KR100935982B1 - Method for setting ip in wireless lan ibss mode - Google Patents

Abstract

The present invention relates to a method of setting an Internet Protocol (IP) in a wireless LAN Independent Basic Service Set (IBSS) mode. A join request step of the second station transmitting a probe request signal to the first station; A join response step of transmitting a probe response signal including communication channel information, a service set ID, a basic service set ID, and an IP address to the second station after the first station receives the probe request signal from the second station; ; Joining, by the second station, an IBSS mode by setting communication channel information, a service set ID, and a basic service set ID using a probe response signal from the first station; And the second station 20 includes an IP setting step of setting an IP address using the IP address from the first station.

WLAN, High Performance WLAN, WiFi, IBSS, Adhoc, IP Settings

Description

IP setting method in WLAN LAN mode {METHOD FOR SETTING IP IN WIRELESS LAN IBSS MODE}

The present invention relates to an IP (Internet Protocol) setting method that can be applied to the Independent Basic Service Set (IBSS) mode (or Adhoc mode) of a wireless LAN. In particular, in the IBSS mode of a wireless LAN, a wireless LAN for automatically setting an IP address It relates to an IP setting method in the IBSS mode.

In general, two types of usage modes, namely, infrastructure mode and IBSS mode (aka adhoc mode), are used in the use of high-performance wireless LAN (WiFi). In the case of the Internet, the infrastructure mode using the Internet after accessing the AP (Access Point) is mainly used.In the embedded platform (Sony PSP / Mylo, Nitendo DS, Digital Camera, Smartphone, etc.), each killer application is used. It is equipped with (killer application) and utilizes infrastructure mode / IBSS mode in parallel.

In addition, Voice over Internet Protocol (VoIP) using infrastructure mode in smartphones will be a major high-performance WiFi application.In digital cameras, infrastructure mode / IBSS mode is used. The data communication used is a high performance wireless LAN (WiFi) application. On the other hand, in game consoles such as Sony PSP (Play Station Portable) or Nintendo DS, competitive games using IBSS mode are high-performance Wi-Fi (WiFi) applications, and in infrastructure mode even in personal communicators such as Mylo. And IBSS mode are used together to perform messenger and voice chatting functions.

However, in using a high-performance wireless LAN (WiFi) has been a lot of inconvenience when using a network (network) protocol called TCP (IP). This is one of the reasons that Bluetooth is being adopted in the market at a tremendous rate, while high-performance wireless LAN (WiFi) is spreading relatively late. Of course, this is why the issues of power consumption and size are bigger. However, when the module size of the current high-performance wireless LAN (WiFi) is reduced and power consumption is reduced, it is urgently necessary to solve the 'user convenience' called 'IP setting'.

On the other hand, in the infrastructure mode, since the Dynamic Host Configuration Protocol (DHCP) function is usually supported using a server machine, users need to configure a separate IP after connecting to the AP using a high-performance wireless LAN. Not. However, the embedded system using IBSS mode does not have such a server function, so the IP address setting is a burden on the user. Even current power users can't go to the network configuration window and configure the IP, which is difficult for beginners.

1 is a view showing an IP setting method in the conventional IBSS mode.

In the conventional IBSS mode illustrated in FIG. 1, two or more stations, that is, a first station STA1 10 and a second station STA2 20 join to each other in a WLAN. do.

First, the second station 20 transmits a probe request signal to the first station 10 (S10), and accordingly, the first station 10 responds to the second station 20 with a probe response. (probe response) Send a signal. In this case, the probe response signal includes channel information that can communicate with the first station 10, service set identifier (SSID) information, and basic service set identifier (BSSID) information.

Accordingly, the second station 20 performs a join process by setting a communication channel, SSID, and BSSID in the same manner as the first station 10 in order to communicate with the first station 10. do.

Hereinafter, the IP setting method in the conventional IBSS mode illustrated in FIG. 1 will be described. In the IBSS mode of the WLAN, two or more stations, that is, the first station STA1 and the second station STA2 communicate with each other. In order to do this, IP configuration is necessary. To do this, the following procedure should be performed.

First, an IP is first set at the first station STA1 generating the IBSS. Second, after the second station STA2 accesses the SSID (Service Set Identifier) / BSSID (Basic Service Set IDentifier) of the IBSS network of the first station STA1, the other station's IP must be known. And thirdly, it should be set to an IP not used by other users.

However, the conventional IP setting method in the IBSS mode as shown in FIG. 1, as described above, has an inconvenient problem of manually setting the IP manually in the first station 10 and the second station 20. have.

The present invention has been proposed to solve the above problems of the prior art, and an object thereof is to provide an IP setting method in a WLAN IBSS mode for automatically setting an IP address in an IBSS mode of a WLAN.

One technical aspect of the present invention for achieving the above object of the present invention is a method for configuring an IP in an IBSS mode of a WLAN including a first station and a second station, wherein the second station is A join request step of transmitting a probe request signal to a first station; A join response step of transmitting a probe response signal including communication channel information, a service set ID, a basic service set ID, and an IP address to the second station after the first station receives the probe request signal from the second station; ; Joining, by the second station, an IBSS mode by setting communication channel information, a service set ID, and a basic service set ID using a probe response signal from the first station; And the second station comprises an IP setting step of setting an IP address using the IP address from the first station.

In the IP setting step, the second station sets an IP address by '+1' increasing the IP address from the first station.

The IP setting method may further include a communication step in which each of the first station and the second station transmits and receives a beacon signal including an IP address.

According to the present invention, there is an effect of automatically setting the IP address in the IBSS mode of the WLAN. Accordingly, the IP address can be easily set in the IBSS mode of the WLAN.

