KR20140086530A - Electronic shef label system and chnnel formation method in electronic shef label system - Google Patents

Abstract

The present invention relates to an electronic shelf label system and a method of forming a channel in the electronic shelf label system. According to one embodiment of the present invention, provided is the electronic shelf label system comprising multiple tags which form a plurality of groups, and which check whether or not to use a wake-up channel in a belonging group sink after waking up depending on the time set from a sleep state respectively and form the wake-up channel, if the wake-up channel is available after checking, to receive a wake-up frame provided from a sink; and multiple sinks which are placed one by one for each group and which form the tags and the wakeup channel belonging to the belonging group according to the channel availability state and transmits the wake-up frame to the tags if the data to be provided to the tag is present. In addition, provided is the method of forming the channel in the electronic shelf label system.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic shelf label system and an electronic shelf label system,

The present invention relates to an electronic shelf label system and a channel forming method in an electronic shelf label system. More particularly, the present invention relates to an electronic shelf label system for transmitting a wake-up frame through a channel use confirmation process and a channel forming method in an electronic shelf label system.

In general, an electronic shelf label (ESL) system is a system for displaying and managing product information, for example, price information, on a product shelf in an in-store display, instead of on paper, through an electronic display. For example, an electronic shelf label system uses a wireless sensor network to update or display product information such as price updates.

Generally, an ESL system includes a server, a sink, and a tag. At this time, the sink has two antennas and uses two frequency channels. One channel is a data channel for data transmission and the other is a wakeup channel that provides wake up time information.

Because the tag uses a battery, it sleeps most of the time for low power systems and wakes up periodically to communicate with the sink. At this time, the wake-up time is included in the frame received through the process of interlocking with the tag when the battery is mounted. The tag wakes up to receive the wakeup frame after sleeping for the set time. At this time, the wakeup frame is a signal to notify when there is data to be transmitted to the tag by the sink. Typically, each sink continues to send a wakeup frame, for example, every 5ms. In order to cover all the tags of the store, there is a part where the power of the wake-up channel of each sink overlaps. At this time, since the conventional method transmits the wakeup frame periodically unconditionally, It can be broken. Thus, conventionally, the data channels of each sink generally use the same channel, while the wake-up channels of each sink use different frequency channels.

If the store is widened, the number of sinks increases and the number of wake-up channels increases. Since the sink and tag use the frequency of 2.4GHz band based on 802.15.4, the use frequency is limited to 16. It also overlaps with the frequency used by 802.11-based WLANs. Therefore, if a wakeup channel is used as many as the number of sinks, it occupies a large number of channels in the 2.4 GHz band, which increases the possibility of overlapping with the frequency used by the wireless LAN.

Korean Patent Publication No. 10-2009-0054501 (published on June 1, 2009)

In order to solve the above problem, a technique for reducing the number of channel usage and reducing the possibility of collision of a wakeup frame by transmitting a wakeup frame through a process of checking whether a channel is used when transmitting a wakeup frame is proposed.

In order to solve the above-described problems, according to the first embodiment of the present invention, a plurality of groups are formed, and it is checked whether or not the wakeup channel of the belonging group sink is used after wake up according to the set time in each sleep state, A plurality of tags forming a wake-up channel and receiving a wake-up frame provided from a sink if the wake-up frame is in a usable state; And a plurality of sinks, each of which is arranged for each of the plurality of groups, for forming a wakeup channel with a tag belonging to a belonging group according to the channel usable state and transmitting a wakeup frame to the tag when there is data to be provided to the tag An electronic shelf label system is proposed.

At this time, in one example, the tag forms a wakeup channel in the CSMA_CA mode, and the tag can be switched to the sleep mode if it can not form a wakeup channel or receive a wakeup frame during the set wakeup time.

Further, in one example, the wakeup channel is one channel common to multiple sinks.

In another example, the sink generates a wakeup frame when there is data to be provided to the tag, and transmits the wakeup frame to the tag through the wakeup channel. After transmitting the wakeup frame, the tag and the sink are separate from the wakeup channel Channels, and the sink can transmit data over the data channel.

