KR101001682B1 - Tag Sleep Method for Tag Collection in Active RFID Systems - Google Patents

Abstract

In the present invention, tag collection is performed in an active RFID system in which a tag collection time can be shortened by transmitting a sleep command for entering an already collected tag into a sleep mode using an empty slot within a frame time in a tag collection process of an active RFID system. A method for tag slipping, the method comprising: a reader transmitting a collection command to tags; detecting a radio signal at every slot within a frame time to determine whether an empty slot does not transmit a response And confirming that the empty slot is transmitted, and using the corresponding slot, transmitting a sleep command for entering the tags collected so far into the sleep mode.

Active RFID, Tag Acquisition, Sleep Instruction, Acquisition Instruction, Slot, Frame

Description

Tag Sleep Method for Tag Collection in Active RFID System

The present invention relates to an active RFID system, and more specifically, an active RFID system that reduces tag collection time by transmitting a sleep command for entering a tag that has already been collected into a sleep mode by using an empty slot within a frame time. The present invention relates to a tag slip method for tag collection in an RFID system.

RFID (Radio Frequency IDentification) is a contactless automatic data recognition technology using wireless radio frequencies. An RFID tag that stores data related to a specific object is attached to the object, and the RFID reader can automatically obtain information about the specific object by reading information from the tag.

Such RFID systems fall into two categories based on whether the tag has its own battery or not. An RFID system that does not have a battery and cannot use its own power source and sends back a response to the reader by back-scattering some of the radio waves received from the reader is called a passive RFID system. An RFID system that has a battery and uses its own power source to send a response to the reader is called an active RFID system.

In a typical RFID system, many tags exist and the reader collects information from those multiple tags simultaneously, which is called tag collection. When multiple tags respond at the same time in the tag collection process, a collision occurs between the responses and the reader does not recognize the information properly. This is called a tag collision. The anti-collision protocol is used by the reader to resolve this tag conflict and to successfully collect information from all tags.

The anti-collision protocol mainly used in RFID system is divided into deterministic and stochastic schemes. Framed Slotted ALOHA Anti-collision Protocol is a representative probabilistic collision prevention protocol. ) Is the most widely used because of its simple operation and high performance.

ISO / IEC 18000-7, the international standard for defining the air interface of the 433.92MHz band active RFID system, and ISO / IEC 18000-6, the international standard for the air interface of the passive RFID system of the 860MHz to 960MHz band. A and Type C define a tag collection method that utilizes the frame slot Aloha anti-collision protocol.

1 is a diagram illustrating a tag collection process using a frame slot Aloha anti-collision protocol in an active RFID system in general.

In active RFID systems, the reader goes through a wake-up process to wake up the tags that are asleep to reduce battery consumption before performing the tag collection process. The reader then collects tag IDs and information from all RFID tags within the reader's communication range, repeating multiple collection rounds.

One collection round begins by the reader sending a collection command to the tags. The collection command includes a frame size as a parameter. As shown in FIG. 1, the collection command specifies a total time that various tags can respond.

One frame consists of several time slots, and one time slot is sufficient time for one tag to send a response message. The tag receiving the collection command randomly selects a time slot to which it responds among several time slots and transmits its own response message.

In the example of FIG. 1, a frame is composed of five time slots, and tag collision occurs because tag 1 and tag 3 simultaneously respond in the second time slot.

The reader has successfully collected information for tags 2 and 4 during this round of gathering, and the tags collected at the end of the round of collection will sleep on tags 2 and 4 so that they no longer participate in the tag collection process and send duplicate responses. The last round of acquisition is completed by sending a command to sleep.

Here, tags 1 and 3, which have not been collected yet, will be collected in the subsequent collection rounds. At the end of one collection round, the reader starts a new collection round by sending a collection command again, and this process is repeated until information is collected from all tags.

As described above, in the tag collection process, a sleep command is transmitted to enter tags collected at the end of each collection round into a sleep mode. The time required is a tag that successfully receives a response during the collection round. It is proportional to the number.

Therefore, when the number of collected tags is large, it takes a lot of time to send the sleep command to each tag, which increases the time required for the entire tag collection process and degrades the system performance.

In the present invention, tag collection is performed in an active RFID system in which a tag collection time can be shortened by transmitting a sleep command for entering an already collected tag into a sleep mode by using an empty slot within a frame time in an active RFID system. It is an object of the present invention to provide a tag slip method.

The present invention improves the performance of the system by transmitting a sleep command using an empty slot where tags are not responding to enter tags that have successfully received a response in each collection round of the tag collection process. It is an object of the present invention to provide a tag slip method for tag collection in an active RFID system.

In an active RFID system according to the present invention for achieving the above object, the tag sleep method for tag collection comprises the steps of: a reader transmitting a collection command to tags; detecting a radio signal in every slot within a frame time ( Carrier Sensing) to determine whether the tag is an empty slot that does not transmit a response; if it is determined that the empty slot and transmitting a sleep command for entering the sleep mode collected tags so far using the slot; It is characterized by.

Here, the collection of tags and the transmission of a sleep command for entering the collected tags into a sleep mode are characterized in that the frame time is made.

If the sleep command for entering the collected tags into the sleep mode is not made within the corresponding frame time, the sleep command for entering the corresponding tags into the sleep mode after all the frame time passes is transmitted. It is done.

