KR20120064954A - Method for internet access using ap in mobile communication terminal and mobile communication terminal therefor - Google Patents

Abstract

PURPOSE: A mobile communication terminal is provided to measure speed of a real packet in a specific node of the internet and to select an optimum wireless access point. CONSTITUTION: A local wireless communication unit(110) is connected with an AP(Access Point) through a local area wireless communication. The local wireless communication unit performs data communication through the AP. An access management unit(120) searches for present neighbor accessible APs. The access management unit selects the wireless APs.

Description

Method for internet access using wireless access point in mobile communication terminal and mobile communication terminal therefor {Method for internet access using AP in mobile communication terminal and mobile communication terminal therefor}

The present invention relates to a mobile communication terminal that receives an Internet service by accessing a wireless access point (AP), and more particularly, to a mobile communication terminal that selects one of a plurality of accessible wireless access points and connects to the Internet through this. It is about management skills.

As computer, electronic, and communication technologies have made rapid progress, various wireless communication services using wireless communication networks have been provided. The most basic wireless communication service is to provide voice call service wirelessly to mobile terminal users, which can provide services regardless of time and place, and complements voice call service by providing text message service. I'm doing it.

In addition, with the establishment of the Internet based on TCP / IP, the development of a system capable of searching various information using the Internet or transmitting various data including text, voice, image, video, etc. in real time is being made rapidly. In addition, in order to use various communication services using the Internet in a better environment, the diffusion of high-speed communication networks and the like is greatly increasing.

In addition, in recent years, in order to provide a communication service that transcends space, a wireless Internet service that provides an Internet communication service to a mobile communication service subscriber through a wireless communication network has emerged, and many companies have been developing technology for the wireless Internet. The wireless Internet service is an advanced personalization service according to the use of the terminal of the individual and has a feature of providing a unique information based on the mobility of the user.

Reflecting this trend, in recent years, smart phones, which are open mobile phones such as iPhone and Android phones, have exploded. Most of these smartphones use the 3G mobile communication network and WiFi communication network to access the Internet or use data communication services. As described above, most mobile communication terminals such as smart phones are equipped with internet access through 3G network or WiFi network, and mobile communication terminals with these functions are expected to be provided in the future. It is becoming.

Therefore, most of the mobile terminal users as described above use the Internet access service through the 3G network while traveling, and use the Internet access service through the WiFi communication access function in the area (WiFi zone) equipped with the WiFi AP. . In other words, users use 3G data networks that are charged for data communication and have relatively slow communication speeds when they are on the move, while users can access the Internet through WiFi networks that are less expensive and relatively faster in WiFi-enabled areas. Will be used.

Among the Internet connection services of the mobile communication terminals, the Internet connection service through the WiFi AP, which has a high communication speed and low cost, has been widely used in recent years. In addition, as the Internet connection service through the WiFi AP is popularized, communication providers are providing a service by installing a plurality of AP in many areas. Therefore, in recent years, in order to use the Internet access service through a WiFi AP in a specific region, there are a number of accessible APs, and research on which of these APs is used to access the Internet.

Conventionally, a method in which a user directly selects one of a plurality of accessible APs and accesses the Internet has been used, and recently, communication connection with an AP having the strongest wave strength by measuring the strength of radio waves between the AP and the mobile communication terminal The way to do it is used.

However, in the above-described method, although the strength of radio waves between the AP and the mobile communication terminal is strong, the data communication speed after the actual internet connection may be poor or the internet communication itself may be impossible. That is, the radio wave strength between the AP and the terminal is not exactly proportional to the overall internet communication speed. On the contrary, the access point of all users is congested by the strong radio wave strength, and the actual internet speed decreases or the internet access failure occurs.

Accordingly, the present invention has been made to solve the above problems, and when the mobile communication terminal selects any one of a plurality of wireless access points (AP) to access the Internet, it is possible to guarantee the overall actual Internet speed An object of the present invention is to provide a connection management method for selecting and accessing an AP and a mobile communication terminal using the same.

Other objects and advantages of the invention will be described below and will be appreciated by the embodiments of the invention. Further, objects and advantages of the present invention can be realized by the means and the combination shown in the appended claims.

In order to achieve the above object, the mobile communication terminal according to the present invention is a mobile communication terminal that can be connected to a plurality of wireless access point (AP) installed to be connected to the Internet network, connected through the wireless access point and short-range wireless communication Short-range wireless communication means capable of performing data communication by connecting to the Internet through a connected wireless access point; And searching for wireless access points that are accessible in the vicinity of the current location through the short-range wireless communication means, selecting the fastest wireless access point by measuring the actual packet rate with the Internet network among the found accessible wireless access points, and selecting the selected wireless access point. And access management means for establishing an internet connection.

