CN106815695B

CN106815695B - Information processing method and device in object transmission

Info

Publication number: CN106815695B
Application number: CN201510846448.XA
Authority: CN
Inventors: 杨洋
Original assignee: Cainiao Smart Logistics Holding Ltd
Current assignee: Cainiao Smart Logistics Holding Ltd
Priority date: 2015-11-27
Filing date: 2015-11-27
Publication date: 2021-03-26
Anticipated expiration: 2035-11-27
Also published as: CN106815695A

Abstract

The application provides an information processing method and device in object transmission. The method comprises the following steps: the first server receives an authentication request sent by the second user equipment in response to receiving a first payment message and a second payment message of the first user equipment; sending an authentication message to second user equipment, wherein the authentication message is used for triggering the second user equipment to send an object transmission request; in a case where the object transfer request of the second user equipment is received, the second server is notified to transfer the object to the destination specified by the first payment request and the second payment request. The application solves the problem of network security of transactions between distributors and suppliers in a future reservation scenario of distribution.

Description

Information processing method and device in object transmission

Technical Field

The present application relates to the field of computers, and in particular, to an information processing method and apparatus in object transmission.

Background

Futures booking mode is an innovative supply mode that improves supply chain circulation efficiency, i.e., a booking mode in which supplies are done in advance when objects have not entered the warehouse or even been produced. It is characterized by that it generally requires user to send payment message twice. The first time, the payment of the subscription is successful, and a subscription payment message is sent; and the second time, the payment of the tail money is successful, and a tail money payment message is sent. After the purchase intention is determined by paying a certain proportion of fixed money (usually about 10%) by the user, the supplier reproduces and warehouses the goods, and the goods are sent to a logistics node closer to the destination specified by the user through a logistics network. After the user pays the tail money, the object can be quickly released to the user from the logistics node closer to the destination. For the supplier, the mode of futures reservation is that the futures are put in storage after the user is determined to need to purchase, so that the time of the object in storage can be reduced, the stock turnover rate is improved, and the efficiency of the whole supply chain is improved; for the user, the payment of the tail money can quickly receive the object, the receiving time is greatly shortened, and the win-win situation of both parties is realized.

Distribution refers to a vendor adding sales channels to the distributor with right-of-sale agents, and the distributor earns a spread in purchase price between the vendor and the user. This model is widely used because it can help suppliers to expand sales channels. Problems arise in the prior art if distribution is to be effected in futures reservation mode. When the distribution is realized in the futures reservation mode, the electronic commerce platform monitors the subscription sent by the user and informs the logistics platform to transmit the object to the logistics node closer to the destination specified by the user. Then, after monitoring the end payment sent by the user, the logistics platform cannot be informed to send the object to the user from the logistics node closer to the destination, because the distributor has not paid the supplier. If the electronic commerce platform monitors the tail money sent by the user, the logistics platform is informed to deliver the goods, and if the distributor does not pay for the supplier, the distributor loses the goods. But if the distributor is given the option to pay the supplier after receiving the customer's payment, the supplier may feel insecure because the supplier does not acknowledge that a loss will be incurred by the distributor if the supplier pays the payment. Therefore, in the future reservation scenario of distribution, the network security problem of the transaction between the distributor and the supplier becomes a problem to be solved urgently.

Disclosure of Invention

One of the technical problems solved by the present application is to solve the network security problem of the transaction between the distributor and the supplier in the future reservation scenario of distribution.

According to an embodiment of the present application, there is provided an information processing method in object transfer, including: the first server receives an authentication request sent by the second user equipment in response to receiving a first payment message and a second payment message of the first user equipment; sending an authentication message to second user equipment, wherein the authentication message is used for triggering the second user equipment to send an object transmission request; in a case where the object transfer request of the second user equipment is received, the second server is notified to transfer the object to the destination specified by the first payment request and the second payment request.

According to an embodiment of the present application, there is provided an information processing method in object transfer, including: the second server transmits the object to the transit node in the case of receiving a notification from the first server that the first payment message of the first user equipment is monitored; in the case of receiving a notification from the first server that an object transfer request of the second user equipment generated from an authentication message issued by the first server in response to an authentication request of the second user equipment generated in response to the reception of the second payment message has been received, the object is transferred from the transit node to a destination specified by the first payment message and the second payment message.

According to an embodiment of the present application, there is provided an information processing method in object transfer, including: the second user equipment sends an authentication request to the first server in response to receiving the first payment message and a second payment message after the first payment message; receiving an authentication message from a first server; and sending an object transmission request to the first server according to the authentication message so that the first server informs the second server to transmit the object to the destination specified by the first payment request and the second payment request.

According to an embodiment of the present application, there is provided an information processing method in object transfer, including: the first user equipment sends a first payment message to the second user equipment; sending a second payment message to the second user equipment, the second payment message triggering the second user equipment to send an authentication request to the first server, receiving the authentication message from the first server, and sending an object transmission request to the first server according to the authentication message, so that the first server informs the second server to transmit the object to a destination specified by the first payment request and the second payment request.

According to an embodiment of the present application, there is provided an information processing apparatus in object transfer, including: an authentication request receiving unit configured to receive an authentication request transmitted by a second user equipment in response to receiving a first payment message and a second payment message subsequent to the first payment message of the first user equipment; the authentication message sending unit is used for sending an authentication message to the second user equipment, wherein the authentication message is used for triggering the second user equipment to send an object transmission request; a destination transfer notification unit configured to notify the second server to transfer the object to the destination specified by the first payment request and the second payment request, in a case where the object transfer request of the second user equipment is received.

According to an embodiment of the present application, there is provided an information processing apparatus in object transfer, including: an object transfer to transit node transmitting unit that transmits the object to the transit node in a case where a notification of monitoring of the first payment message to the first user equipment is received from the first server; and an object-to-destination transmission unit that, in a case where a notification from the first server that an object transmission request of the second user device has been received is received, transmits the object from the transit node to a destination specified by the first payment message and the second payment message, wherein the object transmission request of the second user device is generated from an authentication message issued by the first server in response to an authentication request of the second user device generated by the second user device in response to receiving the second payment message.

