CN116167694A - Object management method, device, equipment and storage medium - Google Patents

Abstract

The application provides a management method, a device, equipment and a storage medium for objects, relates to the field of warehouse management, and is used for solving the problem of low management efficiency of the objects. The method is applied to a target server for managing a first repository, the method comprising: acquiring position information of a first warehouse, first state information of a first object and second state information of a first vehicle, wherein the first state information comprises: volume information, second state information includes: position information, travel speed information. A target period is determined based on the second status information of the first vehicle and the location information of the first warehouse. And determining a target storage space in the first warehouse according to the target time period and the first state information of the first object, wherein the target storage space is used for storing the first object, and the effective time period of the target storage space is the target time period. In the case of receiving the target information, a first instruction is generated. The first instruction is sent to the second vehicle.

Description

Object management method, device, equipment and storage medium

Technical Field

The present disclosure relates to the field of warehouse management, and in particular, to a method, an apparatus, a device, and a storage medium for managing objects.

Background

In recent years, with the development of technology, management systems have come into the lives of people and are widely used in the fields of industry, transportation, office, etc. For example, the management system may manage items in a warehouse.

At present, when a management system manages objects in a warehouse, after a worker in the warehouse receives the objects, the management system allocates storage space occupied in the warehouse for the objects according to the volume information of the objects recorded by the worker and guides the worker to store the objects. However, in the above technical solution, the management system needs to allocate a storage space for the object after the object arrives at the warehouse, which seriously affects the efficiency of allocating the storage space for the object and reduces the management efficiency.

Disclosure of Invention

The application provides a management method, a device, equipment and a storage medium for objects, which are used for solving the problem of low management efficiency of the objects.

In order to achieve the above purpose, the present application adopts the following technical scheme:

in a first aspect, the present application provides a method for managing objects, applied to a target server, where the target server is used to manage a first repository, the method includes: the target server obtains position information of a first warehouse, first state information of a first object and second state information of a first vehicle, wherein the first vehicle is a vehicle loaded with the first object, and the first state information comprises: volume information, second state information includes: position information, travel speed information. The target server determines a target period according to the second state information of the first vehicle and the position information of the first warehouse, wherein the target period is the time range of the first vehicle reaching the first warehouse. The target server determines a target storage space in the first warehouse according to the target time period and the first state information of the first object, wherein the target storage space is used for storing the first object, and the effective time period of the target storage space is the target time period. In the event that the target server receives the target information, the target server generates a first instruction indicating that the first vehicle arrived at the first warehouse, the first instruction indicating that the first item is to be transported to the target storage space. The target server sends a first instruction to a second vehicle, which is the vehicle in the first warehouse for transporting the item.

Optionally, the number of the first objects is a first number, and the method for managing objects further includes: the target server obtains a second number of first items loaded when the first vehicle arrives at the first warehouse. The method for generating the first instruction by the target server includes: if the second number is equal to the first number, the target server generates a first instruction.

Optionally, the method for managing objects further includes: if the second number is smaller than the first number, the target server determines a second object and a third object, wherein the second object is an object which does not reach the first warehouse in the first objects of the first number, and the third object is an object which reaches the first warehouse in the first objects of the first number. The target server generates and sends a second instruction to the second vehicle, the second instruction being for instructing the transportation of the third item to the target storage space. And the target server generates a third instruction and sends the third instruction to the blockchain management platform, wherein the third instruction is used for indicating to inquire the position information of the second object. The target server receives the position information of the second object from the blockchain management platform and sends alarm information to target management equipment, wherein the target management equipment is used for managing the state of the object, and the alarm information comprises: position information of the second object.

Optionally, the first state information further includes: category information, transportation route information, preset time, the transportation route information includes: the position information of the passed warehouse, the position information of the warehouse to be passed and the position information of the destination are preset as the time for the object to reach the destination.

Optionally, the warehouse to be passed in the first state information of the first object includes: the second warehouse is the next warehouse of the first warehouse in the transportation route information, and the management method of the objects further comprises the following steps: the target server stores the first state information of the first object, and establishes a corresponding relation between the first state information of the first object and the first object. The target server obtains the current moment and the first state information of a fourth object, wherein the fourth object is stored in the first warehouse. The target server calculates the difference between the current moment and the preset moment of the fourth object, and determines a target time difference. And the target server generates a to-be-processed identifier according to the target time difference value and a preset time difference threshold value, wherein the to-be-processed identifier is used for indicating the emergency degree of transporting the fourth object to the second warehouse.

In a second aspect, the present application provides an apparatus for managing objects, the apparatus comprising: the device comprises an acquisition module, a processing module and a sending module.

The system comprises an acquisition module, a storage module and a storage module, wherein the acquisition module is used for acquiring position information of a first warehouse, first state information of a first object and second state information of a first vehicle, the first vehicle is a vehicle loaded with the first object, and the first state information comprises: volume information, second state information includes: position information, travel speed information. And the processing module is used for determining a target time period according to the second state information of the first vehicle and the position information of the first warehouse, wherein the target time period is the time range of the first vehicle reaching the first warehouse. The processing module is further configured to determine, in the first warehouse, a target storage space according to the target period and the first status information of the first object, where the target storage space is used for storing the first object, and an effective period of the target storage space is the target period. The processing module is further configured to generate a first instruction, if target information is received, the target information being used to instruct the first vehicle to reach the first warehouse, the first instruction being used to instruct the first item to be transported to the target storage space. And the sending module is used for sending the first instruction to the second vehicle, and the second vehicle is a vehicle used for transporting the objects in the first warehouse.

