CN108197874B - A logistics management system based on IoT big data - Google Patents

Abstract

The invention discloses a logistics management system based on the big data of the Internet of Things, which includes a buyer terminal, a seller terminal and a logistics terminal, and the buyer terminal, the seller terminal and the logistics terminal are connected in two; the buyer terminal uses the buyer's mobile phone as the The carrier includes a buyer processor, a real-time positioning module, a pickup notification module, and a pickup point confirmation module; the logistics terminal includes a logistics system located in each city, and the logistics system includes a number of pickup points, and each pickup point is There are base station terminals, and all base station terminals are connected to the master control server. Through the connection and cooperation between the buyer's terminal, the seller's terminal and the logistics terminal, the present invention can make the logistics system more intelligent, facilitate the buyer to pick up the items in real time, reduce the labor distribution cost, reduce the waste of resources, and make the distribution more efficient. Faster and more accurate, buyers can pick up items at any time and anywhere according to their personal needs, getting rid of the limitations of traditional fixed pickup points and having a wider range of applications.

Description

Logistics management system based on big data of Internet of things

Technical Field

The invention belongs to the field of big data, and particularly relates to a logistics management system based on Internet of things big data.

Background

Although the current home and abroad logistics distribution systems mostly span the stage of simple delivery and home-entry, the logistics distribution in the traditional sense still exists in the hierarchy, so that various defects and problems which cannot be overcome by the traditional logistics distribution still exist, the logistics distribution systems do not or basically do not have the characteristics of informatization, modernization, socialization and the like, and meanwhile, a lot of links of the logistics distribution cause huge waste of cost, labor and time. With the rapid development of electronic technology and microprocessor software and hardware technology and the development of enterprises, logistics enterprises must reduce logistics cost through the information management of logistics distribution systems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides a logistics management system based on Internet of things big data, which can greatly reduce the labor cost and time waste and has high automation degree.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a logistics management system based on Internet of things big data comprises a buyer terminal, a seller terminal and a logistics terminal, wherein the buyer terminal, the seller terminal and the logistics terminal are connected in pairs;

the buyer terminal takes a buyer mobile phone as a carrier and comprises a buyer processor, a real-time positioning module, a pickup notification module and a pickup point confirmation module, wherein the real-time positioning module, the pickup notification module and the pickup point confirmation module are connected with the buyer processor; the system comprises a real-time positioning module, a pickup notification module, a pickup point confirmation module and a buyer processor, wherein the real-time positioning module is used for detecting and sending real-time position information of a buyer to the buyer processor, the pickup notification module is used for receiving pickup notification information from a logistics terminal and reminding the buyer, the pickup point confirmation module is used for confirming that the buyer arrives at a pickup point after a package and forming a pickup point confirmation instruction to be sent to the buyer processor, and the buyer processor is used for receiving the pickup notification information from the logistics terminal and sending the pickup point confirmation instruction and the real-time position information of the buyer to the logistics terminal;

the seller terminal is used for registering buyer identity information and package information in the two-dimensional code label and fixing the two-dimensional code label on the surface of the package, wherein the buyer identity information comprises a buyer name, an identification card number and a mobile phone number, and the package information comprises a package name, a package type and a package sending date;

the logistics terminal comprises logistics systems arranged in various cities, the logistics systems comprise a plurality of pickup points which are uniformly distributed in the cities, a base station terminal is arranged at each pickup point, all the base station terminals are connected with a master control server, each base station terminal comprises a base station server, a pickup point positioning module, a transfer scanning identification module, a grabbing control module, a registering scanning identification module, a notification sending module and a locking module, the transfer scanning identification module and the grabbing control module are arranged in a transfer cabinet, the registering scanning identification module is arranged in the pickup cabinet, the pickup cabinet comprises a plurality of pickup boxes communicated with the transfer cabinet, and the scanning identification module comprises a plurality of scanning identifiers respectively arranged in the pickup boxes; the transfer cabinets of any two base station terminals are connected through a transport channel, and a conveying belt for conveying packages is arranged in the middle of the transport channel;

the system comprises a pickup point positioning module, a transfer scanning recognition module, a storage scanning recognition module, a pickup box, a base station server, a notification transmission module, a pickup notification module and a locking module, wherein the pickup point positioning module is used for sending pickup point position information to the base station server, the transfer scanning recognition module is used for sequentially scanning all parcels in a transfer cabinet and sending the scanned parcel information to the base station server, the pickup control module is used for receiving a control instruction of the base station server so as to pick and transfer the parcels in the transfer cabinet and the pickup cabinet, the storage scanning recognition module is used for scanning the parcels in the pickup box and sending the scanned parcel information to the base station server, the notification transmission module is used for receiving pickup notification information from the base station server and sending the pickup notification information to the pickup notification module of a buyer terminal, and the locking module is used for locking the parcels and forbidding the pickup control module to pick and transfer;

