CN113673930A - Cargo management method, equipment and medium based on intelligent port - Google Patents

Abstract

The application discloses goods management method, equipment and medium based on intelligent port, and the method comprises the following steps: receiving a cargo arrival notification; distributing a storage area for the goods according to the goods information, and transporting the goods to a storage coordinate through an unmanned transport vehicle and warehousing the goods; generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker; receiving a two-dimensional goods picking code displayed by a goods picker through a scanning device arranged at an entrance of a port; and generating a navigation link according to the storage coordinate, so that the goods deliverer can reach the storage coordinate according to the navigation link. With humanized mode, provide more convenient goods management method, through high intellectuality and automation, practiced thrift manpower resources, simultaneously, through the clear mode, brought huge facility for the person of picking up goods's the goods process, practiced thrift the person of picking up goods's time, greatly promoted the person of picking up goods experience.

Description

Cargo management method, equipment and medium based on intelligent port

Technical Field

The application relates to the field of intelligent Internet of things, in particular to a cargo management method, equipment and medium based on an intelligent port.

Background

The intelligent port is based on modern infrastructure equipment, is based on the deep integration of new-generation information technologies such as cloud computing, big data, Internet of things, mobile internet, intelligent control and the like and port transportation business, is powered by port transportation organization service innovation, is guaranteed by a perfect system mechanism and standard specifications, can realize port resource optimal configuration at a higher level, meets the requirements of multi-level, agility and high-quality port transportation service at a higher level, and has a new modern port transportation state with the vivid characteristics of production intelligence, management intelligence, service flexibility, guarantee powerfulness and the like.

Therefore, in order to meet the requirements of the intelligent port, a more intelligent, convenient and humanized management method for the entry, the exit, the storage and the delivery of goods needs to be provided.

Disclosure of Invention

In order to solve the above problems, the present application provides a cargo management method, device and medium based on an intelligent port, including:

on one hand, the application provides a goods management method based on intelligent port, including: receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo; distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage; generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code; receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state; and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

In one example, allocating a storage area to the cargo according to the cargo information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle, so that the cargo is transported to the storage coordinate by the unmanned transport vehicle and is warehoused, specifically comprising: determining the type and the expected storage time of the goods according to the goods information, and distributing a specific distance from a port exit and a specific type of storage area for the goods according to the type and the expected storage time, wherein the specific type at least comprises the following steps: open storage type, warehouse storage type; determining a storage coordinate corresponding to the storage area, determining a cargo code corresponding to the cargo, sending the storage coordinate to an unmanned transport vehicle, and sending the cargo code to a verification device at the storage coordinate; the goods are transported to the storage coordinates through the unmanned transport vehicle, and the goods codes are verified through the verification device; and if the verification is passed, determining that the warehousing is successful, generating a goods warehousing record and archiving.

In one example, the generating a delivery notification and sending the delivery notification to a communication address of a delivery person specifically includes: determining a goods owner communication address corresponding to the goods through the goods picking notice, and sending the goods picking notice to the goods owner picking address; receiving reply information, and determining a goods deliverer of the goods according to the reply information; if the goods are replaced by others, acquiring a communication address of a person to replace according to the reply information, forwarding the goods taking notice to the communication address of the person to replace, and collecting facial features of the person to replace through the communication address of the person to replace; if the goods are extracted by the owner, acquiring facial features of the owner through the owner communication address; sending the facial features to a verification device at the stored coordinates.

In one example, after sending the facial features to a verification device at the stored coordinates, the method further comprises: determining the goods picking priority of the goods according to the goods information and a pre-stored priority strategy, and distributing a goods picking time range for the goods according to the goods picking priority; and sending the goods picking time range to the communication address of the substitute person or the communication address of the goods owner according to the goods picking person.