According to another aspect of the present invention, a mobile communication terminal capable of accessing a plurality of wireless access points (AP) installed to be connected to the Internet network, the method for access processing through the wireless access point via the wireless access point, (a) in the vicinity of the current location Searching for accessible wireless access points; (b) measuring the actual packet rate with the Internet network for the discovered accessible wireless access points; (c) selecting a wireless access point having the fastest actual packet rate as a result of the measurement; And (d) setting up an Internet connection through the selected wireless access point.

According to the present invention, when a wireless access point is selected in a mobile communication terminal, the wireless terminal can measure an actual packet speed for a section to a specific node of the Internet network through a wireless access point in a mobile communication terminal, thereby achieving an optimal speed. By providing an access management method for selecting an access point, it is possible to provide an optimal Internet access service to the user, and the AP selection and Internet access processing can be performed without a separate operation, thereby providing an effect of increasing user convenience.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention below, And should not be construed as limiting.
1 is a diagram illustrating a configuration of a system in which an internet access processing method using an access point is implemented in a mobile communication terminal according to an embodiment of the present invention.
2 is a view showing a functional configuration of a mobile communication terminal according to an embodiment of the present invention.
3 is a diagram illustrating a procedure of an internet access processing method using an access point in a mobile communication terminal according to an embodiment of the present invention.
4 is a diagram illustrating a signal processing flow performed at each node according to an Internet access processing method using an access point in a mobile communication terminal according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a diagram illustrating a configuration of a system in which an internet access processing method using an access point is implemented in a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 1, a system in which the present invention is implemented includes a mobile communication terminal 100, a plurality of wireless access points 200 installed around the mobile communication terminal 100, and a plurality of wireless access points 200. Internet connection server or gateway server 300 to be connected to the Internet network 500, the speed measurement server 400 is connected to the Internet network 500 to support the speed measurement of the mobile communication terminal 100.

The present invention implements a method of accessing the Internet 500 by selecting any one of the wireless access points 200 in an environment in which a plurality of APs 200 are connected to the Internet. As a mobile communication terminal 100, a wireless access point representing the fastest rate is measured by measuring the actual packet transmission speed from the mobile communication terminal 100 to the Internet network 500 via the wireless access point 200 when the wireless access point is selected. It is characteristic to choose structure. In addition, for this purpose, the wireless access points 201, 202 and 203 that can be connected to the mobile communication terminal 100 are searched, and connection authentication is performed through the automatic authentication process for the found wireless access points 201, 202 and 203. 201, 202, and 203 are measuring speeds to the Internet.

Accordingly, the present invention improves the convenience of users accessing the Internet through the wireless access point, and selects and connects the wireless access point based on the actual internet communication speed, thereby providing a high quality service that enables the user to use the optimal Internet service. Can provide.

The mobile communication terminal 100 is a communication terminal provided with a mobile communication service through a wireless network, and has a means for performing an Internet access service through a mobile communication network such as a 3G network and a wireless LAN network such as WiFi. The mobile communication terminal 100 is provided with a wireless LAN connection means such as WiFi, and has a function of connecting to the Internet network through a wireless access point 200 installed in the vicinity.

In addition, the mobile communication terminal 100 according to the present invention selects a wireless access point having the fastest actual Internet communication speed among a plurality of accessible wireless access points 200 and automatically performs connection setting, and then provides an Internet connection service. The function is provided. To this end, the mobile communication terminal 100 is provided with a means for measuring the actual Internet packet rate, a means for performing an automatic authentication access process for measuring the speed of the section to the backhaul for a plurality of wireless access point (200) do.

The mobile communication terminal 100 may be a communication terminal device equipped with short-range wireless communication means such as WiFi and WLAN, which can access the Internet through the wireless access point 200. Examples of the mobile communication terminal may include a mobile phone, a smart phone, a PDA phone, a notebook computer, a tablet PC, a netbook equipped with a short range wireless communication means, and the like.

A more detailed description of the mobile communication terminal 100 according to the present invention will be described later through additional drawings.

The plurality of wireless access points 200 are devices that perform a role as an intermediate connection node of the Internet connection when the mobile communication terminal 100 attempts to access the Internet through short-range wireless communication means such as WiFi and WLAN. Many of them are installed and operated locally. The wireless access point 200 performs data link processing such as securing a communication channel according to a wireless LAN standard (eg, IEEE 802.11b), and performs SSID (Service Set IDentifier) and WEP (WEP) of the mobile communication terminal 100. After receiving the Wired Equivalency Privacy key information (network authentication information) to perform the connection authentication operation of the mobile communication terminal 100, predetermined IP (Internet Protocol), gateway, and DNS (Domain Name Server) information of the terminal (Internet IP allocation (flow / fixed IP) processing for the Internet access of the terminal is performed using the access information. The wireless access point 200 connects the mobile communication terminal 100 to the Internet by bridging the wireless communication port to which the terminal is connected and the wired communication port connected to the Internet.