the master control server is respectively connected with the buyer processor and the base station server;

after a buyer purchases goods from a seller, the seller fixes a two-dimensional code label on the surface of a package through a seller terminal, and packages and transports through a logistics terminal, after the package reaches a city where the buyer is located, a master control server respectively receives buyer real-time position information from a buyer processor and pick-up point position information from all base station servers, compares the buyer real-time position information with all pick-up point position information, selects a pick-up point closest to the buyer real-time position information as a target pick-up point, the master control server sends a transfer instruction to the base station server where the package is located at the moment, the base station server where the package is located controls a pick-up control module to pick up the package, the package is transferred into a transfer cabinet from the pick-up cabinet, and then the package is transferred into the transfer cabinet of the target pick-up point through a transport channel:

a transfer scanning identification module at a target pickup point scans a package, then sends scanned package information to a base station server of the target pickup point, the base station server controls a grabbing control module to grab and transfer the package to a pickup box of a pickup cabinet, at the moment, a registering scanning identification module in the pickup box scans the package, and sends scanned package information and pickup box position information to the base station server of the target pickup point, and then the base station server packs the package information and pickup box position information to form pickup notification information and sends the pickup notification information to a pickup notification module of a buyer terminal;

after the buyer receives the pick-up notice information, if the buyer does not do any operation, the master control server controls the packages to be continuously transferred to the pick-up point closest to the real-time position of the buyer; if the buyer confirms through the pickup point confirming module, the buyer processor forms a pickup point confirming instruction and sends the pickup point confirming instruction to the base station server of the target pickup point, and the base station server of the target pickup point controls the locking module to lock the package and waits for the buyer to pick up the package.

Furthermore, the buyer terminal and the seller terminal are connected through a third party payment platform, and the third party payment platform is used for the buyer and the seller to perform online payment transaction.

Further, the buyer terminal, the seller terminal and the logistics terminal transmit data through the Internet.

Furthermore, the locking module comprises a lifting controller and a lifting partition plate connected with the lifting controller, the lifting controller is connected with the base station server and used for controlling the lifting of the lifting partition plate, and the lifting partition plate is used for isolating the pickup box and the transfer cabinet to prohibit the pickup control module from performing pickup transfer.

Furthermore, the general control server, the buyer processor and the base station server are all in data connection through a 4G network.

The invention has the beneficial effects that:

according to the invention, through the connection and matching of the buyer terminal, the seller terminal and the logistics terminal, the logistics system is more intelligent, the buyer can take the parts in real time conveniently, the manpower distribution cost is reduced, the resource waste is reduced, the distribution is faster and more accurate, the buyer can take the parts at any time and any place according to personal requirements, the limitation of the traditional fixed part taking point is eliminated, and the application range is wider.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a block diagram of the system architecture of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

The logistics management system based on the Internet of things big data comprises a buyer terminal, a seller terminal and a logistics terminal, wherein the buyer terminal, the seller terminal and the logistics terminal are in data transmission through an Internet network, the buyer terminal and the seller terminal are connected through a third-party payment platform, and the third-party payment platform is used for online payment transaction of a buyer and a seller.

The buyer terminal takes a buyer mobile phone as a carrier and comprises a buyer processor, a real-time positioning module, a pickup notification module and a pickup point confirmation module, wherein the real-time positioning module, the pickup notification module and the pickup point confirmation module are connected with the buyer processor; the real-time positioning module is used for detecting the real-time position information of the buyer and sending the real-time position information of the buyer to the buyer processor, the pickup notification module is used for receiving pickup notification information from the logistics terminal and reminding the pickup notification information, the pickup point confirmation module is used for confirming that the buyer arrives at a pickup point after a package, and forming a pickup point confirmation instruction to be sent to the buyer processor, and the buyer processor is used for receiving the pickup notification information from the logistics terminal and sending the pickup point confirmation instruction and the real-time position information of the buyer to the logistics terminal.

The seller terminal is used for storing buyer identity information and package information in the two-dimensional code label and fixing the two-dimensional code label on the surface of the package, wherein the buyer identity information comprises a buyer name, an identity card number and a mobile phone number, and the package information comprises a package name, a package type and a package sending date.

