KR100736389B1 - Method of providing entrance and exit information using short distance wireless communication - Google Patents

Abstract

A method for providing entry information by using short distance wireless communication is provided to allow parents to check whether their children go to school or leave school in real time or allow a shipper to check whether freight comes in or out of a loading dock in real time. A transmitter DB and a receiver DB interworking with a service server are generated. One of receivers obtains information including a unique ID from a transmitter. Upon obtaining the information of the transmitter, the receiver transmits its unique ID and the unique ID of the transmitter to the service server. The service server determines whether the transmitter comes in and out a particular space. The service server provides entry information of an object that holds the transmitter to a previously registered information requester.

Description

Method of providing entrance and exit information using short distance wireless communication

1 is a schematic diagram of a system for providing access information according to an embodiment of the present invention.

2 is a block diagram of a transmitter

3 is a block diagram of a receiver

Figure 4 is a signal flow diagram of the access information providing system according to an embodiment of the present invention

5 is a flowchart illustrating a process of determining whether a service is accessed or not at a service server.

* Explanation of symbols for main parts of drawings *

10: transmitter 20a, 20b: first and second inlet receiver

30a, 30b: first and second internal receiver 40: router

50: service server 60: Internet network

70: computer terminal 80: mobile communication network

90: mobile terminal

The present invention relates to a method for managing and providing access information of a person or object to a specific space, and more particularly, to a method for providing access information using short-range wireless communication such as Zigbee.

In general, an access control system commonly found in a building's entrance or subway ticket gate, etc., when a visitor places a card with an IC chip near a card reader, reads the card information from the card reader and passes the card through a predetermined authentication procedure. It is operated by releasing the lock of the door interlocking with the reader.

However, this access control system is designed for the purpose of controlling access, and it is not possible to comprehensively grasp the access direction or access time of the accessor. There is a problem that can not be applied to grasp.

On the other hand, as interest in children's safety has recently increased, the use of a mobile phone's positioning service or a separate GPS receiver has been increasing in order to check the location of the child in real time.

However, this method has a certain limitation in its wide application because it must be equipped with an expensive mobile phone or GPS receiver.

The present invention is to solve this problem, it is possible to easily and effectively determine whether the person or object (hereinafter referred to as 'object') in a specific space or access and provide the information to the information requestor in real time It is to provide a method.

In order to achieve the above object, the present invention provides a plurality of receivers installed in the inlet and the interior of a space having at least one inlet, and wirelessly communicate with the receiver. A method of providing access information of an object using a system comprising a transmitter having a transmitter and a service server which communicates with all the receivers and determines whether the object is in or out of the space. Generating a transmitter DB and a receiver DB to cooperate with each other; A second step of obtaining, by any one of the receivers, information including a unique ID from the transmitter; A third step of transmitting, by the receiver acquiring the information of the transmitter, information including its own ID and the unique ID of the transmitter to the service server; A fourth step of determining whether the transmitter accesses the space of the transmitter by the service server; And a fifth step of providing, by the service server, the access information of the object carrying or attaching the transmitter to a pre-registered information requester.

The second step is preferably performed by periodically transmitting information including its own ID from the transmitter and receiving the transmitted information at the receiver.

In addition, a router for receiving a radio signal of the transmitter located in the shaded area and transmitting it to any one of the receivers is installed in the space, and the information of the transmitter obtained by the receiver in the second step is passed through the router. It includes what was sent.

The third step may be performed through a LAN or a WAN connecting the receiver and the service server.

The fourth step may include: a first sub-step of checking whether the receiver which transmits the information to the service server is an entrance receiver installed at the entrance of the space or an internal receiver installed inside the space; A second substep of determining whether information of the transmitter is recorded in the receiver DB corresponding to an internal receiver when the first substep is confirmed as an inlet receiver; If it is recorded in the receiver DB corresponding to the internal receiver in the second sub-step, it is determined that the transmitter goes out from the inside and deletes information related to the transmitter in the receiver DB, and records in the receiver DB in correspondence with the internal receiver. If not, a third sub-step of storing the transmitter related information in the receiver DB corresponding to the inlet receiver receiving the signal.

In addition, when the first sub-step is confirmed as an internal receiver, the fourth sub-step determines whether information of the transmitter is recorded in the receiver DB corresponding to the inlet receiver; If it is recorded in the receiver DB corresponding to the inlet receiver in the fourth sub-step, it is determined that the transmitter enters from the outside and deletes information related to the transmitter in the receiver DB, and records in the receiver DB in correspondence with the inlet receiver. If not, a fifth sub-step of storing the transmitter related information in the receiver DB corresponding to the internal receiver receiving the signal.

