KR102351439B1 - TVWS auto pairing system and method - Google Patents

Abstract

The present invention relates to a TVWS auto-pairing system and method. The present invention has an advantage in that ta TVWS frequency can be efficiently utilized by performing wireless communication by automatically performing one-to-one pairing with an empty TVWS frequency by using a device ID. The TVWS auto-pairing system includes: a pairing message receiving unit which receives a pairing message transmitted from a server through each of a plurality of TVWS transmission frequencies; a frequency search unit which searches for a specific TVWS transmission frequency among the plurality of TVWS transmission frequencies; a pairing message search unit which searches for a pairing message received from the specific TVWS transmission frequency; a pairing response message transmitting unit; and a data transceiving unit.

Description

TVWS auto pairing system and method

The present invention relates to a TVWS auto pairing system and method, and more particularly, to a TVWS auto pairing system and method using an unused frequency band among terrestrial frequency bands.

TVWS (Television White Space) is a technology that enables wireless communication using a frequency band that is not used locally among TV terrestrial frequency bands. TVWS wireless communication is the only technology that can transmit 10km of CCTV images at free data cost among existing wireless communication technologies because it has excellent radio wave characteristics by using low frequency band and has a long radio wave reach.

Recently, due to the active introduction of the Internet of Things (IoT), in addition to remote monitoring equipment such as CCTV in the past, various small sensors, remote meter reading of electricity, water and gas, and remote control for various small equipment have been introduced. The demand for it is on the rise.

Unlike video surveillance equipment, the introduction of the IoT has a characteristic in that a large number of small equipment compete for a relatively small number of frequencies and use a short time frequency.

1. Korean Patent No. 10-1462991

An object of the present invention is to provide a TVWS auto pairing system and method for pairing a TVWS frequency with various devices in order to solve the above problems.

The present invention for solving the above problems is a pairing message receiver for receiving each pairing message transmitted through a plurality of TVWS transmission frequencies from a server; a frequency search unit that searches for a specific TVWS transmission frequency among the plurality of TVWS transmission frequencies; a pairing message search unit for searching for a pairing message received from the searched specific TVWS transmission frequency; If there is no device ID registered in the searched pairing message, a TVWS reception frequency to transmit data is obtained from the corresponding pairing message, and a pairing response message including a device ID is transmitted to the server through the TVWS reception frequency to pair with the server. response message transmitter; and a data transceiver configured to receive data from the paired server through the TVWS transmission frequency and transmit data to the paired server through the TVWS reception frequency.

Preferably, the frequency search unit starts the TVWS transmission frequency search from the frequency registered by the user.

TVWS auto pairing method according to another embodiment of the present invention comprises the steps of receiving each transmitted pairing message through a plurality of TVWS transmission frequencies from a server; searching for a specific TVWS transmission frequency among the plurality of TVWS transmission frequencies; retrieving a pairing message received from the retrieved specific TVWS transmission frequency; checking whether there is a device ID registered in the searched pairing message; checking a TVWS reception frequency to transmit data from the pairing message if there is no device ID registered in the searched pairing message; pairing with the server by transmitting a pairing response message including a device ID to the server through the TVWS reception frequency checked in the step of checking the TVWS reception frequency to transmit data from the pairing message; and receiving data from the paired server through the TVWS transmitting frequency, and transmitting data to the paired server through the TVWS receiving frequency.

Preferably, the frequency search step starts the TVWS transmission frequency search from the frequency registered by the user.

According to the present invention as described above, various devices perform auto pairing with the server 1:1 and search for a TVWS frequency without a registered device, and there is an advantage in that the TVWS frequency can be efficiently utilized by automatically pairing and communicating. .

1 shows an application example of a TVWS wireless communication system.
2 is a block diagram of a TVWS auto pairing system according to an embodiment of the present invention.
3 is a flowchart of a TVWS auto pairing method according to an embodiment of the present invention.
4 is a detailed flowchart for explaining a TVWS auto pairing method with respect to a server and equipment according to an embodiment of the present invention.

The above objects, other objects, features and advantages of the present invention will be easily understood through the following preferred embodiments in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed subject matter may be thorough and complete, and that the spirit of the present invention may be sufficiently conveyed to those skilled in the art. In this specification, when a component is referred to as being on another component, it means that it may be directly formed on the other component or a third component may be interposed therebetween.

When it is stated that any element, component, device, or system includes a component consisting of a program or software, even if not explicitly stated, that element, component, device, or system means that the program or software executes or operates It should be understood to include hardware (eg, memory, CPU, etc.) or other programs or software (eg, drivers necessary to run an operating system or hardware) necessary for the operation.