Optionally, the number of first articles is a first number. The acquisition module is further used for acquiring a second quantity, wherein the second quantity is the quantity of the first articles loaded when the first vehicle arrives at the first warehouse. The processing module is specifically configured to generate the first instruction if the second number is equal to the first number.

Optionally, the processing module is further configured to determine a second object and a third object if the second number is smaller than the first number, where the second object is an object that does not reach the first warehouse among the first objects of the first number, and the third object is an object that has reached the first warehouse among the first objects of the first number. The processing module is further configured to generate a second instruction, where the second instruction is configured to instruct transporting the third item to the target storage space. And the sending module is also used for sending a second instruction to the second vehicle. The processing module is further used for generating a third instruction, and the third instruction is used for indicating to inquire the position information of the second object. And the sending module is also used for sending a third instruction to the blockchain management platform. The acquisition module is also used for receiving the position information of the second object from the blockchain management platform. The sending module is further configured to send alarm information to a target management device, where the target management device is configured to manage a state of an object, and the alarm information includes: position information of the second object.

Optionally, the first state information further includes: category information, transportation route information, preset time, the transportation route information includes: the position information of the passed warehouse, the position information of the warehouse to be passed and the position information of the destination are preset as the time for the object to reach the destination.

Optionally, the warehouse to be passed in the first state information of the first object includes: and the second warehouse is the next warehouse of the first warehouse in the transportation route information. The apparatus further comprises: and a storage module. And the storage module is used for storing the first state information of the first object. The processing module is further used for establishing a corresponding relation between the first state information of the first object and the first object. The acquisition module is further used for acquiring the current moment and first state information of a fourth object, wherein the fourth object is a stored object in the first warehouse. The processing module is further used for calculating a difference value between the current moment and the preset moment of the fourth object and determining a target time difference value. The processing module is further used for generating a to-be-processed identifier according to the target time difference value and the preset time difference threshold value, and the to-be-processed identifier is used for indicating the emergency degree of transporting the fourth object to the second warehouse.

In a third aspect, the present application provides an apparatus for managing objects, the apparatus comprising: a processor and a memory coupled, the memory for storing one or more programs, the one or more programs comprising computer-executable instructions, which when executed by the management device of the article, the processor executing the computer-executable instructions stored by the memory to implement the method of management of an article as described in any one of the possible implementations of the first aspect and the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium having instructions stored therein, which when run on a computer, cause the computer to perform the method of managing items described in any one of the possible implementations of the first aspect and the first aspect described above.

In a fifth aspect, the present application provides a computer program product for application to a server, the computer program product comprising computer instructions which, when run on the server, implement a method of managing an article as described in any one of the possible implementations of the first aspect and the first aspect.

In the above solution, the technical problems and the technical effects that can be solved by the management device, the computer storage medium or the computer program product of the object can be referred to the technical problems and the technical effects that can be solved by the first aspect, and are not described herein.

The technical scheme provided by the application at least brings the following beneficial effects: the target server may obtain location information of a first warehouse, first state information of a first object, and second state information of a first vehicle, where the target server is configured to manage the first warehouse, the first vehicle is a vehicle loaded with the first object, and the first state information includes: volume information, second state information includes: position information, travel state information. The target server may then determine a target period based on the second status information of the first vehicle and the location information of the first warehouse, the target period being a time range for the first vehicle to reach the first warehouse. Then, the target server may determine a target storage space in the first warehouse according to the target period and the first state information of the first object, where the target storage space is used for storing the first object, and an effective period of the target storage space is the target period. That is, the target server may allocate a storage space for the items that is time-efficient in advance before the items arrive at the warehouse. Therefore, the utilization rate of warehouse capacity can be improved, the efficiency of distributing storage space for objects is improved, and the management efficiency is improved. And, in the event that the target server receives the target information, the target server may generate a first instruction indicating that the first vehicle arrives at the first warehouse, the first instruction indicating that the first item is to be transported to the target storage space. The target server may then send the first instruction to a second vehicle, which is the vehicle in the first warehouse for transporting the item. That is, the target server may direct the vehicle to transport the item to the corresponding storage space. Therefore, the management steps on the objects can be reduced, and the management efficiency is improved.

Drawings

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

FIG. 2 is a flowchart illustrating a method for managing objects according to an embodiment of the present disclosure;

FIG. 3 is a flowchart illustrating another object management method according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an object management device according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an article management device according to an embodiment of the present application;

fig. 6 is a conceptual partial view of a computer program product provided by an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The character "/" herein generally indicates that the associated object is an "or" relationship. For example, A/B may be understood as A or B.

The terms "first" and "second" in the description and in the claims of the present application are used for distinguishing between different objects and not for describing a particular sequential order of objects.

Furthermore, references to the terms "comprising" and "having" and any variations thereof in the description of the present application are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or modules is not limited to only those steps or modules but may include other steps or modules not listed or inherent to such process, method, article, or apparatus.

In addition, in the embodiments of the present application, words such as "exemplary" or "such as" are used to mean serving as examples, illustrations, or descriptions. Any embodiment or design described herein as "exemplary" or "e.g." should not be construed as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present concepts in a concrete fashion.

Before describing the management method of the object provided by the embodiment of the application in detail, the implementation environment and application field Jing Jinhang of the embodiment of the application are described.

First, an application scenario of the embodiment of the present application will be described.

The object management method is applied to a scene of managing objects in a warehouse. In the related art, when a management system manages objects in a warehouse, after a worker in the warehouse receives the objects, the management system allocates storage space occupied in the warehouse for the objects according to volume information of the objects recorded by the worker and guides the worker to store the objects.