Here, in one example, the data channel is another channel common to multiple sinks.

In addition, according to one example, the data includes the product price update information, and the sink can receive the data from the server and transmit it to the tag.

Next, in order to solve the above-mentioned problems, according to a second embodiment of the present invention, there is provided a channel forming method in an electronic shelf label system in which a plurality of tags form a plurality of groups and one sink is arranged per a plurality of groups Confirming whether or not the wake up channel of the belonging group sink is woken up according to the set time in the sleep state; And establishing a wake-up channel between the tag and the sink if the tag is in the usable state as a result of checking, and when the data to be provided to the tag exists, transmitting the wake-up frame to the tag by the sink A channel forming method of the present invention is proposed.

In this case, in one example, the channel forming method is performed by the CSMA_CA method, and if the wakeup channel is not formed or the wakeup frame is not received during the set wakeup time, the tag can be switched to the sleep mode.

Further, in one example, the wakeup channel is one channel common to each sink of the plurality of groups.

According to another example, in the step of transmitting the wakeup frame, the sink generates a wakeup frame when there is data to be provided to the tag, transmits the wakeup frame through the wakeup channel, transmits the already generated wakeup frame, The data channel for transmitting data separately from the wakeup channel after the transmission of the wakeup frame can be formed between the tags.

Also, at this time, in another example, the data channel is another channel common to multiple sinks.

Further, according to one example, the data includes the product price update information, and the sink can transmit the data provided from the server to the tag through the data channel.

In another example, in the step of checking whether a wakeup channel is used, the tag checks whether a wakeup channel is idle or busy through a clear channel assessment (CCA) after a random time wait, , The CCA can be performed again within a predetermined number of repetition times after waiting for a predetermined random time again.

According to the embodiment of the present invention, by transmitting a wakeup frame through a process of confirming whether a channel is used when transmitting a wakeup frame, it is possible to reduce the number of channels used and reduce the possibility of collision of wakeup frames.

According to one example of the present invention, a wake-up frame is transmitted by reducing the number of used channels by integrating wake-up channels conventionally used for each sink and by checking whether the wakeup channel is used, The probability of collisions can be reduced.

It is apparent that various effects not directly referred to in accordance with various embodiments of the present invention can be derived by those of ordinary skill in the art from the various configurations according to the embodiments of the present invention.

1 is a schematic view of an electronic shelf label system according to an embodiment of the present invention.
2 is a flowchart schematically illustrating a channel forming method in an electronic shelf label system according to another embodiment of the present invention.
3 is a flowchart schematically illustrating a channel forming method in an electronic shelf label system according to another embodiment of the present invention.
4 is a flowchart schematically illustrating a channel forming method in an electronic shelf label system according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing the configuration of a first embodiment of the present invention; Fig. In the description, the same reference numerals denote the same components, and a detailed description may be omitted for the sake of understanding of the present invention to those skilled in the art.

As used herein, unless an element is referred to as being 'direct' in connection, combination, or placement with other elements, it is to be understood that not only are there forms of being 'directly connected, They may also be present in the form of being connected, bonded or disposed.

It should be noted that, even though a singular expression is described in this specification, it can be used as a concept representing the entire plurality of constitutions unless it is contrary to, or obviously different from, or inconsistent with the inventive concept. It is to be understood that the phrases "including", "having", "having", "comprising", etc. in this specification are intended to be additionally or interchangeable with one or more other elements or combinations thereof.

First, an electronic shelf label system according to a first embodiment of the present invention will be described in detail with reference to the drawings. Here, reference numerals not shown in the drawings to be referred to may be reference numerals in other drawings showing the same configuration.

1 is a schematic view of an electronic shelf label system according to an embodiment of the present invention.

Referring to FIG. 1, an electronic shelf label system according to one example includes a plurality of groups G1 and G2. At this time, the electronic shelf label system includes a plurality of tags 10, 10a, 10b, 10c and 10d and a plurality of sinks 30, 30a and 30b. Accordingly, each group may include one sink 30 and a plurality of tags 10, 10a, 10b, 10c, and 10d. A plurality of tags 10, 10a, 10b, 10c, 10d form a plurality of groups. At this time, each group can be managed by one sink 30 belonging to each group.

