warehousing operation is completed in the goods collecting bin. In essence, the second server synchronizes the logistics information of each logistics state to the first server. When the first server senses that the warehousing operation is performed and the transportation service is performed (namely, the first logistics object selected by the first user is the transportation), the order combining prompt is provided to the first user terminal to prompt the first user to combine the orders.

In step 416, the first user terminal displays the logistics information provided by the first server, so that the first user can know the logistics execution state at any time.

In practical application, for the 'collective transportation', the first server further provides order combination prompt information to the first user terminal when the logistics information is 'sent to the collective transportation bin', and the first user terminal displays the order combination prompt information, so that the first user can combine a plurality of 'collective transportation' logistics orders conveniently.

If the logistics order is merged, after receiving a merging confirmation message (including a first user identifier, and the to-be-merged collection order number information and the commodity object information) from the first user terminal, the first server may generate a corresponding logistics merging message according to the merging confirmation message and send the corresponding logistics merging message to the second server, and the second server updates corresponding logistics line information according to the logistics merging message and notifies a logistics provider providing an international transfer service, so that the logistics provider merges and transfers corresponding goods. Here, the logistics merge message may include the first user identification, the goods object information, the collection manifest number information, and the like. And for the plurality of merged logistics orders, the second server issues a notice (comprising the information of the freight order number to be merged and the like) to a logistics provider providing international transit, and the logistics provider providing international transit packs the packages of the plurality of logistics orders into a large package according to the notice and carries out ex-warehouse operation. Thus, the first user receives one package, but in essence multiple consolidated orders.

In practical applications, the above flow may further include a payment step. This step of payment may be performed after step 413 or in step 415. The step of paying may include: the second server informs the first server that the logistics line is determined after determining the logistics line information to be finally used, the first server receives the notification and provides a payment page to the first user terminal, and the first user terminal displays the payment page so that the first user can pay the logistics cost. After the payment is completed, the first server receives a payment completion message from the first user terminal and sends a payment confirmation message to the second server, informing the second server to start to perform the logistics operation, and the second server receives the notification and performs step 413.

The step of paying may also be included in the flow of converging described above. Specifically, the first user terminal may prompt the first user to pay before sending the order combination confirmation message, the prompt of the payment may be provided by the first server, and the order combination confirmation message may be sent to the first server after the first user completes payment.

Example 1

In this example, cross-border logistics is taken as an example to illustrate a specific implementation process of the method described in the present application.

Firstly, two first logistics objects are agreed in advance between a first server and a second server, and the two first logistics objects correspond to transportation modes respectively: direct delivery and centralized transportation. In one implementation, the first logistics object information can be predefined and configured on the first server and the second server at the same time.

And configuring a plurality of second logistics objects associated with the first logistics object in advance at the second server, and configuring the association relationship between each second logistics object and logistics provider information. In one implementation, predefined first logistics object information and second logistics object information may be stored in the form of data tables, and then the data tables storing the first logistics object information and the data tables storing the second logistics object information are associated to define the association relationship between the first logistics object and the second logistics object. The logistics provider information is from a logistics provider, can also be stored in a data table form, and the data table for storing the logistics provider information is associated with the data table for storing the second logistics object information so as to define the association relationship between the second logistics object and the logistics provider information.

In this example, the preconfigured second stream object is: "delivery to home", "convenience store pickup" and "pick up from pick-up point".

TABLE 2

Table 2 shows information and an association relationship between a first physical distribution object and a second physical distribution object, where the information of the first physical distribution object includes: the ID of the first logistics object and the mode of transportation. The information of the second stream object includes: the ID of the second stream object and the receiving mode. Wherein the first logistics object comprises: the transportation method included in the first physical distribution object having the ID "object 1" is "collective transportation" and the transportation method included in the first physical distribution object having the ID "object 2" is "direct delivery" for the object 1 and the object 2. A first physical distribution object whose ID is "object 1" is associated with three second physical distribution objects whose IDs are: the object 11, the object 12, and the object 13, the object 11 corresponds to a receiving method of delivery to the home, the object 12 corresponds to a receiving method of pickup from a pick-up point, and the object 13 corresponds to a receiving method of pickup from a convenience store. A first physical distribution object whose ID is "object 2" is associated with two second physical distribution objects whose IDs are: the object 21 and the object 22, the receiving mode corresponding to the object 21 is delivery to the home, and the receiving mode corresponding to the object 22 is pickup from the pick-up point.

Table 2 also shows the logistics service associated with each second logistics object, and one logistics service represents one complete logistics process. As shown in table 2, the object 11, the object 12, and the object 13 are associated with the logistics service 11 and the logistics service 12, respectively, and the object 21 and the object 22 are associated with the logistics service 21, the logistics service 22, and the logistics service 23, respectively. The logistics service 11, the logistics service 12, the logistics service 21, the logistics service 22 and the logistics service 23 respectively represent IDs of five logistics services, and the logistics service is used for associating the second logistics object with a specific logistics provider, but ensuring that data of the second logistics object is completely decoupled from data related to information of the logistics provider, so that data adhesion in a data processing process can be avoided.

