CN115700591A

CN115700591A - Method, device, equipment and storage medium for managing cargo implements

Info

Publication number: CN115700591A
Application number: CN202110872674.0A
Authority: CN
Inventors: 吴哲; 王杰; 王晶; 张晓威; 敖俊平
Original assignee: Hanhai Information Technology Shanghai Co Ltd
Current assignee: Hanhai Information Technology Shanghai Co Ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2023-02-07

Abstract

The application discloses a cargo-carrying apparatus management method, a cargo-carrying apparatus management device, cargo-carrying apparatus management equipment and a storage medium, and belongs to the technical field of logistics. The method comprises the following steps: acquiring first identification information of warehoused cargo carrying appliances detected by first RFID detection equipment, wherein the first identification information is recorded in RFID labels of the warehoused cargo carrying appliances; determining a first appliance type corresponding to the first identification information, determining a first sender bound by the first identification information, and unbinding the first identification information from the first sender; acquiring second identification information of the goods in the warehouse, which is detected by second RFID detection equipment, wherein the second identification information is recorded in the RFID tags of the goods in the warehouse; and binding the second identification information with the first sender. By using the cargo management method provided by the application, the condition that the cargo is lost can be reduced.

Description

Method, device, equipment and storage medium for managing cargo implements

Technical Field

The present application relates to the field of logistics technologies, and in particular, to a method, an apparatus, a device, and a storage medium for cargo apparatus management.

Background

Warehouse management is an indispensable important link in modern logistics systems, and is particularly important for managing freight appliances. A cargo conveyance refers to a standardized carrier for transporting cargo, such as a pallet, a tote, a thermal bucket, and the like.

Usually, the supplier transports the goods loaded with goods into the warehouse and then transports a certain number of the goods from the warehouse for the next transport of the goods.

Cargo conveyances are often left in a free-to-handle and free-to-store state, resulting in a large amount of lost cargo conveyances, even becoming a long-term consumable. Therefore, there is a need for a method of managing cargo conveyances.

Disclosure of Invention

The embodiment of the application provides a method, a device, equipment and a storage medium for cargo apparatus management, which can solve the problem that cargo apparatus is lost in the prior art. The technical scheme is as follows:

in a first aspect, a method of cargo conveyance management is provided, the method comprising:

acquiring first identification information of a warehoused cargo carrying appliance detected by first RFID detection equipment, wherein the first identification information is recorded in an RFID label of the warehoused cargo carrying appliance;

determining a first appliance type corresponding to the first identification information, determining a first sender bound by the first identification information, and unbinding the first identification information from the first sender;

acquiring second identification information of the goods in the warehouse, which is detected by second RFID detection equipment, wherein the second identification information is recorded in the RFID tags of the goods in the warehouse;

and binding the second identification information with the first sender.

In a possible implementation manner, before binding the second identification information with the first sender, the method further includes:

and determining a second appliance type corresponding to the second identification information, and determining that the second appliance type is matched with the first appliance type.

it is determined that the number of the second identification information is equal to the number of the first identification information.

In a possible implementation manner, before the binding the second identification information with the first sender, the method further includes:

and determining that the sum of the quantity of the second identification information and the quantity of the identification information currently bound by the first shipper is equal to the preset appliance distribution quantity of the first shipper.

In a possible implementation manner, before determining that the sum of the number of the second identification information and the number of the identification information currently bound by the first sender is equal to the preset appliance allocation number of the first sender, the method further includes:

acquiring the number of the cargo-carrying instruments put in storage by the first shipper each time within a preset historical time;

inputting the quantity of the goods-carrying instruments put in storage each time into the instrument quantity estimation model to obtain the estimated quantity of the goods-carrying instruments put in storage next time by the first delivery party, and setting the estimated quantity as the distribution quantity of the instruments of the first delivery party.

In one possible implementation, the method further includes:

determining a first preset warehousing quantity corresponding to the first goods sender and the first appliance type according to the corresponding relation between the goods sender and the appliance type of the goods-carrying appliance and the preset warehousing quantity;

and determining whether the current warehousing process is abnormal or not based on the quantity of the first identification information and the first preset warehousing quantity.

In one possible implementation, the method further includes:

acquiring the quantity, the category and a second shipper of goods in order data of the target transportation task, wherein the quantity of the goods is equal to the quantity of cargo carriers required for loading the goods;

determining a third instrument type of the cargo instrument corresponding to the goods category;

and adding the second shipper, the third appliance type and the quantity of the goods into the corresponding relation between the appliance types of the shipper and the goods loading appliances and the preset warehousing quantity.

In one possible implementation, the method further includes:

receiving a third delivery party which is sent by a terminal and input through the terminal;

acquiring third identification information of the goods delivered from the warehouse, which is detected by a third RFID detection device, wherein the third identification information is recorded in an RFID tag of the goods delivered from the warehouse;

and binding the third identification information with the third shipper.

In one possible implementation manner, acquiring first identification information of a warehoused cargo carrier detected by a first RFID detection device includes:

receiving first identification information, sent by a terminal, of goods carriers which are put in storage and detected by first RFID detection equipment connected with the terminal;

acquiring second identification information of the outgoing cargo conveyance detected by the second RFID detection device, including:

and receiving second identification information which is sent by the terminal and is obtained from the warehoused cargo-carrying appliances detected by second RFID detection equipment connected with the terminal.

In one possible implementation manner, the first RFID detection device is installed at the goods warehousing channel, and the second RFID detection device is installed at the goods ex-warehouse channel.

In a second aspect, there is provided an apparatus for cargo conveyance management, the apparatus comprising:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring first identification information of warehoused cargo-carrying appliances detected by first RFID detection equipment, and the first identification information is recorded in RFID tags of the warehoused cargo-carrying appliances;

the determining module is used for determining a first appliance type corresponding to the first identification information and determining a first sender bound with the first identification information;

the unbinding module is used for unbinding the first identification information and the first sender;

the second acquisition module is used for acquiring second identification information of the goods in the warehouse, which is detected by the second RFID detection device, wherein the second identification information is recorded in the RFID tags of the goods in the warehouse;

and the binding module is used for binding the second identification information with the first sender.

In a possible implementation manner, the binding module is configured to determine a second appliance type corresponding to the second identification information, and determine that the second appliance type matches the first appliance type.

In a possible implementation manner, the binding module is configured to determine that the number of the second identification information is equal to the number of the first identification information.

In a possible implementation manner, the binding module is configured to determine that a sum of the number of the second identification information and the number of the identification information currently bound by the first sender is equal to a preset appliance allocation number of the first sender.

In a possible implementation manner, the apparatus further includes a setting module, configured to:

inputting the quantity of the identification information of the goods equipment which is put in storage each time into the equipment quantity estimation model to obtain the estimated quantity of the goods equipment which is put in storage next time by the first goods-sending party, and setting the estimated quantity as the distribution quantity of the equipment of the first goods-sending party.