According to an embodiment of the present application, there is provided an information processing apparatus in object transfer, including: an authentication request sending unit, configured to send an authentication request to the first server in response to receiving a first payment message and a second payment message that follows the first payment message of the first user equipment; an authentication message receiving unit for receiving an authentication message from a first server; an object transfer request issuing unit configured to issue an object transfer request to the first server according to the authentication message so that the first server notifies the second server to transfer the object to a destination specified by the first payment request and the second payment request.

According to an embodiment of the present application, there is provided an information processing apparatus in object transfer, including: a first payment message sending unit, configured to send a first payment message to a second user equipment; and the second payment message sending unit is used for sending a second payment message to the second user equipment, triggering the second user equipment to send an authentication request to the first server, receiving the authentication message from the first server, and sending an object transmission request to the first server according to the authentication message so that the first server informs the second server to transmit the object to a destination specified by the first payment request and the second payment request.

In the embodiment of the present application, when distribution is implemented in the futures reservation mode, after the second user device (distributor terminal) receives the second payment message (tail) sent by the first user device (user terminal), the third user device (provider terminal) is not falsely paid, but an authentication request is sent to the first server, if the authentication message of the first server indicates that it is safe to pay the distributor, payment can be made, and only after the distributor pays, the object can be transmitted to the user, thereby solving the security problem of the transaction network between the distributor and the provider in the futures reservation scenario of distribution.

It will be appreciated by those of ordinary skill in the art that although the following detailed description will proceed with reference being made to illustrative embodiments, the present application is not intended to be limited to these embodiments. Rather, the scope of the application is broad and is intended to be defined only by the claims that follow.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a general block diagram of an object delivery architecture as applied by one embodiment of the present application.

Fig. 2 is a flowchart of an information processing method in object transfer on the first server side according to an embodiment of the present application.

Fig. 3 is a flowchart of an information processing method in object transfer on the first server side according to another embodiment of the present application.

Fig. 4 is a flowchart of an information processing method in object transfer at the second server side according to an embodiment of the present application.

Fig. 5 is a flowchart of an information processing method in object transmission at the second user equipment side according to an embodiment of the present application.

Fig. 6 is a flowchart of an information processing method in object transmission on the first user equipment side according to an embodiment of the present application.

Fig. 7 is a block diagram of an information processing apparatus in object transfer on the first server side according to an embodiment of the present application.

Fig. 8 is a block diagram of an information processing apparatus in object transfer on the first server side according to another embodiment of the present application.

Fig. 9 is a block diagram of an information processing apparatus in object transfer on the second server side according to an embodiment of the present application.

Fig. 10 is a block diagram of an information processing apparatus in object transmission on the second user equipment side according to an embodiment of the present application.

Fig. 11 is a block diagram of an information processing apparatus in object transmission on the first user equipment side according to an embodiment of the present application.

Detailed Description

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations as a sequential process, many of the operations can be performed in parallel, concurrently, or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

The computer equipment comprises user equipment and network equipment. Wherein the user equipment includes but is not limited to computers, smart phones, PDAs, etc.; the network device includes, but is not limited to, a single network server, a server group consisting of a plurality of network servers, or a Cloud Computing (Cloud Computing) based Cloud consisting of a large number of computers or network servers, wherein Cloud Computing is one of distributed Computing, a super virtual computer consisting of a collection of loosely coupled computers. The computer equipment can be independently operated to realize the application, and can also be accessed into a network to realize the application through the interactive operation with other computer equipment in the network. The network in which the computer device is located includes, but is not limited to, the internet, a wide area network, a metropolitan area network, a local area network, a VPN network, and the like.

It should be noted that the user equipment, the network device, the network, etc. are only examples, and other existing or future computer devices or networks may also be included in the scope of the present application, if applicable, and are included by reference.

The methods discussed below, some of which are illustrated by flow diagrams, may be implemented by hardware, software, firmware, middleware, microcode, hardware description languages, or any combination thereof. When implemented in software, firmware, middleware or microcode, the program code or code segments to perform the necessary tasks may be stored in a machine or computer readable medium such as a storage medium. The processor(s) may perform the necessary tasks.

Specific structural and functional details disclosed herein are merely representative and are provided for purposes of describing example embodiments of the present application. This application may, however, be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element may be termed a second element, and, similarly, a second element may be termed a first element, without departing from the scope of example embodiments. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may be present. In contrast, when an element is referred to as being "directly connected" or "directly coupled" to another element, there are no intervening elements present. Other words used to describe the relationship between elements (e.g., "between" versus "directly between", "adjacent" versus "directly adjacent to", etc.) should be interpreted in a similar manner.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It should also be noted that, in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed substantially concurrently, or the figures may sometimes be executed in the reverse order, depending upon the functionality/acts involved.

FIG. 1 is a general block diagram of an object delivery architecture as applied by one embodiment of the present application. The provisioning architecture includes a first user device 60, a second user device 20, a third user device 30, a first server 10, a second server 40, and a transit node 50.

In one embodiment, the first user device 60 is a terminal of a user, the second user device 20 is a terminal of a distributor, the third user device 30 is a terminal of a provider, the first server 10 is an e-commerce website server (hereinafter, referred to as "e-commerce server"), the second server 40 is a logistics service provider server (hereinafter, referred to as "logistics server"), the node is a logistics warehouse in a logistics hierarchy of the logistics server provider, and the transit node is a logistics warehouse in the logistics hierarchy for temporarily storing an object to be dropped to the user. The object may be an item in a futures booking or may be a message, as it may also be the case that a booking is made in advance for a message. That is, a "good" in a futures order may refer to a tangible entity, such as an item, or may refer to an intangible item, such as an electronic magazine or an enterprise data analysis results package.

Fig. 2 shows an information processing method in object transmission on the first server (e-commerce server) 10 side according to an embodiment of the present application. The method comprises the following steps: s110, the first server receives an authentication request sent by the second user equipment in response to receiving a first payment message and a second payment message of the first user equipment; s120, sending an authentication message to the second user equipment, wherein the authentication message is used for triggering the second user equipment to send an object transmission request; and S130, when the object transmission request of the second user equipment is received, informing the second server to transmit the object to the destination specified by the first payment request and the second payment request. These steps are described in detail below.

