KR100857736B1 - Method for controlling of mobile rfid reader - Google Patents

Abstract

A method for controlling mobile RFID readers is provided to group mobile RFID readers by using the identity numbers of mobile terminals having a mobile RFID reader function, distribute a communication time to each group, and distribute a frequency channel to each RFID reader in each group, thereby reducing collision between the RFID readers which can be generated in recognizing a RFID tag with the same frequency at the same time. A method for controlling mobile RFID(Radio Frequency Identification) readers comprises the following steps of: determining whether environment including mobile RFID readers is a close reader environment(100); recognizing the identity numbers of mobile terminals having a mobile RFID reader function(110); grouping the mobile RFID readers according to the identity numbers(120); distributing an access time to each group(130); and distributing an access frequency channel to each mobile RFID reader in each group(140).

Description

Mobile RFID Reader Control Method {Method For Controlling Of Mobile RFID Reader}

1 is a flowchart illustrating a control method of a mobile RFID reader according to the present invention;

2 is a view showing an embodiment of the present invention,

3 illustrates time allocation of an access time group and an access frequency channel of a time group according to the present invention;

4 is a view showing an embodiment according to the present invention.

The present invention relates to a method for controlling a mobile RFID reader in a dense reader environment. More particularly, after grouping the readers using a unique number of a mobile terminal having a mobile RFID reader function, the communication time is distributed for each group, and again. The present invention relates to a method for controlling a mobile RFID reader that can reduce collisions between readers that may occur when tags are recognized at the same frequency at the same time by distributing frequency channels for each reader in a group.

Today, Radio Frequency Identification (RFID) systems are widely used in a variety of applications, from food to agricultural products, waste management, environmental management, logistics, distribution and security.

The RFID system is composed of a reader and a tag. Until now, only a tag is attached to an object and a reader is fixed, or a mobile reader does not consider a situation in which another reader is adjacent. The environment where multiple leaders coexist in one place is called a multi-leader environment.

However, in recent years, as a mobile RFID service combining a mobile communication service and an RFID system is developed in Korea, interest in a mobile RFID reader having an RFID reader function in a mobile terminal is increasing.

The mobile RFID system is a new system that inserts an RFID reader function into a mobile terminal and displays the information of the object on the mobile terminal using a mobile communication network when the mobile terminal comes in close contact with an RFID tag attached to the object. Development of a mobile terminal equipped with an RFID reader function is essential for such a mobile RFID service.

As the mobile RFID system functions as an RFID reader, a number of mobile terminals operate as readers, causing a problem of a dense reader environment that was not considered in the conventional RFID system.

In general, the RFID system defines a case where there are more than the access frequency channel readers recognizing specific tags as a dense reader environment. At present, while Korea is preparing specific standards, the opinion on using nine frequency channels is dominant so far. According to this opinion, if nine readers exist in a tag recognition area in Korea, it is defined as a dense reader environment.

When the mobile RFID reader exists in such a dense reader environment, there is a problem in that the recognition rate and the recognition speed are lowered because the tags cannot be recognized due to collision between the readers.

In order to prevent collision between adjacent readers in such a dense reader environment, methods such as listen before talk (LBT) and frequency hopping (FH) have been proposed.

The LBT method is to communicate with the tag by searching for available frequency channels, finding an empty channel, and assigning it as its access channel before the reader selects an access frequency channel to send a command to the tag.

This method prevents collisions with neighboring readers by allocating an empty frequency channel to communicate with the tag.However, if an empty channel does not exist, the recognition speed may be slowed down because it is not allocated a channel to communicate with. Can be. In particular, in a dense reader environment, since there are more readers than an access frequency channel, a problem of not receiving a channel frequently occurs, which is not suitable for a dense reader environment.

Meanwhile, the FH method randomly selects a frequency for allocating an access frequency channel before the reader communicates with the tag. Since all readers randomly select frequency channels, the probability of collision is reduced because of randomness. However, in a dense reader environment in which there are more readers than access frequency channels, even if the FH method is used, there is a limit to reducing the collision probability between the readers.

The present invention has been made in view of the above, by controlling the mobile RFID reader in a dense reader environment to reduce the collision between readers that may occur when the tag is recognized at the same frequency at the same time and accordingly tag recognition speed The purpose of the present invention is to provide a method for controlling a mobile RFID reader that can improve the performance.