The internet access server or gateway server 300 is a gateway server device that connects the plurality of wireless access points and the internet network 500 to each other. That is, the internet access server or gateway server 300 serves to connect the mobile communication terminal 100 wirelessly connected to the internet network 500 through the wireless access point 200.

In this case, in addition to a section in which the mobile communication terminal 100 and the wireless access point 200 are wirelessly connected, a section from the wireless access point 200 to the internet network 500 via the internet access server or gateway server 300. The backhaul is referred to, and the communication speed and the failure in the backhaul are independent of the wireless link signal in the section where the mobile communication terminal 100 and the wireless access point 200 are wirelessly connected. This affects the communication speed.

Therefore, as shown in FIG. 1, in case of a failure in the backhaul section of the wireless access point # 3 203, the connection state or the wireless signal strength between the mobile communication terminal 100 and the wireless access point # 3 203 is good. Even if the overall Internet communication speed is slowed down or the Internet access will be interrupted.

The speed measurement server 400 is an auxiliary node for implementing the present invention. When measuring the overall internet communication speed in the mobile communication terminal 100, the destination of the Internet network side when transmitting an actual packet including a backhaul section A server device that can perform a ping test by performing a role or returning a packet. In addition, in a system in which the speed measuring server 400 is not provided separately, the internet access server or the gateway server 300 may take its role.

2 is a view showing a functional configuration of a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 2, the mobile communication terminal 100 according to the present invention includes a short range communication module 110, a connection management module 120, and an automatic authentication module 130.

The short range communication module 110 is a communication module capable of wirelessly connecting to a wireless access point 200 (AP) installed in the vicinity, such as a wireless LAN and WiFi, to connect to the Internet network. The short range communication module 110 may be, for example, a wireless LAN or a WiFi wireless communication means, and has a function of connecting to the Internet by accessing a wireless access point supporting a WiFi method.

The connection management module 120 is a connection management control means for accessing the wireless access point 200 through the short range communication module 110 and controlling the connection with the Internet network. The connection management module 120 may be provided in the mobile communication terminal 100 in a connection management program called a CM (Connection Manager). The access management module 120 includes an AP search unit 122, a speed measurement unit 124, an AP selector 126, and a connection setup unit 128.

The AP search unit 122 searches for APs wirelessly accessible to the surroundings through the short range communication module 110. The AP search unit 122 searches for an accessible AP by receiving a probe response message or the like from APs installed in the vicinity.

The speed measuring unit 124 measures a data communication speed at the time of an actual internet connection for the accessible APs discovered through the AP search unit 122. Here, the speed measuring unit 124 not only measures the speed between the mobile communication terminal and the AP, but also measures the transmission speed of the actual data packet for one-way or round-trip sections from the mobile communication terminal to the Internet via the AP. At this time, in order to perform the speed measurement for the section from the speed measurement unit 124 to the Internet network, the access authentication process for the APs to be measured must be performed. To this end, after performing the automatic access authentication process for the accessible APs discovered through the automatic authentication module 130 to be described later, the speed through the speed measuring unit 124 in the state that the access to the Internet network is enabled Perform the measurement.

In addition, the speed measuring unit 124 may measure the actual speed of the Internet data communication through a ping test method between specific node sections of the internet network through the AP in the mobile communication terminal. In this case, the specific node of the internet network may be limited to the internet access server, the gateway server 300, or the speed measurement server 400. As such, the speed is measured not only between the mobile communication terminal and the AP but also from the AP to the backhaul section where the Internet network is connected. Can be measured.

The AP selector 126 selects an AP to be used as a medium for accessing the Internet through a wireless LAN or WiFi. That is, the AP selector 126 selects an AP indicating the fastest speed as a result of the speed measurement by the speed measuring unit 124 among the accessible APs found in the AP search unit 122 as the access target AP. Choose.

The connection setting unit 128 performs a connection setting process to connect to the Internet through the AP selected through the AP selecting unit 126. That is, the connection setting unit 128 first performs connection setting processing such as setting a channel with the selected AP and allocating a session, and performs connection setting processing such as IP allocation with main access nodes of the Internet network. In addition, the mobile communication terminal is connected to the Internet to perform data communication.

The automatic authentication module 130 automatically performs an access authentication process for an AP accessing an Internet connection or an AP accessing a speed measurement. That is, the automatic authentication module 130 searches for accessible APs in the access management module 120 and performs access authentication for the AP to measure speed for the backhaul section when measuring speed. In addition, the automatic authentication module 130 receives information about the discovered APs, generates authentication information according to the rules promised by the AP operator, and inputs the generated authentication information to each AP to process access authentication. Proceed. Accordingly, it is possible to provide user convenience by proceeding with the authentication process for the AP without the user's separate operation.

