CN116703281B - Object distribution method and device based on comma address and computer equipment - Google Patents
Object distribution method and device based on comma address and computer equipment Download PDFInfo
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Abstract
The application relates to a comma address-based article distribution method, a comma address-based article distribution device and computer equipment, which can be applied to the field of intelligent distribution. The method comprises the following steps: acquiring an encryption identifier of a comma address corresponding to the delivery address, and analyzing the encryption identifier to obtain text information; comma addresses are precise addresses consisting of two levels of addresses, a large address and a small address; according to the text information, comma addresses meeting the address filling requirements of the distribution server are obtained; the comma address is sent to a delivery server, so that the delivery server dispatches the articles to be delivered to the post according to the large address field in the comma address; the capacity unit is scheduled to reach the post, so that the capacity unit identifies small address fields in the comma address and delivers the item to be delivered to the delivery address. The method can realize a new distribution mode, especially aims at the problem of terminal distribution, improves distribution efficiency and solves the problem of user privacy.
Description
Technical Field
The present application relates to the field of intelligent delivery technologies, and in particular, to a comma address-based article delivery method, apparatus, and computer device.
Background
With the development of computer technology, the logistics industry has also greatly developed, and originally, logistics is between cities, a shipper sends goods to a logistics point, and a harvester takes goods at another logistics point. With the rise of online shopping, logistics can be directly distributed to a home portal, but when an express delivery person distributes, the problem of conflict between distribution time of the two parties is always encountered, so that end distribution becomes a key link in logistics distribution.
In the existing logistics operation terminal distribution scene, the delivery and signing links of goods often need to be completed by both sides based on agreed space and time, in actual use, goods are usually delivered to a user filled-in receipt address by express delivery personnel according to the address of labels on the goods and user information, the user is informed to collect the goods by telephone, the condition that people at home are not at home in express delivery often occurs, and at the moment, products such as express delivery post stations, express delivery cabinets and the like are generated. Although the problems of time appointments are solved by products such as express post stations, express cabinets and the like, the problems of terminal distribution space cannot be solved.
Disclosure of Invention
In view of the foregoing, it is desirable to provide a comma address-based article distribution method, apparatus, and computer device.
A comma address-based method of delivering an item, the method comprising:
acquiring an encryption identifier of a comma address corresponding to a delivery address, and analyzing the encryption identifier to obtain text information; the comma address is an accurate address consisting of a large address and a small address;
obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information;
the comma address is sent to a delivery server, so that the delivery server dispatches the to-be-delivered objects to a post according to the large address field in the comma address;
and dispatching the capacity unit to the post, so that the capacity unit identifies the small address field in the comma address and dispatches the to-be-dispatched objects to the dispatching address.
In one embodiment, the method further comprises: receiving a physical address and user definition information filled in by a user through a handheld terminal; acquiring user identity information, and obtaining an encryption identifier corresponding to a comma address according to the physical address, user definition information and the user identity information, or receiving an address identifier corresponding to the distribution address scanned by a user through a handheld terminal to obtain interaction information; and obtaining the encryption identification of the comma address of the distribution address according to the interaction information.
In one embodiment, the method further comprises: acquiring pre-acquired user identity information and a physical address, and acquiring an encrypted identification of a comma address corresponding to the distribution address according to the physical address and the user identity information.
In one embodiment, the encrypted identification is one or more of a two-dimensional code, an applet code, a bar code, and an identifiable code sequence.
In one embodiment, the large address field is a plaintext address that points to the post.
In one embodiment, the small address field is a ciphertext address directed from the post to the dispatch address.
In one embodiment, the small address field includes a location identification and user information; further comprises: according to the position identification, matching to obtain a physical address corresponding to the comma address; and according to the user information, matching to obtain the identity information of the user.
In one embodiment, the method further comprises: the user information is information which is filled in and registered according to a user through a handheld terminal; or the user information is information generated according to a preset conversion logic after the identity information of the user is obtained.
In one embodiment, the capacity unit is a delivery person configuring a handheld terminal; further comprises: the delivery personnel identify the small address field in the comma address through the handheld terminal, and obtain a physical address and the identity information corresponding to the comma address; and distributing the to-be-distributed objects to the distribution address according to the physical address corresponding to the comma address and the identity information.
