KR101565632B1 - Wireless communication appratus and method capable of super wi-fi communication - Google Patents

Abstract

The present invention relates to a wireless communication apparatus and method having a super Wi-Fi module. The wireless communication apparatus includes a Wi-Fi communication unit for performing communication via a Wi-Fi network, a super Wi-Fi communication unit for performing communication with a super Wi-Fi base station through a super Wi-Fi network using a TV idle band, a cellular communication base station And a control unit for controlling the Wi-Fi communication unit, the super Wi-Fi communication unit, and the cellular communication unit based on communication state information of the Wi-Fi network, the super Wi-Fi network, and the cellular network, The control unit may include the super Wi-Fi communication unit based on the TV idle band.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless communication apparatus and method capable of super Wi-

The present invention relates to a wireless communication apparatus and method capable of super Wi-Fi communication.

Generally, the TV broadcasting idle band service refers to a service in which a local and temporally empty frequency of a TV broadcasting band is switched after digital broadcasting is switched and utilized as a broadband service. In other words, as a non-licensed band that anyone can use without permission if they are satisfied with the government's radio wave regulations, there is no plan to use the band and region vacated due to the frequency interference between broadcasting companies. The band that is empty in the time zone when the broadcaster does not broadcast the broadcast at the dawn is referred to as the TV idle band.

In November 2008, the Federal Communications Commission (FCC) of the United States decided to open a broadcast frequency band for the introduction of TV idle band services, enabling operators who want to use the service to freely use the frequency. Also, in December 2011, the Federal Communications Commission (FCC) of the United States announced plans to use radio frequency bands (white space or super WiFi) with long reach. Super Wi-Fi has a data transmission speed of less than Wi-Fi, but in terms of the propagation distance, the indoor super-Wi-Fi hotspot with a 40mW transmitter reaches 4 times the standard Wi- 5 km, up to 64 km from the plain. Therefore, a wireless communication device is required to use a super-Wi-Fi having a long propagation distance although the data transmission speed is less than Wi-Fi. In addition, there is a need for a wireless communication device capable of linking existing 3G / 4G and Wi-Fi to super-Wi-Fi.

Among the prior arts described below, Patent Document 1 is an invention for improving communication speed in a mobile communication network, and a mobile communication device having a cellular communication means and a super Wi-Fi communication means is used to distribute traffic of a cellular network. Patent Document 1 is similar to the present invention in that communication traffic is distributed using a super Wi-Fi. However, in order to distribute communication traffic of a cellular network, a mobile communication device directly searches for a super-Wi- It is difficult to efficiently distribute the data, and connection time is long when connecting to a super Wi-Fi base station.

U.S. Published Patent Application No. 2011/0319129 A1

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the problems of the prior art described above, and it is an object of the present invention to provide a wireless communication system and a wireless communication method capable of efficiently receiving traffic information of a Wi-Fi access point from a super- And an apparatus and a method are proposed.

In addition, a Wi-Fi network, a super Wi-Fi network, and a cellular network are mutually routed to maintain a stable communication state.

According to a first technical aspect of the present invention, there is provided a wireless communication system including a Wi-Fi communication unit for performing communication via a Wi-Fi network, a super Wi-Fi communication unit for performing communication with a super Wi-Fi base station through a super Wi- And a control unit for controlling the Wi-Fi communication unit, the super Wi-Fi communication unit, and the cellular communication unit based on the communication status information of the Wi-Fi network, the super Wi-Fi network, and the cellular network And the control unit controls the super Wi-Fi communication unit based on the TV idle band.

In addition, the control unit controls the Wi-Fi communication unit to perform communication through the Wi-Fi network when the communication sensitivity of the Wi-Fi network is equal to or greater than a predetermined first threshold value.

When the plurality of Wi-Fi networks are connected and the communication sensitivity of the plurality of Wi-Fi networks is equal to or greater than the first threshold value, the super-Wi-Fi communication unit receives traffic information of the plurality of Wi-Fi networks collected from the super- The Wi-Fi communication unit controls the Wi-Fi communication unit to perform communication through a Wi-Fi network having the lowest traffic based on traffic information of the plurality of Wi-Fi networks transmitted from the super Wi-Fi communication unit.

