KR101718582B1 - Dual WiFi Apparatus and Wireless Internet System using the same - Google Patents

Abstract

The present invention relates to a dual Wi-Fi device for wireless Internet and a wireless Internet system using the same, which can more efficiently perform installation, maintenance, and management using a mobile communication relay system. A wireless Internet system using a dual WiFi device for wireless Internet includes a signal input unit including a plurality of input ports for inputting a plurality of mobile communication signals output from a distributor of a mobile communication repeater and an input port for inputting an Ethernet signal, A signal converter for converting the input Ethernet signal into at least a plurality of WiFi signals, a signal combiner for combining the inputted plurality of mobile communication signals and a plurality of WiFi signals converted through the signal converter, And outputs a plurality of coupled signals coupled through the coupling unit to a plurality of output ports Dual WiFi apparatus includes a signal output; A coaxial cable extending and outputting a coupling signal outputted through each output port by a predetermined length; And a divider for dividing a coupled signal outputted through each of the output ports into a plurality of coupled signals, wherein the coaxial cable includes an antenna for radiating a corresponding signal, And may be composed of a plurality of coaxial cables corresponding to a plurality of coupled signals.

Description

TECHNICAL FIELD [0001] The present invention relates to a dual Wi-Fi device for a wireless Internet, and a wireless Internet system using the same,

The present invention relates to a wireless Internet system, and more particularly, to a dual Wi-Fi device for a wireless Internet that can more efficiently perform installation, maintenance, and management using a mobile communication relay system, and a wireless Internet system .

Generally, wireless Internet services include wireless LAN, portable internet (Wibro), and EVDO.

The wireless LAN is called a wireless fidelity (WiFi) or a wireless LAN (WLAN) and conforms to the IEEE 802.11x standard in 1999. It connects an access point (AP) to a wired LAN network, Laptop computers, etc., connect to the AP by wireless connection to the AP.

The Institute of Electrical and Electronic Engineers (IEEE) 802 standards refers to a set of LAN access method and protocol standards developed by the IEEE 802 Commission, which is promoting the standardization of computer networks.

The reference model of the IEEE 802 standard protocol is based on the concept of layering of the OSI reference model, and it standardizes mainly the lower two layers out of the seven layers of the OSI model.

The wireless LAN service uses the ISM band (unlicensed band) of 2,400 to 2,483 GHz which complies with the IEEE 802.11b / g international standard and has narrow coverage due to frequency interference with other communication services and low power.

Therefore, although the 2.4GHz band wireless LAN service is used locally in indoor and narrow coverage hotspots, such a wireless LAN system can be easily interworked with the Internet network and is produced and supplied as an international standard system specification, Price, high-speed data transmission, and so on. At present, the IEEE 802.11g standard and IEEE 802.11n have been proposed for higher-speed data transmission.

There is also a method using the 2.3 to 2.5 GHz band and an IEEE 802.11a standard with a transmission rate of 54 Mbps.

That is, the 2.4 GHz band wireless LAN scheme can transmit high-speed data using the ISM band. However, due to narrow coverage and frequency interference with a radius of several tens of meters, the service area is limited to indoor and hot spots, Band wireless LAN scheme uses high-speed data transmission while maintaining a wider coverage without frequency interference and output limitation because it uses a permission band of portable Internet service.

Such wireless LANs are served in large bookstores, fast food shops, coffee shops, airports, universities, and the like.

Recently, WiFi installation as a wireless LAN has been increasing due to an increase in smartphone users, and accordingly, a large number of WiFi APs are required to be installed. Therefore, it is required to efficiently install and maintain WiFi and reduce installation costs.

That is, a plurality of WiFi installed in order to secure the coverage of a desired area is installed. In addition, WiFi has a problem in terms of maintenance, management, and installation because the output is limited due to the use of the common frequency, and the number of smartphone subscribers increases and more and more WiFi is installed.

It is an object of the present invention to provide a dual WiFi device for a wireless Internet which can more effectively install, maintain, and manage a WiFi AP using a mobile communication relay system, and And a wireless Internet system using the device.