In one embodiment, the capacity unit is a robotic module; further comprises: the robot module identifies the small address field in the comma address to obtain a physical address and the identity information corresponding to the comma address; and distributing the to-be-distributed objects to the distribution address according to the physical address corresponding to the comma address and the identity information.
An comma address based article dispensing device, the device comprising:
the text acquisition module is used for acquiring the encryption identification of the comma address corresponding to the delivery address and analyzing the encryption identification to obtain text information; the comma address is an accurate address consisting of a large address and a small address;
the standard address analysis module is used for obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information;
the first delivery module is used for sending the comma address to a delivery server so that the delivery server can schedule according to the large address field in the comma address to deliver the to-be-delivered objects to a post;
and the second delivery module is used for dispatching the capacity unit to the post, so that the capacity unit identifies the small address field in the comma address and delivers the to-be-delivered object to the delivery address.
A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:
acquiring an encryption identifier of a comma address corresponding to a delivery address, and analyzing the encryption identifier to obtain text information; the comma address is an accurate address consisting of a large address and a small address;
obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information;
sending the comma address to a delivery server, so that the delivery server dispatches the to-be-delivered object to a post according to the large address field in the comma address;
and dispatching the capacity unit to the post, so that the capacity unit identifies the small address field in the comma address and dispatches the to-be-dispatched objects to the dispatching address.
A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:
acquiring an encryption identifier of a comma address corresponding to a delivery address, and analyzing the encryption identifier to obtain text information; the comma address is an accurate address consisting of a large address and a small address;
obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information;
the comma address is sent to a delivery server, so that the delivery server dispatches the to-be-delivered objects to a post according to the large address field in the comma address;
and dispatching the capacity unit to the post, so that the capacity unit identifies the small address field in the comma address and dispatches the to-be-dispatched objects to the dispatching address.
The object distribution method, the device, the computer equipment and the storage medium based on the comma address are different from the existing distribution mode, firstly, the concept of the comma address is innovatively provided for the existing distribution address, the comma address is an accurate address formed by two levels of addresses of a large address and a small address, so that space division is formed, the space division has two advantages, one of the traditional distribution staff only needs to distribute the object to a post without paying attention to who sends the object and what is the detailed address, and does not need to inform and contact customers, the safety of user information is ensured, and the other of the traditional distribution staff does not need to find the object like the traditional post, but waits for an operation unit to directly distribute the object to the accurate address finally pointed by the comma address.
Drawings
FIG. 1 is an application scenario diagram of a comma address-based item delivery method in one embodiment;
FIG. 2 is a flow chart of a comma address based method for delivering items according to one embodiment;
FIG. 3 is a representative business flow diagram of one embodiment;
FIG. 4 is a block diagram of an embodiment comma address based article dispensing device;
fig. 5 is an internal structural diagram of a computer device in one embodiment.
Detailed Description
The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.
The comma address-based article distribution method provided by the application can be applied to an application environment shown in fig. 1. The server 102 may store information of all comma addresses for realizing the distribution of the articles based on the comma addresses, and may generate a new comma address, comma address analysis, and the like based on the user information and the physical address. The distribution server 104 is a third party server, such as a united states group, a jindong state, a hungry state, etc., and currently, the third party server needs to follow an address filling rule, so as to meet the comma address of the distribution server address filling requirement, and the encrypted identification of the comma address can be resolved to obtain text information. It may be noted that the text information does not contain real address information, but the address shown in the text information may point to the real physical address and user information through the mapping relationship stored in the server 102. The capacity unit 106 may be a delivery person or a robot, which may identify small address fields via a handheld terminal, so that the capacity unit may not only deliver items to an accurate delivery address, but also verify the identity of the user.
In one embodiment, as shown in fig. 2, there is provided a comma address-based article delivery method, which is described by taking an example that the method is applied to the server in fig. 1, and includes the following steps:
step 202, obtaining an encryption identification of a comma address corresponding to the delivery address, and analyzing the encryption identification to obtain text information.
The encryption identification is an entrance for the user to interact with the server, and the encryption identification can be generated by collecting address information and user information in advance or generated after the user interacts with the encryption identification.
The delivery address refers to the real address of the delivered item, such as: station 1 of XX No. 4 building of XX New City, changsha county, yan, hunan province is a delivery address, and the comma address is an accurate address consisting of a large address and a small address.