In step S110, the first server receives an authentication request sent by the second user device in response to receiving a first payment message and then a second payment message of the first user device.

In one embodiment, the first payment message is a subscription payment message and the second payment message is a payment-for-the-end message. The distributor sells the object for the supplier agent. The e-commerce platform of the first server (e.g., an e-commerce server) exposes, for each distributor, the objects of the suppliers that its agent sells, respectively. That is, detailed information (e.g., pictures, specifications, instructions for use, price, source, etc.) of the objects of the suppliers that the distributors proxy to sell will be updated from the suppliers to the spaces of the corresponding distributors in the e-commerce platform. The user logs on the e-commerce platform and sees the detailed information of the supplier's objects sold by the distributor agent. When the user sees the detailed information of the object and wants to make a futures reservation, a deposit payment is made through a first user device (the user's terminal) and a first payment message is sent to a second user device (the distributor's terminal). When the user wants to receive the object of futures reservation, a payment for the end is made through the first user device, and a second payment message is sent to the second user device (the distributor's terminal). And after receiving the first payment message and the second payment message, the second user equipment (the terminal of the distributor) sends an authentication request to the first server (the E-commerce server). The authentication request is used to request the first server to authenticate whether it is safe for the distributor to pay the supplier.

In step S120, an authentication message is sent to the second user equipment, where the authentication message is used to trigger the second user equipment to send an object transmission request.

In one embodiment, after the first server receives the authentication request of the second user device, the first server verifies that the supplier is legally registered in the first server or the e-commerce platform according to the supplier to which the authentication request is directed, and verifies that the supplier and a distribution agent relationship of the distributor are registered in the first server or the e-commerce platform. If the supplier is legally registered in the first server and the relation of the supplier and a distribution agent of the distributor is registered in the first server, an authentication message indicating that the authentication is successful is sent, and it is safe to pay the supplier on behalf of the distributor. If the supplier is not legally registered with the first server or the supplier's distribution agent relationship with the distributor is not registered with the first server, an authentication message indicating authentication failure is sent, and the supplier is paid with risks on behalf of the distributor. Only when the second user device receives an authentication message indicating that the authentication is successful from the first server, the second user device pays the third user device (the terminal of the provider) and issues an object transmission request, that is, the object can be shipped to the user.

Another meaning of the authentication message is that it acts as a purchase voucher containing the price paid by the second user device to the third user device, since the distribution is in the sense that the distributor can earn the price difference between the amount paid by the user and the amount received by the supplier. The amount paid by the user (subscription + payment) is greater than the amount paid by the distributor to the supplier, and the distribution is meaningful. The first server looks up the supplier registered at the first server in contract with a distribution agency of the distributor, determines an amount the distributor pays the supplier, and allows the distributor to pay the supplier according to the amount.

In step S130, in the case where the object transfer request of the second user equipment is received, the second server is notified to transfer the object to the destination specified by the first payment request and the second payment request.

That is, in the case where the object transmission request is issued by the second user device when the distributor pays the supplier, the first server (e-commerce server) receives the object transmission request, and notifies the second server (logistics server) of transmission of the object to the destination specified by the first payment request and the second payment request. Since the supplier has entrusted the storage, transportation, shipment, etc. of the object to the logistics platform in advance, the object can be directly transmitted to the destination through the second server without being transmitted through the supplier.

In case the user subscribes to the object for himself, the destination specified by the first payment request and the second payment request is the address of the user, which may be filled in at the first user device when the user sends the first payment message and the second payment message on the first user device. In case the user subscribes to the object for another person, the addresses of the other person, which are the destinations specified by the first and second payment requests, may be filled in at the first user device when the user sends the first and second payment messages on the first user device.

In addition, in another embodiment of the present application, as shown in fig. 3, before step S110, the method further includes step S108 of notifying the second server to transmit the object to the transit node in case of monitoring the first payment message of the first user equipment. In addition, step S130 further includes: notifying a second server to transfer the object from the transit node to the destination.

The first payment message is sent by the first user equipment to the second user equipment, but is generated in response to the user selecting and filling out the E-commerce page in the process of the user interaction with the E-commerce platform, and is necessarily supervised by the first server. In case the first server monitors the first payment message, the second server, i.e. the logistics server, is informed to transmit the object to the transit node. This has the advantage that when the user pays the trailer and the distributor also pays the supplier, the object can be directly transferred from the transit node to the destination in step S130, reducing user waiting time and improving shipping efficiency.

In one embodiment, the transit node is the logistics node closest to the destination. This has the advantage of maximizing the reduction in the waiting time for delivery after the customer pays the trailer, since the closer the transit node is to the destination, the faster the delivery and the more efficient it is.

In one embodiment of the present application, there is also an improvement to the inventory display of futures reservation objects on e-commerce platforms. Users often make ordering decisions based on the inventory quantities of objects displayed on the e-commerce platform. The inventory quantity of the objects displayed on the e-commerce platform is generally the number of the objects entering each level of warehouse of the logistics platform (such as a vegetable and bird network). Because the inventory is already on the logistics platform, the customer has the expectation that the customer will receive the goods soon after ordering because the turnover of goods in the logistics network is fast. Based on the inventory quantity on the e-commerce platform, the user can decide whether to order the object. However, for the futures booking mode, only the objects that have entered the warehouse of the logistics network, i.e. only the stock of the real warehouse, are shown on the e-commerce platform, and there may be erroneous guidance to the user. The user may see that the real bin for the object is less stocked and abandon the reservation. However, in the case of futures booking, the user can make a change from the supplier after paying the deposit, and the amount booked by the user is already in the warehouse of the logistics network after the user pays the payment. Thus, for futures reservation objects, it makes no sense to present real warehouse inventory on the e-commerce platform. One embodiment of the present application provides for displaying the virtual warehouse inventory quantities of futures reservation objects on the e-commerce platform. The method has the advantages that the displayed object inventory quantity really reflects the quantity of the objects which can be provided for the user quickly, real basis is provided for the user reservation, and over-distribution cannot occur. The over-delivery in the futures booking mode means that the user cannot deliver the object in time due to insufficient inventory after paying the deposit and the tail. Because the object sinks to the transfer node from the supplier after the user pays the subscription fee, the user cannot timely receive the object due to insufficient inventory after paying the tail money, namely, the over-delivery cannot occur.