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

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

2 is a flowchart illustrating a method of configuring an IP in a WLAN IBSS mode according to the present invention.

2, in the WLAN IBSS mode according to the present invention, an IP setting method automatically sets an IP in an IBSS mode of a WLAN including a first station 100 and a second station 200.

The IP setting method in the WLAN IBSS mode of the present invention includes a join request step (S100) in which the second station 200 transmits a probe request signal to the first station 10, and the first step. After the first station 100 receives the probe request signal from the second station 200, a probe response including communication channel information, a service set ID (SSID), a basic service set ID (BSSID), and an IP address is provided. Join response step (S200) for transmitting a response signal to the second station (200), and the second station 200 is a communication channel information, service using the probe response signal from the first station (100) Join step (S300) for setting a set ID and a basic service set ID to join the IBSS mode, and the second station 200 sets an IP address using an IP address from the first station 100. A setting step S400 is included.

In the IP setting step (S400), the second station 200 sets the IP address by increasing '+1' from the IP address from the first station 100.

The IP setting method may further include a communication step in which each of the first station 100 and the second station 200 transmits and receives a beacon signal including an IP address.

3 is a format diagram showing the configuration of IBSS IP information for IP configuration according to the present invention.

In FIG. 3, the IBSS IP information configuration for the IP configuration includes an information configuration IE1 including an element ID, an information configuration IE2 including a length, and an organization configuration ID including an OUI. (IE4), an information structure (IE5) including version information, an information structure (IE6) including information on the number of connected stations, and an information structure (IE6) including an IBSS IP address.

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

Referring to FIG. 2 and FIG. 3, the IP setting method in the WLAN IBSS mode according to the present invention will be described. In the IP setting method in the WLAN IBSS mode of the present invention, the first station 100 and the second station ( IP may be automatically set in the IBSS mode of the WLAN including the 200).

First, referring to FIG. 2, in the IP setting method in the WLAN IBSS mode of the present invention, in the join request step (S100) of the present invention, the second station 200 probes the first station 10. Send a probe request signal.

Here, the probe request signal is a signal for requesting information on the station of the other party. For example, in the probe request signal, a source address may be set to '127.0.0.1', and a destination address may be set to '127.0.0.255', which means broadcasting. have.

Next, in the join response step (S200) of the present invention, after the first station 100 receives the probe request signal from the second station 200, communication channel information, service set ID (SSID), basic service A probe response signal including a set ID (BSSID) and an IP address is transmitted to the second station 200.

For example, the first station 100 confirms that the probe request signal is a station and a probe request signal using the source address and the destination address included in the probe request signal received from the second station 200, A probe response signal including communication channel information, a service set ID (SSID), a basic service set ID (BSSID), and an IP address is transmitted to the second station 200.

Referring to FIG. 3, an example of configuring an IBSS IP information for IP configuration includes an information structure IE1 including an element ID and an information structure IE2 including a length. Information configuration including the organization unique ID (OUI), information configuration including the version information (IE5), information configuration including the number of connected stations (IE6) and information configuration including the IBSS IP address (IE6).

Next, in the joining step S300 of the present invention, the second station 200 sets communication channel information, service set ID, and basic service set ID by using a probe response signal from the first station 100. Join in IBSS mode.

That is, the second station 200 is the same as the first station 100 by using the communication channel information, the service set ID, and the basic service set ID included in the probe response signal from the first station 100. Set communication channel information, service set ID, and basic service set ID.

In the IP setting step S400 of the present invention, the second station 200 sets an IP address using the IP address from the first station 100. That is, the second station 200 sets an IP address using the IP address included in the probe response signal from the first station 100.

Specifically, in the IP setting step (S400), the second station 200 sets the IP address by increasing '+1' from the IP address from the first station 100.

For example, when the IP address of the first station 100 is '127.0.0.2', the second station 200 increases '+1' from the IP address of the first station 200 to '127.0'. Can be set to .0.3 '.

Meanwhile, the IP setting method of the present invention may further include a communication step S500. In the communication step, each of the first station 100 and the second station 200 receives a beacon signal including an IP address. Send and receive each other.

In the present invention as described above, in the IBSS mode, such as a high-performance wireless LAN, the IP address can be automatically set by transmitting an IP address using a probe response signal.

1 is a view showing an IP setting method in a conventional IBSS mode.

2 is a flowchart illustrating a method for configuring an IP in a WLAN IBSS mode according to the present invention.

Figure 3 is a format diagram showing the configuration of IBSS IP information for IP settings in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

100: first station

200: second station

Claims (3)

In the method for setting the IP in the IBSS mode of the wireless LAN including the first station 100 and the second station 200, Join request step (S100) for the second station 200 transmits a probe request signal to the first station (10); After the first station 100 receives the probe request signal from the second station 200, the probe response includes communication channel information, a service set ID (SSID), a basic service set ID (BSSID), and an IP address. Join response step (S200) for transmitting a (probe response) signal to the second station (200); The second station 200 joins the IBSS mode by setting communication channel information, service set ID, and basic service set ID using the probe response signal from the first station 100 (S300); And The second station 200 sets an IP address using the IP address from the first station 100 (S400). IP setting method in a wireless LAN IBSS mode comprising a. The method of claim 1, wherein the IP setting step (S400), The second station (200) IP setting method in the WLAN IBSS mode, characterized in that to set the IP address by increasing the '+1' from the IP address from the first station (100). The method of claim 1, wherein the IP setting method comprises: Each of the first station (100) and the second station (200) IP setting method in the WLAN IBSS mode, characterized in that further comprising the step of transmitting and receiving each other beacon signal including an IP address.

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