For example, after the object a and the object B reach the warehouse a, a worker of the warehouse a collects the volume information of the object a and the volume information of the object B through the mobile phone a, and sends the collected volume information of the object a and the volume information of the object B to the management system a of the warehouse a through the mobile phone a. Then, the management system A allocates the storage space A occupied in the warehouse A for the object A according to the volume information of the object A. And, the management system A distributes the storage space B occupied in the warehouse A for the objects B according to the volume information of the objects B. Then, the management system A sends an instruction for storing the object A in the storage space A and storing the object B in the storage space B to the mobile phone A. And then, the staff of the warehouse A manages the objects A and B according to the instruction from the management system A received by the mobile phone A.

In summary, in the present technical solution, the management system needs to allocate a storage space for the object after the object arrives at the warehouse, which seriously affects the efficiency of allocating the storage space for the object and reduces the management efficiency.

In order to solve the above-mentioned problems, the embodiments of the present application provide a method for managing objects, where a target server may obtain location information of a managed warehouse, volume information of objects, location information of a vehicle on which the objects are loaded, and travel speed information. Then, the target server can calculate the time range of the vehicle reaching the warehouse according to the position information of the warehouse, the position information of the vehicle and the running speed information. The target server may then determine a storage space in the warehouse for storing the items within the time frame for the period of validity based on the volume information and the time frame for the items. That is, the target server may allocate a storage space for the items that is time-efficient in advance before the items arrive at the warehouse. Therefore, the utilization rate of warehouse capacity can be improved, the efficiency of distributing storage space for objects is improved, and the management efficiency is improved. And, after the target server determines that the vehicle arrives at the warehouse, the target server may generate an instruction for instructing to transport the item to the storage space and send the instruction to the vehicle in the warehouse for transporting the item. That is, the target server may direct the vehicle to transport the item to the corresponding storage space. Therefore, the management steps on the objects can be reduced, and the management efficiency is improved.

The following describes an implementation environment of an embodiment of the present application.

As shown in fig. 1, a communication system according to an embodiment of the present application includes: a target server (e.g., server 101), at least one terminal (e.g., terminal 102, terminal 103). Wherein the server 101 may be in wired/wireless communication with the terminal 102 (or the terminal 103).

In some embodiments, a server (e.g., server 101) may interact with terminals (e.g., terminal 102, terminal 103) using fifth generation mobile communication technology (5th Generation Mobile Communication Technology,5G).

The terminal 102 may collect location information and status information of the object, and send the collected location information and status information (such as volume information, category information, etc.) to the server 101. The server 101 may then allocate storage space for the object based on the received location information and status information. Also, the server 101 may send an instruction to the terminal 103 to transport the item to the storage space. The terminal 103 may then manage the object according to the received instruction.

The server (e.g., server 101) may be a single physical server, or may be a server cluster formed by a plurality of servers. Alternatively, the server cluster may also be a distributed cluster. Alternatively, the server may be a cloud server. The embodiment of the application does not limit the specific implementation manner of the server.

It should be noted that, in the embodiment of the present application, a server (such as the server 101) may be disposed on an edge industrial internet platform, and the server may include: warehouse management system (WarehouseManagement System, WMS), transportation management system (Transportation ManagementSystem, TMS).

The terminal (e.g., terminal 102, terminal 103) may be a mobile phone, a tablet computer, a desktop, a laptop, a handheld computer, a notebook, an Ultra-mobile personal computer (mobile Personal Computer, UMPC), a netbook, or other devices capable of collecting location information and status information (e.g., volume information, category information, etc.), and the specific form of the terminal is not particularly limited in this application. The system can perform man-machine interaction with a user through one or more modes of a keyboard, a touch pad, a touch screen, a remote controller, voice interaction or handwriting equipment and the like, and can be deployed in facilities such as vehicles, warehouses and the like.

After the application scenario and the implementation environment of the application embodiment are introduced, the method for managing the object provided by the application embodiment is described in detail below with reference to the implementation environment.

The methods in the following embodiments may be implemented in the application scenario and implementation environment described above. Embodiments of the present application will be specifically described below with reference to the drawings attached to the specification.

Fig. 2 is a flowchart of a method for managing objects according to an embodiment of the present disclosure. As shown in fig. 2, the method may include: S201-S206.

S201, the target server acquires the position information of the first warehouse, the first state information of the first object and the second state information of the first vehicle.

Wherein the target server is used for managing the first warehouse.

For example, the target server may allocate storage space for items to be stored in the first warehouse. For another example, the target server may set a delivery time for items stored in the first warehouse. For another example, the target server may alert items in the first warehouse that have a long residence time.

In an embodiment of the present application, the first vehicle is a vehicle loaded with a first object, and the first state information may include: the volume information, the second state information may include: position information, travel speed information.

Illustratively, truck a (i.e., the first vehicle) is loaded with a cabinet a (i.e., the first item). The cabinet a is a cube of 8 cubic meters (namely, volume information), the truck a is located at a position of 37 degrees in longitude and 103 degrees in latitude (namely, position information), and the running speed of the truck a is 30 km/h (namely, running speed information).

In one possible design, the first state information may further include: category information, transportation route information and preset time. Wherein, the transportation route information may include: the position information of the passed warehouse, the position information of the warehouse to be passed and the position information of the destination are preset as the time for the object to reach the destination.

That is, the target server may allocate a storage space for the object according to the category information, the transportation route information, and the preset time of the object. Thus, valuable references can be provided for allocating storage space for the object, and the accuracy of the storage space is improved.