Mobile RFID reader control method of the present invention as described above,

Determining whether the environment containing the mobile RFID reader is a dense reader environment;

Recognizing a unique number of the mobile terminal having the mobile RFID reader function;

Grouping the mobile RFID readers according to the unique numbers;

Distributing access times for each of the groups;

And distributing an access frequency channel for each of the mobile RFID readers in the group.

In particular, determining whether the environment in which the mobile RFID reader is included is a dense reader environment, when the environment in which the mobile RFID reader is not a dense reader environment is distributed with an access frequency channel to the mobile RFID reader to communicate with a tag. Characterized in that.

The grouping of the mobile RFID reader according to the unique number may include grouping the mobile RFID reader according to the last digit of the unique number.

In addition, the mobile RFID reader grouping is characterized by grouping into four groups when the last digit of the unique number is 0 or more and 3 or less, 4 or more and 7 or less, 8 or more and B or less, C or more and F or less.

In addition, the step of distributing the access time for each group is characterized by using an access time group selector.

In addition, the step of distributing an access frequency channel for each of the mobile RFID readers in the group may include using an access frequency channel selector.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. A singular expression includes a plural expression unless the context clearly indicates otherwise. In the present application, the term including or having is intended to indicate that there is a feature, number, step, operation, component, part, or a combination thereof described in the specification, one or more other features or numbers, It should be understood that it does not exclude in advance the possibility of the presence or addition of steps, actions, components, parts or combinations thereof.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to attached drawing.

As shown in FIG. 1, the present invention determines whether the mobile RFID reader is in a dense reader environment. The determination of whether the environment is a dense reader can be determined by comparing the total number of frequency channels with the number of mobile RFID readers present. As mentioned above, if the total number of frequency channels is 9 and the number of mobile RFID readers currently exists is 9 or more, it can be determined that the dense reader environment.

If it is determined to be a dense reader environment, grouping is based on the unique identification number of the mobile terminal equipped with the mobile RFID reader, and then the access time is distributed for each group, and the access frequency channel is distributed for each reader in each group. Enable communication with the tag.

Hereinafter, an embodiment of the present invention will be described in more detail with reference to FIG. 2.

Since the present invention relates to a method for reducing collision between readers when the mobile RFID reader is in a dense reader environment, a procedure of dividing the access time proposed by the present invention into groups in a multi-reader environment other than the dense reader environment. Do not do it.

In other words, the mobile RFID reader first checks whether an access frequency channel is available through the searcher. If more than one available frequency channel exists, the channel environment at that time is determined to be a multi-reader channel environment, and the reader is allocated an access frequency channel through an access frequency channel selector immediately without performing the procedure of dividing the access time. It will communicate with the tag via the frequency channel.

On the contrary, if the available frequency channel does not exist through the access frequency channel searcher, if the available frequency channel does not exist, the mobile RFID reader performs the access time division procedure after determining that the reader exists more than the frequency channel, that is, the dense reader environment. The access channel frequency is allocated for each time.

Hereinafter, an embodiment of access time distribution and access channel frequency distribution according to the present invention will be described with reference to FIG. 3.

Since the mobile RFID reader is installed in the mobile terminal, the mobile RFID reader is divided into four time groups from G0 to G3 by using the hexadecimal ESN (Electronic Serial Number) embedded in the mobile terminal to distinguish the mobile terminals. Priority is given to the reader in order to communicate with the tag from G3 to G3.In other words, if the ESN end of the mobile terminal equipped with the mobile RFID reader function is 0, 1, 2, 3, it becomes G0 group. , 4, 5, 6, and 7 for the G1 group, 8, 9, A, B for the G2 group, C, D, E, F for the leader group is divided. The time allocated to each group is T _F , which can be changed when rescuing a mobile RFID system.

Leaders in the G0 group now have a priority to communicate with the tag. Readers in the G0 group can select an access frequency channel through the random frequency selector and communicate with the tag for the tag and T _F time. Of course, it is also possible to select the same access frequency channel among the leaders in the G0 group at this time. In this case, it is assumed that the reader has collided and the access is attempted again after the communication is completed up to the G3 group.

After the leaders in the G0 group have communicated with the tag over a randomly selected access frequency channel during the T _F time, the leaders of the G1 group repeat this process, the G2 group next, and the G3 group finally repeat this process. The T _F time is set to a sufficient time for the reader and tag to send and receive information, and typically is within a few tens of ms, so the access time priority is typically less than one second from the first group to the last group.