On the other hand, in the fifth step, it is preferable to transmit information to the information requester through an email or a text message.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention.

1 is a schematic diagram showing the configuration of an access information providing system according to an embodiment of the present invention, a transmitter 10 for transmitting a radio signal for short-range wireless communication attached to or possessed by an object entering or leaving a specific space s, the place Installed in (s) and includes a receiver (20a, 20b, 30a, 30b) for receiving a radio signal of the transmitter 10.

In the drawing, four receivers 20a, 20b, 30a, and 30b, that is, the first and second inlet receivers 20a and 20b and the space s respectively installed at the first inlet G1 and the second inlet G2, respectively. The first and second internal receivers 30a and 30b which are installed in the interior are shown.

However, since the number of inlets is not necessarily limited to two, the number of inlet receivers may be different from this, and the installation position or number of internal receivers may also vary according to the width of the place.

However, it is preferable that one inlet receiver is installed at every inlet, and the number of internal receivers should be properly determined in consideration of the distance between wireless communication.

The receivers 20a, 20b, 30a, and 30b are connected to the service server 50, and in the service server 50, a specific transmitter 10 uses the information received from each receiver in the interior of the space s. After determining whether or not to exist in the presence or absence of the information provided to the information requester in a predetermined form.

At this time, the service server 50 transmits predetermined information to the information requester's computer terminal 70 through the Internet network 60 in an e-mail format, or text message (SMS) to the mobile terminal 90 through the mobile communication network 80. ) Format.

In the space (s), there may exist a shaded area in which wireless communication is not easily transmitted and received between the transmitter 10 and the receivers 20a, 20b, 30a, and 30b. Since the receiver must be connected to the service server 50 through a LAN or WAN, it is not preferable in terms of cost.

Therefore, in this shaded area, it is preferable to install a router 40 that receives the radio signal of the transmitter 10 and then wirelessly transmits it to a nearby receiver. The router 40 relays a signal between the transmitter 10 and the receivers 20a, 20b, 30a, and 30b, and performs a routing function of selecting an appropriate receiver from nearby receivers.

Since the transmitter 10 and the receivers 20a, 20b, 30a, and 30b must be able to transmit and receive wireless signals through short-range wireless communication, Bluetooth, Radio Frequency Identification (RFID), Zigbee, etc. Can be used.

However, Bluetooth has a disadvantage in that a communication standard is complicated, a product price is high, and power consumption is large, and RFID has a limitation in that it can be applied to a wide space because the recognition distance is within 5 m. Zigbee wireless communication of the IEEE802.15.4 standard that can solve all the problems.

According to the Zigbee standard, 255 devices can be connected to one network using frequencies of 868 / 915MHz band or 2.4GHz band, and data can be transmitted and received at a speed of 250Kbps within a radius of 30m. In particular, Bluetooth is not only cheaper than a device, but also consumes less power, so the transmitter can be used for several months to a year with a single battery.

2 is a block diagram of a transmitter 10 to which a Zigbee communication standard is applied, and a power source 14 for processing a signal according to the Zigbee communication standard and storing a unique ID data, such as a Zigbee wireless chip 12 and a battery. ), An antenna 16 for transmitting a signal output from the ZigBireless chip 12 to the outside, a controller 18 for controlling the operation of the ZigBireless Chip 12, and the like.

The Zigbee transmitter 10 periodically transmits a radio signal including a unique ID, and the shape thereof is not particularly limited. However, the Zigbee transmitter 10 may be manufactured in the form of a card or the like in consideration of portability, or may be a mobile phone, PDA, It may be embedded in a mobile terminal such as an MP3 player.

3 is a block diagram illustrating a configuration of a receiver 20 performing wireless communication according to the transmitter 10 of FIG. 2 and the Zigbee communication standard.

Referring to this, after the radio signal transmitted from the transmitter 10 is received by the antenna 23 is transmitted to the ZigBee wireless chip 22 under the control of the control unit 21, the ZigBireless chip 22 to transmit the radio signal Modulate / demodulate. The data detected from the modulated / demodulated signal is stored in the storage unit 25 or transmitted to the external service server 50 through the communication port 26, and such a series of operations are performed under the control of the control unit 21. In addition, the receiver includes a power source 24 for driving each component.

Service server 50 and each receiver 20a, 20b, 30a, 30b is preferably connected via a LAN or WAN, in this case the communication port 26 should be provided with a LAN interface or WAN interface.