In a possible implementation manner, the apparatus further includes an abnormality determination module configured to:

In one possible implementation manner, the abnormality determining module is configured to:

In a possible implementation manner, the apparatus further includes a third obtaining module, configured to:

acquiring third identification information of the goods in the warehouse, which is detected by a third RFID detection device, wherein the third identification information is recorded in an RFID tag of the goods in the warehouse;

the binding module is further configured to:

receiving a third delivery party which is sent by the terminal and input through the terminal;

and binding the third identification information with the third shipper.

In one possible implementation form of the method,

the first acquisition module is used for receiving first identification information, sent by the terminal, of the goods carriers which are put in storage and detected by first RFID detection equipment connected with the terminal;

and the second acquisition module is used for receiving second identification information, sent by the terminal, of the goods carriers which are put in storage and detected by second RFID detection equipment connected with the terminal.

In a possible implementation manner, the first RFID detection device is installed at the goods warehousing channel, and the second RFID detection device is installed at the goods ex-warehouse channel.

In a third aspect, a computer device is provided that includes a processor and a memory having stored therein at least one instruction that is loaded and executed by the processor to perform operations performed by a method of cargo conveyance management.

In a fourth aspect, a computer-readable storage medium is provided that has at least one instruction stored therein, the instruction being loaded and executed by a processor to perform operations performed by a method of cargo conveyance management.

The technical scheme provided by the embodiment of the application has the following beneficial effects:

the scheme provided in the embodiment of the present application may determine the type of the instrument of the cargo instrument put in storage and the provider bound to the instrument based on the identification information of the cargo instrument detected when the cargo instrument is put in storage. And binding the goods carriers which are out of the warehouse with the suppliers corresponding to the goods carriers which are in the warehouse based on the identification information of the goods carriers detected in the warehouse-out process. Based on the binding relation between the cargo carrying apparatus and the suppliers, the cargo carrying apparatus can be accurately positioned and taken away by which supplier, the condition of taking and putting the cargo carrying apparatus at will is effectively avoided, and therefore the loss of the cargo carrying apparatus is reduced.

Drawings

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

Fig. 1 is a schematic view of an application scenario provided in an embodiment of the present application;

FIG. 2 is a flow chart of a method for cargo conveyance management according to an embodiment of the present disclosure;

FIG. 3 is a flow chart of a method of cargo conveyance management provided by an embodiment of the present application;

FIG. 4 is a flow chart of a method for cargo conveyance management according to an embodiment of the present disclosure;

FIG. 5 is a flow chart of a method of cargo conveyance management provided by an embodiment of the present application;

FIG. 6 is a schematic diagram of a cargo conveyance management apparatus according to an embodiment of the present disclosure;

fig. 7 is a block diagram of a server according to an embodiment of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, the following detailed description of the embodiments of the present application will be made with reference to the accompanying drawings.

Description of the concept

Radio Frequency Identification (RFID), which is an identity recognition technology, is generally implemented by an RFID detection device and an RFID tag, where the RFID tag is installed on a target object, and the RFID tag records identity information of the target object, which may also be referred to as Identification information, and when the RFID tag enters an effective detection distance of the RFID detection device, the RFID detection device can read the identity information recorded in the RFID tag. The effective detection distance of the RFID detection device may be a few millimeters, a few centimeters or a few meters.

Application scenario description

The method for managing the freight apparatus provided by the embodiment of the application can be applied to warehouse management. The warehouse using the cargo management method is mainly used for storing the goods supplied by the supplier, and a protocol of periodic goods supply can exist between the supplier and the warehouse, and the goods supply period can be 3 hours, 5 hours, 1 day, 3 days and the like. The warehouse using the method for managing the goods-carrying apparatus can be a logistics warehouse of a self-service e-commerce platform or a logistics warehouse of community group purchase. The embodiment of the application takes an application scenario of community group buying as an example to perform detailed description of the scheme, and other situations are similar to the above, and the embodiment of the application is not described again.

The community group purchase is a group shopping consumption behavior of residents in residential communities. The operation mode of community group purchase can be a mode that the group purchase is sold on line one day in advance, a resident places an order through a platform one day in advance and the group leader station gets goods the next day. The logistics system of community group purchase comprises a warehouse, a grid station and a group leader station, wherein the warehouse is equivalent to a distribution center, the grid station is equivalent to a transfer station, and the group leader station is similar to an express delivery station.

Based on the logistics system of the community group purchase, the operation process of the community group purchase can be as follows:

the user places an order in the application program of the community group purchase, the community group purchase platform collects all orders in one day, counts the goods types and the goods quantity contained in all the orders, and sends a goods purchase order to a corresponding supplier. The supplier prepares corresponding goods according to the goods purchase order, and determines the goods needed to be used and the number of the goods. After the supplier transports the goods to the warehouse, the warehousing operation of the goods is completed, and a certain number of idle goods carriers are transported back for the next transportation of the goods. After the warehousing operation is finished, the working personnel in the warehouse sort the goods of each category, and sequentially distribute the goods to the grid station and the group growth station, and finally the group growth station distributes the corresponding goods to the users.

With the method for managing cargo devices provided by the application, when a supplier transports goods, the cargo devices with RFID labels corresponding to the goods are needed.

The supplier transports a corresponding number of the cargo wares to the warehouse, and transports the cargo wares into the warehouse via the warehousing passage. The entryway may be provided with an RFID detection device for identifying RFID tags in the cargo conveyance. The warehousing channel can also be provided with an operation terminal for inputting and displaying some related information. After the supplier transports the goods carrying apparatus into the warehouse through the warehouse entry passage, the relevant instructions for completing the warehouse entry operation need to be input on the operation terminal. After the warehouse manager or the background server confirms that the warehousing operation is finished, the warehouse manager or the background server allows the supplier to perform warehousing operation of the next goods class or allows the supplier to perform corresponding ex-warehouse operation.

After the warehousing operation is finished, the suppliers need to leave a certain number of idle goods carriers for the next transportation of goods. The goods are transported out of the warehouse through the delivery passage, and the goods class corresponding to the delivered goods is the same as the goods class stored in the warehouse. The outbound passage may be provided with an RFID detection device for identifying RFID tags in the cargo conveyance. The warehouse-out channel can be further provided with an operation terminal for indicating whether warehouse-out operation is completed or not. After the supplier delivers the goods carrying apparatus out of the warehouse through the warehouse-out passage, the relevant instruction for completing the warehouse-out operation needs to be input on the operation terminal. After confirming that the warehouse-out operation is not abnormal, the warehouse manager or the background server confirms that the warehouse-out operation is finished, and the supplier is allowed to leave the warehouse.