According to an aspect of the present invention, there is provided a dual WiFi device for a wireless Internet, including: a signal input unit including a plurality of input pods for inputting a plurality of mobile communication signals and an input port for inputting an Ethernet signal; A signal converter for converting the input Ethernet signal into a plurality of WiFi signals; A signal combiner for combining the plurality of input mobile communication signals with a plurality of WiFi signals converted through the signal converter; And a signal output unit for outputting a plurality of combined signals coupled through the signal combining unit through a plurality of output ports, respectively.

For example, the signal conversion unit may be configured by combining at least two WiFi modules having a single input / output according to IEEE 802.11g. In another example, the signal conversion unit may combine at least one WiFi module having multiple inputs / . Each of the mobile communication signals may be a mobile communication signal including at least one of a 2G mobile communication signal, a 3G mobile communication signal, and a 4G mobile communication signal.

According to another aspect of the present invention, there is provided a wireless Internet system using a dual Wi-Fi device for a wireless Internet, including: a plurality of input pods for inputting a plurality of mobile communication signals output from a distributor of a mobile communication repeater; A signal input unit including an input port for inputting an Ethernet signal; a signal converter for converting the input Ethernet signal and the optical Ethernet signal into at least a plurality of WiFi signals; And a signal output unit for outputting a plurality of combined signals coupled through the signal combining unit through a plurality of output ports, respectively, the dual WiFi device comprising: A coaxial cable having a predetermined length for extending a coupling signal output through each output port by a predetermined length; And a divider for dividing a coupled signal outputted through each of the output ports into a plurality of coupled signals, wherein the coaxial cable includes an antenna for radiating a corresponding signal, And may be composed of a plurality of coaxial cables corresponding to a plurality of coupled signals.

The signal conversion unit of the dual WiFi device may be configured by combining at least two WiFi modules having a single input / output according to IEEE 802.11g, for example. In another example, a WiFi module having multiple inputs / At least one or more of which may be combined. Each mobile communication signal output from the distributor of the mobile communication repeater may be a mobile communication signal including at least one of a 2G mobile communication signal, a 3G mobile communication signal, and a 4G mobile communication signal.

As described above, according to various aspects of the present invention, in the case of a mobile communication repeater, there is no restriction on the output using the frequency allocated by the service provider. However, in the case of using a common frequency such as WiFi, (Dual WiFi) device with two maximum output powers at the next stage of the output divider to minimize the installation point of the WIFI and to utilize the coaxial cable of the existing installed mobile communication relay system, By transmitting the WIFI signal together with the signal, the installation of the UTP cable is minimized, and as a result, the installation, maintenance, and management of the WiFi AP (or WiFi module) can be more efficiently performed.

1 is a configuration diagram of a dual WiFi device for a wireless Internet according to an embodiment of the present invention;
FIG. 2 is a diagram illustrating an external structure of the dual WiFi device of FIG. 1;
3 is a configuration diagram of a wireless Internet system using a dual WiFi device for a wireless Internet according to an embodiment of the present invention;
4 is a configuration diagram of a dual WiFi device for a wireless Internet according to another embodiment of the present invention;
5 is a configuration diagram of a dual WiFi device for a wireless Internet according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals are used to denote like elements in the drawings, even if they are shown in different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a block diagram of a dual WiFi device for a wireless Internet according to an embodiment of the present invention. As shown in the figure, a signal input unit 110, a signal conversion unit 130, a signal combining unit 150, And an output unit 170.

The signal input unit 110 according to the present embodiment includes a first input port 111 for inputting a first mobile communication signal, a second input port 112 for inputting a second mobile communication signal, and an Ethernet And a third input port 113 for inputting. In the present embodiment, the signal input unit 110 includes two input ports 111 and 112 for inputting mobile communication signals, but the present invention is not limited thereto. The input port 110 may include a plurality of input ports for inputting a plurality of mobile communication signals, respectively .

In this embodiment, the first mobile communication signal and the second mobile communication signal are, for example, signals between other generations coexisting with each other. For example, the first mobile communication signal is a second generation (2G) (3G) or fourth generation (4G) signal. In another example, the first mobile communication signal and the second mobile communication signal may be the same signals, which are branched from the distributor 330 of the mobile communication repeater 310, May be a signal (e.g., one of 2G, 3G, or 4G) or a combined signal between different generations (e.g., a 2G + 3G signal or a 2G + 4G signal). In the present embodiment, for convenience of explanation, the first mobile communication signal and the second mobile communication signal are the same signal as the 2G + 4G signal.