The tag slip method for tag collection in the active RFID system according to the present invention has the following effects.

The present invention can reduce the number of sleep commands to be transmitted after the frame size time by transmitting sleep commands using empty slots in which the tags do not transmit a response to enter the tags collected in the current collection round to sleep mode. have.

This shortens the time for tag collection, thereby improving the performance of the entire active RFID system.

Hereinafter, a preferred embodiment of a tag slip method for tag collection in an active RFID system according to the present invention will be described in detail.

Features and advantages of the tag slip method for tag collection in an active RFID system according to the present invention will become apparent from the detailed description of each embodiment below.

2 is a block diagram illustrating an operation process of RFID tag collection using the tag slip method according to the present invention.

The present invention is not a method of transmitting a sleep command to all tags successfully collected after the frame size has passed in the tag collection process, but instead of an empty slot in which the tags do not transmit a response within the frame time. If the tags are detected and already collected, they are used to send sleep commands to enter the sleep mode.

This is to reduce the time required to send the sleep command after all of the frame size has passed, thereby reducing the overall tag collection time.
The sleep mode is a standby operation mode in which a received signal is only checked at predetermined time intervals in order to reduce unnecessary current consumption. The sleep mode is maintained until the tag receives the wakeup signal.

Figure 2 shows the operation of the frame slot Aloha anti-collision protocol-based tag collection in the active RFID system applying the sleep command transmission method according to the present invention.

The tag collection process according to the present invention first goes through a wake up process for releasing the tags in the sleep mode to reduce the battery consumption. The reader then collects tag IDs and information from all RFID tags within the reader's communication range, repeating multiple collection rounds.

One collection round begins by the reader sending a collection command to the tags.

One frame consists of several time slots, and one time slot is sufficient time for one tag to send a response message. The tag receiving the collection command randomly selects a time slot to which it responds among several time slots and transmits its own response message.

In the tag collection process according to the present invention, an empty slot is found and a sleep command is transmitted.

The tag collection process according to the present invention includes a step in which a reader transmits a collection command to tags, and an empty slot in which tags do not transmit a response by detecting a radio signal in every slot within a frame time. If it is confirmed as an empty slot, and transmits a sleep command for entering the tags to the sleep mode collected so far by using the slot.

The tag collection process will be described in detail with reference to FIG. 2 as follows.

The reader checks whether the tags are sending a response by detecting the radio signal in each slot.

The reader successfully collected tag 2 in the first slot and detected tag collision in the second slot. In the third slot, the reader detects that no tag is sending a response, confirms that it is an empty slot, and then sends a sleep command to put the already collected tag 2 into sleep mode.

The reader successfully collects tag 4 in the fourth slot, and sends a sleep command to put tag 4 into sleep mode using the fifth empty slot.

In general, since the sleep command has a very simple packet structure and is relatively small compared to the tag response packet, the sleep command can successfully transmit one sleep command without interfering with tag responses of another slot within one slot time.

Here, the collection of tags and the transmission of a sleep command for entering the collected tags into the sleep mode are performed within the corresponding frame time.

If the sleep command for entering the collected tags into the sleep mode is not made within the corresponding frame time, the sleep command for entering the corresponding tags into the sleep mode after all the frame time passes.

If the collection round is not finished, tag collection is performed even after the first sleep command is transmitted, and a sleep command for entering more collected tags into sleep mode is transmitted.

Similarly, tag collection and transmission of the sleep command after transmitting the first sleep command may occur within the corresponding frame time, or the sleep command may be transmitted after the frame time elapses.

By using these methods, the tags collected successfully into the sleep mode can reduce the total tag collection time by reducing the time to send the sleep command after the frame size time is completed.

In FIG. 2, since a sleep command for entering tags 2 and 4 successfully collected by the reader to enter a sleep mode is transmitted within a predetermined frame size time, additional time after the frame size time is additionally transmitted. This is not necessary.

Compared with FIG. 1, which shows a tag collection process of the related art, it can be seen that the tag collection process of FIG. 2 according to the present invention further reduces the time required.

The tag slip method for tag collection according to the present invention uses a free slot to which tags do not respond in order to enter tags that have successfully received a response in each collection round of the tag collection process. Improve the performance of your system by sending.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

1 is a block diagram showing the operation of the RFID tag collection using the frame slot Aloha anti-collision protocol in the active RFID system of the prior art

2 is a block diagram illustrating an operation process of RFID tag collection using the tag slip method according to the present invention.

Claims (3)

A leader sending a collection command to tags; Detecting a radio signal at every slot within a frame time to determine whether the tags are empty slots that do not transmit a response; And transmitting a sleep command for entering tags into the sleep mode by using the corresponding slot when the slot is identified as an empty slot. The method of claim 1, wherein the collection of tags and the transmission of a sleep command for entering the collected tags into a sleep mode are performed within a corresponding frame time. The sleep command according to claim 1, wherein if the sleep command for entering the collected tags into the sleep mode is not performed within the corresponding frame time, the sleep command for entering the corresponding tags into the sleep mode after all of the corresponding frame time passes. Tag slip method for tag collection in an active RFID system, characterized in that for transmitting the.

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