In one example, after generating a navigation link according to the stored coordinates and sending the navigation link to the communication address of the consignee, the method further comprises: identifying the bill of lading through the verification device and determining to start lading; if the identification result passes, acquiring the facial image of the goods elevator through the verification device, and extracting the features of the facial image; inputting the facial image with the extracted features into a facial recognition model stored in advance, and comparing the facial image with the facial features to verify the legality of the identity of the consignee; and if the verification is passed, determining that the goods are successfully delivered, generating a goods delivery record and archiving.

In one example, after identifying the bill of lading and determining to begin lading, the method further comprises: determining whether the goods has paid taxes; if the goods do not pay the taxes, generating a tax payment supplement notice, and displaying the tax payment supplement notice through the verification device; sending the bill of lading and the goods information to a customs department, and skipping a display interface of the verification device to a customs tax payment page; and determining that the tax payment is successful according to the payment result.

In one example, after generating a navigation link according to the stored coordinates and sending the navigation link to the communication address of the consignee, the method further comprises: determining the current coordinate of the goods elevator, and generating a shortest path to the storage coordinate according to the current coordinate; determining a plurality of indicating devices along the shortest path, and determining indicating directions corresponding to the indicating devices; and determining that the goods picker is in a preset range of any one of the indicating devices, and displaying the corresponding indicating direction through the indicating device.

In one example, the method further comprises: determining that the cargo storage time has exceeded a preset threshold; generating a cargo retention notice, and sending the cargo retention notice to the communication address of the goods deliverer; judging whether the goods need to be redistributed into a storage area or not according to the storage coordinates; if the goods are needed, the goods are distributed to the detained goods storage area, the detained goods storage coordinates corresponding to the detained goods storage area are sent to the unmanned transport vehicle, and the goods are transported to the detained goods storage coordinates through the unmanned transport vehicle.

On the other hand, this application has proposed a goods management equipment based on wisdom harbour, includes: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to: receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo; distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage; generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code; receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state; and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

In another aspect, the present application provides a non-transitory computer storage medium storing computer-executable instructions configured to: receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo; distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage; generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code; receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state; and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

The intelligent port-based cargo management method, the intelligent port-based cargo management equipment and the intelligent port-based cargo management medium have the following beneficial effects that: with intelligent mode, provide more convenient goods management method for wisdom harbour, through high intellectuality and automation, practiced thrift manpower resources, simultaneously, through and clear mode, brought huge facility for the person's of picking up goods process, practiced thrift the person's of picking up goods time, greatly promoted the person's of picking up goods experience.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic flow chart illustrating a cargo management method based on an intelligent port according to an embodiment of the present application;

fig. 2 is a schematic diagram of a cargo management device based on an intelligent port according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that, the cargo management method based on the intelligent port described in the present application is stored in a corresponding system or server, and a user can log in the system or server through a corresponding terminal, where the terminal includes but is not limited to: the mobile phone, the tablet computer, the personal computer or the hardware equipment with corresponding processing and communication functions. The corresponding system is installed or stored in the terminal, a user can log in the system through modes of APP, WEB pages and the like, relevant calculation is carried out by using an internal processing system of the terminal, communication connection can be established between the system and the server, relevant calculation is carried out through the server, and a calculation result is determined according to feedback data of the server. In order to realize in this application manage the goods based on wisdom harbour.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

As shown in fig. 1, an embodiment of the present application provides a cargo management method based on an intelligent port, including:

s101: and receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo.

Specifically, after goods transported by cargo ships, trains, automobiles, or the like arrive at the intelligent port, a notification of arrival of the goods can be sent through the corresponding management platform, and goods information corresponding to the goods is attached, where the goods information includes but is not limited to: a picture of the goods, a type of the goods, a communication address of the owner of the goods, etc.

After the system receives the notice of arrival of the goods, the system can further inquire the information of the goods to determine the related information of the goods, so as to be convenient for the next processing.