Completion of the process once is defined as one round. Leaders who failed to communicate with the tag due to various collisions or failed to communicate with the tag due to various reasons in the same time group are selected in one round. This round process is repeated until all readers have finished communicating with the tag.

Hereinafter, specific embodiments of the present invention will be described with reference to Table 1 and FIG. 4.

leader ESN ending number leader ESN ending number R1 2 R11 F R2 5 R12 One R3 2 R13 9 R4 0 R14 C R5 5 R15 7 R6 4 R16 D R7 E R17 One R8 3 R18 8 R9 D R19 2 R10 A R20 6

Assume a dense reader environment with 20 readers to recognize a specific tag. Because of the dense reader environment, the readers from R1 to R20 select the access time group by reading the end of each mobile terminal's unique ESN number. Assume that seven leaders belong to the G0 time group, five leaders to the G1 time group, three leaders to the G2 time group, and five leaders to the G3 time group. Seven leaders in the G0 time group randomly select one of access channels 1-9. As shown in FIG. 4, the access frequency channels 1, 2, 3, 5, and 7 of the G0 time group are assigned one reader, whereas the access frequency channel 9 is assigned two readers. Thus, the R1, R3, R4, R12, and R17 readers in the G0 time group will communicate with the tag through the assigned access frequency channel, but the R8 and R19 readers that simultaneously select the access frequency channel 9 will be tagged this round due to frequency collisions. Unable to communicate with and try to communicate with the tag again in the next round. Leaders in the rest of the time group go through the same process.

The R2, R5, R6, R15, and R20 leaders in the G1 time group and the R9, R13, and R18 readers in the G2 time group all communicate with the tag this round because they avoided redundant access frequency channels. R7, R11, and R16 readers belonging to the G3 time group can communicate with the tag on the assigned access frequency channel, but the R10 and R14 readers can communicate with the tag in the next round because the access channel 3 is assigned redundantly. Therefore, after the first round, 16 of the 20 readers, except the R8, R10, R14, and R19 readers, communicate with the tags. If readers that failed to communicate with the tag due to various factors among the readers who communicated with the tag in the first round (R3, R6, R12, and R13 readers in FIG. 4 are assigned an access frequency channel, If so, the second round selects the time group and access frequency channel again.

Thus, in the embodiment of FIG. 4, the readers attempting to communicate with the tags in the second round are R3, R6, R8, R10, R12, R13, R14, and R19 readers. The round repeats until these readers have finished communicating with the mode tag and there are no more readers to communicate with the tag.

While the invention has been shown and described with respect to certain preferred embodiments, the invention is not limited to these embodiments, and those of ordinary skill in the art claim the invention as claimed in the appended claims. It includes all the various forms of embodiments that can be implemented without departing from the spirit.

According to the method of controlling the mobile RFID reader in the dense reader environment as described above, it is possible to reduce the collision between readers that occur when many readers try to communicate with the tag at the same time, thereby improving the recognition rate and recognition speed of the tag As such, significant commercial and economic effects are expected.

Claims (6)

Determining whether the environment containing the mobile RFID reader is a dense reader environment; Recognizing a unique number of the mobile terminal having the mobile RFID reader function; Grouping the mobile RFID readers according to the unique numbers; Distributing access times for each of the groups; And distributing an access frequency channel for each of the mobile RFID readers in the group. The method according to claim 1, Determining whether the environment containing the mobile RFID reader is a dense reader environment, If the environment containing the mobile RFID reader is not a dense reader environment, the mobile RFID reader control method characterized by assigning an access frequency channel to the mobile RFID reader to communicate with the tag. The method according to claim 1 or 2, Grouping the mobile RFID reader according to the unique number, And grouping the mobile RFID reader according to the last digit of the unique number. The method according to claim 3, The mobile RFID reader grouping is grouped into four groups: the last digit of the unique number is 0 or more and 3 or less, 4 or more and 7 or less, 8 or more and B or less, C or more and F or less. Way. The method according to claim 1 or 2, Distributing the access time for each group, A method for controlling a mobile RFID reader, comprising using an access time group selector. The method according to claim 1 or 2, Distributing an access frequency channel for each mobile RFID reader in the group, A method of controlling a mobile RFID reader, comprising using an access frequency channel selector.

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