KR101095705B1 - A broadband electronical material handling system and a method thereof using rf-id tags - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a broadband electronic logistics system and method using an RFID tag, wherein an RFID tag having a semiconductor memory device and its own antenna is attached to a product, a container, or a transport vehicle, and the RFID tag is attached to a product or container. Alternatively, the present invention provides a broadband electronic logistics system and method for continuously detecting the position of a transport vehicle using a sensing antenna or satellite at the time of entry or departure, and the order of a product or logistics tagged with an RFID tag by such a system and method. Logistics ubiquitous network through efficient management of logistics and coordination of information as it can handle order management, logistics management, transportation management, and inventory management in warehouse by real-time management of order, transfer, goods receipt, warehousing and stock status information. Can be built, the hub of logistics In accordance with the business deployment to ensure possible.

According to the present invention, the carrier, supplier, manufacturer for the transport, inspection and storage of the product for all products manufactured at home and abroad by achieving ubiquitous logistics system compatible with the domestic and overseas logistics of import and export in general Real-time sharing of all information related to import and export and delivery with all companies related to import and export can be achieved as a hub of logistics according to efficient and reliable shared data, and each company side through such supply chain optimization and collaboration optimization Redundant investment costs for building an individual logistics management system can be significantly reduced, providing a groundbreaking foundation for streamlining production and management and innovating logistics.

RFID, Tag, Logistics, Import-export, Ubiquitous

Description

BROADBAND ELECTRONICAL MATERIAL HANDLING SYSTEM AND A METHOD THEREOF USING RF-ID TAGS}

1 is a block diagram illustrating a broadband electronic logistics system in accordance with the present invention.

2 is a flowchart illustrating an electronic logistics management method according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: RFIDID Tag 20: Tag Detector

30: broadband electronic logistics server 31: order management module

32: tag management module 33: shipping management module

34: forwarding management module 35: warehouse management module

36: logistics movement tracking module 37: logistics monitoring module

38: Database 39: Event Manager Module

40: server side 100: broadband electronic logistics system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a broadband electronic logistics system and method using an RFID tag, wherein an RFID tag having a semiconductor memory device and its own antenna is attached to a product, a container, or a transport vehicle, and the RFID tag is attached to a product or container. In addition, the system continuously detects the position of the transport vehicle at the time of entry and exit, or by using a sensing antenna or satellite. Logistics management, transportation management, and inventory management in the warehouse can be handled consistently. Also, by using the broadband electronic logistics system using RFID tags, it maintains compatibility between major domestic and foreign distributors, manufacturers, and systems. Manufacture, transportation, suppliers and their pipes Broadband electronic logistics using RFID tags that enable unchecked processes at the time of entering and leaving the company to share transport information and stock status information in transit so that ordering and order management of cargo can be shared in real time on the system A system and method thereof are provided.

In general, the bar code system and the self-recognition system are most commonly used for the recognition and information management of a specific object in a logistics management system. The bar code system attaches an attachment formed with a bar pattern to a managed object. The information is read and the bar is read by a reader to manage information, and the magnetic recognition system records predetermined information on a magnetic bar of a magnetic card and reads it from the reader to manage the information.

However, the conventional bar code system is often not recognized by the external environment, such as snow, rain, fog, dust, etc. has a limit that is applied only to a specific object in the room that is substantially less affected by the external environment, in particular As barcode recognition uses the handling of the operator or the proximity recognition device, it is difficult to recognize the barcode far away from the operator, and many restrictions on the application have been followed.

On the other hand, recently, the production units, methods of assembly, transportation, sales, and storage of industrial parts, such as OEM (OEM), which manufactures parts or finished products in foreign countries, import them back, assemble them, or export them after packaging, are further subdivided. Therefore, the problem of incompatibility between various management systems of each producer is emerging, and the difference between these management systems is the inefficiency of overlapping costs in the process of ordering, final delivery, transport and storage of products. Unnecessary logistics costs due to such inefficiency are reflected in the final selling price of the product, causing the burden on the consumer side.