The warehouse using the method for managing the freight devices provided by the application can comprise an entry passage, an exit passage, an RFID detection device, an operation terminal, a management server and the like, and the corresponding structure is shown in fig. 1.

The warehousing channel and the ex-warehouse channel can be the same channel, RFID detection equipment and an operation terminal are arranged at the channel, and one operation terminal is at least connected with one RFID detection equipment. The warehousing channel and the ex-warehouse channel can also be channels respectively arranged at two sides of the warehouse, and RFID detection equipment and operation terminals are arranged at the warehousing channel and the ex-warehouse channel. One operation terminal can be connected with the RFID detection equipment at the warehousing channel and can also be connected with the RFID detection equipment at the ex-warehouse channel. Besides the connection mode, one operation terminal can be connected with at least one RFID detection device at the warehouse-in passage or at least one RFID detection device at the warehouse-out passage. The RFID detection device and the operation terminal can be integrated devices or separated devices. Communication connections are established among the operation terminals and between the operation terminals and the management server.

The RFID tag is secured to the cargo conveyance. The RFID tag records identification information of the load implement for uniquely identifying the load implement. In the database, attribute information of the cargo apparatus corresponding to each piece of identification information is stored, and the attribute information may include an apparatus type, a cargo type capable of being carried, a color, and the like. In addition, besides the identification of the cargo, the RFID tag can directly record the attribute information of the cargo, so that the attribute information of the cargo does not need to be searched in a database.

The RFID tag can be arranged on the surface of the cargo carrying appliance in a sticking mode, a threaded connection mode and the like, can also be arranged outside the cargo carrying appliance in a hanging mode, a bolt binding mode and the like, and can also be embedded into the cargo carrying appliance. In the cargo apparatus corresponding to the same cargo item, the RFID tags may be arranged in the same manner or in different manners.

The RFID tag communication method may be passive, semi-passive, or active. In the cargo apparatus corresponding to the same cargo item, the communication modes of the RFID tags may be the same or different, wherein the RFID tags of different communication modes can be identified by the same RFID detection device.

The RFID detection equipment can be door type RFID detection equipment and can also be scanning gun type RFID detection equipment. The door-type RFID detection equipment can simultaneously identify all RFID tags in the detection range of the door-type RFID detection equipment and send the detected RFID identification information to the operation terminal. The scanning gun type RFID detection device can identify RFID labels in single cargo carriers and send detected RFID identification information to the operation terminal. The use method of the scanning gun type RFID detection equipment can be that warehouse management personnel hold a scanning gun to complete scanning of each cargo carrying appliance, and can also fix the scanning gun to enable the cargo carrying appliances to pass through the detection area of the detection gun one by one to complete scanning.

The management server may be a server of a commodity transaction platform, and may be used for user order management, purchase order management, logistics management, warehouse management, cargo management, and the like. The management server may also be a warehouse management server for warehouse management, cargo conveyance management, and the like. The management server may be a single server or a server group.

The embodiment of the application provides a cargo management method, and an execution subject of the method can be a management server. The management server may include a processor, memory, and communication components, among others.

The processor may be a Central Processing Unit (CPU), and the processor may be configured to count user order data, may be configured to count goods purchase order data corresponding to a supplier, may be configured to obtain RFID identification information recorded in an RFID tag of a cargo implement in the warehousing and ex-warehouse processes, and may be configured to determine whether an abnormality exists in the warehousing and/or ex-warehouse processes based on the goods purchase order data and the RFID identification information, and the like.

The memory may be various volatile memories or nonvolatile memories, such as a Solid State Disk (SSD), a Dynamic Random Access Memory (DRAM), and the like. The memory may be used to store pre-stored data, intermediate data, and result data, such as user order data, goods purchase order data, RFID identification information, and the like, during user order management, purchase order management, cargo fixture management, and the like.

The communication means may be a wired network connector, a wireless fidelity (WiFi) module, a bluetooth module, a cellular network communication module, etc. The communication component may be used for data transmission with other devices, and the other devices may be other servers, operation terminals, and the like. For example, the communication section may transmit a result of determination as to whether there is an abnormality in the warehousing and/or ex-warehousing process to the operation terminal, and the like.

Fig. 2 is a flowchart of a method for cargo conveyance management according to an embodiment of the present application. Referring to fig. 2, the embodiment includes:

101. and acquiring first identification information of the warehoused cargo carriers detected by the first RFID detection equipment.

Wherein the first identification information is recorded in an RFID tag of the warehousing cargo fixture.

In implementation, the management server obtains and summarizes the order details of the user in the application program, counts the quantity of the goods with the same goods class in the summarized order information, and sends a goods purchase order to the corresponding supplier based on the counted quantity of the goods. The goods of the same goods category can be supplied by one supplier or multiple suppliers. One supplier may supply only goods of one goods category or may supply goods of a plurality of goods categories.

The supplier prepares corresponding quantity of goods according to the goods purchase order, and determines the type of the goods with the RFID label according to the goods class, wherein the corresponding relation between the goods class and the type of the goods is stored in the server in advance. The supplier picks up the instrument type of the instrument from a plurality of instruments and loads the prepared goods into the picked-up instruments, arranging the delivery personnel for delivery to the warehouse.

After the delivery personnel convey the goods-carrying appliances loaded with the goods to the warehouse, the goods need to be conveyed to the interior of the warehouse through a warehousing channel to finish warehousing operation, wherein the warehousing channel is provided with first RFID detection equipment. When the delivery personnel deliver the goods carrying appliance to pass through the first RFID detection device, the first RFID detection device identifies the RFID tag arranged in the goods carrying appliance, detects the first identification information of the goods carrying appliance recorded in the RFID tag at the same time, and sends the first identification information to the operation terminal of the warehouse. The operation terminal receives and stores the first identification information.

After the delivery personnel convey all the goods of the same goods class on the vehicle into the warehouse, the description needs to be given to a warehouse manager. And the warehouse manager inputs an instruction for confirming the completion of warehousing on the operation terminal. The input mode of the instruction may be clicking on a touch screen, clicking by using a mouse, triggering an entity button on the operation terminal representing completion of warehousing, and the like. And after receiving the command for confirming the completion of warehousing, the operating terminal uploads all the received first identification information in the warehousing operation process to the management server.

The description will be given by taking the example of the eggs put in storage. The management server obtains the order details of the user in the application program, counts the number of the needed eggs, and sends an egg purchasing order to the egg supplier A. The egg supplier a prepares a corresponding number of eggs according to the egg purchase order and loads the eggs into a predefined egg basket (cargo carrying appliance) having an RFID tag. And after the egg baskets containing the eggs are conveyed to the warehouse by delivery personnel, the egg baskets are conveyed to the warehouse through a warehousing channel provided with first RFID detection equipment. When the egg basket passes through the first RFID detection device, the first RFID detection device identifies the RFID label in the egg basket and sends the detected first identification information to the operation terminal of the warehouse. And when the delivery personnel confirm that the egg warehousing is finished, explaining the current warehousing condition to a warehouse manager, and inputting a warehousing finishing instruction together with the warehouse manager on an operation terminal. After the command of warehousing completion is input, the operation terminal uploads the first identification information of all the egg baskets detected in the warehousing process to the management server.