For example, if mirror a needs to pass through city a to reach cell a at 10 a.m. and mirror a has passed through city B, the first state information of mirror a includes: glass (i.e., category information), city a location information (i.e., location information of a warehouse that has already been traversed), city B location information (i.e., location information of a warehouse that is to be traversed), cell a location information (i.e., location information of a destination), and 10 am (i.e., a preset time).

In one possible implementation, the target server may obtain location information of the first warehouse and second status information of the first vehicle via the positioning system.

It should be noted that the embodiment of the present application does not limit the positioning system. For example, the positioning system may be a global positioning system (Global Positioning System, GPS). As another example, the positioning system may be a Beidou satellite navigation system (BeiDou Navigation Satellite System, BDS). As another example, the positioning system may be a galileo satellite navigation system (Galileo satellite navigationsystem).

In one possible design, the destination server stores an identification of the first repository and an identification of the first vehicle. The target server may obtain, via the positioning system, location information of the first warehouse and second status information of the first vehicle according to the identification of the first warehouse and the identification of the first vehicle.

In another possible design, the target server may receive an identification of the first vehicle from the first server. The target server may then obtain, via the positioning system, second status information of the first vehicle based on the identification of the first vehicle. The first server is used for managing a third warehouse, the third warehouse is a warehouse which is passed through in the first state information of the first object, and the third warehouse is a last warehouse of the first warehouse in the transportation route information. That is, the third warehouse is a warehouse that transports the first item to the first warehouse.

In one possible implementation, the target server may receive first state information for a first item from a first server.

It should be noted that, after the target server obtains the location information of the first warehouse, the first state information of the first object, and the second state information of the first vehicle, the target server may allocate a storage space for the first object in the first warehouse according to the location information of the first warehouse, the first state information of the first object, and the second state information of the first vehicle.

S202, the target server determines a target period according to the second state information of the first vehicle and the position information of the first warehouse.

Wherein the target period is a time range for the first vehicle to reach the first warehouse.

For example, the target period is 10 am-11 am 30 minutes, then the first vehicle arrives at the first warehouse within 10 am-11 am 30 minutes.

In one possible implementation, the target server stores a preset period of time, and the target server may acquire a target time, where the target time is a time when the target server acquires the second state information of the first vehicle. Then, the target server may determine the target period according to the preset period, the target time, the position information of the first warehouse, the position information in the second state information of the first vehicle, and the travel speed information.

Illustratively, warehouse a (i.e., the first warehouse) is located at 37 degrees longitude and 103 degrees latitude, truck a (i.e., the first vehicle) is located at 37.02651668 degrees longitude and 103.2 degrees latitude (i.e., the location information in the second state information), and truck a is traveling at 30 km/h (i.e., the travel speed information in the second state information). If the server a (i.e., the target server) obtains the time of longitude 37.02651668 degrees, latitude 103.2 degrees, and 30 km/h as 10 am (i.e., the target time) and the preset time period is 10 minutes, the server a determines that the target time period is 10 am 26 minutes-10 am 46 minutes. That is, truck A arrives at warehouse A within 10.m. 26 minutes-10.m. 46.

S203, the target server determines a target storage space in the first warehouse according to the target period and the first state information of the first object.

In one possible implementation, the target server may determine a storage space for storing the first item in the first warehouse based on the first state information of the first item. Then, the target server may determine an effective period of the storage space for storing the first object according to the target period, thereby determining the target storage space. The target storage space is used for storing the first object, and the effective period of the target storage space is a target period.

For example, if the first item is a cube 0.8 meters long, 0.2 meters wide, 1 meter high, and the target period is 9.m. 26 minutes a.m. 9.m. 40 minutes a.m., the target server reserves a storage space (i.e., target storage space) 0.95 meters long, 0.35 meters wide, 1.15 meters high for the first item in the first warehouse within 9.m. 26 minutes a.m. 9.m. 40 minutes a.m..

In one possible implementation, the first state information may further include: and (5) identification. The target server may also determine location information for the target storage space. Then, the target server may store the location information of the target storage space, and establish a correspondence between the identifier of the first object and the location information of the target storage space.

S204, whether the target server receives the target information.

Wherein the target information is used to indicate that the first vehicle arrived at the first warehouse.

In one possible implementation, the target server may determine whether the first vehicle arrives at the first warehouse by receiving information from the access control device. Wherein, entrance guard's equipment is used for managing the vehicle of business turn over first warehouse.

It should be noted that, in the embodiment of the present application, the access control device may be a radio frequency card reading module.

In one possible design, if the access control device detects that the first vehicle arrives at the first warehouse, the access control device sends the target information to the target server.

In another possible design, the access control device does not send the target information to the target server if the access control device does not detect that the first vehicle arrives at the first warehouse.

In some embodiments, if the target server does not receive the target information, the target server may acquire the second state information of the first vehicle at a preset time. Then, the target server may update the effective period of the target storage space according to the second state information of the first vehicle acquired at the preset time.

It is understood that the target server may update the effective period of the target storage space in the first warehouse according to the position information and the travel speed information of the first vehicle acquired at the preset time. Thus, the accuracy of the storage space allocated by the objects can be improved, and the utilization rate of warehouse capacity is improved.

In other embodiments, if the target server receives the target information, the target server performs S205.

S205, the target server generates a first instruction.

The first instruction is used for indicating that the first object is transported to the target storage space.

In one possible implementation, the target server may generate a first instruction according to the identification of the first object and the location information of the target storage space, where the first instruction may include: identification of the first object, and location information of the target storage space.