In this embodiment, before step S108, the method further includes: s102, identifying whether the object is a futures booking object or not; and S104, if the object is a futures booking object, displaying the virtual warehouse inventory quantity of the object, wherein the virtual warehouse inventory quantity is the quantity of the object which is expected to be still provided for futures booking at the third user equipment.

In step S102, it is identified whether the object is a futures reservation object.

In one embodiment, identifying whether the object is a futures reservation object is accomplished by identifying whether the object has a futures reservation flag in the object detail information database. A database of object detail information is maintained at the first server. The details of the object are updated from the supplier synchronously to the object details database. If the object is a futures reservation object, the provider adds a futures reservation flag to the detail information of the object and synchronously updates the detail information database of the object. Thus, by identifying whether an object has a futures reservation label in the database, it is possible to identify whether the object is a futures reservation object.

In step S104, if the object is a futures reservation object, the virtual bin inventory number of the object is presented.

The virtual warehouse inventory amount is the amount of objects that the third user device is expected to provide for future bookings, i.e., the amount of objects that the supplier is expected to provide for future bookings. It may be the number of objects that the supplier has produced. It may be stored in the supplier's own warehouse, without entering the logistics network. The initial virtual repository of objects is updated to the object detail information database of the first server as part of the detail information when the third user device synchronously updates the detail information of the objects to the first server. As described below, once the first payment message is monitored, the virtual bin inventory amount is decremented based on the number of objects involved in the first payment message.

In one embodiment, step S108 includes: according to the number of the objects involved in the first payment message, the number of the displayed virtual warehouse is reduced; informing a second server to transfer the objects of the related object quantity from the real warehouse in each level of logistics nodes to a transfer node; the second server is informed of the actual reception of the number of objects involved from the third user device to compensate for the real warehouse inventory in the logistics nodes at each level.

Depending on the number of objects involved in the first payment message, the benefit of offsetting the amount of virtual warehouse inventory exposed is to prevent over-delivery. This is because, once a deposit is received, it means that the portion of the number of objects involved in the deposit has already been reserved by the user and cannot accept futures reservations anymore. Oversubscription may occur if the amount of virtual warehouse inventory displayed is not discounted.

Each level of warehouse of the logistics network (such as a vegetable and bird network) is called each level of logistics node. Generally, the first-level logistics node and the second-level logistics node are large warehouses such as province-level warehouses and city-level warehouses, one or more warehouses or one city generally belong to the high-level logistics node. The three-level and four-level logistics nodes are small warehouses at district level and street level, and one warehouse belongs to a low-level logistics node.

Futures booking entails lowering the object from the provider to the transit node after receiving the deposit, and sending the object from the transit node to the destination after the user pays the end and the distributor also pays the provider. However, sometimes the customer pays the end payment, and the distributor also pays the supplier and the supplier has not delivered the goods, resulting in the transfer node being out of stock. Therefore, in order to prevent the delivery efficiency from being reduced due to the shortage of the transit node, an embodiment of the present application proposes a virtual-real bin conversion, i.e., a bin change method. That is, when the object actually provided by the supplier is not received, the warehouse-changing process is executed, the reserved number of objects are called to the transfer node from the logistics node with the object in each level of logistics node, and then the objects are actually received from the supplier. That is, the first server (e-commerce server) notifies the second server (e-commerce server) to transfer the number of objects related to the first payment message from the real warehouse inventory in each level of the logistics node to the transfer node, and then notifies the second server to actually receive the number of objects related to the third payment message from the third user device, so as to compensate the real warehouse inventory in each level of the logistics node. Through the treatment, the transfer node is prevented from being out of stock, and the delivery efficiency is improved.

In one embodiment, a practical way to inform the second server to transfer the objects related to the number of objects from the real warehouse inventory in each level of logistics nodes to the transit node is to: transferring the objects of the related object quantity from the real warehouse of the low-level logistics node to a transfer node; and in the case that the real warehouse inventory of the lower-level logistics node cannot meet the number of the related objects, allocating the insufficient objects from the real warehouse inventory of the higher-level logistics node to the transfer node. The advantage of doing so is, satisfy the object that needs sent to the transit node with the real storehouse stock of low grade logistics node earlier, is favorable to keeping the stock of high grade logistics node stable, is favorable to the overall arrangement of commodity circulation. The high-level logistics node is often just one or a few in one province or city, and if the high-level logistics node is empty of inventory, the logistics efficiency of the whole logistics system is affected.

For example, a user's subscription involves subscribing to 100B objects of a supplier. Only the B objects of 40A suppliers are found in the third-level logistics warehouse and the fourth-level logistics warehouse of the user location, and the B objects of 80A suppliers are found in the first-level logistics warehouse and the second-level logistics warehouse of the user location. Therefore, the B objects of 40A suppliers in the third-level and fourth-level logistics bins of the user location are firstly sent to the transit node, and then 60B objects of the A suppliers are taken out from the first-level and second-level logistics bins of the user location and sent to the transit node. However, the logistics network typically stores all of the 100B objects received from the a supplier into the first and second logistics bins.

In one embodiment, the transfer of the objects related to the number of objects from the real warehouse of the lower level logistics node to the transit node is done periodically. That is, instead of immediately starting the dispatching from the third-level and fourth-level logistics warehouses upon receiving one first payment message, the real warehouse inventory of the lower-level logistics node collectively dispatches the objects of the number of the objects related to the first payment message to the transit node for all the first payment messages received within the predetermined time interval. This helps to improve the logistics efficiency of the logistics network.