In addition, the control unit determines whether there is an available TV idle band among the TV idle bands when the communication sensitivity of the Wi-Fi network is less than a predetermined first threshold value.

The wireless communication apparatus may further include: a GPS communication unit that receives position information of the wireless communication apparatus from a satellite; Wherein the cellular communication unit receives information of the TV idle band from a predetermined database through the cellular network and the control unit receives the positional information and the idle band information, And determines whether or not there is a band.

Also, the super Wi-Fi communication unit may include a cognitive radio module for generating the available TV idle band information, and the control unit may receive the available TV idle band information to determine whether the available idle band exists And proposes a wireless communication device to judge.

In addition, the control unit determines a communication sensitivity of the super Wi-Fi network when the available TV idle band exists.

The control unit controls the super Wi-Fi communication unit to perform communication through the super Wi-Fi network when the communication sensitivity of the super Wi-Fi network is equal to or greater than a predetermined second threshold value.

In addition, the control unit controls the cellular communication unit to perform communication through the cellular network when the communication sensitivity of the super Wi-Fi network is less than a predetermined second threshold value.

In addition, the control unit controls the cellular communication unit to perform communication via the cellular network when the available TV idle band does not exist.

In addition, the Wi-Fi communication unit performs communication between the first device and the first device capable of Wi-Fi communication, and the super-Wi-Fi communication unit proposes a wireless communication device that performs communication between the second device and the second device capable of super- do.

Further, the control unit proposes a wireless communication apparatus that controls routing between two communication units selected from the Wi-Fi communication unit, the super Wi-Fi communication unit, and the cellular communication unit.

According to a second technical aspect of the present invention, there is provided a method for detecting a communication sensitivity of a Wi-Fi network, the method comprising: (a) confirming a communication sensitivity of the Wi-Fi network; (b) Determining whether there is an available TV idle band of the idle band; (c) if the available TV idle band exists in the step (b), determining whether there is an available TV idle band of the super idle band using the available TV idle band; Establishing a communication connection with the super Wi-Fi base station via the super Wi-Fi network if the communication sensitivity is greater than or equal to a predetermined second threshold value; and (d) if there is no available TV idle bandwidth, And establishing a connection.

Setting a communication connection through the Wi-Fi network when the communication sensitivity of the Wi-Fi network is greater than or equal to the first threshold value in the step (a); And a wireless communication method.

When the communication sensitivity of the plurality of Wi-Fi networks is equal to or greater than the first threshold value, traffic information of the plurality of Wi-Fi networks collected by the super Wi-Fi base station is received, and traffic of the plurality of Wi- And establishing a communication connection via the Wi-Fi network with the lowest traffic based on the information.

In the step (b), based on the location information of the wireless communication apparatus to which the wireless communication method is applied and the information of the TV idle band received through the cellular network from the predetermined database, And a wireless communication method for determining whether there is an available TV idle band among the TV idle bands.

In addition, the step (b) proposes a wireless communication method for determining whether the available TV idle bandwidth exists based on the available TV idle bandwidth information generated through a cognitive radio technology .

In addition, in the step (c), when the communication sensitivity of the super Wi-Fi network is less than the second threshold value, the wireless communication method further comprises setting a communication connection through the cellular network.

According to the present invention, traffic information of a Wi-Fi access point can be received from a super-Wi-Fi base station to efficiently distribute communication traffic, and connection time can be shortened when connecting to a Wi-Fi access point.

In addition, the Wi-Fi network, the super Wi-Fi network, and the cellular network can be mutually routed to maintain a stable communication state.

1 is a block diagram illustrating a wireless communication apparatus according to an embodiment of the present invention.
2 is a flowchart illustrating a wireless communication method according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order that those skilled in the art can easily carry out the present invention.

1 is a block diagram illustrating a wireless communication apparatus according to an embodiment of the present invention. 1, a wireless communication device 10 according to an embodiment of the present invention includes a Wi-Fi communication unit 100, a super Wi-Fi communication unit 200, a cellular communication unit 300, a control unit 400, and a GPS communication unit 500 .