4 is a diagram illustrating a process of signal processing performed between the components of the above-described access control system in order.

That is, the transmitter 10 that enters or exits a specific place s periodically transmits a radio signal including its own ID. The radio signal of the transmitter 10 is immediately received at an adjacent receiver or transmitted to any one of the receivers 20a, 20b, 30a, 30b via a router 40 nearby.

The receiver transmits the unique ID and its own ID of the transmitter which transmits the radio signal to the service server 50 through a LAN or WAN, and the service server 50 receives the signal and then transmits an ACK signal to the receiver. do.

The service server 50 determines whether a specific transmitter 10 exists in the specific place (s) or access based on the received information, and determines the information through an e-mail or a short message (SMS). Send to the information requester.

Hereinafter, how the service server 50 determines whether or not the specific transmitter 10 exists in the specific space s or access is described with reference to the system configuration diagram of FIG. 1 and the flowchart of FIG. 5. .

First, for convenience of explanation, it is assumed that the space s is a school (or a kindergarten or a school) in the access management system of FIG. 1, and the first entrance G1 and the second entrance G2 corresponding to the school gate. It is assumed that the first and second inlet receivers 20a and 20b are installed, respectively, and the first and second internal receivers 30a and 30b are installed in a classroom or a playground inside the school.

The first and second inlet receivers 20a and 20b and the first and second internal receivers 30a and 30b are both connected to the service server 50. For example, when the service server 50 is installed in the school computer room. It is connected to the receiver 20a, 20b, 30a, 30b through a LAN, and when connected to an external service provider, is connected to the receiver 20a, 20b, 30a, 30b through a WAN.

In addition, it is assumed that the transmitter 10 is manufactured in the form of a card or the like and possessed by all students.

In addition, a transmitter DB and a receiver DB are generated in the service server 50. Transmitter DB stores data about the unique ID of each transmitter 10 and the name of the holder, and receiver DB is a unique ID of each receiver (20a, 20b, 30a, 30b), the installation location, the transmitter received the signal from the receiver Store data about unique ID, reception time, etc. (ST11)

In this state, the service server 50 continuously monitors whether information is received from the receivers 20 and 30 (ST 12), and when predetermined information is received from the receivers 20 and 30, The unique ID first determines whether the corresponding receiver is the inlet receivers 20a and 20b or the internal receivers 30a and 30b. (ST13)

As a result of the determination, for example, if it is determined that the first inlet receiver 20a, the service server 50 has information (unique ID, reception time, etc.) related to the transmitter received by the first inlet receiver 20a is internal. In response to the receivers 30a and 30b, it is searched whether or not it has been recorded in the receiver DB. (ST 14)

As a result of the search, if the information of the transmitter 10 has been recorded in the receiver DB in correspondence with the internal receiver, the service server 50 considers the transmitter 10 to go out from the inside of the space s, Delete the data related to the transmitter 10 in the receiver DB. (ST 15, ST16)

If the information of the transmitter 10 has not been recorded in the receiver DB corresponding to the internal receiver in step ST14, the service server 50 assumes that the transmitter 10 enters from the outside of the space s. The unique ID, the reception time, and the like of the transmitter 10 are stored in the receiver DB corresponding to the first inlet receiver 20a.

On the other hand, if it is not the inlet receivers 20a and 20b that the transmitter 10 signal is received in step ST13, it is determined whether the internal receivers 30a and 30b are received (ST 18), and the internal receivers 30a and 30b. If not, the receiver determines that the receiver unique ID has not been received due to an error and ignores the received signal. (ST 19)

If it is confirmed in step ST 18 that the signal of the transmitter 10 has been received, for example, the first internal receiver 30a, the related information of the transmitter 10 corresponds to the inlet receivers 20a and 20b in the next step. It is determined whether it is recorded in the receiver DB. (ST 20)

If the information of the transmitter 10 is recorded in correspondence with the inlet receivers 20a and 20b, it is assumed that the transmitter 10 enters the interior from the outside of the space s while the receiver 10 in the receiver DB Delete the data associated with). (ST 21, ST22)

The reason for deleting the transmitter 10-related data in step ST22 is that if the transmitter 10 is detected by the second internal receiver 30b while the transmitter-related data remains, the ST 18, ST20, ST21 may be deleted. This is because an error may be regarded as being entered from the outside of the space s even though the transmitter 10 is moving inside the space s.