In one embodiment, the transfer node is not immediately started from the object of the insufficient inventory allocation part of the high-level logistics node to the transfer node as soon as the fact that the real inventory of the low-level logistics node cannot meet the number of the objects involved in the first payment message is found, but after the period of receiving the futures booking is finished, the object of the insufficient inventory allocation part of the high-level logistics node is unified to the transfer node from the real inventory of the high-level logistics node to all the first payment messages of the number of the objects involved in the insufficient inventory allocation part of the low-level logistics node during the period of receiving the futures booking. This also has the advantage of contributing to an increase in the logistics efficiency of the logistics network.

For futures reservation objects, a period of accepting futures reservations may be set. The user can make futures reservations only if the user makes a reservation within this period. Once the period ends without the user placing a deposit, futures booking cannot be made. After the period of receiving futures booking is finished, the objects of the parts with insufficient real warehouse inventory allocation of the high-level logistics nodes are transferred to the transfer nodes, and logistics efficiency reduction caused by frequent allocation from the first-level logistics warehouse and the second-level logistics warehouse is avoided.

In addition, as shown in fig. 3, in an embodiment of the present application, after step S102, the method further includes:

s105, if the object is not a futures booking object, identifying whether the object is an over-delivery prevention object;

s106, in response to the fact that the object is the over-delivery prevention object, determining the displayed inventory quantity to be 0;

and S107, in response to the fact that the object is not the over-delivery prevention object, determining the displayed inventory quantity as the total real warehouse inventory of the object in each logistics site.

Specifically, in step S105, if the object is not a futures reservation object, it is identified whether the object is an over-delivery prevention object.

The over-delivery in the non-reservation mode means that the receiver cannot receive the object in time due to insufficient inventory in the logistics network after the user pays.

In one embodiment, identifying whether the object is an anti-oversupply object is accomplished by identifying whether the object has an anti-oversupply flag in the object detail information database. A database of object detail information is maintained at the first server, with synchronously updated object detail information from the providers being stored in the database. If the object cannot be over-distributed, the supplier adds an over-distribution prevention mark to the detail information of the object, and the object detail information is stored in the object detail information database after being synchronously updated to the first server. Thus, by identifying whether an object has an anti-oversupply marker in the database, it is possible to identify whether the object is an anti-oversupply object.

In step S106, in response to recognition that the object is an over-delivery prevention object, the displayed stock quantity is determined to be 0.

Suppose that if the e-commerce platform shows that the inventory of an object is 6, i.e., not 0, it indicates that there are 6 objects stored in each bin in the logistics network. At this time, if 10 users order the object at the same time, although 6 objects are displayed in the logistics network, at least 4 users cannot obtain the object in time, and the over-delivery is caused. Therefore, in response to recognition that the object is an over-delivery-preventing object, the displayed stock quantity is determined to be 0, and the purpose of preventing over-delivery of general items is achieved.

In step S107, in response to identifying that the object is not an over-delivery-preventing object, the displayed inventory amount is determined as the total real warehouse inventory of the object in each logistics site.

If the object is not an over-delivery-proof object, only the total real warehouse inventory of the object in each logistics site needs to be displayed, because at this time, more users order the object than the inventory at the same time, and the object is not over-delivered-proof.

In fig. 3, steps S102, S104, S108, S105, S106, S107 are included, but those skilled in the art will appreciate that they need not be present in one embodiment at the same time. For example, in one embodiment, only step S108 may be present, and none of steps S102, S104, S105, S106, S107.

Fig. 4 illustrates an information processing method in object transfer at the second server side according to one embodiment of the present invention. The method comprises the following steps:

s210, the second server transmits the object to the transfer node under the condition of receiving the notification of monitoring the first payment message of the first user equipment from the first server;

and S220, in the case of receiving a notice from the first server that an object transmission request of the second user equipment is received, transmitting the object from the transfer node to a destination specified by the first payment message and the second payment message, wherein the object transmission request of the second user equipment is generated according to an authentication message sent by the first server in response to an authentication request of the second user equipment, and the authentication request is generated by the second user equipment in response to the second payment message.

Optionally, step S210 includes: transferring the objects of the number of the objects related in the first payment message to a transfer node from the real warehouse in each level of logistics nodes; the objects of the number of objects involved are actually received from the third user device to make up for the real warehouse inventory (not shown) in the logistics nodes at each level.

Optionally, the step of transferring the objects of the number of the objects involved in the first payment message from the real warehouse inventory in each level of logistics nodes to the transit node includes: transferring the objects of the related object quantity from the real warehouse of the low-level logistics node to a transfer node; and in the case that the real warehouse inventory of the lower-level logistics node cannot meet the number of the related objects, allocating the insufficient objects from the real warehouse inventory of the higher-level logistics node to the transfer node.

The embodiment of fig. 4 only illustrates the angular differences with the embodiment of fig. 2 and 3. The embodiments of fig. 2 and 3 are described from the perspective of the first server, and the embodiment of fig. 4 is described from the perspective of the second server, which is not repeated herein.

Fig. 5 illustrates an information processing method in object transfer at the second user equipment side according to an embodiment of the present application. The method comprises the following steps:

s310, the second user equipment sends an authentication request to the first server in response to receiving a first payment message of the first user equipment and a second payment message later;

s320, receiving an authentication message from the first server;

s330, sending an object transmission request to the first server according to the authentication message so that the first server informs the second server to transmit the object to the destination specified by the first payment request and the second payment request.

The embodiment of fig. 5 is only illustrative of the angular differences with the embodiments of fig. 2 and 3. The embodiments of fig. 2 and 3 are described from the perspective of the first server, and the embodiment of fig. 5 is described from the perspective of the second user equipment, so that the description is omitted.

Fig. 6 illustrates an information processing method in object transmission on the first user equipment side according to an embodiment of the present application. The method comprises the following steps:

s410, the first user equipment sends a first payment message to the second user equipment;

s420, sending a second payment message to the second user equipment, where the second payment message triggers the second user equipment to send an authentication request to the first server, receiving the authentication message from the first server, and sending an object transmission request to the first server according to the authentication message, so that the first server notifies the second server to transmit an object to a destination specified by the first payment request and the second payment request.