The Wi-Fi communication unit 100 can communicate with the Wi-Fi access point 20 via the Wi-Fi network. The super Wi-Fi communication unit 200 communicates with the super Wi-Fi base station 30 through a super Wi- And the cellular communication unit 300 can communicate with the cellular communication base station 40 through the cellular network and the control unit 400 can communicate with the cellular communication network 300 through the cellular communication network 300, The control unit 400 can control the Wi-Fi communication unit 100, the super Wi-Fi communication unit 200, and the cellular communication unit 300, and the control unit 400 can control the super Wi-Fi communication unit 200 based on the TV idle band have.

The control unit 400 may control the Wi-Fi communication unit 100 to perform communication through the Wi-Fi network when the communication sensitivity of the Wi-Fi network is equal to or greater than a predetermined first threshold. The predetermined first threshold is a communication sensitivity for maintaining the first communication between the Wi-Fi communication unit 100 and the Wi-Fi access point 20, and can be changed by setting. When the communication sensitivity of the plurality of Wi-Fi networks is equal to or greater than the first threshold, the super-Wi-Fi communication unit 200 can receive traffic information of a plurality of Wi-Fi networks collected by the super-Wi-Fi base station 30, Can control the Wi-Fi communication unit to perform communication through the Wi-Fi network having the lowest traffic based on the traffic information of the plurality of Wi-Fi networks transmitted from the super Wi-Fi communication unit 200. The super Wi-Fi base station 30 can collect traffic information of the Wi-Fi network 20 by using a wide-wave arrival distance characteristic. The control unit 400 can efficiently distribute communication traffic by controlling the Wi-Fi communication unit 100 to perform communication with the access point 10 having the lowest traffic among a plurality of Wi-Fi networks. Also, the control unit 400 can reduce the connection time for connecting to the Wi-Fi network by receiving traffic information from the super Wi-Fi base station 30, rather than directly searching for the Wi-Fi network having the lowest traffic.

Alternatively, when the communication sensitivity of the Wi-Fi network is less than the first threshold, the control unit 400 may determine whether there is an available TV idle band among the TV idle bands. The control unit 400 determines whether the available TV idle band exists by receiving the location information of the wireless communication device received from the GPS communication unit 500 by the GPS communication unit 500, The information on the TV idle band received from the set database may be received and based on the information of the position information and the idle band. In addition, the controller receives the available TV idle band information generated by the super Wi-Fi communication unit 200 including the cognitive radio module, and based on the received available TV idle band information, It can be judged whether or not it exists. In particular, the super Wi-Fi communication unit 200 may include a cognitive radio module to which cognitive radio technology is applied, and the cognitive radio module may sample the entire TV idle band using cognitive radio technology, Idle band information can be generated.

If it is determined that the available TV idle band does not exist, the controller 400 may control the cellular communication unit 300 to perform communication via the cellular network . However, if it is determined that the available TV idle band exists, the controller 400 can determine the communication sensitivity of the super Wi-Fi network.

The communication sensitivity of the super Wi-Fi network is determined. If the communication sensitivity of the super Wi-Fi network is equal to or greater than a predetermined second threshold value, the control unit can control the super Wi-Fi communication unit 200 to perform communication through the super Wi-Fi network. Communication over the super Wi-Fi network can be done using the entire available TV idle band rather than the frequency band of one channel. Communication with the super Wi-Fi base station 20 using the entire available TV idle band can solve the problem that the super-Wi-Fi has a long propagation distance but the communication speed is lower than that of the Wi-Fi.

However, if the communication sensitivity of the super Wi-Fi network is less than a predetermined second threshold, the cellular communication unit 300 may be controlled to perform communication via the cellular network. The predetermined second threshold value is a communication sensitivity for maintaining communication between the super Wi-Fi communication unit 100 and the super Wi-Fi base station 20, and can be changed by setting. The cellular network may be an existing 3G / 4G network, but is not limited thereto.

In addition, the Wi-Fi communication unit 100 may perform a first machine-to-machine communication (M2M: Machine to Machine) with the first device 50 capable of Wi-Fi communication, and the super Wi-Fi communication unit 200 may perform super- (M2M: Machine to Machine) with the second device (60). The first device 50 is a device capable of performing Wi-Fi communication, and the second device is a device capable of performing super-Wi-Fi communication. The first device and the second device may include, but are not limited to, a personal computer and a portable terminal. The wireless communication device 10 can transmit and receive mutual data via the device-to-device communication M2M with the first device 50 and the second device 60. [

If the Wi-Fi communication unit 100 can communicate with the Wi-Fi access point 20 via the Wi-Fi network, the first device 50 can communicate with the wireless communication device 10 ) To the Internet. If the super-Wi-Fi communication unit 200 can communicate with the super-Wi-Fi base station 30 through the super-Wi-Fi network, the second device 60 can communicate with the super- (10). The wireless communication device 10 may operate as a Wi-Fi or super Wi-Fi access point.