S102: distributing a storage area for the goods according to the goods information, sending storage coordinates corresponding to the storage area to an unmanned transport vehicle, and transporting the goods to the storage coordinates and warehousing the goods through the unmanned transport vehicle.

It should be noted that the storage area described in the present application is an area for storing goods within the scope of an intelligent port.

Specifically, the system may determine the type of cargo and the expected storage time based on the cargo information, and allocate a specific distance from the port and a specific type of storage area to the cargo based on the type and the expected storage time, where the specific type of storage area includes, but is not limited to: open storage type, warehouse storage type. Meanwhile, the system can select a plurality of storage areas according to a pre-stored corresponding priority strategy, and select a storage area with an empty position and the highest priority according to the occupation condition of the plurality of storage areas.

For example, fresh goods are stored in a warehouse storage type storage area preferentially in a storage time of 3 days, and stored in a warehouse or a cold storage or other places, which is beneficial to prolonging the storage time of the goods and preventing the goods from rotting. Meanwhile, the storage time is short, so that the goods are preferentially distributed to the position closer to the port exit, and the goods taking is more convenient for a goods owner. And for the goods which are not high in storage requirement and long in storage time, the goods can be stored in an open-air storage type storage area, and the storage area far away from the port exit is preferentially selected to vacate the position for other more urgent goods.

Through the mode, the storage area can be intelligently and flexibly distributed according to different goods types and predicted storage time, the degree of scientific management of the goods is improved, human resources are saved, and more humanized service is provided for a goods owner.

In addition, because the wisdom harbour is great, therefore the system has set up corresponding coordinate system in advance, and a plurality of storage positions in the storage area all have corresponding coordinate, can include horizontal and vertical coordinate and height coordinate, through the vacant position of inquiry in the storage area, confirm the storage coordinate that storage area corresponds to send this storage coordinate to unmanned transport vechicle, unmanned transport vechicle can be through built-in navigation, automatic operation to this coordinate department.

Meanwhile, the system can also determine the goods codes corresponding to the goods, each goods has one corresponding goods code, and the goods codes can be contained in the goods information or can be pre-stored in the system. And the system sends the goods code obtained by inquiry to a verification device at the position of the storage coordinate. It should be noted that each storage area is equipped with a corresponding verification device, the verification device can communicate with the system or the server in the application, the verification device includes related accessories such as a camera, a display screen, and the like, and includes a processor, a memory, and a communication module, and a related processing system is built in the verification device to implement verification and archiving processing of goods stored in and taken out of the warehouse.

After the unmanned transport vehicle transports the goods to the storage coordinates, the goods codes can be verified in a mode of comparing the goods codes through the verification device. And if the verification is passed, determining that the goods are successfully put in storage, generating goods storage records and archiving the goods.

S103: generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: and the goods pick-up bill and the goods pick-up two-dimensional code.

Specifically, after goods are successfully put in storage, the system can also generate a goods picking two-dimensional code and a goods picking bill according to goods information, when the goods picking two-dimensional code is used for entering the intelligent port, identity verification is carried out, and the goods picking bill is used for verifying specific goods needing to be picked away.

The system packages the two-dimensional goods picking codes and the goods picking bill to generate a goods picking notice, and sends the goods picking notice to the goods owner communication address according to the goods owner communication address stored in the goods information. It should be noted that the communication address of the goods owner may be a mobile phone number, the system may transmit the goods-picking notice by sending a short message, or may be an email address, and the system transmits the goods-picking notice by sending an email.

In addition, the goods-taking notice can also include a reply option, for example, the person extracts the reply number 1, other people take the reply number 2 instead, and attach the communication address of the person who replaces the goods, and meanwhile, if the goods owner does not reply within the preset time, the goods owner can be reminded by telephone through the automatic dialing and voice prompt modes of the system.

After the owner replies the information, the system can receive the reply information and determine the goods deliverer according to the reply information.