The embodiment of fig. 6 is only illustrative of the angular differences with the embodiments of fig. 2 and 3. The embodiments of fig. 2 and 3 are described from the perspective of the first server, and the embodiment of fig. 6 is described from the perspective of the first user equipment, so that the description is omitted.

As shown in fig. 7, according to an embodiment of the present application, there is provided an information processing apparatus 100 in object transfer on a first server side. The apparatus 100 comprises:

an authentication request receiving unit 110, configured to receive an authentication request sent by a second user equipment in response to receiving a first payment message of a first user equipment and a second payment message after the first payment message;

an authentication message sending unit 120, configured to send an authentication message to the second user equipment, where the authentication message is used to trigger the second user equipment to send an object transmission request;

a destination transfer notification unit 130 configured to notify the second server to transfer the object to the destination specified by the first payment request and the second payment request, in a case where the object transfer request of the second user equipment is received.

Optionally, as shown in fig. 8, the apparatus 100 further includes:

a transit node transmission notification unit 108 configured to notify the second server to transmit the object to the transit node in a case where the first payment message to the first user equipment is monitored.

The destination transmission notification unit 130 further includes: a destination transfer notification subunit 1301 is configured to notify the second server of transferring the object from the transit node to the destination.

Optionally, the transit node is a logistics node closest to the destination.

Optionally, the apparatus 100 further comprises: a futures reservation object identifying unit 102 for identifying whether the object is a futures reservation object; a presentation unit 104 for presenting a virtual bin inventory number of the object, if the object is a futures reservation object, the virtual bin inventory number being the number of objects expected to be still available for futures reservation at the third user equipment.

Optionally, the destination transmission notification subunit 1301 includes: a subtraction subunit 13011, configured to subtract the displayed virtual bin inventory number according to the number of objects involved in the first payment message; a transfer notification subunit 13012, configured to notify the second server to transfer the objects of the related object quantity from the real warehouse inventory in each level of logistics node to the transit node; an actual receiving notifying subunit 13013 is configured to notify the second server of actually receiving the objects of the number of the objects from the third user equipment, so as to compensate the real warehouse inventory in each level of the logistics node.

Optionally, the call notification subunit 13012 is configured to notify the second server to perform: transferring the objects of the related object quantity from the real warehouse of the low-level logistics node to a transfer node; and in the case that the real warehouse inventory of the lower-level logistics node cannot meet the number of the related objects, allocating the insufficient objects from the real warehouse inventory of the higher-level logistics node to the transfer node.

Optionally, the transferring the object related to the number of objects from the real warehouse of the low-level logistics node to the transit node is realized by: and at every preset time interval, allocating the objects of the number of the objects related to the first payment messages to the transit node from the real warehouse of the low-level logistics node aiming at all the first payment messages received in the preset time interval.

Optionally, the transferring of the object from the insufficient real warehouse inventory of the advanced logistics node to the transit node is realized by: after the period of receiving futures booking is finished, aiming at a first payment message that the real warehouse inventory of the lower-level logistics node cannot meet the related object quantity during the period of receiving futures booking, allocating the insufficient object from the real warehouse inventory of the higher-level logistics node to the transit node.

Optionally, as shown in fig. 8, the apparatus 100 further includes: an oversupply object recognition unit 105 for recognizing whether the object is an oversupply object if the object is not a futures reservation object; an excessive-delivery-preventing-object-display stock-quantity determining unit 106 for determining the displayed stock quantity to be 0 in response to recognition that the object is an excessive-delivery-preventing object; the non-over-delivery-prevention object display inventory quantity determination unit 107 is configured to determine the displayed inventory quantity as a total real warehouse inventory of the object in each logistics site in response to identifying that the object is not an over-delivery-prevention object.

Fig. 9 shows an information processing apparatus 400 in object transfer on the second server side according to an embodiment of the present application. The apparatus 400 comprises: an object transfer to transit node transmitting unit 210 for transmitting the object to the transit node in a case of receiving a notification of monitoring the first payment message to the first user equipment from the first server; an object-to-destination transmitting unit 220, configured to transmit the object from the transit node to a destination specified by the first payment message and the second payment message, in a case where a notification from the first server that an object transmission request of the second user equipment has been received is received, wherein the object transmission request of the second user equipment is generated according to an authentication message issued by the first server in response to an authentication request of the second user equipment generated by the second user equipment in response to receiving the second payment message.

Optionally, the object to transit node transmitting unit 210 includes: the transfer sub-unit is used for transferring the objects of the number of the objects related to the first payment message to the transfer node from the real warehouse in each level of logistics node; and an actual receiving subunit, configured to actually receive the objects of the number of the objects from the third user equipment, so as to compensate for real warehouse inventory (not shown) in each level of logistics node.

Optionally, the dial subunit is configured to: transferring the objects of the related object quantity from the real warehouse of the low-level logistics node to a transfer node; and in the case that the real warehouse inventory of the lower-level logistics node cannot meet the number of the related objects, allocating the insufficient objects from the real warehouse inventory of the higher-level logistics node to the transfer node.

Fig. 10 shows an information processing apparatus 200 in object transmission on the second user equipment side according to an embodiment of the present application. The apparatus 200 comprises: an authentication request sending unit 310, configured to send an authentication request to the first server in response to receiving a first payment message and a second payment message after the first payment message of the first user equipment; an authentication message receiving unit 320 for receiving an authentication message from the first server; an object transmission request issuing unit 330, configured to issue an object transmission request to the first server according to the authentication message, so that the first server notifies the second server to transmit the object to the destination specified by the first payment request and the second payment request.