102. Determining a first appliance type corresponding to the first identification information, determining a first sender bound by the first identification information, and unbinding the first identification information from the first sender.

Wherein the shipper may be a supplier. The management server is pre-stored with a real-time binding relation table of the identification information and the shipper, and the real-time binding relation table of the identification information and the shipper is used for recording which shipment Fang Quzou a cargo appliance is currently shipped. The management server also stores a historical binding relation table of the identification information and the shipper, and the historical binding relation table of the identification information and the shipper is used for recording which shipper the freight appliance has been taken away by.

In implementation, the management server acquires all the first identification information sent by the operation terminal. The management server calls the appliance types of the goods according to the first identification information, so that the first appliance type corresponding to the first identification information can be determined.

The first identification information may be identification information corresponding to only one appliance type. If the management server finds that the first identification information contains two or more appliance types when determining the first appliance type corresponding to the first identification information, the management server immediately sends an alarm notification to the operation terminal. The operation terminal sends an alarm after receiving the alarm notice, and the warehouse manager needs to enable the delivery personnel to distinguish the freight carrying appliances and arrange the delivery personnel to put in storage again after receiving the alarm. For example, the first identification information transmitted by the operation terminal acquired by the management server is a0001, a0002, and B0001, and the management server finds that the first identification information includes two types of cargo implements when confirming the type of the implement corresponding to the identification information. At this time, the management server sends an alarm notification to the operation terminal, and the operation terminal sends an alarm. The manager needs to return the goods-carrying apparatus which is put in storage this time, arrange the delivery person to sort the goods-carrying apparatus which is put in storage this time and arrange the delivery person to put in storage again. The re-binning operation is the same as the aforementioned process, and is not described herein again.

Meanwhile, the management server determines the first provider to which the first identification information is bound according to a binding relationship (a process of establishing the binding relationship is described in the following contents) between the pre-stored identification information and the shipper. The management server releases the binding relation between the current first identification information and the first supplier, namely deletes the binding information between the first identification information and the first supplier from a pre-stored real-time binding relation table of the identification information and the delivery party.

The description will be given by taking the example of the eggs put in storage. When warehousing operation is performed, the first identification information detected by the first RFID detection device is A0001, A0002. The management server acquires the 30 pieces of first identification information, and determines the contents of the first identification information as follows: a indicates that the cargo apparatus is used for conveying eggs and egg products, A000 indicates that the type of the cargo apparatus is an egg basket, and 1, 2 … …, 30 indicate RFID label numbers. The management server determines that the first appliance type of the cargo appliance corresponding to the first identification information is an egg basket. And the management server determines that the first sender currently bound with the 30 pieces of first identification information is a supplier A according to the binding relationship between the prestored identification information and the supplier. And after the warehousing operation is finished, the management server removes the current binding relationship, namely deletes the binding relationship between the first identification information and the supplier A in the existing binding relationship, and keeps the historical binding record.

103. Second identification information of the outgoing cargo conveyance detected by the second RFID detection device is acquired.

Wherein the second identification information is recorded in an RFID tag of the outgoing cargo conveyance.

In practice, after the goods warehousing operation is finished, the delivery personnel assigned by the supplier needs to transport a specified number of idle goods carriers from the idle goods carrier storage area and transport the goods carriers out of the warehouse through the warehouse-out passage provided with the second RFID detection device. When the cargo fixture passes through the second RFID detection device, the second RFID detection device may recognize the RFID tag provided in the cargo fixture, may detect the second identification information of the cargo fixture recorded in the RFID tag, and transmits the second identification information to the operation terminal of the warehouse. And the operating terminal receives and stores the second identification information.

After the delivery personnel transports the idle cargo-carrying instruments out of the warehouse, the instructions need to be explained to the warehouse management personnel, and the instructions for confirming the completion of the delivery are input on the operation terminal. The input mode of the instruction may be clicking on a touch screen, clicking by using a mouse, triggering a button representing completion of ex-warehouse on an operation terminal, and the like. And after receiving the command for confirming the completion of the ex-warehouse, the operating terminal uploads the second identification information received in the ex-warehouse operation process to the management server.

The ex-warehouse egg basket is taken as an example for explanation. After the warehousing operation is finished, the delivery personnel need to transport a certain number of idle egg baskets, and the egg baskets need to be transported out through the warehouse-out channel provided with the second RFID detection equipment. When the egg basket passes through the second RFID detection device, the second RFID detection device identifies the RFID label in the egg basket and sends the detected second identification information to the operation terminal of the warehouse. And when the delivery personnel confirm that the egg crates are delivered out of the warehouse, the current delivery condition is explained for the warehouse manager, and the delivery personnel and the warehouse manager input an instruction for delivery completion on the operation terminal. The operation terminal uploads the second identification information of all egg baskets detected in the warehouse-out process to the management server.

104. And binding the second identification information with the first sender.

In implementation, the management server acquires the second identification information sent by the operation terminal. And the management server binds the second identification information with the first sender. For example, if the second identification information is a00031 and B0003, the second identification information is bound to the first supplier in the above example, so that it can be determined that the cargo fixtures with the second identification information of a00031 and B0003 are removed by the first supplier.

Before binding the second identification information with the first shipper, the management server may further determine a second appliance type according to the second identification information, and determine whether the second appliance type matches the first appliance type. And the management server determines whether to bind the second identification information with the first shipper according to the appliance type judgment result. The specific process is as follows:

the management server calls the appliance type of the goods carrying appliance according to the second identification information of the goods carrying appliance which is delivered from the warehouse, and the second appliance type corresponding to the second identification information can be determined. The second identification information may be identification information corresponding to only one appliance type. If the management server finds that the second identification information contains two or more appliance types when determining the second appliance type corresponding to the second identification information, the management server immediately sends an alarm notification to the operation terminal. The operation terminal sends an alarm after receiving the alarm notice, and the warehouse manager needs to enable the delivery personnel to distinguish the freight carrying appliances and arrange the delivery personnel to go out of the warehouse again after receiving the alarm. The operation process of re-unloading is the same as the aforementioned process, and is not described herein again.

The management server determines whether the second appliance type matches the first appliance type determined in step 102.

If the second appliance type matches the first appliance type, the second identification information is bound to the first issuer determined in step 102. And stores the binding information in the management server.