If the goods are replaced by other people, the communication address of the person to be replaced is obtained according to the reply information, the goods picking notice is forwarded to the communication address of the person to be replaced, meanwhile, an information acquisition link is attached to the forwarding information, the person to be replaced can activate the camera to acquire the facial features of the person to be replaced by clicking the link, and the facial features of the person to be replaced are sent to the system.

In addition, in order to ensure the information of the person to be replaced is accurate, the system can also communicate with the owner through the automatic dialing and voice prompt modes so as to perform secondary confirmation on the information of the person to be replaced.

If the goods are extracted by the owner, an information acquisition link is sent to a communication address of the owner of the goods, and the owner of the goods can activate the camera to acquire the facial features of the owner of the goods by clicking the link and send the facial features of the owner of the goods to the system.

After receiving the facial features, the system sends the facial features to the verification device corresponding to the goods.

Through above-mentioned technical scheme, provide more convenient selections for the owner of goods to carry goods. In the application, due to the high automation and the intellectualization of the intelligent port, the goods deliverer can be determined through a simple operation mode, the facial features of the goods deliverer are collected, and the legal identity of the goods deliverer is determined through the mode of facial recognition hereinafter. On the basis of guaranteeing accuracy and security, simplified authentication's flow through this technological means, very big promotion the work efficiency in wisdom harbour, provide very big facility for the owner of goods lifts simultaneously.

Further, since there are many cargoes in the port, there is a high possibility that the port is congested if the consignee is left to pick up the cargoes at any time. In order to solve the problem, after the system sends the facial features to the verification device at the storage coordinate, the system can also determine the goods picking priority according to the goods information and the pre-stored priority strategy, and allocate the goods picking time range according to the goods picking priority. And sending the goods picking time range to the communication address of the substitute person or the communication address of the goods owner according to the goods picking person.

Through this technical scheme, can distribute different time of getting goods to the goods of difference, through carrying out rational planning to the time of getting goods, under the prerequisite of guaranteeing that the goods value does not receive the loss, arrange the person of picking up goods and carry out the picking up goods with the mode of timesharing batching, avoided traffic jam's production, also further promoted the picking up goods efficiency.

S104: the method comprises the steps of receiving a goods picking two-dimensional code shown by a goods picking person through a scanning device arranged at an entrance of a port, and determining that the goods picking two-dimensional code is in a legal state.

It should be noted that, a scanning device is installed at the port entrance, and the scanning device can communicate with the system or the server in the application, and the scanning device can be installed with hardware devices such as a camera, a display screen, a processor, a memory, a communication module, and the like, and is internally provided with a related system to realize the identification and processing of the two-dimensional code for picking up goods.

Specifically, when the person of picking up goods reachd wisdom harbour entrance, need show the two-dimensional code of picking up goods to the scanning device of entrance, after scanning the two-dimensional code of picking up goods, can carry out identification process to the two-dimensional code of picking up goods by oneself, confirm whether this two-dimensional code corresponds there is goods information, also can forward the two-dimensional code of picking up goods with the form of code to system or server in this application through communication module to confirm this validity of picking up goods two-dimensional code.

The goods picking two-dimensional code is verified, the goods picking two-dimensional code is confirmed to exist in a database or a memory of a system, a server or a scanning device, the goods picking two-dimensional code corresponds to relevant goods information, and the goods picking two-dimensional code is confirmed to be in a legal state. The person of picking up goods can get into the garden inside the wisdom harbour according to this two-dimensional code of picking up goods.

S105: and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

Specifically, the system generates a navigation link according to the storage coordinate corresponding to the goods and sends the navigation link to the communication address of the goods deliverer in an information mode. After clicking the navigation link, the goods deliverer can jump to the corresponding setting of the system so as to cover the map and the coordinates of the intelligent port into the terminal corresponding to the communication address of the goods deliverer according to the setting.

The current coordinate, the storage coordinate and the path from the current coordinate to the storage coordinate of the terminal corresponding to the communication address of the goods elevator can be determined according to the built-in positioning module, and the goods elevator can determine the path according to the navigation link so as to reach the storage coordinate.