S206, the target server sends the first instruction to the second vehicle.

Wherein the second vehicle is a vehicle for transporting the object in the first warehouse.

In some embodiments, the second vehicle may receive the first instruction from the target server. Then, the second vehicle may obtain the first object according to the identifier of the first object in the first instruction. Then, the second vehicle can store the first object in the target storage space according to the position information of the target storage space in the first instruction.

It can be understood that by sending the first instruction to the second vehicle by the target server, automatic management of the objects can be realized, and management efficiency is improved.

The technical scheme provided by the embodiment at least brings the following beneficial effects: the target server may obtain location information of a first warehouse, first state information of a first object, and second state information of a first vehicle, where the target server is configured to manage the first warehouse, the first vehicle is a vehicle loaded with the first object, and the first state information includes: volume information, second state information includes: position information, travel state information. The target server may then determine a target period based on the second status information of the first vehicle and the location information of the first warehouse, the target period being a time range for the first vehicle to reach the first warehouse. Then, the target server may determine a target storage space in the first warehouse according to the target period and the first state information of the first object, where the target storage space is used for storing the first object, and an effective period of the target storage space is the target period. That is, the target server may allocate a storage space for the items that is time-efficient in advance before the items arrive at the warehouse. Therefore, the utilization rate of warehouse capacity can be improved, the efficiency of distributing storage space for objects is improved, and the management efficiency is improved. And, in the event that the target server receives the target information, the target server may generate a first instruction indicating that the first vehicle arrives at the first warehouse, the first instruction indicating that the first item is to be transported to the target storage space. The target server may then send the first instruction to a second vehicle, which is the vehicle in the first warehouse for transporting the item. That is, the target server may direct the vehicle to transport the item to the corresponding storage space. Therefore, the management steps on the objects can be reduced, and the management efficiency is improved.

In some embodiments, the number of first items may be a first number. The first server may also send the first number to the target server while the first server sends the first state information of the first item to the target server. And, the target server may receive the first number from the first server.

It should be noted that, after the target server determines that the first vehicle arrives at the first warehouse, the target server may detect the number of first objects loaded by the first vehicle.

In some embodiments, as shown in fig. 3, before S205, the method for managing objects may further include: S301-S306.

S301, the target server acquires the second quantity.

Wherein the second quantity is a quantity of the first items loaded when the first vehicle arrives at the first warehouse.

In one possible implementation, the access device is also used to detect the number of items loaded by the vehicle entering and exiting the first warehouse. The target server may also obtain the second number through the access device.

S302, the target server determines whether the second number is equal to the first number.

In some embodiments, if the target server determines that the second number is equal to the first number, the target server performs S205.

In other embodiments, if the target server determines that the second number is less than the first number, the target server performs S303.

S303, the target server determines the second object and the third object.

The second objects are objects which do not reach the first warehouse in the first number of first objects, and the third objects are objects which reach the first warehouse in the first number of first objects.

In one possible implementation, the access device is further configured to detect an identification of an item loaded by the vehicle entering and exiting the first warehouse. The target server may also obtain, via the access device, an identification of the first item loaded when the first vehicle arrives at the first warehouse. The target server may then determine the identity of the second item and the identity of the third item based on the identity of the first item from the first server and the identity of the first item loaded when the first vehicle arrives at the first warehouse, and further determine the second item and the third item.

S304, the target server generates a second instruction and sends the second instruction to the second vehicle.

Wherein the second instruction is for instructing to transport the third item to the target storage space.

In one possible implementation, the target server may generate the second instruction according to the identifier of the third object. Wherein the second instruction may include an identification of a third item.

S305, the target server generates a third instruction and sends the third instruction to the blockchain management platform.

The third instruction is used for indicating to inquire the position information of the second object.

In one possible implementation, the target server may generate the third instruction according to the identification of the second object. Wherein the third instruction may include an identification of the second object.

Note that, the order of S304 and S305 is not limited in the embodiment of the present application. For example, the target server may perform S304 first, and then S305. For another example, the target server may execute S305 first and then S304. For another example, the target server may perform S304 and S305 simultaneously.

S306, the target server receives the position information of the second object from the blockchain management platform and sends alarm information to the target management device.

In one possible implementation, the target server may receive the location information of the second object from the blockchain management platform. Then, the target server may generate alarm information according to the position information of the second object, and send the alarm information to the target management device. The target management device is used for managing the state of the object, and the alarm information can include: position information of the second object.

It will be appreciated that the target server may detect whether an item is lost during transportation. If the target server detects that the object is lost in the transportation process, the target server can locate the lost object through the block chain management platform, generate alarm information and send the alarm information to the target management equipment. Therefore, the management of lost objects can be realized, and the management efficiency is improved.

In some embodiments, the warehouse to be traversed in the first state information of the first item comprises: and the second warehouse is the next warehouse of the first warehouse in the transportation route information. After the second vehicle stores the first object in the target storage space, the target server may store the first state information of the first object, and establish a correspondence between the first state information of the first object and the first object. Then, the target server may obtain the first status information of the fourth object and the current time, where the fourth object is a stored object in the first warehouse. Then, the target server can calculate the difference between the current time and the preset time of the fourth object, and determine the target time difference. And then, the target server can generate a to-be-processed identifier according to the target time difference value and a preset time difference threshold value, wherein the to-be-processed identifier is used for indicating the emergency degree of transporting the fourth object to the second warehouse. And then, the target server can manage the fourth object according to the to-be-processed identifier.

In one possible implementation, the target server may manage the fourth object by determining whether the urgency indicated by the identifier to be processed is less than a preset urgency.