Wherein each logistics service is associated with a logistics provider ID by a logistics segment ID or the like. Taking cross-border transportation as an example, the logistics segment can include: and the delivery in the delivery place, the international transit, the clearance and the delivery in the receiving place are respectively identified by a delivery ID in the delivery place, an international transit ID, a clearance ID and a delivery ID in the receiving place. Table 3 shows the association between the logistics service 11 and the logistics provider ID. In table 3, the logistics service ID is associated with the delivery ID in the delivery location, the international transit ID, the clearance ID, and the delivery ID in the receiving location, and the delivery IDs in the delivery location are associated with the logistics provider IDs (logistics provider 1a1, logistics provider 1a2 … …; logistics provider 1b1, logistics provider 1b2 … …; logistics provider 1c1, logistics provider 1c2 … …) that support the logistics service in the corresponding area by the delivery area IDs (delivery area 1a, delivery area 1b, delivery area 1 c). In practical applications, a country may be divided into a plurality of distribution areas according to its geographical area or administrative district, different distribution areas are identified by distribution area IDs, and the physical distribution provider IDs supporting the respective distribution areas are associated with the distribution area IDs of the distribution areas according to the physical distribution provider information. Similarly, the international transit ID can also be associated with the logistics provider ID (logistics provider 2a1, logistics provider 2a2 … …; logistics provider 2b1, logistics provider 2b2 … …; logistics provider 1c1, logistics provider 2c2 … …) supporting the logistics service of the corresponding area through the distribution area ID (distribution area 2a, distribution area 2b, distribution area 2 c); the delivery IDs in the consignment area may also be associated with the corresponding logistics provider IDs (logistics provider 3a1, logistics provider 3a2 … …; logistics provider 3b1, logistics provider 3b2 … …; logistics provider 3c1, logistics provider 3c2 … …) by their delivery area IDs (delivery area 3a, delivery area 3b, delivery area 3 c). Clearance IDs are associated with logistics provider IDs (e.g., logistics provider a1, logistics provider a2 … …; logistics provider B1, logistics provider B2 … …) that support the relevant port clearance service by clearance scope IDs (e.g., clearance scope a, clearance scope B).

In the application, a plurality of distribution area IDs are predefined, each distribution area ID is associated with a piece of distribution area information, and the distribution area information may be geographical boundary information of a certain geographical area, a name of the geographical area, a code of the geographical area, longitude and latitude information of the geographical area, and the like. In practical application, a data table of the distribution area ID and the distribution area information may be respectively established for different cities of different countries, and the data table records the distribution area information, the distribution area ID, the association relationship thereof, and the like.

TABLE 3

Wherein each physical distribution provider ID is associated with a data table storing information of the corresponding physical distribution provider.

Table 4 shows logistics provider information for providing international diversion services, and table 4 is associated with table 3 by a logistics provider ID. Wherein, the data related to the logistics provider providing the international transit service is stored in table 4, and comprises: the system comprises logistics provider names, cross-border distribution ranges, transfer warehouses, distribution modes, distribution duration information, charging data, transportation limit data, customs declaration/clearance, actual operation node data and the like.

TABLE 4

Table 5 is an example of a logistics provider data table providing deliveries within a delivery location showing logistics provider information providing deliveries within a delivery location, table 5 being associated with table 3 by a logistics provider ID. Table 5 stores data related to logistics providers that provide delivery services in the shipping location, and may specifically include: the system comprises related data such as the name of a logistics provider, a distribution range, a distribution mode, a distribution center, a distribution time length, charging data, transportation limitation, actual operation node data, value-added service and the like.

TABLE 5

Table 6 is an example of a logistics provider information data table providing clearance service, and table 6 is associated with table 3 by a logistics provider ID. Wherein, table 6 stores the related data of the logistics provider providing clearance service, which may specifically include: the related data such as the name of the logistics provider, clearance range, clearance mode, clearance time, charging rule, transportation limitation, actual operation node data and the like.

TABLE 6

Table 7 is an example of a logistics provider data table providing for distribution within a receiving location, table 7 being associated with table 3 by a logistics provider ID. Table 7 stores data related to logistics providers that provide delivery services in the receiving areas, and may specifically include: the system comprises related data such as the name of a logistics provider, a distribution range, a distribution mode, a distribution center, a distribution time length, a charging rule, a transportation limit, an actual operation node, value-added service and the like.

TABLE 7

The above tables 2 to 7 are only examples, and the tables 2 to 7 are exemplary illustrations of the association of the first logistics object, the second logistics object and the logistics provider information, and the specific content of the data table and the type of the data table may be redefined as required in practical applications, which is not limited herein. In general, the first logistics object and the second logistics object may be defined and related information may be stored in the form of data tables, the logistics provider information may be stored in the form of data tables, and the data tables may be associated through a specific index or a predefined ID, etc. to achieve the association between the first logistics object, the second logistics object and the logistics provider information.

The process of determining the logistics route information and the logistics provider information during cross-border transportation may include:

first, according to the determined second logistics object, the determined logistics service ID can be found through the data table, and the logistics provider ID is inquired according to the logistics service ID. The method comprises the steps of firstly, receiving a logistics provider ID set of a delivery place, receiving a logistics provider ID set of an international transit logistics provider, receiving a clearance logistics provider ID set and a receiving logistics provider ID set; and inquiring specific information of each logistics provider according to the ID set of the logistics providers.

Secondly, inquiring a logistics provider data table associated with the ID set of the logistics provider at the receiving place, and matching the logistics provider at the delivery place according to the receiving address information of the first user;

thirdly, inquiring a logistics provider data table associated with the ID set of the clearance logistics provider, finding out clearance logistics providers with clearance modes including a clearance port in the delivery range of the delivery place logistics provider, and determining the clearance logistics provider;

fourthly, according to the clearance port address of the clearance logistics provider, inquiring a logistics provider data table associated with an international diversion logistics provider ID set, finding out the international diversion logistics provider covering the clearance port address of the clearance logistics provider in a cross-border distribution range, and further determining the international diversion logistics provider.

Fifthly, matching the location of the collecting and transporting bin and the shipping address information of the international transit logistics provider with the delivery range of the logistics provider according to a logistics provider data table related to the queried shipping logistics provider ID set, and determining the shipping logistics provider.

And finally, obtaining logistics line information corresponding to the second logistics object according to the determined delivery place logistics provider information, international transit logistics provider information, clearance logistics provider information and receiving place logistics provider information, wherein the logistics line information comprises contents such as a delivery address, a collecting and transporting bin address (which can comprise a delivery place collecting and transporting bin and a receiving place collecting and transporting bin), a transportation mode of international transit, a clearance port address, a receiving address, delivery place logistics provider information, international transit logistics provider information, clearance logistics provider information and receiving place logistics provider information.