In addition, as the quantity information or the product information according to the process of production, assembly, transfer and sale, storage, etc. are not correctly transmitted and managed, the consistency of data is degraded, and the information of the product damaged or lost in the logistics process is normal. It may not be reflected, which may reduce the reliability of the company's accounting and management data.

The present invention has been made to solve the problems described above, the object of the present invention is to consistently cover the entire area from ordering, ordering, production, release, transfer, receipt and storage of the product using the RFID tag It is to provide a system and method that can realize the hub of logistics by allowing the information of the product to be managed so that the flow of logistics can be done efficiently and reasonably.

Another object of the present invention is to provide a logistics system applying the concept of ubiquitous network to import and export logistics throughout the country and abroad to enable real-time sharing of all the status information about the product in all relevant companies such as manufacturers, transporters, suppliers, etc. It provides a system and method to make it possible for various goods produced and manufactured overseas to be imported to domestic ports and airports, and processed and exported to maintain compatibility with the buyer's system to be tagged with RFID tags and finally exported. To provide a system and method.

Still another object of the present invention is to provide a system and method for improving the reliability of accounting and management data of an enterprise by providing a system and a method for reliably managing product information in a logistics system.

Further objects other than the present invention will be described in more detail in the configuration and operation to be described later.

Broadband electronic logistics system using RF ID according to the present invention,

A plurality of RFID tags attached to one side of a predetermined product, its packaging member, and a transfer means, and having a storage element storing predetermined unit information for logistics management; and an antenna for transmitting and receiving the unit information by wireless transmission and reception. ;

A plurality of tag detectors disposed on a position at which the predetermined product, a packing member, and a transfer unit are present or transported to detect the unit information from the RFID tag and transmit base and transfer information of the RFID tag;

Order information about the product, tag information of the RFID tag including the unit information, shipping information, forwarding information, and storage information about the product with the RFID tag, its packaging member, and the transfer means A plurality of company-side servers for transmitting and receiving through the Internet; And

Using the information transmitted from the server of the company and the transfer information of the RFID tag received from the plurality of tag detectors, the base and the transfer of the product, its packaging member, and the transfer means may be monitored in real time. And a broadband logistics management server that monitors the overall progress of logistics from order to delivery, transportation, and storage with an electronic product code (EPC) system.

And, the broadband electronic logistics server,

An order order management module that receives information about the order and the order for the product from a server of a company and stores and manages the order in a database;

A tag management module that receives the RFID tag information provided for the product, its packaging member, and the transfer means from a company server, and stores and manages the tag in a tag database;

A delivery management module configured to store and manage transportation information on a product being transported in the country, packaging members, and transportation means from a server of a domestic carrier on a database;

A forwarding management module configured to store and manage transportation information on products being transported overseas, packaging members, and transportation means from a server of an overseas shipping company on a database;

A warehouse management module for receiving and storing information in the warehouse about the product, its packaging member, and the transfer means from a storage company server, and storing and managing the product in a database;

Receive unit information according to the detection of the base and the movement of the product, the packaging member and the transfer means from the tag detector in connection with the tag management module, the delivery management module and the forwarding management module, and interlocking the GPS and the map Logistics movement tracking module for performing location tracking by location and movement;

Through the linked management of the modules, the entire logistics progress from ordering and ordering of products to transport, transportation, and storage is monitored by using an electronic product code (EPC) system. It is configured to include; logistic monitoring module for managing information to be compatible to exchange information.

Preferably, the RFID tag information may include all the history of the corresponding product, such as a manufacturing time, serial number, and lot number of the corresponding product, and the plurality of tag detectors correspond to a network of an electronic product code (EPC) system. It is configured to detect all the tags moving in the network area and to track the movement status and to transmit to the broadband electronic logistics server.