The control unit 400 may control the routing between two communication units selected from the Wi-Fi communication unit 100, the super Wi-Fi communication unit 200, and the cellular communication unit 300.

If the super Wi-Fi communication unit 200 can perform communication with the super Wi-Fi base station 30 through the super Wi-Fi network, the control unit 400 can perform communication between the first Wi- It is possible to route the Wi-Fi communication unit 100 and the super Wi-Fi communication unit 200. If the cellular communication unit 300 can perform communication with the cellular communication base station 40 through the cellular network in the case where the first communication can be performed between the first communication unit 100 and the cellular communication base station 40, Lt; RTI ID = 0.0 > 200 < / RTI >

If the Wi-Fi communication unit 100 can perform communication with the Wi-Fi access point 20 through the Wi-Fi network, the control unit 400 controls the super Wi-Fi communication unit 200 and the Wi- 0.0 > 100 < / RTI > If the cellular communication unit 300 can communicate with the cellular communication base station 40 through the cellular network when the second device can communicate with the cellular communication base station 40, the control unit 400 controls the super Wi- The communication unit 100 can be routed.

2 is a flowchart illustrating a wireless communication method according to an embodiment of the present invention. Referring to FIGS. 1 and 2, the wireless controller 10 can check the communication sensitivity of the Wi-Fi network (S200). If it is determined that the communication sensitivity of the WiFi network is equal to or greater than the predetermined first threshold value, the wireless communication device 10 can establish a communication connection through the Wi-Fi network (S210). When the communication sensitivity of the plurality of Wi-Fi networks is equal to or greater than the first threshold, the wireless communication apparatus 10 receives the traffic information of the plurality of Wi-Fi networks collected by the super-Wi-Fi base station 30, , A communication connection can be established through the Wi-Fi network with the lowest traffic (S220). However, if the communication sensitivity of the Wi-Fi network is less than the first threshold, the wireless communication device 10 may determine whether there is an available TV idle band among the TV idle bandwidths. The determination of whether there is an available TV idle band among the TV idle bands can be made based on the location information of the wireless communication device received from the satellite and the information of the TV idle band received through the cellular network from the predetermined database have. Further, the determination of whether or not an available TV idle band exists among the TV idle bands can be made based on the available TV idle band information generated through a cognitive radio technology.

If the wireless communication device 10 determines that the available TV idle band exists, it can check the communication sensitivity of the super Wi-Fi network (S240). When it is determined that the communication sensitivity of the super Wi-Fi network using the available TV idle band is equal to or greater than a predetermined second threshold value, the wireless communication device 10 can establish a communication connection with the super Wi-Fi base station 30 via the super Wi- (S250).

However, if it is determined that the available TV idle band does not exist, a communication connection through the cellular network may be established (S260). Also, even if the communication sensitivity of the super Wi-Fi network is less than the second threshold value, the communication connection through the cellular network can be established (S260).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Therefore, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all of the equivalents or equivalents of the claims, as well as the following claims, I will say.

10: Wireless communication device
20: Wi-Fi access point
30: Super Wi-Fi base stations
40: cellular communication base station
50: First device
60: Second device
100: Wi-Fi communication unit
200: Super Wi-Fi communication unit
300: cellular communication unit
400:
500: GPS communication unit

Claims (18)