Fig. 11 illustrates an information processing apparatus 600 in object transmission on the first user equipment side according to an embodiment of the present application. The apparatus 600 comprises: a first payment message sending unit 410, configured to send a first payment message to a second user equipment; a second payment message sending unit 420, configured to send a second payment message to the second user equipment, where the second payment message triggers the second user equipment to send an authentication request to the first server, receive the authentication message from the first server, and send an object transmission request to the first server according to the authentication message, so that the first server notifies the second server to transmit an object to a destination specified by the first payment request and the second payment request.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. Likewise, the software programs (including associated data structures) of the present application may be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Additionally, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Program instructions which invoke the methods of the present application may be stored on a fixed or removable recording medium and/or transmitted via a data stream on a broadcast or other signal-bearing medium and/or stored within a working memory of a computer device operating in accordance with the program instructions. An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims

1. An information processing method in object transmission, comprising:

the first server receives an authentication request sent by the second user equipment in response to receiving a first payment message and a second payment message of the first user equipment; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded or not;

sending an authentication message to second user equipment, wherein the authentication message is used for triggering the second user equipment to send an object transmission request;

notifying a second server to transmit the object to the transit node in case of monitoring the first payment message of the first user equipment; said transmitting the object to the transit node comprises transferring the object of the number of objects involved in said first payment message from a real warehouse of the lower level logistics node to the transit node;

in a case where the object transfer request of the second user equipment is received, the second server is notified to transfer the object to the destination specified by the first payment request and the second payment request.

2. The method of claim 1, wherein the step of notifying the second server to transfer the object to the destination specified by the first payment request and the second payment request comprises: notifying a second server to transfer the object from the transit node to the destination.

3. The method of claim 2, wherein the transit node is a logistics node closest to the destination.

4. The method of claim 2, wherein prior to the step of notifying the second server of the transfer of the object to the transit node, the method further comprises:

identifying whether the object is a futures reservation object;

if the object is a futures reservation object, a virtual bin inventory amount for the object is presented, the virtual bin inventory amount being an amount of objects expected to still be available for futures reservation at the third user device.

5. The method of claim 4, wherein the step of notifying the second server of the transfer of the object to the transit node comprises:

according to the number of the objects involved in the first payment message, the number of the displayed virtual warehouse is reduced;

informing a second server to transfer the objects of the related object quantity from the real warehouse in each level of logistics nodes to a transfer node;

the second server is informed of the actual reception of the number of objects involved from the third user device to compensate for the real warehouse inventory in the logistics nodes at each level.

6. The method of claim 5, wherein the step of informing the second server to transfer the objects of the number of objects involved from the real warehouse inventory in each level of logistics nodes to the transit node comprises informing the second server to perform:

transferring the objects of the related object quantity from the real warehouse of the low-level logistics node to a transfer node;

and in the case that the real warehouse inventory of the lower-level logistics node cannot meet the number of the related objects, allocating the insufficient objects from the real warehouse inventory of the higher-level logistics node to the transfer node.

7. The method of claim 6, wherein said step of transferring said objects of said involved number of objects from a real warehouse inventory of a low level logistics node to a transit node comprises: and at every preset time interval, allocating the objects of the number of the objects related to the first payment messages to the transit node from the real warehouse of the low-level logistics node aiming at all the first payment messages received in the preset time interval.

8. The method of claim 6, wherein the step of transferring the objects of the insufficient portion from the real inventory of the senior logistics node to the transit node comprises: after the period of receiving futures booking is finished, aiming at a first payment message that the real warehouse inventory of the lower-level logistics node cannot meet the related object quantity during the period of receiving futures booking, allocating the insufficient object from the real warehouse inventory of the higher-level logistics node to the transit node.

9. The method of claim 4, wherein after the step of identifying whether the object is a futures reservation object, the method further comprises:

identifying whether the object is an anti-oversupply delivery object if the object is not a futures reservation object;

in response to identifying that the object is an over-delivery-prevention object, determining the displayed inventory quantity to be 0;

in response to identifying that the object is not an over-delivery-prevention object, determining the displayed inventory quantity as a total real warehouse inventory of the object in each logistics site.

10. An information processing method in object transmission, comprising:

the second server transmits the object to the transit node in the case of receiving a notification from the first server that the first payment message of the first user equipment is monitored; said transmitting the object to the transit node comprises transferring the object of the number of objects involved in said first payment message from a real warehouse of the lower level logistics node to the transit node;

transmitting the object from the transit node to a destination specified by the first payment message and the second payment message in a case where a notification from the first server that an object transmission request of the second user equipment has been received is received, wherein the object transmission request of the second user equipment is generated from an authentication message issued by the first server in response to an authentication request of the second user equipment generated by the second user equipment in response to receiving the second payment message; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded.

11. The method of claim 10, wherein the step of transmitting the object to the transit node comprises:

transferring the objects of the number of the objects related in the first payment message to a transfer node from the real warehouse in each level of logistics nodes;

the number of objects involved is actually received from the third user device to compensate for the real warehouse inventory in the logistics nodes at each level.

12. The method of claim 11, wherein the step of transferring the objects of the number of objects involved in the first payment message from the real warehouse inventory in each level of logistics nodes to the transit node comprises:

13. An information processing method in object transmission, comprising:

the second user equipment sends an authentication request to the first server in response to receiving the first payment message and a second payment message after the first payment message; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded or not;

receiving an authentication message from a first server;

sending an object transmission request to the first server according to the authentication message so that the first server informs the second server to transmit the object to a destination specified by the first payment request and the second payment request; wherein the first server is further configured to notify the second server to transmit the object to the transit node if the first payment message to the first user equipment is monitored; the transmitting the object to the transit node includes transferring the object of the number of objects involved in the first payment message from a real warehouse of the lower level logistics node to the transit node.

14. An information processing method in object transmission, comprising:

the first user equipment sends a first payment message to the second user equipment;

sending a second payment message to the second user equipment, wherein the second payment message triggers the second user equipment to send an authentication request to the first server, receiving the authentication message from the first server, and sending an object transmission request to the first server according to the authentication message so that the first server informs the second server to transmit the object to a destination specified by the first payment request and the second payment request; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded or not; wherein the first server is further configured to notify the second server to transmit the object to the transit node if the first payment message to the first user equipment is monitored; the transmitting the object to the transit node includes transferring the object of the number of objects involved in the first payment message from a real warehouse of the lower level logistics node to the transit node.