In addition, the broadband electronic logistics server may further include an event manager module that can immediately notify the server of the assembly company, distributor or consumer side when a major abnormality of the logistics occurs.

In addition, the broadband electronic logistics management method using the RFID tag,

Storing the ordering and ordering information for the product from the server of the corresponding company; and

Issuing and attaching the RFID tag stored in the history information to all products and its packaging member and transport means in the company, and transmitting the tag issuing information; And,

Receiving the issuance information of the RFID tag and storing it in a database; and

Detecting movement of the RFID tag by a tag detector and monitoring movement information according to the release, transportation, transportation, storage, and sale of the product, the packaging member, and the transfer means; And

And an electronic product code (EPC) step of storing, notifying, and managing electronic product codes by moving and moving information on order, release, transportation, delivery, storage, and sale from the order of all the products.

Preferably, the broadband electronic logistics management method using RFID may further include an event managing step of notifying each company's server, a customer company, or a consumer when a major abnormality such as product replenishment and shortage reasons occurs. have.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in the following description of the present invention, specific descriptions of related well-known functions or configurations may unnecessarily obscure the subject matter of the present invention. If so, the detailed description thereof will be omitted.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

1 is a block diagram showing a broadband electronic logistics system 100 according to the present invention, the broadband electronic logistics system 100 is largely a plurality of RFID tags 10, a plurality of tag detectors 20 and various companies Side servers 40 are connected to form an electronic product code (EPC) network around the broadband electronic logistics server 30.

The RFID tag 10 is provided with a semiconductor memory device (not shown) in which predetermined unit information is stored inside and an antenna (not shown) for transmitting and receiving unit information by wireless transmission and reception. It is attached to one side of the transport means, such as a truck.

The predetermined unit information stored in the RFID tag 10 includes ordering information on ordering and ordering of the product, a manufacturing place, an assembly place, a serial number (manufacturing number), a lot number (serial number), etc. of the product. Product information, shipping information, shipping destinations, destinations of shipment, shipping information such as the corresponding container number, corresponding container number when shipped overseas, forwarding information on the number of carriers or cargo ships, quantitative loading and time, and inventory to be stored The location of the warehouse, the warehouse, and the like and the storage information about the storage location in the warehouse, etc. can all be included.                     

The tag detector 20 is disposed in a path where the product having the tag 10 attached thereto, its packaging member, and the conveying means exist or move in order to detect the base and the movement state of the RFID tags 10 described above by wireless communication. To form a tag detection network as a whole. The locations where the tag detector 20 is disposed include the entrance and exit of a manufacturer, a distributor, and a logistics company, almost all roads or cargo loading sites through which a container vehicle passes, or GPS (GPS). Satellites may be used.

The mutual wireless communication between the RFID tag 10 and the tag detector 20 preferably uses a frequency of 125 KHz to 2.45 GHz, and uses an electromagnetic induction method for mutual induction and a medium to long distance within a short range of 1 meter. This may be used in combination, wherein the mutual induction method is configured to perform a wireless connection with each other using a coil antenna and an electromagnetic wave method using a high frequency antenna.

Servers (40) of various companies are domestic manufacturers (41), domestic logistics companies (42), domestic distributors (43), domestic warehouses (44), overseas manufacturers (45), overseas logistics companies (46), overseas distribution It consists of a company (47), overseas warehouse company (48), etc., the server server 40 of these companies are not limited to terms such as manufacturing, logistics, or distributors, such as from ordering of goods, transportation, delivery, storage, sales, etc. This refers to the servers of all economic actors, such as production, transportation and sale.

These server-side servers 40 are connected to the broadband electronic logistics server 30 over the Internet by TCP / IP protocol, and the network of the RFID tag 10 and the tag detector 20 around the broadband electronic logistics server 30. Together, they form an electronic product code (EPC) network.

