KR20100026885A - System for identifying the position of automobile in warehouse by rfid - Google Patents

Abstract

PURPOSE: A system for identifying the position of an automobile in a warehouse by using RFID is provided to confirm the current position of a vehicle by reading out the tag information with an RFID reader. CONSTITUTION: Position tags(TAG1-TAG24) are attached to the inner side of each region or between regions in a warehouse, wherein the warehouse is divided into the regions. The position tags store the identification information for identifying the position of the region. An RFID(Radio Frequency Identification) reader is installed inside the vehicle driven in the warehouse. The position identification information is obtained from the position tag rear the RFID reader, and a host computer checks the current position of the vehicle by receiving the position identification information from the RFID reader wirelessly.

Description

System for Identifying the Position of Automobile in Warehouse by RFID}

The present invention relates to an in-vehicle vehicle positioning system using RFID, and in particular, attaches an electronic tag in which the location identification information is stored in each area or in a passage between the areas in a state in which the inside of the warehouse is divided into multiple areas. The present invention relates to an in-vehicle vehicle positioning system using RFID that reads tag information by an RFID reader installed in a vehicle so that the current position of the vehicle can be checked.

In general, radio frequency identification (RFID: R adio F requency Id entification) is by reading or writing information in a non-contact from the tag with the identification information inherent with the radio frequency tag is attached to the object or vehicle, animals, people, etc. Technology that enables you to recognize, track, and manage your business. Such an RFID system has a plurality of electronic tags (hereinafter referred to simply as 'tags') attached to a vehicle or an object having unique identification information, and an RFID reader (Reader or Interrogator) for reading or writing information on the tag. ) (Hereinafter also referred to simply as 'leader'). RFID systems are also classified into mutual induction and electromagnetic waves according to the intercommunication method between the reader and the tag, and are classified into active and passive according to whether the tag operates on its own power. It is divided into short wave, microwave and microwave. In accordance with the above classification, various kinds of standards are enacted or in preparation for enactment.

Such RFID systems are being actively used in logistics and factory automation. For example, a warehouse that stores a large number of items attaches and manages electronic tags (hereinafter referred to as 'item tags') that contain unique identification information of the item to identify the type or location of the item. Forklift trucks are mainly used to transport goods.

On the other hand, if the current position of the forklift can be accurately identified it will be able to more efficiently manage the article, the method of using the GPS data has been widely used as a method for determining the current position of the vehicle.

However, in the case of the indoor warehouse, since the GPS data is not received therein, the forklift cannot use the GPS information to determine its current location, and thus there is a problem that the warehouse cannot be managed more efficiently. .

The present invention has been made to solve the above-described problems, in the state of partitioning the interior of the warehouse into a plurality of areas in each state or in place of the passage between the areas of the electronic tag stored in the position identification information is attached It is an object of the present invention to provide a vehicle positioning system in a warehouse using RFID that reads tag information by an RFID reader installed in a vehicle so that the current position of the vehicle can be checked.

In-vehicle vehicle positioning system using the RFID of the present invention for solving the above object is location identification information that can be attached to the inside of each area or each of the areas divided into multiple areas within the warehouse to identify the location A stored location tag; An RFID reader installed in a vehicle running inside the warehouse and acquiring the location identification information from the location tag existing in the vicinity, and a host computer wirelessly receiving the location identification information from the RFID reader to identify the current location of the vehicle. It is made to include.

In the above-described configuration, the location tag may be attached on a support installed inside or between each of the regions, or may be attached to a support extending inside or between the regions while hanging from the ceiling.

The host computer may check the movement trajectory of the vehicle according to the transmission time of the location identification information received from the RFID reader and the location identification information.

In addition, the RFID reader obtains the item identification information from the item tag attached to the item that is being carried to the host computer, the host computer is carried by the vehicle by the item identification information received from the RFID reader You can also check the goods in use.

On the other hand, the vehicle is preferably a forklift.

According to the vehicle positioning system in the warehouse using the RFID of the present invention, since the current position and driving trajectory of a vehicle such as a forklift working in the warehouse can be accurately identified in real time, the vehicle located at the shortest distance from the position to be called is called. You can manage your warehouse more efficiently.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the vehicle positioning system in the warehouse using the RFID of the present invention.