The signal converting unit 130 according to the present embodiment converts an Ethernet signal input through the third input port 113 of the signal input unit 110 into at least two WiFi signals (for example, converting an Ethernet signal into a WiFi signal For example, it is possible to combine two or more WiFi modules (or AP modules) having a single input / output according to IEEE 802.11g, or according to IEEE 802.11n And may be combined with one or more WiFi modules having multiple inputs and outputs. In this embodiment, the signal converting unit 130 includes two WiFi modules according to IEEE 802.11g or one WiFi module according to IEEE 802.11n.

The signal combining unit 150 according to the present embodiment combines a plurality of mobile communication signals inputted through the signal input unit 110 and a plurality of WiFi signals converted through the signal converting unit 130, The first and second mobile communication signals inputted through the first input port 111 and the second input port 112 of the signal input unit 110 and the signal conversion unit 130, For example, two 2G + 4G + WiFi combined signals.

The signal output unit 170 according to the present embodiment is for outputting a plurality of combined signals generated through the signal combining unit 150 through a corresponding plurality of output ports. For example, The controller 170 can output two 2G + 4G + WiFi combined signals generated through the signal combining unit 150 through the corresponding two first and second output ports 171 and 172, respectively.

FIG. 2 is a view showing the external structure of the dual WiFi device of FIG. 1. FIG. 2 (a) is a side view of the dual WiFi device 100, FIG. 2 (b) is a plan view and FIG.

2 (a), a first input port 111, a second input port 112, and an Ethernet signal of the signal input unit 110 are input to one side of the dual WiFi device 100 A third input port 113 is formed. In this embodiment, the third input port 113 may include an input port 113a for inputting a power supply + Ethernet signal and an input port 113b for inputting an Ethernet signal.

2 (c), the first output port 171 and the second output port 172 of the signal output unit 170 are formed on the other side of the dual WiFi device 100.

Each of the configurations 110, 130, 150 and 170 of the dual WiFi device 100 described above with reference to FIGS. 1 and 2 includes a signal input unit 110, a signal conversion unit 130, a signal combining unit 150, a signal output unit 170, Although the forward signal processing has been described, it is needless to say that the signal processing can be performed in the opposite direction to the forward direction. For example, when the reverse signal is processed, the signal output unit 170 receives at least one of a WiFi signal and a mobile communication signal, and the signal combining unit 150 outputs a WiFi signal and a WiFi signal if the input signal is a WiFi + The signal conversion unit 130 converts the separated WiFi signal into an Ethernet signal, and the signal input unit 110 transmits the converted Ethernet signal and the separated mobile communication signal through the corresponding ports 111, 112, and 113 Can be output.

Next, an example of the operation of the dual WiFi device 100 according to the embodiment of the present invention will be described.

When the first and second 2G + 4G mobile communication signals are input through the first and second input ports 111 and 112 of the signal input unit 110 and the Ethernet signal is input through the third input port 113, The signal converting unit 130 converts the input Ethernet signal into a WiFi signal and outputs the WiFi signal as at least two first and second WiFi signals.

The signal combining unit 150 combines the first and second WiFi signals output from the signal converting unit 130 with the first and second 2G + 4G mobile communication signals input through the signal input unit 110 And outputs the first and second 2G + 4G + WiFi combined signals through the first and second output ports 171 and 172. The first and second 2G + 4G + WiFi combined signals are output through the first and second output ports 171 and 172, do.

3 is a block diagram illustrating a configuration of a wireless Internet system using a dual WiFi device for a wireless Internet according to an embodiment of the present invention. The wireless Internet system includes a mobile communication repeater 310, a distributor 330, a dual WiFi device 100, a distributor 350, A cable 370, and an antenna 390.

The mobile communication repeater 310 according to the present embodiment is an apparatus for extending the coverage of an end device such as a base station of a mobile communication network, and is the same as a conventional mobile communication repeater, and thus a detailed description thereof will be omitted.