In one possible design, if the target server determines that the urgency indicated by the pending identification is less than the preset urgency, the first warehouse does not transport the fourth item to the second warehouse.

In another possible design, the first warehouse transports the fourth item to the second warehouse if the target server determines that the urgency indicated by the pending identification is greater than or equal to the preset urgency.

It will be appreciated that the target server may determine how urgent the stored items in the first warehouse are to be taken out of the warehouse, and thus manage the stored items in the first warehouse. Therefore, the warehouse-out management of the objects in the warehouse can be realized, and the management efficiency is improved.

In some embodiments, the target management device may interact with the target server, the first server, and the blockchain management platform, respectively, to obtain the location of the object.

That is, the target management device may monitor the location of the items in a shipping state between the first warehouse and the third warehouse, and the location of the items in a storage state within the first warehouse or within the third warehouse. Therefore, the monitoring of the objects in different states can be realized, and the management efficiency is improved.

The foregoing description of the solution provided by the embodiments of the present application has been presented mainly from the perspective of a computer device. It will be appreciated that the computer device, in order to carry out the functions described above, comprises corresponding hardware structures and/or software modules that perform the respective functions. Those of skill in the art will readily appreciate that the method steps of managing objects of the examples described in connection with the embodiments disclosed herein may be implemented as hardware or a combination of hardware and computer software. Whether a function is implemented as hardware or computer software driven hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The embodiment of the application also provides a management device for the objects. The object management device may be a computer device, a CPU in the computer device, a processing module for managing objects in the computer device, or a client for managing objects in the computer device.

The embodiment of the application may divide the functional modules or functional units of the management device of the object according to the above method example, for example, each functional module or functional unit may be divided corresponding to each function, or two or more functions may be integrated into one processing module. The integrated modules may be implemented in hardware, or in software functional modules or functional units. The division of the modules or units in the embodiments of the present application is merely a logic function division, and other division manners may be implemented in practice.

Fig. 4 is a schematic structural diagram of an object management device according to an embodiment of the present application. The object management device is used for executing the object management method shown in fig. 2 or fig. 3. The management apparatus 400 of the object may include: an acquisition module 401, a processing module 402 and a sending module 403.

The obtaining module 401 is configured to obtain location information of a first warehouse, first status information of a first object, and second status information of a first vehicle, where the first vehicle is a vehicle loaded with the first object, and the first status information includes: volume information, second state information includes: position information, travel speed information. The processing module 402 is configured to determine a target period according to the second status information of the first vehicle and the location information of the first warehouse, where the target period is a time range when the first vehicle arrives at the first warehouse. The processing module 402 is further configured to determine, in the first warehouse, a target storage space according to the target period and the first status information of the first object, where the target storage space is used for storing the first object, and an effective period of the target storage space is the target period. The processing module 402 is further configured to generate a first instruction, if target information is received, the target information being used to instruct the first vehicle to reach the first warehouse, the first instruction being used to instruct the first item to be transported to the target storage space. A sending module 403, configured to send the first instruction to a second vehicle, where the second vehicle is a vehicle in the first warehouse for transporting the object.

Optionally, the number of first articles is a first number. The obtaining module 401 is further configured to obtain a second number, where the second number is the number of first objects loaded when the first vehicle arrives at the first warehouse. The processing module 402 is specifically configured to generate the first instruction if the second number is equal to the first number.

Optionally, the processing module 402 is further configured to determine a second object and a third object if the second number is less than the first number, where the second object is an object that does not reach the first warehouse among the first objects of the first number, and the third object is an object that has reached the first warehouse among the first objects of the first number. The processing module 402 is further configured to generate a second instruction, where the second instruction is configured to instruct transporting the third item to the target storage space. The sending module 403 is further configured to send a second instruction to the second vehicle. The processing module 402 is further configured to generate a third instruction, where the third instruction is configured to instruct to query the location information of the second object. The sending module 403 is further configured to send a third instruction to the blockchain management platform. The obtaining module 401 is further configured to receive location information of the second object from the blockchain management platform. The sending module 403 is further configured to send alarm information to a target management device, where the target management device is configured to manage a state of an object, and the alarm information includes: position information of the second object.

Optionally, the first state information further includes: category information, transportation route information, preset time, the transportation route information includes: the position information of the passed warehouse, the position information of the warehouse to be passed and the position information of the destination are preset as the time for the object to reach the destination.

Optionally, the warehouse to be passed in the first state information of the first object includes: and the second warehouse is the next warehouse of the first warehouse in the transportation route information. The management apparatus 400 of the object may further include: a storage module 404. The storage module 404 is configured to store first status information of a first object. The processing module 402 is further configured to establish a correspondence between the first status information of the first object and the first object. The obtaining module 401 is further configured to obtain first status information of a fourth object stored in the first warehouse and a current time. The processing module 402 is further configured to calculate a difference between the current time and a preset time of the fourth object, and determine a target time difference. The processing module 402 is further configured to generate a to-be-processed identifier according to the target time difference value and the preset time difference threshold, where the to-be-processed identifier is used to indicate an emergency degree of transporting the fourth object to the second warehouse.

Fig. 5 is a schematic diagram showing a hardware configuration of a management apparatus for an article according to an exemplary embodiment. The management device of the object may include a processor 502, where the processor 502 is configured to execute application code, thereby implementing the management method of the object in the present application.

The processor 502 may be a central processing unit (central processing unit, CPU), microprocessor, application-specific integrated circuit (ASIC), or one or more integrated circuits for controlling the execution of programs in accordance with aspects of the present application.