If the second appliance type does not match the first appliance type, the management server outputs an alarm instruction to an operation terminal of the warehouse. After the operation terminal gives an alarm, the warehouse manager needs to withdraw the goods taken out of the warehouse, and confirms that the goods taken out of the warehouse are withdrawn on the operation terminal. And the management server deletes the second identification information of the warehouse-out. The delivery person needs to re-warehouse the goods and implements, and the management server re-confirms the second appliance type according to the second identification information of the re-warehouse. The operation of the restocking of the cargo conveyance is the same as the operation of the previous delivery of the cargo conveyance, and will not be described in detail here.

The binding of the egg basket to the egg supplier is taken as an example for explanation.

Case of type matching:

and during the warehouse-out operation, the second identification information detected by the second RFID detection device is respectively A00031, A00032 and A00033, and the total number of the second identification information is 3. The management server obtains the 3 pieces of second identification information, and determines that the content of the second identification information is as follows: a indicates that the cargo fixture is used for transporting eggs and egg products, a000 indicates that the type of the cargo fixture is an egg basket, and 31, 32, and 33 indicate RFID tag numbers. The management server determines that the second appliance type of the goods appliance corresponding to the second identification information is the egg basket. And if the management server determines that the second appliance type is the same as the first appliance type determined in the step 102, the management server binds the second identification information with the first sender, namely binds the 3 pieces of second identification information with the supplier A, and ends the delivery operation.

Case of type mismatch:

and during the warehouse-out operation, the second identification information detected by the second RFID detection device is respectively B00031, B00032, B00033 and B00034, and the total number of the second identification information is 4. The management server obtains the 4 pieces of second identification information, and determines that the content of the second identification information is as follows: b indicates that the implement is used for transporting fruit, B000 indicates that the type of implement is an apple box, and 31, 32, 33, 34 indicate RFID tag numbers. And the management server determines that the second appliance type of the cargo appliance corresponding to the second identification information is the apple box. However, the first appliance type determined in step 102 only includes egg baskets, and the apple box is abnormally matched with the egg baskets. The management server sends an alarm notice to the operation terminal, the operation terminal gives an alarm, and the alarm mode of the operation terminal can be problem prompt, voice prompt, indicator light prompt and the like. And after receiving the alarm of the operation terminal, the warehouse manager arranges the delivery personnel to return to the apple boxes which are delivered from the warehouse and arranges the egg baskets which are delivered from the warehouse again. The operation process of the egg baskets taken out of the warehouse again is the same as that of the previous apple box taken out of the warehouse, and the detailed description is omitted here.

In addition to the above-mentioned case where the second identification information may be identification information corresponding to only one appliance type, the second identification information may also be identification information corresponding to a plurality of appliance types. At this time, the process of determining the second cargo fixture type and the first fixture type is the same as the process of determining the identification information of which the second identification information corresponds to only one fixture type, and is not repeated here.

When the goods delivery is carried out, the goods delivery is bound with the delivery party, the comparison and judgment of the types of the goods delivery devices which are delivered from the warehouse and the goods delivery devices which are delivered from the warehouse can be carried out, the quantity can be compared and judged, the corresponding processing can be carried out in multiple ways, and two possible processes are given out below.

Processing one, if the second appliance type is matched with the first appliance type and the quantity of the second identification information is equal to that of the first identification information, binding the second identification information with the first supplier corresponding to the first identification information.

When the management server compares and determines, it may first determine whether the appliance types are matched, and if the appliance types are not matched, perform subsequent operations according to the situation that the types are not matched, and the specific operation process is not described herein again. If the second appliance type matches the first appliance type, it is then determined whether the number of second identifiers is equal to the number of first identifiers.

And if the quantity of the second identification information detected during ex-warehouse is equal to the quantity of the first identification information detected during in-warehouse, binding the second identification information with the first supplier corresponding to the first identification information.

And if the number of the second identification information is larger than that of the first identification information, the management server outputs an alarm notification to the operation terminal of the warehouse and sends the excess number to the operation terminal. The warehouse manager needs to retrieve a corresponding number of the freight, confirms that the freight has been retrieved on the operation terminal, and sends a notification to the management server to delete the identification information of the retrieved freight. After the management server deletes the identification information of the retrieved cargo fixtures, the second identification information with a normal number is bound to the first shipper determined in step 102. And stores the binding information in the management server.

If the number of the second identification information is smaller than the number of the first identification information, the management server outputs an alarm notification to the operation terminal of the warehouse and transmits the missing number to the operation terminal. The delivery personnel need to add the corresponding number of goods delivery devices for delivery, confirm the completion of the delivery with the administrator, and send the second identification information of the newly added delivery to the management server. And repeating the operations of the step 103 and the step 104. And if the first appliance type is matched with the newly added second appliance type and the sum of the number of the newly added second identification information and the number of the identification information currently bound by the first shipper is equal to the preset appliance distribution number of the first shipper, binding the second identification information with the first shipper and finishing the warehouse-out operation.

When the number of the second identification information is equal to the number of the first identification information. During the warehouse-out operation, the second identification information detected by the second RFID detection device is a00031, a00032. The management server obtains the 30 pieces of second identification information, and determines the contents of the second identification information as follows: a indicates that the cargo apparatus is used for transporting eggs and egg products, A000 indicates that the type of the cargo apparatus is egg crate, and 31, 32 … …, 60 indicate RFID label numbers. The management server determines that the second appliance type of the cargo appliance corresponding to the second identification information is an egg basket, and the number of the second identification information is 30. And the management server determines that the second appliance type is the same as the first appliance type determined in the step 102 and the quantity of the second identification information is equal to the quantity of the first identification information in the step 102, binds the second identification information with the first shipper, namely binds the second identification information of the 30 egg baskets with the supplier A, and ends the ex-warehouse operation.

When the number of the second identification information is greater than the number of the first identification information. If the number of the second identification information acquired by the management server is 32, that is, the number of the egg baskets leaving the warehouse is 32. At the moment, the number of the egg baskets leaving the warehouse is larger than that of the egg baskets entering the warehouse, the management server sends an alarm notice to the operation terminal, and the number of the egg baskets exceeding the number of the egg baskets is 2. The librarian needs to withdraw 2 egg baskets and sends a notification for deleting the second identification information corresponding to the 2 egg baskets to the management server. And after the management server deletes the corresponding 2 pieces of identification information, binding the rest 30 pieces of second identification information with the supplier A, storing the binding information into the management server, and finishing the ex-warehouse operation.

When the number of the second identification information is smaller than the number of the first identification information. If the number of the second identification information acquired by the management server is 28, that is, the number of the egg baskets leaving the warehouse is 28. At the moment, the number of the egg baskets discharged from the warehouse is smaller than that of the egg baskets, the management server sends an alarm notice to the operation terminal, and sends the number of the missing egg baskets of 2 to the operation terminal. The warehouse keeper needs to inform the delivery personnel to add 2 egg baskets out of the warehouse. And the delivery personnel transport 2 egg baskets through the ex-warehouse channel and confirm the completion of the additional ex-warehouse with warehouse management personnel together, and the operation terminal sends 2 pieces of identification information of the additional ex-warehouse to the management server. And similarly, repeating the operations in the

steps

103 and 104. And binding the 30 newly added pieces of second identification information with the supplier A, storing the binding information into a management server, and finishing the ex-warehouse operation.