There may be a case where one physical distribution operation can be operated by a plurality of physical distribution providers. For example, Malaysia customs clearance, may be operated by 2 clearance companies (e.g., Yanwen corporation or first time corporation). In this case, a logistics provider may be randomly selected by the second server.

In some implementations, the logistics of the commodity object may be restricted due to different attributes of the commodity object, and therefore, the attribute factor of the commodity object may also be considered in determining the logistics route information and the logistics provider information. That is, the physical distribution route information and the physical distribution provider information corresponding to each second physical distribution object may be determined from the shipping address information, the receiving address information, and the commodity object information. Here, the commodity object information may be included in the above logistics order message, and the content of the commodity object information may include: a merchandise object identification, a category of the merchandise object, a weight of the merchandise object, a volume of the merchandise object, and the like. If only the commodity object identifier exists in the commodity object information, the first server may query locally stored commodity object related data according to the commodity object identifier to obtain data of the commodity object, such as the category, the weight, the volume and the like, and include the data of the commodity object, such as the category, the weight, the volume and the like, in the logistics order message when the logistics order message is generated.

In this example, cross-border transportation imposes severe constraints on the volume, weight and type of commodity objects, and the volume, weight and type of commodity objects supported by each international transport logistics provider are different. Therefore, when determining the international transportation logistics provider, the international transportation logistics provider can be matched according to the volume/weight/type information of the commodity object and the like. Specifically, a logistics provider data table associated with the international transit logistics provider ID set is queried, and the following matching processing is performed: matching a transportation range determined by a clearance port address, a receiving address, a delivery address and the like of a clearance logistics provider with a cross-border distribution range of an international transportation logistics provider, and matching volume, weight, type and other information of a commodity object with transportation limit and the like of the international transportation logistics provider; thereby identifying the international transport stream provider.

In this example, matching may also be performed in combination with commodity object information (such as volume/weight/type) when determining the receiving logistics provider, clearance logistics provider, and the sending logistics provider, and the implementation process thereof is similar to the determination process of the international transit logistics provider and is not described again.

Wherein, each second logistics object corresponds to one logistics route information. For example, the second delivery object is associated with a receiving method of "home delivery", and the corresponding delivery route information indicates a "home delivery" route from the delivery address to the delivery address, and the receiving-site delivery provider directly delivers the product to the delivery address. When the receiving method corresponding to the second logistics object is "pick up from pick-up point", the corresponding logistics route information represents the "pick-up from pick-up point" route from the delivery address to the pick-up point near the pick-up address, and the receiving-place logistics provider delivers the goods to the pick-up point near the pick-up address.

For example, shipping from the Shanghai to Malaysia, as shown in FIG. 5, the last determined logistics route information may include: information of the logistics provider 1, information of the logistics provider 2, information of the logistics provider 3, and information of the logistics provider 4; wherein, the logistics provider 1 is responsible for the delivery from the Shanghai delivery place to the Shenzhen collective transport warehouse; the logistics provider 2 is responsible for operations (warehousing, ex-warehouse and the like) in the Shenzhen collective transport warehouse and international trunk transportation from the Shenzhen collective transport warehouse to the Malaysia customs; the logistics provider 3 is responsible for customs clearance and physical operations such as customs clearance, goods clearance, clearance distribution and delivery of the Jilong slope of Malaysia, and completes clearance logistics service; the logistics provider 4 is responsible for the delivery of the shipping depots to the consignment addresses in malaysia. Such as: the logistics provider 1 can be roundabout; the logistics provider 3 may be a yanvin. In FIG. 5, Shenzhen refers to Shenzhen collection and transportation bin.

In this example, as shown in fig. 6, the process of the second server notifying the logistics provider to perform the logistics operation may include:

step 601, the second server sends out a first notification according to the logistics provider information of the delivery location of the logistics line information, wherein the first notification instructs the logistics provider of the delivery location to send the commodity corresponding to the commodity object in the logistics order message from the delivery address to the delivery location collecting and transporting bin; the second server receives first logistics information, wherein the first logistics information indicates that the goods are delivered to the delivery place collecting and transporting bin;

step 602, the second server sends out a second notification according to the international transportation logistics provider information of the logistics route information, wherein the second notification instructs the international transportation logistics provider to deliver the commodity from the delivery location collection warehouse to the receiving location collection warehouse; the second server receives second logistics information, and the second logistics information represents that the goods are sent to the goods receiving place collecting and transporting bin;

step 603, the second server sends a third notification according to the clearance logistics provider information of the logistics line information, the third notification indicates the corresponding logistics provider to execute clearance operation, the second server receives third logistics information, and the third logistics information indicates that the commodity is cleared successfully;

step 604, the second server sends a fourth notification according to the receiving location logistics provider information of the logistics route information, the fourth notification indicates that the corresponding logistics provider sends the commodity from the receiving location collection bin to the receiving address, and the second server receives fourth logistics information, wherein the fourth logistics information indicates that the commodity is sent to the receiving address.

Here, if the second logistics object is received in a "delivery to the home" manner, the receiving logistics provider delivers the goods to the address designated by the first user; if the receiving mode of the second logistics object is 'picking goods from the picking point', the logistics provider at the receiving place sends the goods to the picking point appointed by the first user or appointed in advance, and the first server sends a notice to the first user terminal to notify the first user of the address of the corresponding convenience store; informing the first user of the address of the corresponding self-picking point; if the receiving mode of the second logistics object is 'convenience store pickup', the logistics provider at the receiving place sends the commodity to a convenience store appointed by the first user or appointed in advance, and sends a notice to the first user terminal through the first server or the second server to notify the first user of the address of the corresponding convenience store.