And, the information transmitted and received from the server server 40, the order information about the product, the tag information of the RFID tag including the unit information, the number of the product with the RFID tag attached, its packaging member and the transfer means Delivery information, forwarding information, and storage information in a warehouse.

The broadband electronic logistics server 30 is an order management module 31 for managing an ordering system, a tag management module 32 for managing a tag ID tagging system, a tagged product, etc., as shown in FIG. A delivery management module 33 for managing a delivery system of a product, a forwarding management module 34 for managing an overseas transportation system such as tagged products, and warehouse management for managing a warehouse storage system such as tagged products Module 35, logistics movement tracking module 36 for managing the logistics movement tracking system for tracking the position of the tag, and logistics monitoring module for managing the logistics system for monitoring the overall logistics progress by all the above systems Has 37.

In addition, the broadband electronic logistics server 30 includes a database 38 in which data obtained by transceiving with the tag detector 20 or the server-side servers 40 and data generated by the management of each module are stored. With each of these modules and a database, it is given a function as a hub for the logistics network.

In more detail with respect to the broadband electronic logistics server 30, the order receiving management module 31 is authorized to receive information on ordering a predetermined product on the domestic manufacturer server 41 side and stores the order order information in the database 38 On the other hand, if a company receiving a predetermined product manufactures the product and attaches the RFID tag 10 to the product and notifies the shipment to the broadband logistics management server 30, the order management module (notified of the shipment) 31) is configured to manage an Order Management System (OMS) that recognizes that a predetermined order transaction has been made normally and stores the information in the database 38.

In addition, the company that manufactured the product attaches the RFID tag 10 when the product is shipped, and the product having the RFID tag 10 attached thereto is packaged by a packing member such as a box or a container and is forklift truck. It is transported to the storage warehouse by the transport, or transported or forwarded to the warehouse or distributor or overseas by transport means such as trucks or ships, and at this time, the server 41 of the company that ships the product is provided with the corresponding product or packaging. It is configured to provide the tag information for the RFID tag 10 attached to the member or the conveying means to the broadband electronic logistics server 30 side.

The tag management module 32 receives tag information from the company-side server 41 and stores the corresponding information in the management and database 38, and includes a delivery management module 33, a forwarding management module 34, and a warehouse management module. It is configured to update on the database 38 the information about the RFID tag 10 which is updated from (35).

The delivery management module 33 receives the information related to the delivery from the server of the domestic logistics company 42 side, and manages the delivery for the product or the packaging member or the conveying means to which the RFID tag 10 is assigned or transported or delivered. To manage a transportation system (TMS) and a delivery system (DMS) that performs vehicle management, dispatch management, or vehicle management, and the like. The forwarding management module 34 is a foreign logistics company 46 side. Receiving information related to the forwarding from the server is configured to manage the overseas transportation system in which the product or the packaging member or conveying means to which the RFID tag 10 is assigned.

The warehouse management module 35 uses the same method as the conventional method when a product to which an RFID tag 10 is assigned from a domestic or overseas warehouse company server 44 or 48 is being stored in a warehouse or stored in stock. The omission of the inspection of each product by manual operation is omitted, and the RFID ID tag is attached at the same time as the wireless ID gate tower is passed through the RF ID gate tower in real time using the RFID ID tag, and also at the same wirelessly constructed storage location. It is to manage the Warehouse Management System (WMS) to manage the location, inventory quantity and status of the product, and the shipment of goods.

The logistics movement tracking module 36 tracks the position of the RFID tag 10 attached to the product, the packaging member, or the transport means using a GPS satellite or a map to track the actual movement of logistics (VMS). This is to manage Visibility Management System.

Using these modules, the Logistics Monitoring Module 37 provides a Logistics Monitoring System (LMS: Logistics Monitoring System-Logistics Monitoring System) that organically monitors the overall logistics progress from product order and order to shipment, delivery, storage, and sales. (EPC) by managing and storing it in the database 38 and managing it so that it can be exchanged with other buyers, producers and other parties' systems to provide information to the server of the company. It is configured to realize broadband electronic logistics system by system network.