The distributor 330 according to the present embodiment distributes the mobile communication signal output from the mobile communication repeater 310 to a plurality of mobile communication signals. In this embodiment, the distributor 330 divides the first mobile communication signal and the 2 mobile communication signal will be described as an example.

The dual WiFi device 100 according to the present embodiment is a dual WiFi device 100 described with reference to FIG. 1, for example, a first and a second WiFi device 100 output from the distributor 330 of the mobile communication repeater 310, A signal input unit 110 including first and second input pods 111 and 112 for inputting mobile communication signals and a third input port 113 for inputting an Ethernet signal through a UTP cable of a LAN; A signal converter 130 for converting the Ethernet signal input through the port 113 into at least two WiFi signals, a first and second mobile communication signals input through the first and second input ports 111 and 112, A signal combining unit 150 for combining the two WiFi signals converted by the signal converting unit 130 and a combining unit 150 for combining the two combined signals through the signal combining unit 150 into two first and second output ports And a signal output unit 170 for outputting the signals through the signal lines 171 and 172. More specifically, the contents of FIG. 1 and FIG. 2 described above are referred to.

The distributor 350 according to the present embodiment inputs two mobile communication + WiFi combined signals output through the first and second output ports 171 and 172 of the signal output unit 170 of the dual WiFi device 100 And may include two distributors 351 and 352. Each of the distributors 351 and 352 distributes the inputted one mobile communication + WiFi combined signal into a plurality of divided signals.

The coaxial cable 370 according to the present embodiment includes a plurality of cables having a predetermined length to extend and transmit a plurality of mobile communication + WiFi combined signals outputted through the respective distributors 351 and 352, respectively.

The antenna 390 according to the present embodiment is installed at the end of each coaxial cable 370 and emits a plurality of mobile communication + WiFi combined signals transmitted through a plurality of coaxial cables 370 to the outside.

WiFi coupling signals output from the dual WiFi device 100 are extended a certain distance through the respective coaxial cables 370 and then transmitted to the outside through the respective antennas 390. [ It can radiate.

Each of the configurations 310, 330, 100, 350, 370 and 390 of the wireless Internet system described above with reference to FIG. 3 includes a mobile communication repeater 310 → a distributor 330 → a dual WiFi device 100 → a distributor 350 → a coaxial cable 370 → an antenna 390 (That is, direction from the communication system to the terminal) of the base station (base station), but it is needless to say that signal processing can be performed in the reverse direction (that is, the direction of the communication system from the terminal) opposite to the forward direction.

An exemplary operation of a wireless Internet system using a dual Wi-Fi device for a wireless Internet according to an embodiment of the present invention will now be described.

First, a 2G + 4G mobile communication signal output from the mobile communication repeater 310 is divided into a plurality of mobile communication signals, for example, a first 2G + 4G mobile communication signal and a second 2G + 4G mobile communication signal by the distributor 330 And outputs it.

When the first and second 2G + 4G mobile communication signals output from the distributor 330 are input and the Ethernet signal is input through the UTP cable of the LAN, the dual WiFi device 100 converts the input Ethernet signal into a plurality of WiFi For example, first and second WiFi signals, and then combines the converted first and second WiFi signals with the input first and second 2G + 4G mobile communication signals to generate first and second 2G + 4G + And generates and outputs a WiFi combined signal.

The distributors 351 and 352 distribute the first and second 2G + 4G + WiFi combined signals output from the dual WiFi device 100 into a plurality of 2G + 4G + WiFi combined signals, respectively, The signal is transmitted through the corresponding coaxial cable 370 to the corresponding coverage area and then emitted through each corresponding antenna 390.

4 is a block diagram of a dual WiFi device 400 for a wireless Internet according to another embodiment of the present invention. As shown in the figure, a signal input unit 410, a signal conversion unit 430, signal combining units 451 and 452 ), And a signal output unit 470.