In the above process, the second server further sends the first logistics information, the second logistics information, the third logistics information, and the fourth logistics information to the first server in real time, the first server may further provide a pickup notification message to the first user terminal after receiving the fourth logistics information, and the first user terminal displays the pickup notification message to the first user, so as to prompt the first user to pick up goods at a corresponding address (such as a convenience store address or a pickup point address) or prompt the first user that goods have been delivered. For example, if the receiving mode of the second stream object is "picking from the picking point", the first server provides a picking notification message to the first user terminal, wherein the picking notification message contains the address information of the picking point, and the first user terminal displays the picking notification message to the first user so as to prompt the first user to get the corresponding picking point; if the receiving mode of the second logistics object is 'convenience store pickup', the first server provides a pickup notification message to the first user terminal, the pickup notification message can contain address information of a convenience store, and the first user terminal displays the pickup notification message to the first user so as to prompt the first user to go to the corresponding convenience store for pickup.

Example two

In this example, the domestic transportation is taken as an example to illustrate the specific implementation process of the above method of the present application.

Firstly, a first logistics object is agreed in advance between a first server and a second server;

then, a second physical distribution object associated with the first physical distribution object is configured in advance in a second server, and an association relationship between the second physical distribution object and physical distribution provider information is configured. In one implementation, predefined first logistics object information and second logistics object information may be stored in the form of data tables, and then the data tables storing the first logistics object information and the data tables storing the second logistics object information are associated to define the association relationship between the first logistics object and the second logistics object. The logistics provider information is from a logistics provider, can also be stored in a data table form, and the data table for storing the logistics provider information is associated with the data table for storing the second logistics object information so as to define the association relationship between the second logistics object and the logistics provider information.

In this example, a first logistics object and a second logistics object associated with the first logistics object are defined, where the transportation mode corresponding to the first logistics object is "domestic delivery" and the receiving mode corresponding to the second logistics object is "delivery to home".

In the manner shown in example one, the second logistics object can be associated with a plurality of logistics service IDs (e.g. two logistics service IDs) by its ID, each logistics service ID being associated with two logistics segment IDs: warehousing service ID and domestic delivery service ID; wherein, the warehousing service ID is associated with a logistics provider ID supporting the logistics service, and the domestic delivery service ID is associated with a logistics provider ID supporting the domestic delivery service. Each logistics provider ID is associated with a specific logistics provider data table which is used for recording logistics data of a corresponding logistics provider; for the logistics provider of the domestic distribution service, the specific contents of the logistics data can be referred to the logistics provider data table example for providing distribution in the receiving place in example one or the logistics provider data table example for providing distribution in the delivery place (as shown in table 5 or table 7).

Here, the domestic delivery service ID may be associated with a specific logistics provider ID by a plurality of delivery area IDs, specifically, refer to the delivery ID correspondence column in the delivery location or the delivery ID correspondence column in the delivery location in example one table 3. The warehousing service ID can also be associated with the logistics provider ID of the corresponding regional warehousing service through a warehousing region ID, the warehousing region ID is similar to the delivery region ID, except that each warehousing region ID corresponds to a geographic range of the warehousing service, and each delivery region ID corresponds to a geographic range of the delivery service. See the above description related to example a, and are not repeated.

For example, a first logistics object may be defined as [ domestic distribution of vegetable birds ], a second logistics object associated with the first logistics object is defined as [ domestic distribution and delivery for sale ], and [ domestic distribution and delivery for sale ] is associated with a logistics service [ vegetable bird storage service ] and a logistics service [ vegetable bird domestic distribution service ]. Logistics service [ birds in dishes storage service ] associates a warehouse logistics provider ID (e.g., [ happy, wuzhou ]), and logistics service [ birds in dishes delivery service ] associates a delivery logistics provider ID (e.g., cross-ways).

The warehouse logistics provider is responsible for providing a storage warehouse for the second user, and the second user can reserve the commodities in the warehouse in advance. After receiving the notification from the second server, the warehouse logistics provider will perform the operations of shelf unloading, packing, warehouse-out, and delivery handover according to the corresponding commodity object information.

Wherein the distribution logistics provider is responsible for transporting the goods from the warehouse of the warehouse logistics provider to the receiving address of the first user. Specifically, after receiving the notification from the second server, the distribution logistics provider sends the notification to the warehouse of the warehouse logistics provider to deliver, directly sends the goods from the warehouse to the receiving address, and completes operations such as sign-in and the like.

In this example, the manner of determining the logistics route information and the logistics provider information in domestic transportation may include: determining information of a warehousing logistics provider according to warehouse data in the shipping address information, wherein the fifth logistics provider is used for providing warehousing services; and determining information of a distribution logistics provider according to the receiving address information and the receiving mode information corresponding to the second logistics object, wherein the distribution logistics provider is used for providing distribution service.

In this example, the attribute factor of the commodity object may be also taken into consideration when determining the physical distribution route information and the physical distribution provider information. That is, the physical distribution route information and the physical distribution provider information corresponding to the second physical distribution object may be determined from the shipping address information, the receiving address information, and the commodity object information. Here, the commodity object information may be included in the above logistics order message, and the content of the commodity object information may include: a merchandise object identification, a category of the merchandise object, a weight of the merchandise object, a volume of the merchandise object, and the like. If only the commodity object identifier exists in the commodity object information, the first server may query locally stored commodity object related data according to the commodity object identifier to obtain data of the commodity object, such as the category, the weight, the volume and the like, and include the data of the commodity object, such as the category, the weight, the volume and the like, in the logistics order message when the logistics order message is generated.

In this example, the shipping address information is matched with a warehouse address in the warehouse logistics provider information, and data such as the category, weight, volume and the like of the commodity object is matched with the warehouse restrictions and the like in the warehouse logistics provider information, so as to determine the warehouse logistics provider; and/or matching the warehouse address, the receiving address information and the receiving mode information corresponding to the second logistics object in the warehouse logistics provider information with the distribution range, the distribution mode and the like in the distribution logistics provider information, matching the data such as the category, the weight, the volume and the like of the commodity object with the data such as the transportation limit and the like in the distribution logistics provider information, and further determining the distribution logistics provider.