The logistics terminal comprises logistics systems arranged in all cities, each logistics system comprises a plurality of pickup points which are uniformly distributed in the cities, each pickup point is provided with a base station terminal, all the base station terminals are connected with a master control server, each base station terminal comprises a base station server and a pickup point positioning module, a transfer scanning identification module, a grabbing control module, a registering scanning identification module, a notification sending module and a locking module, the transfer scanning identification module and the grabbing control module are arranged in a transfer cabinet, the registering scanning identification module is arranged in the pickup cabinet, the pickup cabinet comprises a plurality of pickup boxes communicated with the transfer cabinet, and the registering scanning identification module comprises a plurality of scanning identifiers respectively arranged in the pickup boxes; all link to each other through the transfer cabinet at arbitrary two base station terminal between, be equipped with the conveyer belt that is used for conveying the parcel in the middle of the transport passage.

The pick-up point positioning module is used for sending pick-up point position information to the base station server, the transfer scanning identification module is used for sequentially scanning all parcels in the transfer cabinet and sending the scanned parcel information to the base station server, the pick-up control module is used for receiving a control instruction of the base station server so as to pick up and transfer the parcels in the transfer cabinet and the pick-up cabinet, the deposit scanning identification module is used for scanning the parcels in the pick-up box and sending the scanned parcel information to the base station server, the notice sending module is used for receiving pick-up notice information from the base station server and sending the pick-up notice information to the pick-up notice module of the buyer terminal, the locking module is used for locking the parcels and forbidding the pick-up control module to pick up and transfer, the locking module comprises a lifting controller and a lifting clapboard connected with the lifting controller, and the lifting controller is connected with the base station server, the lifting partition plate is used for isolating the pickup box from the transfer cabinet so as to forbid the grabbing control module to grab and transfer; the master control server is respectively connected with the buyer processor and the base station server, and the master control server is in data connection with the buyer processor and the base station server through a 4G network.

After a buyer purchases goods from a seller, the seller fixes a two-dimensional code label on the surface of a package through a seller terminal and packages and transports the package through a logistics terminal, after the package reaches a city where the buyer is located, a master control server respectively receives buyer real-time position information from a buyer processor and pick-up point position information from all base station servers, compares the buyer real-time position information with all pick-up point position information, selects a pick-up point closest to the buyer real-time position information as a target pick-up point, at the moment, the master control server sends a transfer instruction to the base station server where the package is located, at the moment, the base station server where the package is located controls a pick-up control module to pick up the package, the package is transferred into a transfer cabinet from the pick-up cabinet, and then the package is transferred into the transfer cabinet of the target pick-up point through a transport channel.

The transfer scanning identification module at the target pickup point scans the packages, then sends the scanned package information to the base station server of the target pickup point, the base station server controls the grabbing control module to grab and transfer the packages to the pickup boxes of the pickup cabinet, the depositing scanning identification module in the pickup boxes scans the packages at the moment, the scanned package information and the pickup box position information are sent to the base station server of the target pickup point, and then the base station server packs the package information and the pickup box position information to form pickup notification information and sends the pickup notification information to the pickup notification module of the buyer terminal.

After the buyer receives the pick-up notice information, if the buyer does not do any operation, the master control server controls the packages to be continuously transferred to the pick-up point closest to the real-time position of the buyer; if the buyer confirms through the pickup point confirming module, the buyer processor forms a pickup point confirming instruction and sends the pickup point confirming instruction to the base station server of the target pickup point, and the base station server of the target pickup point controls the locking module to lock the package and waits for the buyer to pick up the package.

According to the invention, through the connection and matching of the buyer terminal, the seller terminal and the logistics terminal, the logistics system is more intelligent, the buyer can take the parts in real time conveniently, the manpower distribution cost is reduced, the resource waste is reduced, the distribution is faster and more accurate, the buyer can take the parts at any time and any place according to personal requirements, the limitation of the traditional fixed part taking point is eliminated, and the application range is wider.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (5)