As shown in fig. 5, the management device of the item may further include a memory 503. The memory 503 is used for storing application codes for executing the present application, and is controlled by the processor 502 to execute the present application.

The memory 503 may be, but is not limited to, a read-only memory (ROM) or other type of static storage device that can store static information and instructions, a random access memory (random accessmemory, RAM) or other type of dynamic storage device that can store information and instructions, an electrically erasable programmable read-only memory (electrically erasable programmable read-only memory, EEPROM), a compact disc (compact disc read-only memory) or other optical disk storage, optical disk storage (including compact disc, laser disc, optical disc, digital versatile disc, blu-ray disc, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store the desired program code in the form of instructions or data structures and that can be accessed by a computer. The memory 503 may be separate and coupled to the processor 502 via a bus 504. Memory 503 may also be integrated with processor 502.

As shown in fig. 5, the management device of the article may further comprise a communication interface 501, wherein the communication interface 501, the processor 502, and the memory 503 may be coupled to each other, for example, by a bus 504. The communication interface 501 is used to interact with other devices, such as a management device supporting an item.

It should be noted that the device structure shown in fig. 5 does not constitute a limitation of the management device of the article, and that the management device of the article may include more or less components than those shown in fig. 5, or may combine some components, or may be arranged with different components.

In actual implementation, the functions implemented by the processing module 402 may be implemented by the processor 502 shown in fig. 5 invoking program code in the memory 503.

The present application also provides a computer-readable storage medium having instructions stored thereon that, when executed by a processor of a computer device, enable the computer to perform the method of managing items provided by the above-described illustrated embodiments. For example, the computer readable storage medium may be a memory 503 comprising instructions executable by the processor 502 of the computer device to perform the above-described method. Alternatively, the computer readable storage medium may be a non-transitory computer readable storage medium, for example, a ROM, RAM, CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

Fig. 6 schematically illustrates a conceptual partial view of a computer program product provided by an embodiment of the present application, the computer program product comprising a computer program for executing a computer process on a computing device.

In one embodiment, a computer program product is provided using signal bearing medium 600. The signal bearing medium 600 may include one or more program instructions that when executed by one or more processors may provide the functionality or portions of the functionality described above with respect to fig. 2 or 3. Thus, for example, referring to the embodiment shown in FIG. 2, one or more features of S201-S206 may be carried by one or more instructions associated with signal bearing medium 600. Further, the program instructions in fig. 6 also describe example instructions.

In some examples, signal bearing medium 600 may comprise a computer readable medium 601 such as, but not limited to, a hard disk drive, compact Disk (CD), digital Video Disk (DVD), digital tape, memory, read-only memory (ROM), or random access memory (random accessmemory, RAM), among others.

In some implementations, the signal bearing medium 600 may comprise a computer recordable medium 602 such as, but not limited to, memory, read/write (R/W) CD, R/W DVD, and the like.

In some implementations, the signal bearing medium 600 may include a communication medium 603 such as, but not limited to, a digital and/or analog communication medium (e.g., fiber optic cable, waveguide, wired communications link, wireless communications link, etc.).

The signal bearing medium 600 may be conveyed by a communication medium 603 in wireless form. The one or more program instructions may be, for example, computer-executable instructions or logic-implemented instructions.

In some examples, a management device, such as the article described with respect to fig. 4, may be configured to provide various operations, functions, or actions in response to program instructions through one or more of the computer readable medium 601, the computer recordable medium 602, and/or the communication medium 603.

It will be apparent to those skilled in the art from this description that, for convenience and brevity of description, only the above-described division of the functional modules is illustrated, and in practical application, the above-described functional allocation may be performed by different functional modules according to needs, i.e. the internal structure of the apparatus is divided into different functional modules, so as to perform all the above-described classification or part of the functions.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of modules or units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another apparatus, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and the parts displayed as units may be one physical unit or a plurality of physical units, may be in one place, or may be distributed in a plurality of different places. The purpose of the embodiment scheme can be achieved by selecting part or all of the classification part units according to actual needs.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a readable storage medium. Based on such understanding, the technical solution of the embodiments of the present application may be essentially or partly contributing to the prior art or the whole classification part or part of the technical solution may be embodied in the form of a software product stored in a storage medium, including several instructions to cause a device (may be a single-chip microcomputer, a chip or the like) or a processor (processor) to perform the whole classification part or part of the steps of the methods of the embodiments of the present application. The storage medium includes a usb disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk, etc. which can store the program codes.

The foregoing is merely a specific embodiment of the present application, but the protection scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present disclosure should be covered in the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (12)

1. A method of managing objects, applied to a target server, the target server being configured to manage a first repository, the method comprising:

Acquiring position information of the first warehouse, first state information of a first object and second state information of a first vehicle, wherein the first vehicle is a vehicle loaded with the first object, and the first state information comprises: volume information, the second state information comprising: position information and travel speed information;

determining a target period according to the second state information of the first vehicle and the position information of the first warehouse, wherein the target period is the time range of the first vehicle reaching the first warehouse;

determining a target storage space in the first warehouse according to the target time period and the first state information of the first object, wherein the target storage space is used for storing the first object, and the effective time period of the target storage space is the target time period;

generating a first instruction upon receiving target information, the target information being for instructing the first vehicle to reach the first warehouse, the first instruction being for instructing the first item to be transported to the target storage space;

the first instruction is sent to a second vehicle, which is a vehicle in the first warehouse for transporting items.