Wherein, the large address is a unique and accurate real address, and a user or a dispatcher can directly read and identify the address; the system comprises a drop-down address and a house number, wherein the distribution address is taken as an example, the drop-down address is a new technology city of Changsha county of Hunan province, and the house number is a Siemens station, and can also be a property, a duty room, a cottonrose and the like. It is worth noting that after the user or dispatcher recognizes a large address, it is possible to determine where to dispatch.
The small address is an encrypted address, a delivery person or a robot with decryption equipment can identify the encrypted address through interaction with a server, the delivery person can obtain a memory text through decrypting the encrypted address by the decryption equipment, or the robot reads the position, the user name and the mobile phone number of a receiver through scanning the encrypted identifier, and the delivery person is formed by singly or in combination of Chinese characters, letters, numbers and the like; the method comprises the steps of taking XX as an example, a XX block of XX Newcastle as a station No. 1 of a 4 building, and a user ID as a user-defined code, such as a user name and the last four digits of a mobile phone number.
Step 204, obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information.
Step 206, the comma address is sent to the delivery server, so that the delivery server performs scheduling according to the large address field in the comma address to deliver the to-be-delivered object to the post.
It can be known that the standard address contains a large address field, so that a distribution person can be guided to distribute the object to the address of the large address field without analyzing the information of the small address field, the information security of the user is ensured, and the work efficiency of the distribution person is improved.
The post may be an intelligent post, such as: intelligent distribution station, intelligent stations such as atom cabinet.
In step 208, the capacity unit is dispatched to the post, such that the capacity unit identifies a small address field in the comma address and dispatches the item to be dispatched to the dispatch address.
The capacity unit may be an unmanned vehicle, a robot, or the like that is autonomously delivered by an unmanned person, or may be a capacity unit formed by configuring a handheld terminal by a delivery person, which is not particularly limited herein, and it is worth to say that the capacity unit can identify a small address field in a comma address and has mobility.
The object distribution method based on the comma address is different from the existing distribution method, firstly, the concept of the comma address is innovatively provided for the existing distribution address, the comma address is an accurate address formed by two levels of addresses of a large address and a small address, so that space division is formed, the space division has two advantages, firstly, a traditional distributor only needs to distribute objects to a post without paying attention to the post, does not need to pay attention to the person and the detailed address, does not need to inform and contact customers, the safety of user information is ensured, and secondly, a user does not need to find objects like the traditional post, but waits for a transport unit to directly distribute the objects to the accurate address finally pointed by the comma address.
In one embodiment, a user fills in a physical address and user definition information through a handheld terminal, a server receives the physical address and the user definition information, acquires user identity information, and acquires an encrypted identifier corresponding to a comma address according to the physical address, the user definition information and the user identity information. Therefore, it can be known that the encrypted identifier at least comprises a physical address, user definition information and user identity information, so that the physical information can be obtained through analysis of the encrypted identifier, and meanwhile, the user identity can be confirmed, terminal distribution is served, and the effect of protecting the privacy of the user is achieved.
In one embodiment, the encrypted identification is one or more combinations of two-dimensional code, applet code, bar code, and identifiable code sequence. It can be known that the two-dimensional code, the applet code, the bar code and the identifiable code sequence are an information bearing mode, as an operation and maintenance manufacturer of the server, the encrypted identifier in the area can be managed, specifically, the operation and maintenance manufacturer can paste the two-dimensional code, the applet code, the bar code and the identifiable code sequence picture at a fixed position for a user at a corresponding position to use, when the operation and maintenance manufacturer is used for the first time, the user scans the two-dimensional code, the applet code, the bar code or the identifiable code sequence picture through the terminal, so as to interact with the server, the user fills in a physical address and user definition information, and obtains user identity information in the interaction process, so that the user establishes a corresponding relation between the encrypted identifier and the user through the information, and when the operation and maintenance manufacturer are used for the subsequent time, the user only needs to scan the two-dimensional code, the applet code, the bar code or the identifiable code sequence picture, so that the required text information can be obtained directly, and great convenience is brought to the user.
In another embodiment, the method includes the steps that an address identifier corresponding to a delivery address is scanned by a receiving user through a handheld terminal, interaction information is obtained, and an encrypted identifier of a comma address of the delivery address is obtained according to the interaction information.