As such, once the transmitter 10 is deemed to have entered the space s, and after the relevant data of the transmitter 10 is deleted from the receiver DB, the signal of the transmitter 10 is, for example, second internal. If detected by the receiver 30b, the information of the transmitter 10 is stored in the receiver DB in relation to the second internal receiver 30b through steps ST20 and ST23.

Through the above process, it is possible to check whether or not the transmitter 10 exists in a specific space (s) or access. The service server 50 provides the information requestor in the form of an email or a text message to the information requester. Done.

Specifically, when the student carrying the specific transmitter 10 is determined to go out from the inside of the school space s (ST 15) or when it is determined to enter the school space (s) (ST 17). , ST 21) the service server 50 may automatically send an e-mail to an e-mail address stored in association with the transmitter 10 or send a text message (SMS) to a mobile phone number.

When the signal of the transmitter 10 is received for only a long time in the internal receivers 30a and 30b of the school space s, it may be notified by e-mail or text message that the student is in school every predetermined time.

On the other hand, the above has been described the access information management system and method applied to the student access management of the school or academy, the embodiment of the present invention is not applied only to a person as described above, it is equally applicable to the article attached to the transmitter 10 Can be. Therefore, it can also be used for the purpose of automatically grasping the entry and exit information of the goods in the warehouse, loading dock.

In addition, the wireless communication of the transmitter and the receiver has been described by the ZigBee communication standard, but this is to implement an embodiment of the present invention cheaper and more effectively in a wider place, in some cases Bluetooth or RFID short-range wireless Communication may be used.

In the case of the Bluetooth method, the Bluetooth module should be mounted on the transmitter and the receiver, and in the case of the RFID method, there is only a slight difference in that the RF tag is embedded in the transmitter and the RF reader is embedded in the receiver. The method applies equally.

According to the present invention, it is possible to easily and effectively determine whether or not the object exists in a specific space or access, and can inform the information requestor in real time.

Therefore, it is possible for parents to check students' back to school and dismissal in real time, or to check whether or not the cargo is entering or leaving the cargo in real time.

Claims (7)

A plurality of receivers installed in the inlet and the interior of the space having at least one inlet, a transmitter which performs wireless communication with the receiver and is attached to or carried by an object entering and exiting the space, and communicates with all the receivers; In the method for providing access information of the object by using a system including a service server for determining whether the object is in or out of the space; A first step of generating a transmitter DB and a receiver DB interworking with the service server; A second step of obtaining, by any one of the receivers, information including a unique ID from the transmitter; A third step of transmitting, by the receiver acquiring the information of the transmitter, information including its own ID and the unique ID of the transmitter to the service server; A fourth step of determining whether the transmitter accesses the space of the transmitter by the service server; A fifth step of providing, by the service server, access information of an object having the transmitter or the attachment to a registered information requester; Access information providing method including The method of claim 1, In the second step, the transmitter periodically transmits information including its own ID, and receives the transmitted information from the receiver. The method of claim 1, In the space, a router for receiving a radio signal of the transmitter located in the shaded area and transmitting it to any one of the receivers is installed, and in the second step, the information of the transmitter obtained by the receiver is transmitted via the router. Access information providing method including The method of claim 1, The third step is access information providing method, characterized in that made via a LAN or WAN connecting the receiver and the service server. The method of claim 1, The fourth step, A first sub step of checking whether the receiver which has transmitted the information to the service server is an inlet receiver installed at the entrance of the space or an internal receiver installed inside the space; A second substep of determining whether information of the transmitter is recorded in the receiver DB corresponding to an internal receiver when the first substep is confirmed as an inlet receiver; If it is recorded in the receiver DB corresponding to the internal receiver in the second sub-step, it is determined that the transmitter goes out from the inside and deletes information related to the transmitter in the receiver DB, A third sub step of storing the transmitter related information in the receiver DB corresponding to the inlet receiver receiving the signal, if not recorded in the receiver DB corresponding to the internal receiver; Access information providing method including The method of claim 5, A fourth substep of determining whether information of the transmitter is recorded in the receiver DB in correspondence with an inlet receiver when the internal receiver is identified in the first substep; If it is recorded in the receiver DB corresponding to the inlet receiver in the fourth sub-step, it is determined that the transmitter enters from the outside and deletes the information related to the transmitter from the receiver DB. A fifth sub step of storing the transmitter related information in the receiver DB in correspondence with the internal receiver receiving the signal, if not recorded in the receiver DB corresponding to the inlet receiver; Access information providing method including The method of claim 1, In the fifth step, the access information providing method for transmitting information to the information requester via email or text message

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