2. The method of claim 1, wherein the first number of items is a first number, and wherein after receiving the target information, the method further comprises:

acquiring a second number of the first articles loaded when the first vehicle arrives at the first warehouse;

generating the first instruction, including:

and if the second number is equal to the first number, generating the first instruction.

3. The method according to claim 2, wherein the method further comprises:

if the second number is smaller than the first number, determining a second object and a third object, wherein the second object is an object which does not reach the first warehouse in the first objects of the first number, and the third object is an object which has reached the first warehouse in the first objects of the first number;

generating a second instruction and sending the second instruction to the second vehicle, wherein the second instruction is used for indicating the third object to be transported to the target storage space;

generating a third instruction and sending the third instruction to a blockchain management platform, wherein the third instruction is used for indicating to inquire the position information of the second object;

Receiving the position information of the second object from the blockchain management platform, and sending alarm information to target management equipment, wherein the target management equipment is used for managing the state of the object, and the alarm information comprises: and position information of the second object.

4. A method according to any one of claims 1-3, wherein the first status information further comprises: category information, transportation route information and preset time, wherein the transportation route information comprises: the method comprises the steps of obtaining position information of a passing warehouse, position information of a warehouse to be passed and position information of a destination, wherein the preset moment is the time for an object to reach the destination.

5. The method of claim 4, wherein the warehouse to be traversed in the first status information of the first item comprises: a second warehouse, the second warehouse being a next warehouse of the first warehouse in the transportation route information, the method further comprising:

storing first state information of the first object, and establishing a corresponding relation between the first state information of the first object and the first object;

acquiring the first state information of a fourth object at the current moment, wherein the fourth object is a stored object in the first warehouse;

Calculating a difference value between the current moment and the preset moment of the fourth object, and determining a target time difference value;

and generating a to-be-processed identifier according to the target time difference value and a preset time difference threshold, wherein the to-be-processed identifier is used for indicating the emergency degree of transporting the fourth object to the second warehouse.

6. An article management apparatus for use with a target server, the apparatus comprising:

the system comprises an acquisition module, a storage module and a storage module, wherein the acquisition module is used for acquiring position information of a first warehouse, first state information of a first object and second state information of a first vehicle, the first vehicle is a vehicle loaded with the first object, and the first state information comprises: volume information, the second state information comprising: position information and travel speed information;

the processing module is used for determining a target period according to the second state information of the first vehicle and the position information of the first warehouse, wherein the target period is the time range of the first vehicle reaching the first warehouse;

the processing module is further configured to determine, in the first warehouse, a target storage space according to the target period and first status information of the first object, where the target storage space is used to store the first object, and an effective period of the target storage space is the target period;

The processing module is further configured to generate a first instruction if target information is received, where the target information is used to instruct the first vehicle to reach the first warehouse, and the first instruction is used to instruct the first object to be transported to the target storage space;

and the sending module is used for sending the first instruction to a second vehicle, and the second vehicle is a vehicle used for transporting objects in the first warehouse.

7. The apparatus of claim 6, wherein the number of first items is a first number;

the acquisition module is further configured to acquire a second number, where the second number is the number of the first objects loaded when the first vehicle arrives at the first warehouse;

the processing module is specifically configured to generate the first instruction if the second number is equal to the first number.

8. The apparatus of claim 7, wherein the device comprises a plurality of sensors,

the processing module is further configured to determine a second object and a third object if the second number is smaller than the first number, where the second object is an object that does not reach the first warehouse among the first number of first objects, and the third object is an object that has reached the first warehouse among the first number of first objects;

The processing module is further configured to generate a second instruction, where the second instruction is used to instruct the third object to be transported to the target storage space;

the sending module is further configured to send the second instruction to the second vehicle;

the processing module is further configured to generate a third instruction, where the third instruction is used to instruct to query the location information of the second object;

the sending module is further configured to send the third instruction to a blockchain management platform;

the acquisition module is further used for receiving the position information of the second object from the blockchain management platform;

the sending module is further configured to send alarm information to a target management device, where the target management device is configured to manage a state of an object, and the alarm information includes: and position information of the second object.

9. The apparatus according to any one of claims 6-8, wherein the first status information further comprises: category information, transportation route information and preset time, wherein the transportation route information comprises: the method comprises the steps of obtaining position information of a passing warehouse, position information of a warehouse to be passed and position information of a destination, wherein the preset moment is the time for an object to reach the destination.

10. The apparatus of claim 9, wherein the warehouse to be traversed in the first status information of the first item comprises: a second warehouse, which is the next warehouse of the first warehouse in the transportation route information; the apparatus further comprises: a storage module;

the storage module is used for storing first state information of the first object;

the processing module is further used for establishing a corresponding relation between the first state information of the first object and the first object;

the obtaining module is further configured to obtain the first status information of a fourth object at the current time, where the fourth object is an object stored in the first warehouse;

the processing module is further used for calculating a difference value between the current moment and the preset moment of the fourth object and determining a target time difference value;

the processing module is further configured to generate a to-be-processed identifier according to the target time difference value and a preset time difference threshold, where the to-be-processed identifier is used for indicating an emergency degree of transporting the fourth object to the second warehouse.

11. An article management apparatus, comprising: a processor and a memory; the processor and the memory are coupled; the memory is configured to store one or more programs, the one or more programs including computer-executable instructions that, when executed by the article management device, cause the processor to execute the computer-executable instructions stored by the memory to cause the article management device to perform the article management method of any of claims 1-5.

12. A computer-readable storage medium having instructions stored therein, wherein when the instructions are executed by a computer, the computer performs the method of managing items according to any one of claims 1-5.

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