A Wi-Fi communication unit for performing communication via a Wi-Fi network;
A super Wi-Fi communication unit for performing communication with a super Wi-Fi base station through a super Wi-Fi network using a TV idle band;
A cellular communication unit for communicating with a cellular communication base station through a cellular network; And
A control unit for controlling the Wi-Fi communication unit, the super Wi-Fi communication unit, and the cellular communication unit based on the communication status information of the Wi-Fi network, the super Wi-Fi network, and the cellular network; / RTI >
The control unit controls the super Wi-Fi communication unit based on the TV idle band,
The super Wi-Fi communication unit receives traffic information of the plurality of Wi-Fi networks collected from the super-Wi-Fi base station, and the control unit transmits traffic information of the plurality of Wi-Fi networks received from the super Wi- And controls the Wi-Fi communication unit to perform communication through a Wi-Fi network having the lowest traffic based on the Wi-Fi network. The apparatus of claim 1,
And controls the Wi-Fi communication unit to perform communication through the Wi-Fi network when the communication sensitivity of the Wi-Fi network is equal to or greater than a predetermined first threshold value. 3. The method of claim 2,
When the communication sensitivity of the plurality of Wi-Fi networks is equal to or greater than the first threshold value,
And the super Wi-Fi communication unit receives the traffic information. The apparatus of claim 1,
Wherein if the communication sensitivity of the Wi-Fi network is less than a predetermined first threshold, then it is determined whether there is an available TV idle band of the TV idle band. 5. The method of claim 4,
A GPS communication unit for receiving position information of the wireless communication device from a satellite; Further comprising:
Wherein the cellular communication unit receives information of the TV idle band from a predetermined database through the cellular network,
Wherein the controller receives the position information and the idle band information to determine whether the available TV idle band exists. 5. The method of claim 4,
Wherein the super Wi-Fi communication unit includes a cognitive radio module for generating the available TV idle band information,
Wherein the control unit receives the available TV idle band information and determines whether the available idle band exists. 5. The apparatus of claim 4,
And determines the communication sensitivity of the super Wi-Fi network when the available TV idle band exists. 8. The apparatus of claim 7,
And controls the super Wi-Fi communication unit to perform communication through the super Wi-Fi network when communication sensitivity of the super-Wi-Fi network is equal to or greater than a predetermined second threshold value. 8. The apparatus of claim 7,
And controls the cellular communication unit to perform communication via the cellular network when the communication sensitivity of the super Wi-Fi network is less than a predetermined second threshold. 5. The apparatus of claim 4,
And controls the cellular communication unit to perform communication via the cellular network when the available TV idle band does not exist. The method according to claim 1,
The Wi-Fi communication unit performs communication between the first device and the first device capable of Wi-Fi communication,
Wherein the super Wi-Fi communication unit performs communication between a second device and a second device capable of super Wi-Fi communication. The apparatus of claim 1,
And controls the routing between two communication units selected from the Wi-Fi communication unit, the super Wi-Fi communication unit, and the cellular communication unit. (a) confirming the communication sensitivity of the Wi-Fi network;
(b) if the communication sensitivity of the Wi-Fi network is less than a predetermined first threshold value in the step (a), determining whether an available TV idle band exists in the TV idle band;
(c) if the available TV idle bandwidth exists, if the communication sensitivity of the super Wi-Fi network using the available TV idle bandwidth is equal to or greater than a predetermined second threshold value, Establishing a communication connection with the super Wi-Fi base station; And
(d) if the available TV idle band is not present, establishing a communication connection over the cellular network; Lt; / RTI >
(e) receiving traffic information of the plurality of Wi-Fi networks collected by the super-Wi-Fi base station when the Wi-Fi network is a plurality of networks, receiving traffic information of the plurality of Wi- Establishing a communication connection; Further comprising the steps of: 14. The method according to claim 13, wherein in the step (a)
Setting a communication connection through the Wi-Fi network when the communication sensitivity of the Wi-Fi network is equal to or greater than the first threshold; Further comprising the steps of: 15. The method of claim 14,
And if the communication sensitivity of the plurality of WiFi networks is equal to or greater than the first threshold value, performing the step (e). 14. The method of claim 13, wherein step (b)
Based on position information of a wireless communication apparatus to which the wireless communication method is applied from the satellite and information on the TV idle band received from the predetermined database through the cellular network, And determining whether a band exists. 14. The method of claim 13, wherein step (b)
And determining whether the available TV idle bandwidth is present based on the available TV idle bandwidth information generated through Cognitive Radio technology. 14. The method according to claim 13, wherein, in the step (c)
Establishing a communication connection through the cellular network if the communication sensitivity of the super Wi-Fi network is less than the second threshold; Further comprising the steps of:

Images