In this example, the process of the second server notifying the logistics provider to perform the logistics operation may include:

firstly, the second server sends a fifth notice according to the warehouse logistics provider information of the logistics route information, the fifth notice indicates the warehouse logistics provider to go to the warehouse of the warehouse logistics provider for delivery and delivery, the goods are sent to a receiving address from the warehouse, the signing and the like are completed, after the completion, the warehouse logistics provider feeds back a sixth logistics information message to the second server, the second server receives the sixth logistics information message, and the sixth logistics information message indicates that the goods are sent to the receiving place.

In the above flow, the second server further sends the fifth logistics information and the sixth logistics information to the first server in real time, the first server may further provide a delivery notification message to the first user terminal after receiving the sixth logistics information, and the first user terminal displays the delivery notification message to the first user to prompt that the first user commodity is delivered and logistics is completed.

EXAMPLE five

As shown in fig. 7, the present embodiment provides a logistics data processing apparatus, including:

a first providing unit 71, configured to provide a plurality of first logistics objects, where each of the first logistics objects is associated with at least one second logistics object, and each of the second logistics objects is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

a first receiving unit 72, configured to receive a logistics order message from a first server, where the logistics order message includes an identifier of a selected first logistics object, shipping address information, and receiving address information;

a first determining unit 73, configured to determine at least one second logistics object according to the identifier of the selected first logistics object;

a first sending unit 74, configured to return the identification information of the second stream object to the first server.

The first determining unit 73 may be further configured to determine, after the determining of the at least one second logistics object, a logistics route and logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information; the first sending unit 74 may be further configured to, when the identification information of the second stream object is returned to the first server, return stream line information determined according to the second stream object to the first server.

The first receiving unit 72 is further configured to receive a logistics confirmation message from the first server; the first determining unit 73 may be further configured to determine logistics route information to be finally used according to the second logistics object identifier in the logistics confirmation message.

In one implementation, the first sending unit 74 is further configured to send a notification to a corresponding logistics provider according to the logistics route information finally used by the first determining unit, so that the logistics provider performs a logistics operation.

In an implementation manner, the first receiving unit 72 is further configured to receive logistics information fed back by the logistics provider, where the logistics information is used to describe a current logistics execution state; the first sending unit 74 is further configured to return a logistics state message to the first server, where the logistics state message includes the logistics information.

In one implementation, the first determining unit 73 may be configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information, and includes: determining first logistics provider information according to the receiving address information and the determined second logistics object, wherein the first logistics provider is used for providing delivery service of a receiving place; determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information, wherein the second logistics provider is used for providing clearance services, and the third logistics provider is used for providing transfer services; determining fourth logistics provider information according to the address of the collecting bin and the shipping address information in the third logistics provider information, wherein the fourth logistics provider is used for providing delivery service from a shipping place to the collecting bin; and obtaining logistics line information corresponding to the second logistics object according to the first logistics provider information, the second logistics provider information, the third logistics provider information and the fourth logistics provider information, wherein the logistics line information comprises a shipping address, a collecting and transporting bin address, a transportation mode of transportation, a clearance port and a receiving address. Wherein the logistics order message further comprises: commodity object information; the first determining unit 73 may be configured to determine second stream provider information and third stream provider information, and includes: and determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information and the commodity object information.

In one implementation, the logistics order message further includes: commodity object information; the first determining unit 73 may be configured to determine the logistics route and the logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information, and includes: determining fifth logistics provider information according to warehouse data in the shipping address information and the commodity object information, wherein the fifth logistics provider is used for providing warehousing services; and determining sixth logistics provider information according to the determined second logistics object and the receiving address information, wherein the sixth logistics provider is used for providing delivery service.

In this embodiment, the first providing unit 71, the first receiving unit 72, the first determining unit 73, and the first sending unit 74 may be software, hardware, or a combination of the two. The logistics data processing device can be a server or a computing device with similar functions. In one implementation, the logistics data processing apparatus may be a server, a server cluster, a computing device, a cluster formed by computing devices, and the like in a logistics system.

EXAMPLE six

As shown in fig. 8, the present application further provides an apparatus for pushing logistics information, including:

a second providing unit 81 for providing at least one first logistics object to the first user terminal; and providing the identification information of the at least one second stream object received by the second receiving unit 83 to the first user terminal;

a first generating unit 82, configured to generate a logistics order message according to a first confirmation message from the first user terminal, and send the logistics order message to a second server, where the logistics order message includes an identifier and receiving address information of the selected first logistics object, and shipping address information corresponding to the identifier of the second user;

the second receiving unit 83 is configured to receive the identification information of the at least one second stream object returned by the second server.

The second receiving unit 83 is further configured to receive logistics route information returned by the second server when receiving identification information of at least one second logistics object returned by the second server; the second providing unit 81 may be further configured to provide the logistics route information to the first user terminal when the identification information of the at least one second logistics object is provided to the first user terminal.

In one implementation manner, the second receiving unit 83 is further configured to receive an order message from the first user terminal, where the order message includes information of a commodity object; the second providing unit 81 may be configured to provide at least one first logistics object to the first user terminal according to the commodity object information in the order message.

In an implementation manner, the second receiving unit 83 is further configured to receive a subscription message from the first user terminal, where the subscription message includes a first user identifier and an identifier of a second user; the apparatus for pushing physical information may further include: a second determining unit 84 operable to determine shipping address information based on the first user identification; determining shipping address information according to the identifier of the second user; the second providing unit 81 may be configured to provide at least one first logistics object to the first user terminal according to the receiving address information and the delivering address information.

In one implementation manner, the second receiving unit 83 is further configured to receive an order message from the first user terminal, where the order message includes commodity object information, a second user identifier, and a first user identifier; the apparatus for pushing physical information may further include: a second determining unit 84 operable to determine shipping address information based on the first user identification; determining shipping address information according to the identifier of the second user; the second providing unit 81 may be further configured to provide at least one first logistics object to the first user terminal according to the commodity object information, and the receiving address information and the delivering address information.