The signal input unit 410 includes first and second input ports 411 and 412 through which first and second mobile communication signals of 2G / 3G / 4G are input, a third input port 413 through which the Ethernet signal Ethernet_1 is input, A fourth input port 414 for inputting the optical Ethernet signal through the connection of the optical cable, and an output port 415 for outputting the Ethernet signal Ethernet_2. The signal input unit 410 further includes a fourth input port 414 and an output port 415 as compared with the signal input unit 110 of FIG. The output port 415 is an Ethernet signal output unit for transmitting the Ethernet signal Ethernet_1 or the optical Ethernet signal input through the third input port 413 or the fourth input port 414 for cascade connection will be. In this embodiment, 2G / 3G / 4G represents a mobile communication signal in which one or more of 2G, 3G, and 4G are combined.

The signal converting unit 430 is composed of one WiFi module (WiFi 2x2 802.11n) having multiple inputs and outputs in accordance with IEEE 802.11n and performs the same or similar function as the signal converting unit 130 of FIG.

The signal combining units 451 and 452 receive the first and second mobile communication signals of 2G / 3G / 4G input through the first and second input ports 411 and 412 and the two 2.4GHz WiFi Signals to generate two 2G / 3G / 4G + WiFi combined signals, for example, a band pass filter (BPF) and a diplexer.

The signal output unit 470 according to the present embodiment includes first and second output ports 471 and 472 for outputting two 2G / 3G / 4G + WiFi combined signals generated by combining through the signal combining units 451 and 452, respectively .

The dual Wi-Fi device 400 of FIG. 4 can be used in place of the device 100 except for the dual Wi-Fi device 100 of FIG. 1 in the wireless Internet system using the dual Wi-Fi device of FIG.

5 is a block diagram of a dual WiFi device 500 for a wireless Internet according to another embodiment of the present invention. As shown in the figure, a signal input unit 510, a signal conversion unit 530, a signal combining unit 551, 552, and a signal output unit 570.

The signal input unit 510 includes first and second input ports 511 and 512 for receiving first and second mobile communication signals of 2G / 3G / 4G, a third input port 513 for inputting an Ethernet signal Ethernet_1, A fourth input port 514 for inputting the optical Ethernet signal through the connection of the optical cable, and an output port 515 for outputting the Ethernet signal Ethernet_2. The signal input unit 510 is the same as the signal input unit 410 of FIG.

The signal converting unit 530 is composed of two WiFi modules (WiFi 1x1 802.11n) of IEEE 802.11n using a single input / output (SISO) in the present embodiment, and has the same / similar function as the signal converting unit 430 of FIG. 4 .

The signal combining units 551 and 552 receive the first and second mobile communication signals of 2G / 3G / 4G input through the first and second input ports 511 and 512 and the two 2.4GHz WiFi Signals to generate two 2G / 3G / 4G + WiFi combined signals, for example, a band pass filter (BPF) and a diplexer. The signal combining units 551 and 552 are the same as the signal combining units 451 and 452 of FIG.

The signal output unit 570 according to the present embodiment includes first and second output ports 571 and 572 for outputting two 2G / 3G / 4G + WiFi combined signals generated by combining through the signal combining units 551 and 552, respectively . The signal output unit 570 is the same as the signal output unit 470 of FIG.

The dual WiFi device 500 of FIG. 5 can be used in place of the device 100 except for the dual WiFi device 100 of FIG. 1 in a wireless Internet system using the dual WiFi device of FIG.

1, 2, 4 and 5, the dual WiFi devices 100, 400, 500 according to various embodiments of the present invention may include input ports 111-113, 411-415, 511-515 of the signal inputs 110, 410, The output ports 171-172, 471-472, and 571-572 of the units 170, 470, and 570 are formed on two side surfaces that are physically opposite to each other.

Therefore, as shown in FIG. 3, only when the dual WiFi devices 100, 400, and 500 of the present invention are attached to the distributor 330 installed in the conventional building (the existing general distributor is mostly branched into two) , It is possible to easily transmit a WiFi signal using an existing mobile communication network.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100,400,500: Dual Wi-Fi devices
110, 410, 510:
111-112,411-412,511-512: Mobile communication signal input (output) port
113,413-414,513-514: Ethernet signal input (output) port
130, 430, 530:
150, 451-452, 551-552:
170, 470, 570:
171-172,471-472,571-572: Mobile communication + WiFi combined signal output (input) port
310: Mobile communication repeater
330,350: Dispenser
370: Coaxial cable
390: Antenna