In addition to determining whether the appliance types match and then determining whether the quantities of the identification information match, it is also possible to determine whether the quantities of the identification information match and then determine whether the appliance types match. The corresponding operation process is similar to the above process, and is not described herein again.

And step two, if the type of the second appliance is matched with the type of the first appliance, and the sum of the quantity of the second identification information and the quantity of the identification information currently bound by the first sender is equal to the preset appliance distribution quantity of the first sender, binding the second identification information with the first sender.

Before the management server compares and judges, the preset appliance distribution quantity of the first shipper is obtained, and the quantity of the egg baskets bound with the supplier A at present is obtained. When the management server determines, it may first determine whether the types of the appliances are matched, and if the types of the appliances are not matched, perform subsequent operations according to the condition that the types are not matched, and the specific operation process is not described herein again. And if the second appliance type is matched with the first appliance type, judging whether the sum of the quantity of the second identification information and the quantity of the identification information currently bound by the first shipper is equal to the preset distribution quantity of the appliances of the first shipper.

And if the sum of the quantity of the second identification information and the quantity of the identification information currently bound by the first shipper is equal to the preset appliance distribution quantity of the first shipper, binding the second identification information with the first shipper.

And if the sum of the number of the second identification information and the number of the identification information currently bound by the first shipper is larger than the preset appliance distribution number of the first shipper, the management server outputs an alarm notification to an operation terminal of the warehouse and sends the excess number to the operation terminal. The warehouse manager needs to retrieve a corresponding number of the freight, confirms that the freight has been retrieved on the operation terminal, and sends a notification to the management server to delete the identification information of the retrieved freight. After the management server deletes the identification information of the retrieved cargo fixtures, the second identification information with a normal number is bound to the first shipper determined in step 102. And stores the binding information in the management server.

And if the sum of the number of the second identification information and the number of the identification information currently bound by the first shipper is less than the preset appliance distribution number of the first shipper, the management server outputs an alarm notification to an operation terminal of the warehouse and sends the missing number to the operation terminal. The delivery personnel need to add the corresponding number of goods delivery devices for delivery, confirm the completion of the delivery with the administrator, and send the second identification information of the newly added delivery to the management server. And repeating the operations of the step 103 and the step 104. And if the first appliance type is matched with the newly added second appliance type and the sum of the number of the newly added second identification information and the number of the identification information currently bound by the first shipper is equal to the preset appliance distribution number of the first shipper, binding the second identification information with the first shipper and finishing the warehouse-out operation.

The sum of the quantity of the second identification information and the quantity of the identification information currently bound by the first shipper is equal to the preset appliance distribution quantity of the first shipper. The management server obtains that the number of the preset egg baskets distributed to the supplier A at this time is 30, and obtains that the number of the egg baskets bound with the supplier A at present is 2. During the warehouse-out operation, the second identification information detected by the second RFID detection device is a00031, an 00032. The management server obtains the 28 pieces of second identification information, and determines that the contents of the second identification information are as follows: a indicates that the cargo apparatus is used for conveying eggs and egg products, A000 indicates that the type of the cargo apparatus is egg crate, and 31, 32 … …, 58 indicate RFID label numbers. The management server determines that the type of the second appliance corresponding to the second identification information is an egg basket, and the number of the second identification information is 28. And if the management server determines that the second appliance type is the same as the first appliance type determined in the step 102 and the sum of the number of the second identification information and the number of the egg baskets bound by the current supplier A is equal to the preset distribution number, the management server binds the second identification information of the 28 egg baskets with the supplier A and finishes the ex-warehouse operation.

When the sum of the number of the second identification information and the number of the identification information currently bound by the first sender is not equal to the preset appliance allocation number of the first sender, the egg baskets with corresponding abnormal numbers need to be added or withdrawn, and the specific operation process is similar to the case of processing the egg baskets with unequal numbers mentioned in the first step, and is not repeated here.

In addition to determining whether the appliance types are matched and then determining whether the identification information numbers are matched, it is also possible to determine whether the identification information numbers are matched and then determine whether the appliance types are matched. The corresponding operation process is similar to the above process, and is not described herein again.

The following describes a procedure for setting the number of appliances to be dispensed:

the management server acquires the quantity of the goods equipment which is put into storage by the first shipper each time within the preset historical duration, and inputs the quantity of the identification information of the goods equipment which is put into storage each time into the equipment quantity estimation model, so that the estimated quantity of the goods equipment which is put into storage by the first shipper next time is obtained, and the estimated quantity is set as the distribution quantity of the equipment of the first shipper.

For example, before the first delivery side finishes warehousing, the management server may obtain the number of the cargo fixtures warehoused by the first delivery side each time within the past 30 days, input the number of the fixtures within the past 30 days into the cargo fixture number estimation model, and obtain the estimated number of the next cargo fixture warehousing of the first delivery side, where the estimated number is the preset fixture allocation number.

The above-described appliance number estimation model may be a machine learning model. The corresponding training process may be as follows:

an initial appliance quantity estimation model is established, and the quantity of the cargo appliances which are put in storage at each time of the first shipper and are continuously 32 days is selected from the existing database. And inputting the warehousing quantity of the 1 st to 30 th days into the initial model as a sample, and acquiring the estimated warehousing quantity of the goods in the 32 th day of the first shipper. The estimated quantity is used as the actual output of the initial model, and a loss value is determined based on the actual output and the reference output. And carrying out numerical adjustment on parameters to be adjusted of the initial appliance quantity estimation model based on the loss value. In this method, the number-of-instruments estimation model is trained based on a large number of samples, and the number of times of training may be used as a training completion condition, or the actual output of the model and the reference output may be within a certain error range. For example, the training may be stopped when the number of times of training reaches 1000 times, or the training may be ended when the error between the actual output and the reference output is within 5%.

The embodiment of the present application further provides a method for determining whether a warehouse goods is matched with a purchase order, and the corresponding processing may be as shown in fig. 3, including the following steps:

201. and determining a first preset warehousing quantity corresponding to the first goods sender and the first appliance type according to the corresponding relation between the appliance types of the goods senders and the goods-carrying appliances and the preset warehousing quantity.