After the person picking the goods arrives at the storage coordinates, the person can start picking the goods, specifically: by presenting the bill of lading to a verification device at the stored coordinates. The system identifies the bill of lading through the verification device, determines that the goods corresponding to the bill of lading are consistent with the goods information at the storage coordinate, and determines to start to carry the goods.

After the identification result passes, the facial image of the goods elevator is collected through the verification device, the facial image is subjected to feature extraction, the facial image with the extracted features is input into a pre-stored facial identification model for identification, the identification result is compared with the facial features, the consistency of the features is determined, and the legality verification of the identity of the goods elevator is realized.

If the comparison result is consistent, the identity of the goods deliverer is determined to be legal, the verification is determined to be passed, the goods are determined to be successfully delivered out of the warehouse, and the system or the verification device can generate goods delivery records and archive the goods.

In addition, the system identifies the bill of lading through the verification device, and can also determine whether the goods have paid for taxes after determining to start to draw the goods.

If the taxes are confirmed to be paid, the steps are continued, if the taxes are confirmed not to be paid by the goods, a tax payment supplementing notice is generated, and the tax payment supplementing notice is displayed through the verification device.

Meanwhile, the system sends the bill of lading and the goods information corresponding to the goods to the customs department, and skips the display interface of the verification device to a customs tax payment page.

Customs department can confirm the tax that needs to pay through bill of lading and goods information, and generate the two-dimensional code of paying, show on verifying the device.

The goods deliverer can pay by scanning the payment two-dimensional code, after the payment is successful, the customs department can feed back the system according to the payment result, and the system determines that the tax payment is successful according to the feedback, and continues the steps.

Through the technical scheme, the system and the customs tax payment system are interconnected, the goods before being delivered out of the warehouse are checked, whether the goods pay the tax or not is determined, the simple technical scheme for paying the tax is provided, the situation that the tax is forgotten to be paid is avoided, and meanwhile, the tax payment process of a consignee is facilitated.

In one embodiment, a plurality of indicating devices are further arranged inside the intelligent port, the indicating devices are usually arranged at each intersection and used for indicating directions, a display screen can be arranged on each indicating device and can display arrow directions, and a voice system can be further arranged on each indicating device to perform voice prompt on the indicated directions. Meanwhile, the indicating equipment is connected with a processor corresponding to the system in a wired or wireless mode, and the indicating direction can be displayed or broadcasted according to the instruction of the processor of the system.

And the system generates a navigation link according to the storage coordinate, and after the navigation link is sent to the communication address of the goods deliverer, the goods deliverer can go to the storage coordinate according to the navigation path.

Because the internal roads of the port are numerous and complicated, and the goods deliverer only depends on the terminal of the goods deliverer to navigate, corresponding difficulty exists, in order to solve the problem, the system can determine the current coordinate of the goods deliverer according to the terminal of the goods deliverer and generate the shortest path to the storage coordinate according to the current coordinate.

The shortest path is not necessarily exactly the same as the navigation path described above, and for example, when the consignee is not traveling along the navigation path, the system may generate a completely new shortest path to the storage coordinates in real time based on the current coordinates of the consignee.

The system can determine a plurality of indicating devices along the shortest path and determine the indicating directions corresponding to the plurality of indicating devices, for example, when the consignee continues to move forward along the current road, an intersection exists in front of the consignee, the indicating device is arranged at the intersection, if the consignee arrives at the storage coordinate, the intersection needs to turn left, and the indicating direction corresponding to the indicating device is the left turn.

When the goods picker travels, the system determines that the goods picker is in a preset range of any one of the indicating devices, then the system can send an instruction to the indicating device, and the corresponding indicating direction is displayed through the indicating device.

