KR20170017386A

KR20170017386A - Site survey

Info

Publication number: KR20170017386A
Application number: KR1020150111227A
Authority: KR
Inventors: 김현진; 국용근
Original assignee: 김현진; 국용근
Priority date: 2015-08-06
Filing date: 2015-08-06
Publication date: 2017-02-15

Abstract

The present invention relates to a Wi-Fi antenna, and more specifically, to an apparatus and method for measuring an area in which Wi-Fi mobile devices are concentrated and implementing movement and directivity of an antenna. The apparatus is an apparatus in which an upper antenna is controlled in an oriented direction in such a way as to be attached to a lower AP device. In other words, a method for measuring an area in which Wi-Fi mobile devices are concentrated comprises the steps of: sensing, by an RF sensor (410) within a wireless sharer body (300), a mobile device in a short distance; and measuring, by Site Survey using Air Magnet Survey 6.0 installed in the wireless sharer body, the area in which mobile devices are concentrated. The present invention improves efficiency of a Wi-Fi sharer by measuring the area in which Wi-Fi mobile devices are concentrated and implementing the movement and directivity of an antenna.

Description

Wi-Fi mobile device density measurement method and antenna moving technology {Site survey}

The present invention relates to a Wi-Fi antenna, and more particularly to a device for measuring a dense area with a Wi-Fi mobile device and realizing movement and directivity of an antenna, In the direction of the arrow.

Generally, Wi-Fi uses wireless LAN technology that enables wireless communication.

The above-mentioned Wi-Fi is designed to solve this problem because the amount of data required to meet the capacity required for the Internet, video, and apps to meet the data is insufficient.

In addition, Air Magnet Survey 6.0 continuously monitors the wireless LAN channel and detects vulnerabilities, hacking tools, and problems with 802.11N among router configurations in advance.

However, the above-mentioned Wi-Fi has a problem in that the use distance is limited due to the wireless LAN, and the connection is disconnected when the range is out of range.

Accordingly, as described above, the conventional WiFi amplifier has the amplifying application and the amplified USB, but the effect is not so different, and the user is inconvenient. In the case of home products, the range is within 20 to 30 meters. For enterprise products, the range is from 100 to 200 meters. Because of the limited use distance, in the case of mobile phones, the existing Wi-Fi reception range is widened, To reduce data charges and to maximize Wi-Fi functions, thereby solving the problem of inconvenience.

That is, the present invention relates to a method for measuring a densely populated area of a Wi-Fi mobile device and a technique related to antenna movement, which measures a dense area with a Wi-Fi mobile device and implements movement and directivity of the antenna.

In addition, it utilizes Site Survey using Air Magnet Survey 6.0 built in this device.

Accordingly, the present invention is a device for realizing the movement and directivity of an antenna by measuring a dense zone with a Wi-Fi mobile device. The device is attached to a lower AP device in a shape, Thereby increasing the efficiency.

1 is a front view showing an embodiment according to the present invention;
2 is an internal exploded view showing an embodiment according to the present invention;
3 is a side elevation view according to the present invention;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention improves the efficiency of a Wi-Fi router by implementing an antenna movement and directivity by measuring a dense zone with a Wi-Fi mobile device.

That is, in the present invention, the antenna 100, the 2.4 GHz antenna 200 and the 5 GHz antenna 210 are located at the top of the wireless router main body 300, the internal circuit 400 is located in the wireless router main body 300 An RF sensor 410, a step motor 1 420 and a step motor 2 421 in an internal circuit 400.

Here, the antenna 100 is a rod-shaped basic antenna located at the upper end of the wireless router main body 300, and is formed so as to vertically spread around the rod.

The 2.4 GHz antenna 200 and the 5 GHz antenna 210 vertically positioned with respect to the antenna 100 form a conventional omnidirectional antenna as a function of a directional antenna.

Also, the wireless router main body 300 is formed in the same manner as a general AP configuration.

The RF sensor 410 located in the wireless router main body 300 is configured to detect a mobile device within a short distance and utilize a site survey using the Air Magnet Survey 6.0 built in the device.

The step motor 1 420 and the step motor 2 421 located at the upper part of the main body 300 of the wireless router are configured to direct the WiFi to the most concentrated area based on the signal sensed by the RF sensor 410.

Hereinafter, the process of using the present invention will be described.

As described above, in the embedded configuration in the wireless router device main body 300, the distribution of the wireless devices grasped using the Site Survey through the Air Magnetic Program 6.0 is primarily grasped. Based on the above information, the RF sensor 410 senses the position of the mobile device. The stepped motor 1 420 and the step motor 2 421 are moved in a straight line to the 2.4 GHz antenna 200 and the 5 GHz antenna 210, which are directional antennas, .

100: Antenna
200: 2.4 GHz antenna
210: 5 GHz antenna
300: Wireless router body
400: internal circuit
410: RF sensor
420: Step motor 1
421: Step motor 2

Claims

For techniques related to WiFi mobile device density measurement and antenna mobility;
The RF sensor 410 located in the wireless router device main body 300 measures a mobile device dense area measuring a mobile device dense area by using a site survey using the Air Magnet Survey 6.0 built in the device, Way.

The method of claim 1, further comprising:
The 2.4 GHz antenna 200 and the 5 GHz antenna 210 form a conventional omnidirectional antenna as a function of a directional antenna and the step motor 1 420 and the step motor 2 421 located at the upper end of the wireless router main body 300 Based on signals detected by the RF sensor (410), implements antenna movement and Wi-Fi directivity in the most dense region.