In practice, the goods purchase order in the management server may include information such as goods category, supplier, appliance type of the goods and predetermined warehousing quantity. The management server sends a goods purchase order to the supplier, and simultaneously establishes a corresponding relation between the appliance types of the goods sender and the goods-carrying appliances and the preset warehousing quantity according to the goods purchase order. Each time the management server sends a goods purchase order, a new corresponding relation is added in the corresponding relation, and the corresponding relation is unique. When warehousing operation is completed, the server acquires first identification information detected by the first RFID detection device, and determines a first appliance type and a first predetermined warehousing quantity corresponding to the first appliance type in the goods purchase order according to the first identification information.

The description will be given by taking the example of the eggs put in storage. When 30 (egg) baskets of eggs are required, they may be supplied simultaneously by an egg supplier A1 and an egg supplier B1, wherein 16 baskets are supplied by the egg supplier A1, 14 baskets are supplied by the egg supplier B1, and egg purchase orders are sent to the egg supplier A1 and the egg supplier B1, respectively. In the management server, unique correspondence relationships among the cargo devices, the suppliers, and the predetermined warehousing quantities are established, and may be respectively denoted as "a000-A1-16" and "a000-B1-14". When the warehousing operation is completed and the identification information acquired by the server is A000-A1, the cargo-carrying appliance can be determined to be a standard egg basket bound with the egg supplier A1. The management server determines that the preset warehousing number of the standard egg baskets bound with the egg supplier A1 is 16 baskets according to the unique corresponding relation among the cargo-carrying appliances, the suppliers and the preset warehousing number.

202. And determining whether the current warehousing process is abnormal or not based on the quantity of the first identification information and the first preset warehousing quantity.

In implementation, the warehouse administrator inputs an instruction for confirming completion of warehousing on the operation terminal of the warehouse. The management server acquires the first identification information uploaded by the operation terminal and determines the number of the first identification information actually stored in the warehouse. Meanwhile, the management server extracts the first preset warehousing quantity in the goods purchase order. And the management server compares the number of the first identification information actually put in storage with a first preset number, and determines whether the current storage is abnormal. And if the quantity of the first identification information is equal to the first preset warehousing quantity, determining that the warehousing operation is normal, sending a normal notification to the operation terminal by the management server, and finishing the warehousing operation. And if the quantity of the first identification information is not equal to the first preset warehousing quantity, determining that warehousing is abnormal, and sending an abnormal notice and an abnormal quantity to the operation terminal by the management server. And the operation terminal alarms after receiving the abnormal notification and displays the abnormal quantity. The warehouse manager needs to check the number of abnormalities together with the delivery person of the supplier, and after checking, an instruction of completion of abnormality checking is input at the operation terminal, and the operation terminal sends a notification of completion of checking to the management server. And after receiving the notification sent by the operation terminal, the management server binds the abnormal quantity with the goods purchase order, and the warehousing operation is finished.

After receiving the notification of normal warehousing, the operation terminal may display text prompts such as "normal warehousing" or "end warehousing" in the display component, play voice information prompts such as "normal warehousing" or "end warehousing" through a voice device, or indicate by lighting an indicator lamp with a corresponding color, for example, a green indicator lamp. After receiving the notification of normal warehousing, the operation terminal may display text prompts such as "abnormal warehousing" or "warehousing again" in the display component, play voice information prompts such as "abnormal warehousing" or play alarm ring tones through the voice device, and may also indicate normal by lighting an indicator light of a corresponding color, for example, a red indicator light. The operation terminal may represent the received notification sent by the management server in one of the above manners, or may represent the notification in a plurality of manners at the same time.

Alternatively, the process of adding data in the correspondence relationship between the appliance types of the shipper and the cargo implements and the predetermined warehousing number may be as shown in fig. 4, and includes the following steps:

301. and acquiring the quantity, the category and the second shipper of the goods in the order data of the target transportation task.

Wherein the number of goods is equal to the number of cargo carriers required for loading the goods.

302. A third instrument type of the cargo instrument corresponding to the item of cargo is determined.

303. And adding the second shipper, the third appliance type and the quantity of the goods into the corresponding relation between the appliance types of the shipper and the goods and the preset warehousing quantity.

In implementation, the server obtains and summarizes the order details of the user in the application program, counts the order quantity of the same goods class, and sends a goods purchase order to the corresponding supplier based on the order quantity. The same type of goods may be supplied by one shipper or by multiple shippers. When the goods are supplied by a plurality of shippers, the number of goods supplied by each shipper is specified, and the same cargo devices are used when each shipper supplies the same kind of goods. Therefore, the goods purchase order may include a plurality of pieces of goods purchase information, and the correspondence relationship between the number of goods, the category of goods, and the corresponding delivery party recorded in each piece of goods purchase information is unique, where the number of goods in the goods purchase order is equal to the number of goods required for loading the goods. The server acquires the quantity, the types and the corresponding shippers of the goods recorded in the goods purchasing information, and adds the information into the corresponding relation between the shippers, the appliance types of the goods and the preset warehousing quantity.

The embodiment of the present application further provides a method for a shipper to separately deliver goods, and the corresponding processing may be as shown in fig. 5, including the following steps:

401. and receiving a third delivery party which is sent by the operation terminal and input through the operation terminal.

Before the delivery side first supplies the goods to the warehouse, the delivery person can be arranged to leave the warehouse in advance for a certain number of goods for subsequent delivery. As described above, the warehouse manager needs to input information of the shipper in advance on the operation terminal of the warehouse at the time of shipment. When the warehouse manager inputs information on the terminal equipment, the information of the shipper can be input through a keyboard, or the information input of the nameplate of the shipper can be identified through a scanner, and the like. And after confirming that the information input of the shipper is finished, the warehouse manager sends related information to the management server. The management server receives the information of the delivery party transmitted by the operation terminal.

402. Third identification information of the outgoing cargo conveyance detected by the third RFID detection device is acquired.

Wherein the third identification information is recorded in an RFID tag of the shipment.

When the delivery person of the delivery party is going out of the warehouse for a certain number of cargo devices, the method for the management server to obtain the third identification information is the same as the method for obtaining the identification information in step 101 and step 103, and details are not repeated here.

403. And binding the third identification information with the third shipper.

The management server binds the acquired third identification information with the third delivery party, so that it can be determined that the goods corresponding to the third identification information are taken away by the third delivery party. For example, if the third identification information is a00031 and a00032, and the third shipper is vendor b, the third identification information is bound to vendor b, that is, it is determined that the cargo fixtures with the second identification information of a00031 and a00032 are taken away by vendor b.

The method for the shipper to individually deliver the freight devices can also be used for arranging the delivery personnel to deliver a certain number of freight devices from the warehouse for transporting goods before delivery when the shipper finds that the number of the freight devices bound with the shipper currently cannot meet the next delivery requirement.

All the above optional technical solutions may be combined arbitrarily to form optional embodiments of the present application, and are not described herein again.