Then, the event manager module 39 has a configuration that can immediately notify the relevant assembly company, distributors and consumer-side server when a major abnormal situation of logistics occurs during monitoring in the logistics monitoring module 37.

In the construction of the broadband electronic logistics system 100 having the above configuration, the system operator having the broadband electronic logistics server 30 becomes a hub axis, and a predetermined business agreement for supply chain optimization and collaboration optimization with all related companies is established. It can be made by signing, and the ID of the R & D information is shared with the companies that have entered into such business agreements, and the customs clearance inspection can be done. You will also be able to enter into a service business contract that will be paid for.

Referring to the logistics management method according to the present invention using the broadband electronic logistics server 30 and RFID tag 10 having the configuration as described above according to the present invention with reference to the flowchart of FIG. .

First, when an order for a product is made by a predetermined company, the order management module 31 receives information about the order and the order from the server 40 of the corresponding company and stores it in the database 38 (step S1). On the other hand, the company that received the order completes the production of the product and inputs the history information about the product to the RFID tag 10 and attaches it to the product, the packaging member, or the transfer means, and then issues the issued information of the tag 10. When transmitting (step S2), the tag management module 32 stores the issued information of the received tag 10 and the history information stored in the tag 10 in the database 38 (step S3).

Subsequently, during the process of product delivery or forwarding, the corresponding shipping company or forwarding company transmits the information about the product delivery or forwarding to the delivery management module 33 or the forwarding management module 34 to transmit the database 38. To be stored at step S4.

The position is detected by the tag detectors 20 in the course of the product actually being transported, shipped, stored and sold, and the position information is applied to the logistics movement tracking module 36 and stored in the database 38 (step S5). ), By comparing the shipping and forwarding information received from the delivery management module 33 and the forwarding management module 34 in the logistics monitoring module 37 with the actual location information authorized by the logistics movement tracking module 36. The overall progress information from the order or order of the product to which the RFID tag 10 is attached or the packing member or the transport means to be moved or sold or stored is accurately monitored by the entire electronic product coded system (step S6). ).

In addition, the event manager module 39 receives information on occurrence of major abnormal conditions such as replenishment of the product having the RFID tag 10 and the reason for the shortage while being monitored by the logistics monitoring module 37, and receives the server of each company ( 40) or the event management step (step S7) that informs the customer or consumer.

That is, according to the above steps, it becomes possible to implement a ubiquitous network in which all logistics flows over broadband including domestic and foreign countries can be grasped by the RFID tag 10 and the tag detector 20 detecting the same. .

Meanwhile, the broadband electronic logistics server 30, which is in charge of the hub of the ubiquitous network, can monitor whether products are normally ordered, ordered, produced, transported, transported, sold, and stored, thereby enabling global global distribution. As it leads the standardization of global logistics, the RFID tags 10, tag detectors 20 and the underlying network technologies used in the present invention can be adopted as international standards, thereby achieving enormous ripple effects in terms of technology and economics. It is expected to be obtained.

And, using the broadband electronic logistics system 100 and the electronic logistics management method according to the present invention, each system such as ordering system, delivery system, forwarding system, logistics tracking system, warehouse storage system and sales distribution system It is integrated into one electronic product coding (EPC) system, making it compatible with various management systems. Logistically inefficient because it can be used for tracking, inquiring and marketing of all processes from product manufacturing, distribution, and consumption. The occurrence of phosphorus costs will be reduced.

On the other hand, although not shown in the drawings as another embodiment of the present invention, by analyzing all the databases held in the broadband electronic logistics server 30 or linked by the intelligent network (IN) by popular products, regions or countries according to region or country A data analysis module for reprocessing the analysis database analyzing the manufacturing cost of each product, the shipping cost of the product according to the carriers, and the shortest transportation path of the product may be further provided. The analysis database can be provided for free or for free to be used as important data in the fields of business strategy, product planning, and sales planning.