In addition, it should be understood that an element (or component) may be implemented in software, hardware, or in any form of software and hardware, unless otherwise specified in the implementation of the element (or component).

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, the terms 'comprises' and/or 'comprising' do not exclude the presence or addition of one or more other components.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the specific embodiments below, various characteristic contents have been prepared to more specifically explain and help the understanding of the invention. However, a reader having enough knowledge in this field to understand the present invention may recognize that it can be used without these various specific details. In some cases, it is mentioned in advance that parts that are commonly known and not largely related to the invention are not described in order to avoid confusion without any reason in describing the present invention in describing the invention.

1 shows an application example of a TVWS wireless communication system. As shown in FIG. 1 , the TVWS wireless communication system may transmit and receive IP packets through a terrestrial frequency band between a TVWS base station, a TVWS customer premises equipment (CPE), and a TVWS modem.

For example, the TVWS base station is connected to the TVWS database through the Internet, receives information about available TVWS frequencies from the TVWS database, and uses the TVWS frequency to connect IP CCTV cameras or smart phones through TVWS CPE and WiFi AP to wireless Internet using the TVWS frequency. Through the TVWS CPE and TVWS modem that relays the data collected from the equipment and the server, electricity, water, gas meter reading equipment and equipment for the Internet of Things and the server are paired to enable remote meter reading and control. Internet can be implemented.

In the present invention, a 'server' is a device that identifies and registers a device ID of the device to transmit/receive data to/from the device. For example, a TVWS base station may be a server for multiple TVWS CPEs, a TVWS CPE may also be a server for a TVWS modem for multiple devices, and the TVWS base station may also be a server for a TVWS modem for multiple devices. can

In the present invention, even when referred to as 'frequency', it refers to a TVWS transmission or reception frequency, and similarly, when referred to as 'CPE' or 'modem', it refers to TVWS CPE and TVWS modem.

2 is a block diagram of a TVWS auto pairing system 100 according to an embodiment of the present invention. As shown in FIG. 2 , the TVWS auto pairing system 100 includes a pairing message receiving unit 102 , a frequency searching unit 104 , a pairing message searching unit 106 , a pairing response message transmitting unit 108 , and a data transmitting and receiving unit 110 . ) is included.

The pairing message receiving unit 102 receives each transmitted pairing message from the server 10 through a plurality of TVWS transmission frequencies.

The server 10 may transmit a pairing message to the TVWS transmission frequency while waiting for pairing reception for the TVWS reception frequency.

The pairing message may include information about an IP of the server 10 , a communication port of the server 10 , a TVWS frequency to be received by the server 10 , and a device ID registered for pairing. The device ID is information that can identify the device 20 to communicate with the server by pairing.

The frequency search unit 104 searches for a specific TVWS transmission frequency among a plurality of TVWS transmission frequencies. The frequency search unit 104 may search for a specific TVWS transmission frequency according to a list of available specific TVWS transmission frequencies. In this case, the frequency search unit 104 may start the TVWS transmission frequency search from the frequency registered by the user.

The pairing message search unit 106 searches for a pairing message received from a specific TVWS transmission frequency retrieved from the frequency search unit 104 . In this case, the pairing message search unit 106 may search for a pairing message using the Control Data PID and Pairing Table ID information.

The frequency search unit 104 searches for frequencies one by one from the beginning for a specific time period, while the pairing message search unit 106 finds whether there is Control Data PID information. The frequency search unit 104 may search for the next frequency when the pairing message search unit 106 does not find the Control Data PID information within the frequency.

The pairing response message transmission unit 108 obtains a TVWS reception frequency to transmit data from the pairing message if there is no registered device ID according to the pairing message retrieved from the pairing message search unit 106, and sends the TVWS reception frequency to the server 10 through the TVWS reception frequency. It is paired with the server 10 by transmitting a pairing response message including the device ID.

The data transceiver 110 receives data from the paired server 10 through the TVWS transmission frequency, and transmits data to the paired server 10 through the TVWS reception frequency.

The server 10 registers the device ID included in the pairing response message received from the pairing response message transmitter 108, and transmits Ethernet data to the device 20 through the TVWS transmission frequency and the device 20 through the TVWS reception frequency. Start receiving Ethernet data from

The server 10 transmits whether the device ID is registered to the TVWS auto pairing system 100 as a pairing message, and when the TVWS auto pairing system 100 checks whether the device ID is registered, the pairing is completed, and the server 10 and The paired equipment 20 starts receiving Ethernet data from the server 10 via the TVWS transmission frequency and transmitting Ethernet data to the server 10 via the TVWS reception frequency.