Through above-mentioned technical scheme, inside in case the person of picking up goods gets into wisdom harbour, no matter it is marchd according to the navigation route in its terminal, a plurality of indicating equipment in the garden inside all can carry out different pertinence according to each person of picking up goods and instruct, improved the efficiency that the person of picking up goods is to the storage coordinate greatly, avoided the person of picking up goods extravagant too much time of way process of seeking to the intellectuality in harbour has greatly been promoted to utmost point humanized mode. Meanwhile, only when the goods picker is in the preset range of the indicating equipment, the indicating equipment can correspondingly indicate to prevent other goods pickers from generating wrong indications, and the practicability of the indicating equipment is guaranteed.

In one embodiment, the system may also determine that the storage time for the cargo has exceeded a preset threshold, generate a cargo hold back notification, and send the cargo hold back notification to the carrier's communication address.

And judging whether the goods need to be redistributed to the storage area according to the storage coordinates of the goods. For example, according to the storage coordinates of the goods, the storage coordinates occupied by the goods are relatively tense, a large number of other goods need to change the storage positions of the storage coordinate type, and in order to vacate the storage positions at the storage coordinates, the system needs to reallocate the storage areas for the goods.

After the judgment needs, the system distributes the goods to the detained goods storage area, and sends the detained goods storage coordinate corresponding to the detained goods storage area to the unmanned transport vehicle, so that the goods are transported to the detained goods storage coordinate through the unmanned transport vehicle, and the storage resources are saved.

In one embodiment, as shown in fig. 2, the present application provides a cargo management apparatus based on an intelligent port, including: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the content of the first and second substances,

the memory stores instructions executable by the at least one processor to cause the at least one processor to perform instructions for:

receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo;

distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage;

generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code;

receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state;

and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

In one embodiment, the present application provides a non-transitory computer storage medium storing computer-executable instructions configured to:

receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo;

distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage;

generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code;

receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state;

and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

The embodiments in the present application are described in a progressive manner, and the same and similar parts among the embodiments can be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the device and media embodiments, the description is relatively simple as it is substantially similar to the method embodiments, and reference may be made to some descriptions of the method embodiments for relevant points.

The device and the medium provided by the embodiment of the application correspond to the method one to one, so the device and the medium also have the similar beneficial technical effects as the corresponding method, and the beneficial technical effects of the method are explained in detail above, so the beneficial technical effects of the device and the medium are not repeated herein.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

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

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

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A cargo management method based on an intelligent port is characterized by comprising the following steps:

receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo;

distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage;

generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code;

receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state;

and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

2. The intelligent port-based cargo management method according to claim 1, wherein a storage area is allocated to the cargo according to the cargo information, and a storage coordinate corresponding to the storage area is sent to an unmanned transport vehicle, so that the cargo is transported to the storage coordinate by the unmanned transport vehicle and is warehoused, specifically comprising:

determining the type and the expected storage time of the goods according to the goods information, and distributing a specific distance from a port exit and a specific type of storage area for the goods according to the type and the expected storage time, wherein the specific type at least comprises the following steps: open storage type, warehouse storage type;

determining a storage coordinate corresponding to the storage area, determining a cargo code corresponding to the cargo, sending the storage coordinate to an unmanned transport vehicle, and sending the cargo code to a verification device at the storage coordinate;

the goods are transported to the storage coordinates through the unmanned transport vehicle, and the goods codes are verified through the verification device;

and if the verification is passed, determining that the warehousing is successful, generating a goods warehousing record and archiving.

3. The intelligent port-based cargo management method according to claim 1, wherein generating a pick-up notice and sending the pick-up notice to a communication address of a pick-up person comprises:

determining a goods owner communication address corresponding to the goods through the goods picking notice, and sending the goods picking notice to the goods owner picking address;

receiving reply information, and determining a goods deliverer of the goods according to the reply information;

if the goods are replaced by others, acquiring a communication address of a person to replace according to the reply information, forwarding the goods taking notice to the communication address of the person to replace, and collecting facial features of the person to replace through the communication address of the person to replace;

if the goods are extracted by the owner, acquiring facial features of the owner through the owner communication address;

sending the facial features to a verification device at the stored coordinates.