It should be noted that, the encryption identifier is formed, so as to convert plaintext information such as a user address, user information and the like into information which retains a part of plaintext and a part of ciphertext through a certain rule and store the information in a server, so that for identifiable plaintext, a distributor can distribute an article to a designated position (post), and for ciphertext, the distributor can rely on interaction with the server to obtain the plaintext contained therein, thereby protecting the privacy of the user.
Along with the expansion of specific application in the application, in one possible implementation manner, the operation and maintenance business can acquire information in advance of each management point in the area, specifically, acquire the real physical address of the point and the user identity information, so as to generate the encryption identifier according to the information. Therefore, the encrypted identifier is pasted on the corresponding point location in the form of a two-dimensional code, a small program code, a bar code or an identifiable code sequence, and the rapid and comprehensive deployment of comma addresses in the area is realized.
It is worth to say that, when the user uses for the first time, the user terminal is used for identifying the encryption identifier and establishing an interactive relation with the server, at this time, the user can edit the user identity information in the encryption identifier, especially the user information which can be displayed in the clear.
In one embodiment, the large address field is a plaintext address that points to a post. The key of the application is that the use habit of any party in the whole delivery system is not changed, for the delivery personnel, the delivery personnel can definitely deliver the goods to the appointed post through the large address field in the comma address without executing other operations, and the application can improve the efficiency of the delivery personnel without any learning cost from the use aspect.
In another embodiment, the small address field is a ciphertext address pointing to the delivery address from the post, and since the small address field adopts the ciphertext address, even if the dispatcher sees the ciphertext address, the dispatcher cannot know the specific address of the user, and in the system constructed by the application, the dispatcher does not need to know what the specific ciphertext address is, and only needs to deliver the article to the designated post. In the application, the space is divided, namely, a large space and a small space, which correspond to the large address and the small address respectively, the large space refers to the space which is responsible for a dispatcher, namely, the conventional dispatching is carried out according to the large address, the small space refers to the space which takes a post as a connection point, in the small space, a large number of comma addresses are managed through a server, and the comma addresses are maintained, quickly changed and accurately at any time under the unified management of the server, so that the address digitization and community management meshing in the physical space corresponding to the small space are realized, and for a user, in the small space, any position is only provided with an encryption mark, the user can interact with the small space, so that the server obtains text information for the user to copy, and writes on a lower single platform such as a precious station, a Beijing east station, a Mei group station, hungry station and the like, or jumps to a corresponding website for filling after the service type is selected.
In one embodiment, the small address field includes a location identifier and user information, and the physical address corresponding to the comma address is obtained by matching according to the location identifier, and the identity information of the user is obtained by matching according to the user information. In this embodiment, for the analysis of the small address field, at the end of the delivery link, no matter delivery personnel delivery or unmanned vehicle delivery, an explicit physical address and an explicit user identity are required, and the delivery personnel or unmanned vehicle reaches the physical address and verifies the user identity, so that the final delivery can be completed.
In this embodiment, the location identifier is also different from the real physical address, for example, the physical address is a station No. 1 of building 4, but the location identifier may be a gantry stack, and the correspondence between the gantry stack and the station No. 1 of building 4 is actually stored in the server, so as to implement encryption of the physical address, thereby implementing encryption of user privacy as a whole.
Specifically, the user information is information that the user fills in and registers through the handheld terminal, the user information is distinguished from the user identity information, the user identity information refers to real and identifiable user information, such as a real name, a real mobile phone number, etc., and the user information refers to information that can verify the user identity, such as a nickname, a digital code, or a combination thereof, so as to realize encryption of the user identity.
In addition, if the preset conversion logic is adopted for generation, the encryption of the identity of the user can be realized to a certain extent according to the composition of part of characters in the name and part of numbers of the mobile phone.
In one embodiment, the capacity unit is a delivery person configuring a handheld terminal, and the handheld terminal may decode the small address field to obtain a physical address and identity information corresponding to the comma address, so that the to-be-delivered object is delivered to the delivery address according to the physical address and identity information corresponding to the comma address.
In this embodiment, a specific APP is installed in the handheld terminal and may be linked to the server, so that physical address and identity information are obtained by parsing through interaction with the server, and for a delivery person, the physical address and identity information are in plain text, so that delivery may be achieved.