1 is a view for explaining the principle of the vehicle positioning system in the warehouse using the RFID of the present invention. As shown in FIG. 1, according to the vehicle positioning system in a warehouse using RFID according to the present invention, each area A-I thus partitioned in the state in which the inside of the warehouse is arbitrarily partitioned into a plurality of areas A-I. An electronic tag (hereinafter referred to as a 'position tag') in which position identification information for identifying its position is stored is attached to, for example, a support suspended from a pillar or a ceiling. Here, the installation positions of the position tags TAG1-TAG24 may be passages inside each partitioned area A-I or between each area A-I, which are located inside each area A-I. In the case of installation, one can be installed at the center or multiple at equal angles along the boundary line of each area.In the case of installation in the aisle, a plurality can be installed along the center of each passage or at equal intervals. have. In addition, at least one of the forklifts G1-G4 at any position, but not too many, for example, from one to four position tags TAG1-TAG24 so that the current position can be accurately identified. It is desirable to obtain the information. For this purpose, the installation position of each position tag should be appropriately adjusted, while the output of the RFID reader installed therein should be appropriately adjusted. In the embodiment of Fig. 1, one position tag (TAG1-TAG24) is provided at the center of the passage between each region (A-I) in a state of partitioning each region (A-I) in a grid shape with passages interposed therebetween. It is showing a state.

On the other hand, when the vehicle working in the warehouse, for example, forklifts (G1-G3), the tag information is obtained from the above-described position tag (TAG1-TAG24) or the article tag (not shown) attached to the goods being carried in RFID reader is installed. In this state, when forklifts G1-G3 work while moving through each passage, any forklift G3 acquires tag information, namely, position identification information only from position tag # 24 (TAG24), from the corresponding forklift G3. The host computer (not shown) receiving the tag information can know that the current position of the forklift G3 is on the lower passageway of the region I. Similarly, if any forklift G1 obtains the tag information from the position tag # 10 (TAG10) and then obtains the tag information from the position tag # 9 (TAG9), the host computer will determine that the forklift G2 is the zone C and F. In the case of the passage between the zones B and E, it can be seen that any forklift G2 acquires the tag information from the position tag # 12 (TAG12) and the tag information from any article tag. The host computer can know that this forklift G2 is currently carrying the article with the tag information obtained on the passage between the areas D and E.

Figure 2 is a block diagram of a vehicle positioning system in a warehouse using the RFID of the present invention. As shown in Fig. 2, the system of the present invention radiates an RF signal toward a tag largely, and an antenna 310 for capturing the RF signal emitted by the tag, and a predetermined frequency band toward the tag, for example, a UHF 900. ㎒) Adjusts collision between RF module 320 that transmits RF signal of band and other reader when communicating with tag, and performs various setting items and control commands received from host computer 100 And a digital module 390 for transmitting tag information acquired by communicating with a tag, that is, article tag information and location tag information, to the host computer 100.

In the above-described configuration, the digital module 390 again includes a modem unit 352 which performs transmission and reception of data with a tag, collision coordination with another reader when occupying a frequency for communication with the tag, and the like. An RFID reader block (usually referred to as a Field Programmable Gate Array (FPGA)) 350, which is composed of an SDRAM 354 for temporarily storing various data generated in the control process 350, DAC block 335, which converts the digital data generated in the FPGA block 350 into an analog signal and provides the RF module 320, converts the analog signal received from the tag through the RF module 320 into digital data The power supply block 345 which provides various operating powers to the ADC block 330, the RF module 320, and the digital module 390 which are transmitted to the block 350, and the status display block 340 which displays various states of the RFID reader. ), The host I / F block 370 and the tag information including the communication interface for communicating with the host computer 100 are transmitted to the host computer 100 through the host I / F block 370, According to various settings and instructions received from the program or the host computer 100, the processor block 360 may collectively control each block of the digital module 390 including the FPGA block 350.