3 is a flowchart of a TVWS auto pairing method according to an embodiment of the present invention. As shown in FIG. 3 , in the TVWS auto pairing method, first, each transmitted pairing message is received from the server 10 through a plurality of TVWS transmission frequencies ( S100 ). Next, a specific TVWS transmission frequency among the plurality of TVWS transmission frequencies is searched for ( S200 ). In this case, step S200 may be to start the TVWS transmission frequency search from the frequency registered by the user. Then, the pairing message received from the searched specific TVWS transmission frequency is searched (S300). Next, it is checked whether there is a device ID registered in the searched pairing message (S400). Next, if there is no device ID registered in the searched pairing message, a TVWS reception frequency to transmit data from the corresponding pairing message is checked ( S500 ). If there is a registered device ID in the searched pairing message, perform again from step S200 to search for another specific TVWS transmission frequency. Next, the pairing response message including the device ID is transmitted to the server 10 through the TVWS reception frequency confirmed in step S500 to perform pairing with the server 10 (S600). Then, data is received from the paired server 10 through the TVWS transmission frequency, and data is transmitted to the paired server 10 through the TVWS reception frequency (S700).

4 is a detailed flowchart for explaining a TVWS auto pairing method with respect to a server and equipment according to an embodiment of the present invention.

As shown in Fig. 4, the server waits for pairing reception on the TVWS reception frequency. The server then sends a pairing message on the TVWS transmission frequency.

The equipment then searches for the TVWS transmission frequency. In this case, the search may start from the frequency registered by the user. The device then retrieves the pairing message. In this case, the pairing message can be retrieved by Control Data PID and Table IP.

Then, if there is no device ID registered in the pairing message, the equipment recognizes it as an empty frequency, checks the TVWS reception frequency from the pairing message, and if there is a registered device ID, searches the TVWS transmission frequency again and searches the pairing message.

Then, the device sends a pairing response message including the device ID to the server through the TVWS reception frequency confirmed from the pairing message. Then, the server registers the received device ID in the pairing message and transmits it. Then, the server transmits the Ethernet data through the TVWS transmission frequency and receives the Ethernet data through the TVWS reception frequency.

Then, the device confirms the device ID registered in the received pairing message to complete pairing. Then, the equipment receives Ethernet data through the TVWS transmission frequency and transmits the Ethernet data through the TVWS reception frequency.

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

10 servers
100 TVWS Auto Pairing System
102 pairing message receiver
104 frequency search unit
106 pairing message search unit
108 pairing response message transmitter
110 data transceiver

Claims (4)

a pairing message receiver for receiving each pairing message transmitted from the server through a plurality of TVWS transmission frequencies;
a frequency search unit that searches for a specific TVWS transmission frequency among the plurality of TVWS transmission frequencies;
a pairing message search unit for searching for a pairing message received from the searched specific TVWS transmission frequency;
If there is no device ID registered in the searched pairing message, a TVWS reception frequency to transmit data is obtained from the corresponding pairing message, and a pairing response message including a device ID is transmitted to the server through the TVWS reception frequency to pair with the server. response message transmitter; and
A data transceiver configured to receive data from the paired server through the TVWS transmission frequency and transmit data to the paired server through the TVWS reception frequency,
The frequency search unit starts the TVWS transmission frequency search from the frequency registered by the user,
It is characterized in that the frequency is searched one by one from the beginning for a specific time period, through the pairing message search unit 106, whether there is Control Data PID information, and if the pairing message search unit does not find the Control Data PID information within the frequency, the next frequency is searched. TVWS auto pairing system with
delete receiving each transmitted pairing message through a plurality of TVWS transmission frequencies from a server;
searching for a specific TVWS transmission frequency among the plurality of TVWS transmission frequencies;
retrieving a pairing message received from the retrieved specific TVWS transmission frequency;
checking whether there is a device ID registered in the searched pairing message;
checking a TVWS reception frequency to transmit data from the pairing message if there is no device ID registered in the searched pairing message;
pairing with the server by transmitting a pairing response message including a device ID to the server through the TVWS reception frequency checked in the step of checking the TVWS reception frequency to transmit data from the pairing message; and
receiving data from the paired server via the TVWS transmission frequency, and transmitting data to the paired server via the TVWS reception frequency;
In the step of searching for the specific TVWS transmission frequency, the TVWS transmission frequency search starts from the frequency registered by the user, while searching the frequencies one by one for a specific time from the beginning, finds whether there is Control Data PID information through the pairing message search unit, and the pairing TVWS auto pairing method, characterized in that if the message search unit does not find the Control Data PID information within the frequency, it searches for the next frequency.
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