1. A logistics management system based on Internet of Things big data, characterized in that: it comprises a buyer terminal, a seller terminal, and a logistics terminal, and the buyer terminal, the seller terminal, and the logistics terminal are connected in pairs; The buyer terminal takes the buyer's mobile phone as a carrier, and includes a buyer's processor, a real-time positioning module, a pickup notification module, and a pickup point confirmation module connected to the buyer's processor; the real-time positioning module is used for real-time location of the buyer. The information is detected and sent to the buyer's processor. The pickup notification module is used to receive the pickup notification information from the logistics terminal and remind it. The pickup point confirmation module is used for the buyer to confirm after the package arrives at the pickup point. Form a pickup point confirmation instruction and send it to the buyer's processor, and the buyer's processor is used to receive the pickup notification information from the logistics terminal, and send the pickup point confirmation instruction and the buyer's real-time location information to the logistics terminal; The seller terminal is used to store the buyer's identity information and package information in the two-dimensional code label and fix it on the surface of the package. The buyer's identity information includes the buyer's name, ID number and mobile phone number, and the package information includes the package's name, type and date of dispatch; The logistics terminal includes a logistics system located in each city, the logistics system includes a number of pickup points evenly distributed in the city, each pickup point is provided with a base station terminal, and all the base station terminals are connected to the master control server, The base station terminal includes a base station server and a pickup point positioning module connected to the base station server, a transfer scanning identification module, a grasping control module, a deposit scanning identification module, a notification sending module, and a locking module. The transfer scanning identification module and the grasping control module are installed in the In the transfer cabinet, the storage scanning identification module is installed in the pickup cabinet, the pickup cabinet includes several pickup boxes that communicate with the transfer cabinet, and the storage scanning identification module includes several scanning identifiers respectively arranged in the pickup box; any two The transfer cabinets of each base station terminal are connected through a transportation channel, and a conveyor belt for conveying packages is arranged in the middle of the transportation channel; The pickup point locating module is used to send the location information of the pickup point to the base station server, and the transit scanning and identification module is used to scan all the packages in the transit cabinet in turn, and send the scanned package information to the base station server, and grab it. The control module is used to receive the control instructions from the base station server to grab and transfer the packages in the transfer cabinet and the pick-up cabinet. The storage scanning and identification module is used to scan the packages in the pick-up box, and send the scanned package information to The base station server, the notification sending module is used to receive the pickup notification information from the base station server and send it to the pickup notification module of the buyer's terminal, and the locking module is used to lock the package and prohibit the grasping control module from grasping and transferring; The master control server is respectively connected with the buyer's processor and the base station server; When the buyer buys the product from the seller, the seller fixes the QR code label on the surface of the package through the seller's terminal, and transports the package through the logistics terminal. When the package arrives at the buyer's city, the master control server receives the data from the buyer's processor. The buyer's real-time location information and the pickup point location information from all base station servers, compare the buyer's real-time location information with the location information of all pickup points, and select the pickup point closest to the buyer's real-time location information as the target At the pickup point, the master control server sends a transfer instruction to the base station server where the package is located. At this time, the base station server where the package is located controls the grasping control module to grasp, and transfers the package from the pickup cabinet to the transfer cabinet, and then passes the The shipping lane transfers the package to the transfer locker at the destination pickup point: The transit scanning and identification module at the target pickup point scans the package, and then sends the scanned package information to the base station server at the target pickup point. The base station server controls the grasping control module to transfer the package to the pickup cabinet. In the pickup box, the storage scanning identification module in the pickup box scans the package, and sends the scanned package information and the location information of the pickup box to the base station server at the target pickup point, and then the base station server sends the package information. The pickup notification module that is packaged with the pickup box location information to form pickup notification information and sent to the buyer's terminal; After the buyer receives the pickup notification information, if the buyer does not do anything, the master control server will control the parcel to be continuously transferred to the pickup point closest to the buyer's real-time location; if the buyer confirms through the pickup point confirmation module , the buyer's processor forms a pickup point confirmation instruction and sends it to the base station server of the target pickup point. At this time, the base station server at the target pickup point controls the locking module to lock the package and waits for the buyer to pick up the package. 2. A kind of logistics management system based on Internet of Things big data according to claim 1, is characterized in that: described buyer terminal and seller terminal are connected through third-party payment platform, and third-party payment platform is used for buyer Conduct online payment transactions with sellers. 3. A logistics management system based on the big data of the Internet of Things according to claim 1, characterized in that: the buyer terminal, the seller terminal, and the logistics terminal carry out data transmission through the Internet network in pairs. 4 . The logistics management system based on the big data of the Internet of Things according to claim 1 , wherein the locking module comprises a lift controller and a lift partition connected to the lift controller, and the lift controller is connected to a base station server. 5 . It is connected and used for lifting and controlling the lifting partition, and the lifting partition is used for isolating the pickup box and the transfer cabinet so as to prohibit the grasping control module from grasping and transferring. 5 . The logistics management system based on the big data of the Internet of Things according to claim 1 , wherein the data connection between the master control server, the buyer's processor and the base station server is performed through a 4G network. 6 .

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