15. An information processing apparatus in object transmission, applied to a first server, comprising:

an authentication request receiving unit configured to receive an authentication request transmitted by a second user equipment in response to receiving a first payment message and a second payment message subsequent to the first payment message of the first user equipment; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded or not;

the authentication message sending unit is used for sending an authentication message to the second user equipment, wherein the authentication message is used for triggering the second user equipment to send an object transmission request;

a destination transfer notification unit configured to notify the second server to transfer the object to a destination specified by the first payment request and the second payment request, in a case where the object transfer request of the second user equipment is received; wherein the first server is further configured to notify the second server to transmit the object to the transit node if the first payment message to the first user equipment is monitored; the transmitting the object to the transit node includes transferring the object of the number of objects involved in the first payment message from a real warehouse of the lower level logistics node to the transit node.

16. The apparatus of claim 15, further comprising:

a transit node transmission notification unit for notifying the second server to transmit the object to the transit node in a case where the first payment message to the first user equipment is monitored,

and the destination transmission notification unit further includes: a destination transfer notification subunit operable to notify the second server of the transfer of the object from the transit node to the destination.

17. The apparatus of claim 16, wherein the transit node is a logistics node closest to the destination.

18. The apparatus of claim 16, further comprising:

a futures reservation object identifying unit for identifying whether the object is a futures reservation object;

a presentation unit for presenting a virtual bin inventory amount of the object if the object is a futures reservation object, the virtual bin inventory amount being an amount of objects expected to be available for futures reservation at the third user equipment.

19. The apparatus of claim 18, wherein the destination transmission notification subunit comprises:

a reduction subunit, configured to reduce the displayed virtual bin inventory number according to the number of objects involved in the first payment message;

the allocation informing subunit is used for informing the second server to allocate the objects of the related object quantity to the transfer node from the real warehouse inventory in each level of logistics node;

and the actual receiving notification subunit is used for notifying the second server of actually receiving the objects of the related number from the third user equipment so as to make up the real warehouse stock in each level of logistics node.

20. The apparatus of claim 19, wherein the dial notification subunit is configured to notify the second server to perform:

21. The apparatus according to claim 20, wherein said transferring of said number of objects involved from the real warehouse inventory of the lower level logistics node to the transit node is performed by: and at every preset time interval, allocating the objects of the number of the objects related to the first payment messages to the transit node from the real warehouse of the low-level logistics node aiming at all the first payment messages received in the preset time interval.

22. The apparatus of claim 20, wherein said transferring the object of the insufficient portion from the real warehouse inventory of the senior logistics node to the transit node is performed by: after the period of receiving futures booking is finished, aiming at a first payment message that the real warehouse inventory of the lower-level logistics node cannot meet the related object quantity during the period of receiving futures booking, allocating the insufficient object from the real warehouse inventory of the higher-level logistics node to the transit node.

23. The apparatus of claim 18, further comprising:

an over-delivery prevention object identification unit for identifying whether the object is an over-delivery prevention object if the object is not a futures reservation object;

an excessive delivery prevention object display stock quantity determination unit for determining the displayed stock quantity to be 0 in response to recognizing that the object is an excessive delivery prevention object;

and the non-over-delivery-prevention object display inventory quantity determining unit is used for responding to the recognition that the object is not the over-delivery-prevention object, and determining the displayed inventory quantity as the total real inventory of the object in each logistics site.

24. An information processing apparatus in object transfer, applied to a second server, comprising:

an object transfer to transit node transmitting unit that transmits the object to the transit node in a case where a notification of monitoring of the first payment message to the first user equipment is received from the first server; said transmitting the object to the transit node comprises transferring the object of the number of objects involved in said first payment message from a real warehouse of the lower level logistics node to the transit node;

an object-to-destination transmission unit that, in a case where a notification from the first server that an object transmission request of the second user device has been received is received, transmits the object from the transit node to a destination specified by the first payment message and the second payment message, wherein the object transmission request of the second user device is generated from an authentication message issued by the first server in response to an authentication request of the second user device generated by the second user device in response to receiving the second payment message; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded.

25. The apparatus of claim 24, wherein the means for transmitting the object to the transit node comprises:

the transfer sub-unit is used for transferring the objects of the number of the objects related to the first payment message to the transfer node from the real warehouse in each level of logistics node;

and the actual receiving subunit is used for actually receiving the objects of the related number of the objects from the third user equipment so as to make up the real warehouse stock in each level of logistics node.

26. The apparatus of claim 25, wherein the dialer unit is configured to:

27. An information processing apparatus in object transmission, applied to a second user equipment, includes:

an authentication request sending unit, configured to send an authentication request to the first server in response to receiving a first payment message and a second payment message that follows the first payment message of the first user equipment; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded or not;

an authentication message receiving unit for receiving an authentication message from a first server;

an object transmission request issuing unit configured to issue an object transmission request to the first server in accordance with the authentication message so that the first server notifies the second server to transmit the object to a destination specified by the first payment request and the second payment request; wherein the first server is further configured to notify the second server to transmit the object to the transit node if the first payment message to the first user equipment is monitored; the transmitting the object to the transit node includes transferring the object of the number of objects involved in the first payment message from a real warehouse of the lower level logistics node to the transit node.

28. An information processing apparatus in object transmission, applied to a first user equipment, includes:

a first payment message sending unit, configured to send a first payment message to a second user equipment;

a second payment message sending unit, configured to send a second payment message to the second user equipment, where the second payment message triggers the second user equipment to send an authentication request to the first server, receive the authentication message from the first server, and send an object transmission request to the first server according to the authentication message, so that the first server notifies the second server to transmit an object to a destination specified by the first payment request and the second payment request; the second user equipment is a distributor terminal; the authentication request is used for requesting the first server to verify whether the distribution agency relationship of the distributor corresponding to the distributor and the supplier pointed by the distributor terminal is recorded or not; wherein the first server is further configured to notify the second server to transmit the object to the transit node if the first payment message to the first user equipment is monitored; the transmitting the object to the transit node includes transferring the object of the number of objects involved in the first payment message from a real warehouse of the lower level logistics node to the transit node.