Although the preferred embodiments of the present invention have been described in detail as described above, those skilled in the art will be able to modify or change the present invention without departing from the spirit and scope of the present invention. It will be appreciated that the true technical protection scope of the present invention should be determined by the claims.

According to the present invention, a variety of management systems for production, assembly, transportation, sales and storage, etc. into a single electronic product coding system can be implemented to implement a common infrastructure, so that logistics investment costs are not duplicated, so that efficient logistics management There is an effect that is achieved, and finally, the factors that have been unnecessarily applied to the consumer side can be eliminated, resulting in cost reduction effect.

In addition, as the quantity information or product information according to the process of ordering, production, assembly, transfer, sale, storage, etc. is correctly transmitted and managed, the consistency and accuracy of the data is improved, so that the information of the product damaged or lost in the logistics process It is accurately reflected and, therefore, there is an effect that can greatly improve the reliability of the accounting information and management data on the company side.

On the other hand, a ubiquitous network that can be applied to the broadband logistics management system and its management method using the RFID tag according to the present invention to all the logistics that are imported and exported to the domestic as well as overseas, the system company that provides such a system and method By providing network technical standards of global logistics, it can achieve enormous ripple effects both technically and economically, and can play a pivotal role as a logistics hub.

Claims (5)

A plurality of RFID tags attached to one side of a predetermined product, its packaging member, and a transfer means, and having a storage element storing predetermined unit information for logistics management; and an antenna for transmitting and receiving the unit information by wireless transmission and reception. ; A tag detector for detecting the unit information from the RFID tag attached to the predetermined product, the packaging member, and the transfer means, and detecting the base and the transfer information of the RFID tag using a GPS satellite; Order information about the product, tag information of the RFID tag including the unit information, shipping information, forwarding information, and storage information about the product with the RFID tag, its packaging member, and the transfer means A plurality of company-side servers for transmitting and receiving through the Internet; And Using the information transmitted from the server of the company and the transfer information of the RFID tag received from the tag detector, the base and the transfer of the product, its packaging member, and the transfer means are monitored in real time, and the order and order of the product can be obtained. Broadband electronic logistics system using an RFID tag, characterized in that it comprises ;; broadband electronic logistics server for monitoring the progress of the entire logistics of transport, transportation, storage from the electronic product coding system. The method of claim 1, The broadband electronic logistics server, An order order management module that receives information about the order and the order for the product from a server of a company and stores and manages the order in a database; A tag management module that receives the RFID tag information provided for the product, its packaging member, and the transfer means from a company server, and stores and manages the tag in a tag database; A delivery management module configured to store and manage transportation information on a product being transported in the country, packaging members, and transportation means from a server of a domestic carrier on a database; A forwarding management module configured to store and manage transportation information on products being transported overseas, packaging members, and transportation means from a server of a foreign carrier on a database; A warehouse management module for receiving and storing information in the warehouse about the product, its packaging member, and the transfer means from a storage company server, and storing and managing the product in a database; Receive unit information according to the detection of the base and the movement of the product, the packaging member and the transfer means from the tag detector in connection with the tag management module, the delivery management module and the forwarding management module, and interlocking the GPS and the map Logistics movement tracking module for performing location tracking by location and movement; Through the linked management of the modules, the overall logistics progress from ordering and ordering of products to transport, transportation, and storage is monitored by an electronic product code system. Broadband electronic logistics system using an RFID tag, characterized in that it includes; Logistics monitoring module for managing to be compatible so as to be compatible. The method of claim 1, The broadband logistics management server is a broadband using an RFID tag further comprises an event manager module that can immediately notify the server of the assembly company, distributor or consumer when the logistical abnormal situation occurs Electronic logistics system. delete delete

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