The embodiment of the present application provides an apparatus for cargo management, which may be the management server in the above embodiment, as shown in fig. 6, the apparatus includes:

a first obtaining module 610, configured to obtain first identification information of a cargo conveyance being put in storage, which is detected by a first RFID detection device, where the first identification information is recorded in an RFID tag of the cargo conveyance being put in storage;

a determining module 620, configured to determine a first appliance type corresponding to the first identification information, and determine a first sender bound with the first identification information;

a unbinding module 630 for unbinding the first identification information from the first originator;

a second obtaining module 640, configured to obtain second identification information of the outgoing cargo fixture detected by the second RFID detection device, where the second identification information is recorded in an RFID tag of the outgoing cargo fixture;

a binding module 650 for binding the second identification information with the first sender.

In a possible implementation manner, the binding module 650 is configured to determine a second appliance type corresponding to the second identification information, and determine that the second appliance type matches the first appliance type.

In one possible implementation, the binding module 650 is configured to determine that the number of the second identification information is equal to the number of the first identification information.

In a possible implementation manner, the binding module 650 is configured to determine that the sum of the amount of the second identification information and the amount of the identification information currently bound by the first sender is equal to a preset appliance allocation amount of the first sender.

inputting the quantity of the identification information of the goods in storage each time into the goods quantity estimation model to obtain the estimated quantity of the goods in storage next time under the first delivery party, and setting the estimated quantity as the distribution quantity of the goods of the first delivery party.

In one possible implementation, the anomaly determination module is configured to:

determining a third instrument type of the cargo instrument corresponding to the class of cargo;

the binding module 650 is configured to:

and binding the third identification information with the third shipper.

In one possible implementation form of the method,

the first obtaining module 610 is configured to receive first identification information, which is sent by a terminal and obtained from a cargo carrier that is warehoused and detected by a first RFID detection device connected to the terminal;

the second obtaining module 640 is configured to receive second identification information, which is sent by the terminal and obtained from the warehoused cargo-carrying appliance detected by the second RFID detection device connected to the terminal.

It should be noted that: in the apparatus for managing cargo implements according to the above embodiment, only the division of the functional modules is illustrated, and in practical applications, the above function allocation may be performed by different functional modules according to needs, that is, the internal structure of the apparatus may be divided into different functional modules to perform all or part of the above described functions. In addition, the apparatus for cargo conveyance management and the method embodiment for cargo conveyance management provided by the above embodiments belong to the same concept, and specific implementation processes thereof are described in the method embodiment and are not described herein again.

The computer device provided by the embodiment of the present application may be the management server in the above embodiment. Fig. 7 is a schematic structural diagram of the computer device, where the computer device 700 may generate a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 701 and one or more memories 702, where the memory 702 stores at least one instruction, and the at least one instruction is loaded and executed by the processors 701 to implement the methods provided by the above method embodiments. Certainly, the computer device may further have components such as a wired or wireless network interface, a keyboard, and an input/output interface, so as to perform input and output, and the computer device may further include other components for implementing the functions of the device, which is not described herein again.

In an exemplary embodiment, a computer-readable storage medium, such as a memory including instructions executable by a processor in a terminal, to perform the method of cargo conveyance management in the above-described embodiments is also provided. The computer readable storage medium may be non-transitory. For example, the computer-readable storage medium may be a ROM (read-only memory), a RAM (random access memory), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the storage medium may be a read-only memory, a magnetic disk or an optical disk.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A method of cargo conveyance management, the method comprising:

acquiring first identification information of warehoused goods carriers detected by first RFID detection equipment, wherein the first identification information is recorded in RFID labels of the warehoused goods carriers;

determining a first appliance type corresponding to the first identification information, determining a first shipper bound with the first identification information, and unbinding the first identification information from the first shipper;

acquiring second identification information of the goods in the warehouse, which is detected by second RFID detection equipment, wherein the second identification information is recorded in an RFID tag of the goods in the warehouse;

and binding the second identification information with the first sender.

2. The method of claim 1, wherein prior to binding the second identification information with the first originator, further comprising:

3. The method of claim 2, wherein prior to binding the second identification information with the first sender, further comprising:

determining that the number of the second identification information is equal to the number of the first identification information.

4. The method of claim 2, wherein prior to binding the second identification information with the first originator, further comprising:

5. The method of claim 4, wherein before determining that the sum of the amount of the second identification information and the amount of the identification information currently bound by the first sender is equal to the preset appliance allocation amount of the first sender, the method further comprises:

acquiring the number of the cargo devices which are put in storage by the first shipper each time within a preset historical time;

inputting the quantity of the identification information of the goods equipment which is put in storage every time into an equipment quantity estimation model to obtain the estimated quantity of the goods equipment which is put in storage next time by the first goods-sending party, and setting the estimated quantity as the distribution quantity of the equipment of the first goods-sending party.

6. The method of claim 2, further comprising:

7. The method of claim 6, further comprising:

acquiring the quantity, the category and a second shipper of goods in order data of a target transportation task, wherein the quantity of the goods is equal to the quantity of goods required for loading the goods;

determining a third instrument type of the cargo instrument corresponding to the class of the cargo;

and adding the second shipper, the third appliance type and the quantity of the goods to the corresponding relation between the appliance types of the shipper and the goods and the preset warehousing quantity.

8. The method according to any one of claims 1-7, further comprising:

binding the third identification information with the third shipper.

9. The method according to any of claims 1-7, wherein said obtaining first identification information of the warehoused cargo carrier detected by the first RFID detection device comprises:

receiving first identification information of a warehousing cargo-carrying appliance, which is sent by a terminal and is acquired from first RFID detection equipment connected with the terminal;

the acquiring of the second identification information of the outgoing cargo conveyance detected by the second RFID detection device includes:

and receiving second identification information of the warehousing goods-carrying appliance, which is sent by the terminal and is acquired from second RFID detection equipment connected with the terminal.

10. The method according to any one of claims 1 to 7, wherein the first RFID detection device is installed at a cargo warehousing passage and the second RFID detection device is installed at a cargo ex-warehouse passage.

11. An apparatus for cargo conveyance management, the apparatus comprising:

the system comprises a first acquisition module, a second acquisition module and a control module, wherein the first acquisition module is used for acquiring first identification information of warehoused cargo carriers detected by first RFID detection equipment, and the first identification information is recorded in RFID labels of the warehoused cargo carriers;

a unbinding module for unbinding the first identification information from the first sender;

the second acquisition module is used for acquiring second identification information of the goods in the warehouse, which is detected by second RFID detection equipment, wherein the second identification information is recorded in the RFID tags of the goods in the warehouse;

12. A computer device comprising a processor and a memory, the memory having stored therein at least one instruction that is loaded and executed by the processor to perform operations performed by the method of cargo conveyance management of any of claims 1-10.

13. A computer-readable storage medium having stored therein at least one instruction which is loaded and executed by a processor to perform operations performed by a method of cargo conveyance management according to any one of claims 1 to 10.