Referring to Fig. 1, a plurality of tags 10, 10a, 10b, 10c and 10d of an electronic shelf label system according to one example will be described. At this time, each tag 10 can wake up according to the set time in the sleep state. The time to wake up in the sleep state may be set according to the wake up frame signal received from the sink 30 in advance. Each tag 10 confirms whether or not the wakeup channel of the sink 30 of the belonging group to which the tag 10 belongs is used after wakeup. Each tag 10 can confirm whether or not a wakeup channel is used and form a wakeup channel with the sink 30 when the wakeup channel is available.

For example, in one example, the wakeup channel is one channel common to multiple sinks 30, 30a, and 30b. That is, each of the sinks 30 of a plurality of groups uses one channel as a wakeup channel. It is possible to reduce the probability of frequency collision by integrating the wakeup channels that are conventionally used for each of the sinks 30 and checking whether the wakeup channel is used. That is, since the tag 10 forms a wakeup channel with the sink 30 of the belonging group through the process of confirming whether or not the wakeup channel is used, a tag 10 existing in the overlapped region A between the group G1 and the group G2 The collision avoidance unit 10c can prevent the collision from occurring when the wakeup frame is received.

Also, in one example, the tag 10 may form a wakeup channel in a Carrier Sense Multiple Access / Collision Avoidance (CSMA_CA) scheme. Thus, for example, even in the overlapping area A of Fig. 1, no collision will occur when the wakeup frame is received. At this time, the tag 10 can be switched to the sleep mode if it can not form a wakeup channel during the set wakeup time or if it does not receive the wakeup frame.

For example, referring to FIG. 3, the tag 10 can confirm whether the wakeup channel is idle or busy through the CCA in the CSMA_CA scheme. A wakeup channel may be formed between the tag 10 and the sink 30 when the wakeup channel is idle through the Clear Channel Assessment (CCA). For example, the tag 10 can confirm channel use through a clear channel assessment (CCA) process after waiting for a random time. For example, the tag 10 can sense the power threshold level of the sink 30 or the like through the CCA and determine whether to use the channel. At this time, the random time may be arbitrarily determined by a backoff algorithm used in a wireless sensor network.

3, when the tag 10 confirms whether or not the channel is used through the CCA, a wakeup channel is formed between the tag 10 and the sink 30 when the tag 10 is idle However, if the channel is not idle and busy, the CCA process can be performed again after waiting for a random time. At this time, the unit of the backoff period waiting for performing the CCA again can be set to the random time 'Random (2 ^{BE + 1} -1)' by the backoff algorithm, where 'BE' I or the first arbitrarily set number may be a number that increases by one for each backoff.

Also, the tag 10 can be switched to the sleep mode if it fails to form a wake-up channel during the set wake-up time. For example, the number of times the tag 10 performs the CCA for forming the sink 30 and the wakeup channel or the number of iterations may be limited. For example, referring to FIG. 3, if the number of CCAs or the number of repetitions exceeds a predetermined limit number, the CCA process can be regarded as a failure. At this time, the tag 10 can be immediately switched to the sleep mode, or switched to the sleep mode at the end of the wake-up time set in the tag 10, as shown in Fig.

When the tag 10 is confirmed to be in the usable state by the CCA, for example, as shown in FIG. 3, if the tag 10 is in an idle state, which is a wakeup channel, A wake-up channel may be formed between the base 10 and the sink 30.

Referring to FIGS. 1 to 4, the tag 10 may receive a wakeup frame provided from a sink 30 of a belonging group through a wakeup channel formed by checking channel use. At this time, the wakeup frame may be generated when there is data to be provided to the tag 10 by the sink 30. The wakeup frame may include information about the ID of the tag 10 to receive data and data channel formation. For example, the information on the data channel formation may be information on the size of the data, time required for transmission, wake-up time required for reception, and / or data channel formation time and the like.