Meanwhile, the processor block 360 may debug a microprocessor, for example, an ARM9 processor 364 or a digital module 390, which is a 32-bit RISC processor for an embedded device developed by an ARM (Advanced RISC Machine) company. Joint Test Action Group (JTAG) 362, a flash ROM 368 for storing a program required for the operation of the processor 364, and an SDRAM 366 for temporarily storing various data generated during the operation of the processor 364. Can be made. The host I / F block 370 is again an Ethernet port for performing Ethernet communication, serial communication such as RS-232 or RS-422, universal serial bus (USB) communication, and wireless LAN communication with the host computer 100, respectively. 371, a serial port 372, a USB port 373, and a wireless LAN (WLAN) unit 375. In addition to the communication interface between the RFID reader and the host computer 100, the code division multiple access / wireless CDMA (CDMA / WCDMA), the mobile Internet, Bluetooth, or direct Zigbee) or the like may be used.

3 is a flowchart illustrating an operation of a vehicle positioning system in a warehouse using RFID according to the present invention. As shown in FIG. 3, in step S10, an RFID reader installed in each forklift truck transmits a query command every predetermined time period, for example, several to several tens of microseconds through its antenna 310, and then again. In step S12, it is determined whether there is a response from the tag to the query command, that is, the tag is recognized.

As a result of the determination in step S12, if the tag is not recognized, the process returns to step S10, and if it is recognized, the process proceeds to step S14 to host the recognized tag information, the reader identification information which is the self identification information, and the transmission time in real time. Wireless transmission to the computer 100. Then, the host computer 100 performs step S16 to store the received tag information, identification information for each reader, and transmission time. The host computer 100 subsequently performs step S18 to perform tag information received in the previous step S16. If is the location tag information, the current location or moving trajectory of each RFID reader, i.e., each forklift truck, is mapped and displayed on the map image inside the warehouse according to the location tag information and the transmission time, and the stored tag is the item tag information in step S20. Depending on whether or not each forklift is carrying goods and what goods are to be displayed.

Finally, in step S22, the host computer 100 selects a forklift most suitable for work based on the position information of each forklift identified by the position tag information, for example, a forklift at the shortest distance from the work position, and then performs the necessary work. Will be indicated.

In-vehicle vehicle positioning system using the RFID of the present invention is not limited to the above-described embodiment can be implemented in various modifications within the scope of the technical idea of the present invention. For example, by using the triangulation method using the intensity of the received radio wave from the position tag, it is possible to more accurately grasp the current position of the forklift.

1 is a view for explaining the principle of the vehicle positioning system in the warehouse using the RFID of the present invention,

2 is a block diagram of a vehicle positioning system in a warehouse using RFID according to the present invention;

3 is a flowchart illustrating an operation of a vehicle positioning system in a warehouse using RFID according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

100: host computer, 300: RFID reader,

310: antenna, 320: RF module,

330: ADC block, 335: DAC block,

340: status display block, 345: power block,

350: FFGA block, 352: modem section,

354: SDRAM, 360: processor block,

362: JTAG, 364: processor,

366: SDRAM, 368: Flash ROM,

370: host I / F block, 371: Ethernet port,

372: serial port, 375: WLAN,

390: digital module

TAG1-TAG24: location tags, G1-G3: forklifts,

A-H: compartment

Claims (6)

A location tag storing location identification information attached to an interior of each area partitioned into a plurality of areas within a warehouse or between areas to identify a location thereof; An RFID reader installed in a vehicle running inside the warehouse to obtain location identification information from the location tags present in the vicinity; And a host computer wirelessly receiving the location identification information from the RFID reader and checking a current location of the vehicle. The method of claim 1, The location tag is a vehicle positioning system in the warehouse using RFID, characterized in that attached to the posts installed in each area or between each area. The method of claim 1, And the location tag is attached to a support extending in or between the respective areas while being suspended from the ceiling. The method of claim 1, And the host computer checks the movement trajectory of the vehicle according to the transmission time of the position identification information received from the RFID reader and the position identification information. The method according to any one of claims 1 to 4, The RFID reader obtains the item identification information from the item tag attached to the item being carried by the RFID reader, and transmits it to the host computer, And the host computer identifies the goods being carried by the vehicle based on the article identification information received from the RFID reader. The method of claim 5, wherein  A vehicle positioning system in a warehouse using RFID, wherein the vehicle is a forklift.

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