In an implementation manner, the second receiving unit 83 is further configured to receive a second confirmation message from the first user terminal, where the second confirmation message includes an identifier of the selected second stream object; the first generating unit 82 may be further configured to generate a logistics confirmation message and send the logistics confirmation message to the second server, where the logistics confirmation message includes an identifier of the selected second logistics object.

In an implementation manner, the second receiving unit 83 is further configured to receive a logistics state message returned by the second server, where the logistics state message includes logistics information, and the logistics information is used to describe a current logistics execution state; the second providing unit 81 may be further configured to provide the logistics information to the first user terminal.

In this embodiment, the second providing unit 81, the first generating unit 82, the second receiving unit 83, and the second determining unit 84 may be software, hardware, or a combination of the two. The device for pushing logistics information can be a server or a computing device with similar functions. In one implementation, the device for pushing logistics information may be a server, a server cluster, a computing device, a cluster formed by computing devices, and the like in an e-commerce platform.

EXAMPLE seven

As shown in fig. 9, the present application also provides a device for displaying logistics information, including:

a presentation unit 91, configured to present identification information of at least one first logistics object provided by the first server; the identification information of at least one second stream object provided by the first server is displayed;

a second sending unit 92, configured to send a first confirmation message to the first server, where the first confirmation message includes an identifier of the selected first logistics object, the receiving address information, and an identifier of the second user.

In one implementation, the second sending unit 92 is further configured to send an order message to the first server, where the order message includes commodity object information, a first user identifier, and a second user identifier, so that the first server determines the at least one first logistics object.

Specifically, the displaying unit 91 may be configured to display the identification information of the at least one second logistics object provided by the first server and the logistics route information determined according to the second logistics object. The second sending unit 92 may be further configured to send a second confirmation message to the first server, where the second confirmation message includes an identifier of the selected second stream object.

In an implementation manner, the displaying unit 91 may further be configured to display logistics information provided by the first server, where the logistics information is used to describe a current logistics execution state.

In this embodiment, the presentation unit 91 and the second sending unit 92 may be software, hardware, or a combination of the two. In practical applications, the device for displaying logistics information may be implemented by a user terminal, and the user terminal may be a browser or an application running on a PC, a mobile terminal, or other devices.

In addition, the embodiment of the application also provides a computer-readable storage medium, which stores computer-executable instructions, and the computer-executable instructions realize the logistics data processing method when being executed.

In addition, a computer-readable storage medium is provided, which stores computer-executable instructions, and when the computer-executable instructions are executed, the method for pushing logistics information is implemented.

In addition, a computer-readable storage medium is provided in an embodiment of the present application, and stores computer-executable instructions, and the computer-executable instructions, when executed, implement the method for displaying logistics information.

It will be appreciated by those skilled in the art that the components of the apparatus and steps of the method provided in the embodiments of the present application described above may be centralized on a single computing device or distributed across a network of multiple computing devices. Alternatively, they may be implemented in program code executable by a computing device. Thus, they may be stored in a memory device for execution by a computing device, or they may be separately fabricated as individual integrated circuit modules, or multiple modules or steps thereof may be fabricated as a single integrated circuit module for implementation. Thus, the present application is not limited to any specific combination of hardware and software.

Although the embodiments disclosed in the present application are described above, the descriptions are only for the convenience of understanding the present application, and are not intended to limit the present application. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.

Claims (43)

1. A logistics data processing method comprises the following steps:

providing a plurality of first logistics objects, wherein each first logistics object is associated with at least one second logistics object, and each second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, delivery address information and receiving address information;

determining at least one second logistics object according to the selected identification of the first logistics object;

and returning the identification information of the second stream object to the first server.

2. The logistics data processing method of claim 1,

after the determining at least one second stream object, the method further includes: determining a logistics line and logistics provider information according to the determined second logistics object, the delivery address information and the receiving address information;

when the identification information of the second stream object is returned to the first server, the method further includes: and returning the logistics route information determined according to the second logistics object to the first server.

3. The logistics data processing method of claim 1 or 2, further comprising, after returning the identification of the second logistics object and the logistics route information: and receiving the logistics confirmation message from the first server, and determining the finally used logistics route information according to the second logistics object identifier in the logistics confirmation message.

4. The logistics data processing method of claim 3, wherein after determining the logistics route information for final use, further comprising:

and sending a notice to a corresponding logistics provider according to the finally used logistics line information so that the logistics provider can execute logistics operation.

5. The logistics data processing method of claim 4, further comprising, after the notification is sent to the corresponding logistics provider:

and receiving logistics information fed back by the logistics provider, and returning a logistics state message to the first server, wherein the logistics state message comprises the logistics information, and the logistics information is used for describing the current logistics execution state.

6. The logistics data processing method of claim 2,

the determining the logistics line and the logistics provider information according to the determined second logistics object, the shipping address information and the receiving address information includes:

determining first logistics provider information according to the receiving address information and the determined second logistics object, wherein the first logistics provider is used for providing delivery service of a receiving place;

determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information, wherein the second logistics provider is used for providing clearance services, and the third logistics provider is used for providing transfer services;

determining fourth logistics provider information according to the address of the collecting bin and the shipping address information in the third logistics provider information, wherein the fourth logistics provider is used for providing delivery service from a shipping place to the collecting bin;

and obtaining logistics line information corresponding to the second logistics object according to the first logistics provider information, the second logistics provider information, the third logistics provider information and the fourth logistics provider information, wherein the logistics line information comprises a shipping address, a collecting and transporting bin address, a transportation mode of transportation, a clearance port and a receiving address.

7. The logistics data processing method of claim 6,

the logistics order message further comprises: commodity object information;

the determining the second stream provider information and the third stream provider information includes:

and determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information and the commodity object information.