For example, in one example, the wakeup frame may be generated in the sink 30 when there is data to be provided to the tag 10 by the sink 30. [ For example, the wakeup frame contains information related to the data to be transmitted to the tag 10. 3, if there is data to be provided to the tag 10 by the sink 30, the sink 30 transmits the generated wakeup frame, 10, the wakeup frame is not transmitted during the wakeup channel forming period of the predetermined time, and the tag 10 judges whether the wake up time of the tag 10 set in advance is ended, When the wake-up time is ended, the sleep mode can be switched again.

Next, a plurality of sinks 30, 30a, and 30b of the electronic shelf label system according to the first embodiment will be described. Each of the sinks 30 is arranged for each of a plurality of groups. Each sink 30 can form a wakeup channel with the tag 10 belonging to the belonging group according to the channel usable state confirmed from the tag 10 belonging to the belonging group. Further, when there is data to be provided to the tag 10, each sink 30 transmits a wakeup frame through the wakeup channel formed with the tag 10. [ At this time, the wakeup channel may be formed by a CSMA_CA (Carrier Sense Multiple Access / Collision Avoidance) method. For example, the wakeup channel is one channel common to each sink 30 of the plurality of groups.

In addition, each sink 30 may transmit a wakeup frame via a wakeup channel. For example, the wakeup frame may include information about the ID of the tag 10 and data channel formation to receive the data. For example, the information on the data channel formation may be information on the size of the data, time required for transmission, wake-up time required for reception, and / or data channel formation time and the like.

In addition, in one example, the sink 30 may generate a wakeup frame if there is data to be provided to the tag 10 and transmit it to the tag 10 or transmit the already generated wakeup frame to the tag 10 Lt; / RTI > For example, referring to FIG. 3, if there is data to provide to the tag 10, the sink 30 may transmit a wakeup frame over the wakeup channel. If there is no data to provide to the tag 10, the wake up frame is not transmitted. At this time, the tag 10 will be switched to the sleep mode again after the lapse of the set wake-up time.

For example, in another example, the sink 30 may form a data channel separate from the wakeup channel and the tag 10 after wakeup frame transmission, and the sink may transmit data over the data channel. At this time, the data channel may be another channel common to each sink 30 of the plurality of groups.

Also, at this time, the sink 30 may receive data from a server (not shown) and transmit the data to the tag 10.

Further, according to one example, the data may include product information. For example, the data may include product price update information. For example, a server (not shown) obtains commodity price information from the price management database and transmits the commodity price information to the sink 30, and the sink 30 can transmit the data through the data channel.

Next, a channel forming method in an electronic shelf label system according to a second embodiment of the present invention will be described in detail with reference to the drawings. At this time, the electronic shelf label system according to the above-described first embodiment and Fig. 1 will be referred to, and redundant explanations can be omitted.

FIG. 2 is a flowchart schematically illustrating a method of forming a channel in an electronic shelf label system according to another embodiment of the present invention, and FIG. 3 is a flowchart illustrating a method of forming a channel in an electronic shelf label system according to another embodiment of the present invention 4 is a flowchart schematically illustrating a method of forming a channel in an electronic shelf label system according to another embodiment of the present invention.

1 to 4, a channel forming method in an electronic shelf label system according to a second embodiment of the present invention is characterized in that a plurality of tags 10, 10a, 10b, 10c, and 10d form a plurality of groups, To a channel forming method in an electronic shelf label system in which one sink (30) per group is disposed.

Referring to FIGS. 2 to 4, a channel forming method in an electronic shelf label system according to one example includes a wakeup channel use confirmation step S100, a wakeup channel formation and a wakeup frame transmission step S300 .

Specifically, referring to FIGS. 2 to 4, in step S100, whether or not the wakeup tag 10 is wake up according to the set time in the sleep state, whether the wakeup channel of the belonging group sink 30 is used . The time to wake up in the sleep state may be set according to the wake up frame signal received from the sink 30 in advance.