In another embodiment, the capacity unit is a robot module, and the robot module identifies a small address field in the comma address, obtains a physical address and identity information corresponding to the comma address, and distributes the to-be-distributed object to the distribution address according to the physical address and the identity information corresponding to the comma address.
In this embodiment, the robot module manages through the server, so that the small address field in the comma address can be identified, the physical address and the identity information corresponding to the comma address are obtained, and the to-be-delivered object is delivered to the delivery address according to the physical address and the identity information corresponding to the comma address through the delivery capability and the route planning capability of the robot module.
Therefore, the end dispensing effect according to the present application can be achieved both by the delivery person dispensing and by the robot dispensing, but the present application preferably uses the robot module dispensing. In connection with the spatial address digitization concept of the application in small spaces, then by means of autonomous capabilities with the robot module, for example: task planning, path planning and the like, and can realize full digital management of distribution in a small space.
The following specific distribution method can be aimed at the two modes:
1. the delivery personnel uses the APP/applet on the handset to identify the location identity and identity information on the manifest, and determines the precise delivery endpoint address and user identity information through the server. When the goods are multiple, the APP/applet is used for route planning, point-by-point delivery is carried out, and after the goods reach the delivery end point, a receiver is informed of taking the goods, and one delivery is completed.
2. When the unmanned vehicle system is adopted for delivery, the indoor robot recognizes the upper cabin to be delivered and transfers the upper cabin to the outdoor connection vehicle, the upper cabin is moved to the delivery connection position from the post by the outdoor connection vehicle, and the upper cabin is transferred to the delivery terminal point by the indoor robot at the delivery connection position. When the goods are multiple, the outdoor connection vehicle automatically plans a route, delivers goods point by point, and notifies a person to take the goods after reaching a delivery end point to finish one-time delivery.
As shown in fig. 3, a typical service flow chart is provided, in fig. 3, the recipient uses APP/applet scanning encryption identifier as an entry, and checks whether the user has used the comma address, if so, the text address is directly displayed, if so, the user is supported to fill in the physical address, user identity information and other personalized contents, and after the server obtains the above information, the text address is generated and displayed. The user can copy the text address and jump to the order interface, the order interface can be an order interface of the e-commerce platform or an order interface of the logistics/express platform, the user does not limit again, the user places an order after pasting the text address, and the receiver waits for receiving goods. After the sender places an order, an order can be generated on an e-commerce platform or a logistics/express platform, a dispatcher receives the sent order, takes goods from a merchant and delivers the goods to a post, the post can be provided with an express cabinet, an atomic cabinet, an intelligent hanging plate and the like, and a hook corresponding to a comma address is arranged on the intelligent hanging plate. The distributor properly places the goods at the post, and then finishes one-time casting. And for the capacity unit, after receiving the post notification, taking out the goods from the post, planning a delivery route to deliver the goods point by point, and notifying a receiver to take the goods, thereby completing a delivery flow.
It is worth to say that, to above-mentioned unmanned aerial vehicle system, it includes indoor robot and outdoor car of plugging into, when outdoor operation, indoor robot is installed on outdoor car of plugging into, when reaching the delivery position of plugging into, when needing to get into indoor, the indoor robot of putting down, indoor robot is with article delivery to the position on. In addition, the indoor robot is matched with the delivery upper cabin for use, when a dispatcher delivers the articles to a post, the articles are placed in the delivery upper cabin, and the indoor robot can identify the upper cabin to be delivered and analyze the physical address and the identity information of the articles.
Specifically, in a complete distribution process, the specific steps are as follows:
s1, arranging a plurality of upper cabins of the indoor robots in the post, and placing cargoes in the upper cabins of the indoor robots according to address classification by a dispatcher.
S2, the indoor robot autonomously moves to find the upper cabin to be carried and is in butt joint with the upper cabin, and after alignment, the container is lifted to a certain height.
S3, the indoor robot drives the upper cabin to the accommodating cavity of the outdoor connection vehicle, and descends after aligning so that the upper cabin is connected with the outdoor connection vehicle.
S4, the indoor robot drives away from the outdoor connection vehicle and carries the next upper cabin, and returns to the standby point after the upper cabin is completely loaded.