4. The intelligent port-based cargo management method according to claim 3, wherein after sending the facial features to the verification device at the stored coordinates, the method further comprises:

determining the goods picking priority of the goods according to the goods information and a pre-stored priority strategy, and distributing a goods picking time range for the goods according to the goods picking priority;

and sending the goods picking time range to the communication address of the substitute person or the communication address of the goods owner according to the goods picking person.

5. The intelligent port-based cargo management method according to claim 3, wherein after generating a navigation link according to the stored coordinates and sending the navigation link to the communication address of the consignee, the method further comprises:

identifying the bill of lading through the verification device and determining to start lading;

if the identification result passes, acquiring the facial image of the goods elevator through the verification device, and extracting the features of the facial image;

inputting the facial image with the extracted features into a facial recognition model stored in advance, and comparing the facial image with the facial features to verify the legality of the identity of the consignee;

and if the verification is passed, determining that the goods are successfully delivered, generating a goods delivery record and archiving.

6. The intelligent port-based cargo management method according to claim 5, wherein the verification device identifies the pick-up order and determines that pick-up is started, and the method further comprises:

determining whether the goods has paid taxes;

if the goods do not pay the taxes, generating a tax payment supplement notice, and displaying the tax payment supplement notice through the verification device;

sending the bill of lading and the goods information to a customs department, and skipping a display interface of the verification device to a customs tax payment page;

and determining that the tax payment is successful according to the payment result.

7. The intelligent port-based cargo management method according to claim 1, wherein after generating a navigation link according to the stored coordinates and sending the navigation link to the communication address of the consignee, the method further comprises:

determining the current coordinate of the goods elevator, and generating a shortest path to the storage coordinate according to the current coordinate;

determining a plurality of indicating devices along the shortest path, and determining indicating directions corresponding to the indicating devices;

and determining that the goods picker is in a preset range of any one of the indicating devices, and displaying the corresponding indicating direction through the indicating device.

8. The intelligent port-based cargo management method according to claim 1, further comprising:

determining that the cargo storage time has exceeded a preset threshold;

generating a cargo retention notice, and sending the cargo retention notice to the communication address of the goods deliverer;

judging whether the goods need to be redistributed into a storage area or not according to the storage coordinates;

if the goods are needed, the goods are distributed to the detained goods storage area, the detained goods storage coordinates corresponding to the detained goods storage area are sent to the unmanned transport vehicle, and the goods are transported to the detained goods storage coordinates through the unmanned transport vehicle.

9. The utility model provides a cargo management equipment based on wisdom harbour which characterized in that includes:

at least one processor; and a memory communicatively coupled to the at least one processor; wherein the content of the first and second substances,

the memory stores instructions executable by the at least one processor to cause the at least one processor to perform instructions for:

receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo;

distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage;

generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code;

receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state;

and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

10. A non-transitory computer storage medium storing computer-executable instructions, the computer-executable instructions configured to:

receiving a cargo arrival notification, and inquiring cargo information corresponding to the cargo;

distributing a storage area for the goods according to the goods information, and sending a storage coordinate corresponding to the storage area to an unmanned transport vehicle so as to transport the goods to the storage coordinate through the unmanned transport vehicle and put the goods in storage;

generating a goods picking notice and sending the goods picking notice to a communication address of a goods picker, wherein the goods picking notice at least comprises the following components: a delivery bill and a delivery two-dimensional code;

receiving the goods picking two-dimensional code shown by the goods picking person through a scanning device arranged at a port entrance, and determining that the goods picking two-dimensional code is in a legal state;

and generating a navigation link according to the storage coordinate, and sending the navigation link to the communication address of the goods deliverer so that the goods deliverer can reach the storage coordinate according to the navigation link.

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