For example, the wakeup channel is one channel common to each sink 30 of the plurality of groups. Accordingly, by using one channel and confirming whether or not the channel is used, the tag 10c existing in the overlap area A between the group G1 and the group G2 in FIG. 1 can prevent the collision from occurring when receiving the wakeup frame .

At this time, the channel forming method may be performed by the CSMA_CA method. At this time, if the tag 10 can not form a wakeup channel during the set wakeup time or does not receive the wakeup frame (S400), it can be switched to the sleep mode.

3, in step S100, the tag 10 determines whether the wakeup channel is idle or in use through a clear channel assessment (CCA) after waiting for a random time When the wakeup channel is in use, the CCA can be performed again within a predetermined number of repetition times, again after waiting for a predetermined random time. A wakeup channel may be formed between the tag 10 and the sink 30 when the wakeup channel is idle via the CCA.

If the wakeup channel can not be formed during the set wakeup time, the tag 10 can be switched to the sleep mode.

Next, referring to Figs. 2 to 4, a wake-up channel forming and wake-up frame transmitting step (S300) will be described. First, a wakeup channel is formed between the tag 10 and the sink 30 when the wakeup channel is confirmed to be available in the wakeup channel use confirmation step S100. For example, although not shown, the formation of a weight-up channel may be performed when the tag 10 confirming whether or not the wakeup channel is used is requested by a wake-up channel formation request, or after the wake- Response. For example, when the sink 30 responds ACK according to a wakeup channel forming request, the ACK signal may be broadcast to the belonging group, and accordingly, the other tags 10, 10a, 10b, 10c, and 10d in the wakeup state, The wakeup channel can be used or the use time can be known. For example, the wakeup channel formation request signal requested by the tag 10 may be a data request frame requesting data to be provided to the tag 10, or may be a separate wakeup channel formation request signal. For example, the wakeup channel formation request requested by the tag 10 may be made in the channel use confirmation step S100 or after the channel use confirmation step S100 although not shown.

Next, wakeup frame transmission in the wakeup channel formation and wakeup frame transmission step S300 is performed such that when there is data to be provided to the tag 10, the sink 30 transmits the wakeup frame through the wakeup channel To the tag (10). For example, the sink 30 may generate a wakeup frame and transmit it to the tag 10. For example, the wakeup frame contains information related to the data to be transmitted to the tag 10. At this time, the wakeup frame may include information about the ID of the tag 10 to receive data and data channel formation. For example, the information on the data channel formation may be information on the size of the data, time required for transmission, wake-up time required for reception, and / or data channel formation time and the like.

For example, in one example, in the wakeup frame transmission step S300, if there is data to be provided to the tag 10, the sink 30 generates a wakeup frame and transmits it to the tag 10, Up wakeup frame. The wakeup frame is generated in the sink 30 when data exists, and may include information on the ID of the tag 10 and data channel formation to receive the data. At this time, the information on the data channel formation may be information on the size of the data, the transmission time, the wake-up time required for reception, and / or the data channel formation time.

3, when there is data to be provided to the tag 10 by the sink 30, the sink 30 transmits the wakeup frame to the tag 10, If there is no data to provide to the tag 10, the wakeup frame is not transmitted. At this time, it is determined whether the wake-up time of the preset tag 10 is terminated. When the set wake-up time is terminated, the tag 10 can be switched to the sleep mode again (S400).

4, if there is data to be provided to the tag 10 in the sink 30, the wakeup frame transmission step S300 is followed by the data channel formation and data transmission step (S500).

For example, in the data channel formation and data transmission step S500, after the wakeup frame transmission step S300, the sink 30 forms a data channel for transmitting data separately from the wakeup channel to the tag 10 . At this time, the data channel may be another channel common to each sink 30 of the plurality of groups. At this time, the formation of the data channel may be performed according to the information on the data channel formation included in the wake up frame provided to the tag 10 in the sink 30. For example, after the wake-up frame transmission step S300, each of the tags 10 is switched to the sleep mode except when the data channel is immediately formed, and then the wake- Wake up and receive the scheduled data from the sink 30. [ At this time, the information on the data channel formation may be information on the size of the data, the transmission time, the wake-up time required for reception, and / or the data channel formation time. For example, when the tags 10, 10a, 10c, and 10d belonging to one group sequentially form a wakeup channel through a channel use confirmation process and sequentially receive wakeup frames, Since the data channel use time is delayed according to the data capacity, it may be the time information including the data channel formation wait time.