Claims (15)

A dual WiFi device for wireless Internet for transmitting a WiFi signal using an existing mobile communication relay system installed to transmit a mobile communication signal,
A plurality of input ports connected to the mobile communication repeater for receiving a plurality of mobile communication signals from the mobile communication repeater of the existing mobile communication relay system and inputting the plurality of mobile communication signals, A signal input unit including an input port for input;
A signal converter for converting the inputted one Ethernet signal into a plurality of WiFi signals equal to the number of the inputted mobile communication signals;
A signal combiner for combining the plurality of input mobile communication signals with a plurality of WiFi signals converted through the signal converter; And
And a signal output unit for outputting a plurality of combined signals coupled through the signal combining unit through a plurality of output ports,
And the plurality of output ports of the signal output unit are connected to the existing mobile communication relay system installed in the existing mobile communication relay system so that the existing mobile communication relay system installed in the signal output unit transmits the plurality of combined signals. Device. The method according to claim 1,
Wherein the signal converting unit is configured by combining at least two WiFi modules having a single input / output according to IEEE 802.11g. The method according to claim 1,
Wherein the signal converting unit is configured by combining at least one WiFi module having multiple inputs and outputs according to IEEE 802.11n. The method according to claim 1,
Wherein each of the mobile communication signals is a mobile communication signal including at least one of a 2G mobile communication signal, a 3G mobile communication signal, and a 4G mobile communication signal. The method according to claim 1,
Wherein the signal input unit further comprises an input port for inputting an optical Ethernet signal. 6. The method of claim 5,
Wherein the signal input unit further comprises an output port for outputting the input Ethernet signal. The method according to claim 1,
The mobile communication signal input port of the signal input unit is composed of two, the output port of the signal output unit is composed of two, and the input port and the output port are formed on two side surfaces physically facing each other Dual WiFi devices for wireless internet. A dual WiFi device for radiating a WiFi signal using a mobile communication repeater of a conventional mobile communication relay system installed to radiate a mobile communication signal, the dual WiFi device comprising: a plurality of mobile communication receivers A signal including a plurality of input pods for inputting a plurality of mobile communication signals output from the distributor of the mobile communication repeater and an input port for inputting one Ethernet signal, A signal converter for converting the inputted one Ethernet signal into a plurality of WiFi signals equal to the number of the inputted mobile communication signals; A signal combining unit for combining the plurality of WiFi signals, And a signal output unit for outputting a plurality of combined signals coupled through the combining unit through a plurality of output ports, respectively;
A coaxial cable having a predetermined length for transmitting a coupling signal output through each of the output ports; And
And an antenna disposed at an end of the coaxial cable and radiating a corresponding coupling signal,
Wherein the plurality of output ports of the signal output unit are connected to the coaxial cable of the existing mobile communication relay system installed in the base station so that the coaxial cable of the existing mobile communication relay system The wireless Internet system using a dual WiFi device for wireless Internet. 9. The method of claim 8,
And a distributor for distributing a combined signal output through each of the output ports to a plurality of combined signals, wherein the coaxial cable is composed of a plurality of coaxial cables corresponding to the plurality of combined signals. Wireless Internet system using Wi - Fi device. 9. The method of claim 8,
Wherein the signal conversion unit is configured by combining at least two WiFi modules having a single input / output according to IEEE 802.11g. 9. The method of claim 8,
Wherein the signal conversion unit is configured by combining at least one WiFi module having multiple inputs and outputs according to IEEE 802.11n. 9. The method of claim 8,
Wherein each mobile communication signal is a mobile communication signal including at least one of a 2G mobile communication signal, a 3G mobile communication signal, and a 4G mobile communication signal. 9. The method of claim 8,
Wherein the signal input unit of the dual WiFi device further comprises an input port for inputting an optical Ethernet signal. 9. The method of claim 8,
Wherein the signal input unit of the dual WiFi device further comprises an output port for outputting the input Ethernet signal. 9. The method of claim 8,
Wherein the dual WiFi device has two mobile communication signal input ports of the signal input unit and two output ports of the signal output unit, and the input port and the output port are two side surfaces And the wireless Internet system using the dual WiFi device for wireless Internet.

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