8. The logistics data processing method of claim 2,

the logistics order message further comprises: commodity object information;

the determining the logistics line and the logistics provider information according to the determined second logistics object, the shipping address information and the receiving address information includes:

determining fifth logistics provider information according to warehouse data in the shipping address information and the commodity object information, wherein the fifth logistics provider is used for providing warehousing services;

and determining sixth logistics provider information according to the determined second logistics object and the receiving address information, wherein the sixth logistics provider is used for providing delivery service.

9. A logistics data processing apparatus comprising:

the system comprises a first providing unit, a second providing unit and a display unit, wherein the first providing unit is used for providing a plurality of first logistics objects, the first logistics objects are associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

a first receiving unit, configured to receive a logistics order message from a first server, where the logistics order message includes an identifier of a selected first logistics object, shipping address information, and receiving address information;

the first determining unit is used for determining at least one second logistics object according to the selected identification of the first logistics object;

and the first sending unit is used for returning the identification information of the second stream object to the first server.

10. The physical distribution data processing apparatus according to claim 9,

the first determining unit is further configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information and the receiving address information after the at least one second logistics object is determined;

the first sending unit is further configured to return logistics route information determined according to the second logistics object to the first server when the identification information of the second logistics object is returned to the first server.

11. The physical distribution data processing apparatus according to claim 9 or 10,

the first receiving unit is further configured to receive a logistics confirmation message from the first server;

the first determining unit is further configured to determine finally-used logistics route information according to the second logistics object identifier in the logistics confirmation message.

12. The physical distribution data processing apparatus according to claim 11,

the first sending unit is further configured to send a notification to a corresponding logistics provider according to the logistics route information finally used by the first determining unit, so that the logistics provider can perform logistics operation.

13. The physical distribution data processing apparatus according to claim 12,

the first receiving unit is further configured to receive logistics information fed back by the logistics provider, where the logistics information is used to describe a current logistics execution state;

the first sending unit is further configured to return a logistics state message to the first server, where the logistics state message includes the logistics information.

14. The physical distribution data processing apparatus according to claim 10,

the first determining unit is configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information, and the receiving address information, and includes:

determining first logistics provider information according to the receiving address information and the determined second logistics object, wherein the first logistics provider is used for providing delivery service of a receiving place;

determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information, wherein the second logistics provider is used for providing clearance services, and the third logistics provider is used for providing transfer services;

determining fourth logistics provider information according to the address of the collecting bin and the shipping address information in the third logistics provider information, wherein the fourth logistics provider is used for providing delivery service from a shipping place to the collecting bin;

and obtaining logistics line information corresponding to the second logistics object according to the first logistics provider information, the second logistics provider information, the third logistics provider information and the fourth logistics provider information, wherein the logistics line information comprises a shipping address, a collecting and transporting bin address, a transportation mode of transportation, a clearance port and a receiving address.

15. The physical distribution data processing apparatus according to claim 14,

the logistics order message further comprises: commodity object information;

the first determination unit is configured to determine second stream provider information and third stream provider information, and includes: and determining second logistics provider information and third logistics provider information according to clearance data in the first logistics provider information and the commodity object information.

16. The physical distribution data processing apparatus according to claim 10,

the logistics order message further comprises: commodity object information;

the first determining unit is configured to determine a logistics route and logistics provider information according to the determined second logistics object, the shipping address information, and includes: determining fifth logistics provider information according to warehouse data in the shipping address information and the commodity object information, wherein the fifth logistics provider is used for providing warehousing services; and determining sixth logistics provider information according to the determined second logistics object and the receiving address information, wherein the sixth logistics provider is used for providing delivery service.

17. A logistics data processing device comprises a processor and a memory; the storage is used for storing a program for processing logistics data; when being read and executed by the processor, the program for logistics data processing performs the following operations:

providing a plurality of first logistics objects, wherein each first logistics object is associated with at least one second logistics object, and each second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information;

receiving a logistics order message from a first server, wherein the logistics order message comprises an identifier of a selected first logistics object, delivery address information and receiving address information;

determining at least one second logistics object according to the selected identification of the first logistics object;

and returning the identification information of the second stream object to the first server.

18. A method for pushing logistics information comprises the following steps:

providing at least one first logistics object to a first user terminal;

generating a logistics order message according to a first confirmation message from the first user terminal, and sending the logistics order message to a second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal;

wherein the first logistics object is associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information.

19. The method according to claim 18, wherein the receiving and providing the identification information of the at least one second stream object returned by the second server to the first user terminal comprises:

receiving identification information of at least one second logistics object returned by the second server and logistics route information determined according to the second logistics object;

and providing the identification information of the at least one second logistics object and the logistics route information determined according to the second logistics object to the first user terminal.

20. The method of claim 18, wherein providing the at least one first logistics object to the first user terminal comprises:

receiving an order message from the first user terminal, wherein the order message comprises commodity object information;

and providing at least one first logistics object to the first user terminal according to the commodity object information.

21. The method of claim 18, wherein providing the at least one first logistics object to the first user terminal comprises:

receiving an order message from the first user terminal, wherein the order message comprises a first user identifier and a second user identifier;

determining receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user;

and providing at least one first logistics object to the first user terminal according to the receiving address information and the delivery address information.

22. The method of claim 18, wherein providing the at least one first logistics object to the first user terminal comprises:

receiving an order message from the first user terminal, wherein the order message comprises commodity object information, a second user identifier and a first user identifier;

determining receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user;

and providing at least one first logistics object to the first user terminal according to the commodity object information, the receiving address information and the delivery address information.

23. The method according to claim 18 or 19, wherein after receiving the identification information of the at least one second stream object returned by the second server and providing the identification information to the first user terminal, the method further comprises:

receiving a second confirmation message from the first user terminal, wherein the second confirmation message comprises an identifier of the selected second stream object;

and generating a logistics confirmation message and sending the logistics confirmation message to the second server, wherein the logistics confirmation message comprises the identifier of the selected second logistics object.

24. The method of claim 23, wherein after generating and sending the logistics confirmation message to the second server, further comprising:

receiving logistics state information returned by the second server, wherein the logistics state information comprises logistics information, and the logistics information is used for describing the current logistics execution state;

and providing the logistics information to the first user terminal.