S5, the outdoor connection vehicle carries the upper cabin to move from the post to the delivery connection position.
S6, the indoor robot located at the distribution connection position moves into the accommodating cavity of the outdoor connection vehicle, and lifts the upper cabin, so that the upper cabin is separated from the outdoor connection vehicle.
And S7, carrying the upper cabin by the indoor robot, moving the upper cabin away from the outdoor docking vehicle, and transporting the upper cabin to a delivery destination and a receiver.
It can be known that the application not only changes the terminal distribution mode, but also divides the space in design, for the large space part, the traditional distribution business is still completed, and for the small space part, the physical address is digitized, and the physical address is uniformly managed by the server, under the condition, the distribution mode in the small space can be diversified, for example, the distribution can be carried out by specific delivery personnel, and the distribution can be carried out by a robot, so that the terminal distribution efficiency is improved as a whole.
It should be understood that, although the steps in the flowchart of fig. 2 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in fig. 2 may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.
In one embodiment, as shown in FIG. 4, there is provided a comma address based item dispensing device comprising: a text acquisition module 402, a standard address resolution module 404, a first dispatch module 406, and a second dispatch module 408, wherein:
the text acquisition module 402 is configured to acquire an encrypted identifier of a comma address corresponding to the delivery address, and parse the encrypted identifier to obtain text information; the comma address is an accurate address consisting of a large address and a small address;
a standard address resolution module 404, configured to obtain comma addresses meeting the address filling requirements of the distribution server according to the text information;
a first dispatch module 406, configured to send the comma address to a dispatch server, so that the dispatch server dispatches the to-be-dispatched object to a post according to the large address field in the comma address;
a second delivery module 408 is configured to schedule an arrival of an capacity unit at the post, such that the capacity unit identifies the small address field in the comma address and delivers the item to be delivered to the delivery address.
In one embodiment, the text acquisition module 402 is further configured to receive a physical address and user-defined information filled in by the user through the handheld terminal; and acquiring user identity information, and acquiring an encryption identifier corresponding to the comma address according to the physical address, the user definition information and the user identity information.
In one embodiment, the text obtaining module 402 is further configured to receive an address identifier corresponding to the delivery address scanned by the user through the handheld terminal, so as to obtain interaction information; and obtaining the encryption identification of the comma address of the distribution address according to the interaction information.
In one embodiment, the encrypted identification is one or more of a two-dimensional code, an applet code, a bar code, and an identifiable code sequence.
In one embodiment, the large address field is a plaintext address that points to the post.
In one embodiment, the small address field is a ciphertext address directed from the post to the dispatch address.
In one embodiment, the small address field includes a location identification and user information; the second distribution module 408 is further configured to obtain, according to the location identifier, a physical address corresponding to the comma address in a matching manner; and according to the user information, matching to obtain the identity information of the user.
In one embodiment, the user information is information which is filled in and registered according to a user through a handheld terminal; or the user information is information generated according to a preset conversion logic after the user identity information is acquired.
In one embodiment, the capacity unit is a delivery person configuring a handheld terminal; the second distribution module 408 is further configured to identify the small address field in the comma address by the delivery person through the handheld terminal, so as to obtain a physical address and the identity information corresponding to the comma address; and distributing the to-be-distributed objects to the distribution address according to the physical address corresponding to the comma address and the identity information.
In one embodiment, the capacity unit is a robot module, and the second distribution module 408 is further configured to identify the small address field in the comma address by using the robot module, so as to obtain a physical address and the identity information corresponding to the comma address; and distributing the to-be-distributed objects to the distribution address according to the physical address corresponding to the comma address and the identity information.
For specific limitations on comma address-based article delivery devices, reference is made to the definition of comma address-based article delivery methods hereinabove, and no further description is given here. The various modules in the comma address based item dispensing device described above may be implemented in whole or in part in software, hardware, and combinations thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.
In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 5. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used for storing comma addresses, user information, mapping relations and other data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a comma address based method of delivering items.
It will be appreciated by those skilled in the art that the structure shown in FIG. 5 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.
In an embodiment a computer device is provided comprising a memory storing a computer program and a processor implementing the steps of the method of the above embodiments when the computer program is executed.
In one embodiment, a computer readable storage medium is provided, on which a computer program is stored which, when executed by a processor, implements the steps of the method of the above embodiments.
Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.
The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.
The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.
Claims (10)
1. A comma address-based item delivery method, the method comprising:
acquiring an encryption identifier of a comma address corresponding to a delivery address, and analyzing the encryption identifier to obtain text information; the comma address is an accurate address consisting of two-stage addresses of a large address field and a small address field; the comma addresses are uniformly managed by a server;
obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information;
the comma address is sent to a delivery server, so that the delivery server dispatches the to-be-delivered objects to a post according to the large address field in the comma address;
dispatching the capacity unit to the post, so that the capacity unit identifies the small address field in the comma address and distributes the to-be-distributed objects to the distribution address;
the obtaining the encrypted identifier of the comma address corresponding to the delivery address further comprises:
acquiring pre-acquired user identity information and physical addresses of all management points in an area, and acquiring an encryption identifier of a comma address corresponding to the distribution address according to the physical addresses and the user identity information;
the small address field is a ciphertext address pointing to the delivery address from the post;
the small address field comprises a position identifier and user information;
identifying the small address field in the comma address includes:
according to the position identification, matching to obtain a physical address corresponding to the comma address;
and according to the user information, matching to obtain the identity information of the user.
2. The comma address-based item distribution method according to claim 1, wherein the acquiring the encrypted identification of the comma address corresponding to the distribution address includes:
receiving a physical address and user definition information filled in by a user through a handheld terminal; acquiring user identity information, and acquiring an encryption identifier of a comma address corresponding to the distribution address according to the physical address, the user definition information and the user identity information;
or receiving an address identifier corresponding to the distribution address scanned by the user through the handheld terminal to obtain interaction information; and obtaining the encryption identification of the comma address corresponding to the distribution address according to the interaction information.
3. The comma address based item dispensing method of claim 1, wherein the encrypted identification is one or more combinations of two-dimensional code, applet code, bar code, and identifiable code sequence.
4. The comma address based item delivery method of claim 1 wherein the large address field is a plaintext address pointing to the post.
5. The comma address based item dispensing method according to claim 1, wherein the user information is information filled in and registered by a user through a handheld terminal;
or the user information is information generated according to a preset conversion logic after the user identity information is acquired.
6. The comma address based item dispensing method of claim 1 wherein the capacity unit is a delivery person configuring a handheld terminal;
the capacity unit identifies the small address field in the comma address, dispatches the item to be dispatched to a dispatch address, comprising:
the delivery personnel identify the small address field in the comma address through the handheld terminal, and obtain a physical address and the identity information corresponding to the comma address;
and distributing the to-be-distributed objects to the distribution address according to the physical address corresponding to the comma address and the identity information.
7. The comma address based item dispensing method of claim 1 wherein the capacity unit is a robotic module;
the capacity unit identifies the small address field in the comma address, dispatches the item to be dispatched to a dispatch address, comprising:
the robot module identifies the small address field in the comma address to obtain a physical address and the identity information corresponding to the comma address;
and distributing the to-be-distributed objects to the distribution address according to the physical address corresponding to the comma address and the identity information.
8. An comma address-based article dispensing device, the device comprising:
the text acquisition module is used for acquiring the encryption identification of the comma address corresponding to the delivery address and analyzing the encryption identification to obtain text information; the comma address is an accurate address consisting of two-stage addresses of a large address field and a small address field; the comma addresses are uniformly managed by a server;
the standard address analysis module is used for obtaining comma addresses meeting the address filling requirements of the distribution server according to the text information;
the first delivery module is used for sending the comma address to a delivery server so that the delivery server can schedule according to the large address field in the comma address to deliver the to-be-delivered objects to a post;
the second delivery module is used for dispatching the capacity unit to the post, so that the capacity unit identifies the small address field in the comma address and delivers the to-be-delivered object to the delivery address; the small address field is a ciphertext address pointing to the delivery address from the post;
the text acquisition module is also used for acquiring pre-acquired user identity information and physical addresses of all management points in the area, and acquiring an encryption identifier of a comma address corresponding to the distribution address according to the physical addresses and the user identity information;
the small address field comprises a position identifier and user information; the second distribution module is also used for obtaining the physical address corresponding to the comma address in a matching way according to the position identification; and according to the user information, matching to obtain the identity information of the user.
9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 7 when the computer program is executed.
10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 7.
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