Further, according to one example, the data may include product information. For example, the data may include product price update information. Referring to FIG. 4, in the data transmission step S500, the sink 30 may transmit data provided from a server (not shown) to the tag 10 through a data channel.

The foregoing embodiments and accompanying drawings are not intended to limit the scope of the present invention but to illustrate the present invention in order to facilitate understanding of the present invention by those skilled in the art. Embodiments in accordance with various combinations of the above-described configurations can also be implemented by those skilled in the art from the foregoing detailed description. Accordingly, various embodiments of the invention may be embodied in various forms without departing from the essential characteristics thereof, and the scope of the invention should be construed in accordance with the invention as set forth in the appended claims. Alternatives, and equivalents by those skilled in the art.

10, 10a, 10b, 10c, 10d: tag
30, 30a, 30b: sink

Claims (13)

A plurality of groups are formed. Each wake up channel is checked whether wake up channel of the belonging group sink is used after a wake up according to the set time in the sleep state, and when the wakeup channel is available, A plurality of tags receiving an up frame; And
And forming a wakeup channel with the tag belonging to the belonging group according to the channel usable state and transmitting a wakeup frame to the tag when there is data to be provided to the tag An electronic shelf label system comprising a plurality of sinks.
The method according to claim 1,
The tag forms the wakeup channel in a CSMA_CA manner,
Wherein the tag is switched to the sleep mode when the wakeup channel is not formed or the wakeup frame is not received during the set wakeup time.
The method according to claim 1,
Wherein the wakeup channel is one channel common to the plurality of sinks.
The method according to claim 1,
Wherein the sink generates the wakeup frame if the data is present and transmits the wakeup frame to the tag via the wakeup channel,
Wherein the tag and the sink form a data channel separate from the wakeup channel after the wakeup frame transmission, and the sink transmits the data through the data channel.
The method of claim 4,
Wherein the data channel is another channel common to the plurality of sinks.
The method according to claim 4 or 5,
The data including product price update information,
Wherein the sink receives the data from the server and transmits the data to the tag.
A channel forming method in an electronic shelf label system in which a plurality of tags form a plurality of groups and one sink is arranged for each of the plurality of groups,
Checking whether a wakeup channel of the belonging group sink is woken up according to a set time in a sleep state; And
Establishing the wakeup channel between the tag and the sink if the tag is in a usable state and transmitting the wakeup frame to the tag if there is data to be provided to the tag; Method of channel formation in an electronic shelf label system.
The method of claim 7,
Wherein the channel forming method is a CSMA_CA method,
Wherein the tag is switched to the sleep mode when the wakeup channel is not formed or the wakeup frame is not received during the set wakeup time.
The method of claim 7,
Wherein the wake-up channel is one channel common to each sink of the plurality of groups.
The method of claim 7,
In the transmitting of the wakeup frame, the sink generates and transmits the wakeup frame when there is data to be provided to the tag, or transmits the already generated wakeup frame,
Wherein the sink forms a data channel for transmitting the data separately from the wakeup channel after transmission of the wakeup frame between the tag and the wakeup frame.
The method of claim 10,
Wherein the data channel is another channel common to the plurality of sinks.
12. The method according to claim 10 or 11,
The data including product price update information,
Wherein the sink transmits the data provided from the server to the tag through the data channel.
The method according to any one of claims 7 to 11,
In the step of confirming whether or not the wakeup channel is used, the tag checks whether the wakeup channel is idle or in use through a clear channel assessment (CCA) after waiting a random time. If the wakeup channel is in use Wherein the CCA is performed again within a predetermined number of repetition times after waiting for a predetermined random time again.

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