25. An apparatus for pushing logistics information, comprising:

a second providing unit for providing at least one first logistics object to the first user terminal; and providing the identification information of the at least one second stream object received by the second receiving unit to the first user terminal;

the first generating unit is used for generating a logistics order message according to a first confirmation message from the first user terminal and sending the logistics order message to the second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

a second receiving unit, configured to receive identification information of at least one second stream object returned by the second server;

wherein the first logistics object is associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information.

26. The apparatus of claim 25,

the second receiving unit is further configured to receive logistics route information returned by the second server when receiving identification information of at least one second logistics object returned by the second server;

the second providing unit is further configured to provide the logistics route information to the first user terminal when the identification information of the at least one second logistics object is provided to the first user terminal.

27. The apparatus of claim 25,

the second receiving unit is further configured to receive an order message from the first user terminal, where the order message includes commodity object information;

the second providing unit is used for providing at least one first logistics object to the first user terminal according to the commodity object information in the ordering message.

28. The apparatus of claim 25,

the second receiving unit is further configured to receive a subscription message from the first user terminal, where the subscription message includes a first user identifier and an identifier of a second user;

further comprising: the second determining unit is used for determining the receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user;

the second providing unit is configured to provide at least one first logistics object to the first user terminal according to the receiving address information and the delivery address information.

29. The apparatus of claim 25,

the second receiving unit is further configured to receive an order message from the first user terminal, where the order message includes commodity object information, a second user identifier, and a first user identifier;

further comprising: the second determining unit is used for determining the receiving address information according to the first user identification; determining shipping address information according to the identifier of the second user;

the second providing unit is further configured to provide at least one first logistics object to the first user terminal according to the commodity object information, the receiving address information, and the delivery address information.

30. The apparatus of claim 25 or 26,

the second receiving unit is further configured to receive a second confirmation message from the first user terminal, where the second confirmation message includes an identifier of the selected second stream object;

the first generating unit is further configured to generate a logistics confirmation message and send the logistics confirmation message to the second server, where the logistics confirmation message includes the identifier of the selected second logistics object.

31. The apparatus of claim 30,

the second receiving unit is further configured to receive a logistics state message returned by the second server, where the logistics state message includes logistics information, and the logistics information is used to describe a current logistics execution state;

the second providing unit is further configured to provide the logistics information to the first user terminal.

32. An apparatus for pushing logistics information, comprising: a processor and a memory; the storage is used for storing a program used for pushing logistics information; when the program for pushing logistics information is read and executed by the processor, the following operations are performed:

providing at least one first logistics object to a first user terminal;

generating a logistics order message according to a first confirmation message from the first user terminal, and sending the logistics order message to a second server, wherein the logistics order message comprises an identifier and receiving address information of the selected first logistics object and delivery address information corresponding to the identifier of the second user;

receiving the identification information of at least one second stream object returned by the second server and providing the identification information to the first user terminal;

wherein the first logistics object is associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information.

33. A method for displaying logistics information comprises the following steps:

displaying identification information of at least one first logistics object provided by a first server;

sending a first confirmation message to the first server, wherein the first confirmation message comprises the identification of the selected first logistics object, the receiving address information and the identification of the second user;

displaying identification information of at least one second stream object provided by the first server;

wherein the first logistics object is associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information.

34. The method of claim 33, wherein before displaying the identification information of the at least one first logistics object provided by the first server, the method further comprises:

and sending an order message to the first server, wherein the order message comprises commodity object information, a first user identification and an identification of a second user, so that the first server determines the at least one first logistics object.

35. The method of claim 33, wherein the presenting the identification information of the at least one second stream object provided by the first server comprises:

and displaying the identification information of the at least one second logistics object provided by the first server and the logistics route information determined according to the second logistics object.

36. The method according to claim 33 or 35, wherein after presenting the identification information of the at least one second stream object provided by the first server, further comprising:

sending a second confirmation message to the first server, the second confirmation message containing an identification of the selected second stream object.

37. The method of claim 36, wherein after sending the second acknowledgement message to the first server, further comprising:

and displaying logistics information provided by the first server, wherein the logistics information is used for describing the current logistics execution state.

38. An apparatus for displaying logistics information, comprising:

the display unit is used for displaying the identification information of at least one first logistics object provided by the first server; the identification information of at least one second stream object provided by the first server is displayed;

a second sending unit, configured to send a first confirmation message to the first server, where the first confirmation message includes an identifier of the selected first logistics object, shipping address information, and an identifier of a second user;

wherein the first logistics object is associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information.

39. The apparatus of claim 38,

the second sending unit is further configured to send an order message to the first server, where the order message includes commodity object information, a first user identifier, and a second user identifier, so that the first server determines the at least one first logistics object.

40. The apparatus of claim 39,

the display unit is configured to display the identification information of the at least one second logistics object provided by the first server and logistics route information determined according to the second logistics object.

41. The apparatus of claim 38 or 40,

the second sending unit is further configured to send a second confirmation message to the first server, where the second confirmation message includes an identifier of the selected second stream object.

42. The apparatus of claim 41,

the display unit is further configured to display logistics information provided by the first server, where the logistics information is used to describe a current logistics execution state.

43. An apparatus for displaying logistics information, comprising: a processor and a memory; the storage is used for storing a program for displaying logistics information; when the program for displaying logistics information is read and executed by the processor, the following operations are performed:

displaying identification information of at least one first logistics object provided by a first server;

sending a first confirmation message to the first server, wherein the first confirmation message comprises the identification of the selected first logistics object, the receiving address information and the identification of the second user;

displaying identification information of at least one second stream object provided by the first server;

wherein the first logistics object is associated with at least one second logistics object, and the second logistics object is associated with at least one logistics provider information; the first logistics object comprises transportation mode information, and the second logistics object comprises receiving mode information.

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