The automatic authentication module 130 includes a rule DB 132, an information collecting unit 134, an authentication information generating unit 136, an authentication processing unit 138, and the like. The rule DB 132 is a database that stores AP access rules and authentication information (password, etc.) generation rules, which are pre-appointed with the providers of Internet access services through the WLAN.

The information collecting unit 134 serves to receive information of APs to access in order to generate authentication information for authentication processing. The information collecting unit 134 receives a discovery response message from accessible APs and collects information on the corresponding AP included in the message. Information on the AP may include a BSID, SSID, authentication method information, disclosure / protection information.

The authentication information generation unit 136 generates and processes authentication information according to the authentication information generation rule based on the collected AP information. That is, the authentication information generator 136 generates authentication information for each AP according to the corresponding rule through the rule DB 132 based on the information of the APs to be authenticated collected by the information collecting unit 134. .

The authentication processor 138 inputs authentication information generated by the authentication information generator 136 into the corresponding AP to perform an access authentication process. The AP, which has been authenticated through the authentication processor 138, allows access and data transmission to the backhaul section up to the Internet network.

As such, the automatic authentication module 130 collects the information of the APs and generates authentication information by the mobile communication terminal alone based on the authentication information generation rule. It is possible to easily obtain authentication information and automatically perform AP authentication without inputting authentication information or interworking with a separate authentication means.

3 is a diagram illustrating a procedure of an internet access processing method using an access point in a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 3, the procedure of the Internet access processing method using a wireless access point (AP) in a mobile communication terminal according to the present invention is first performed a procedure of searching for accessible APs among APs installed around the mobile communication terminal. (S10)

If the accessible APs are identified as a result of the discovery, a procedure for performing AP automatic access authentication processing is performed on the accessible APs. At this time, through the automatic authentication module provided in the mobile communication terminal collects the information of the AP, and generates the authentication information by referring to the authentication information generation rule DB provided therein, and input the information to each AP to automatically process the authentication process Proceed. As such, when access authentication of each AP is completed, access or packet communication is possible to the backhaul area of each AP.

Next, when the authentication process for accessible APs is completed, a speed measurement procedure for each AP is performed. In this case, the actual data packet transmission speed to the Internet network connected thereto is measured. That is, since the speed up to the backhaul section is measured, it is determined that the speed measured at this time is close to the speed at the time of using the actual Internet service. In addition, the ping test method may be used to measure the speed, and the time required to transmit the actual test data packet in one way or round trip from the mobile communication terminal including the backhaul section to the Internet network via the AP is checked. Speed measurement is performed.

Further, as a reference node for the section to the Internet network, an Internet access server or a gateway server located in the backhaul section may be a target, and a speed measuring server located in the Internet network may be a target. At this time, the speed measurement server is a server device that is provided separately for the speed measurement for the backhaul section according to the present invention.

In the mobile communication terminal, when the speed measurement for each AP is completed, a procedure for selecting an AP to use the Internet access is performed based on the measured value. At this time, of course, the AP with the fastest speed is selected. In addition, in this case, even if the user accesses the Internet through the selected AP and uses the actual Internet service, the service may be used at a stable speed similar to the measured speed.

When the AP is selected based on the speed measurement value, the mobile communication terminal performs a connection setup procedure to the corresponding AP to form a channel and a session, and receives a IP assigned to the connected internet network to perform a data communication connection process. . As such, when the Internet connection is established through the corresponding AP, the user may normally use the Internet service through the mobile communication terminal (S50).

4 is a diagram illustrating a signal processing flow performed at each node according to an Internet access processing method using an access point in a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 4, a procedure of selecting an AP of optimal speed in the mobile communication terminal and performing an access process to the Internet will be described with a signal processing flow between nodes.

First, a procedure for searching for APs installed in the vicinity of the mobile communication terminal is performed. In this case, it is assumed that there are three APs installed in the vicinity. In this way, the mobile communication terminal transmits and receives an AP discovery signal to the surroundings, whereby three accessible APs (AP # 1, AP # 2, and AP # 3) are searched for (S1).

Next, the mobile communication terminal proceeds to collect information of each AP from the discovered AP (AP # 1, AP # 2, AP # 3). The AP information collected at this time may include BSID, SSID, authentication method information, disclosure / protection information, operator information, etc. (S2).

In the mobile communication terminal, a process of generating authentication information of each AP is performed according to the authentication information generation rule promised for each operator owned based on the collected AP information (S3).

When the authentication information is generated, the mobile communication terminal inputs authentication information corresponding to each of the APs (AP # 1, AP # 2, AP # 3), and performs a procedure of performing an access authentication process. Through this, the authentication process is performed through a separate authentication server, or the access authentication process for each AP is automatically and conveniently performed without the user directly performing the authentication process. In addition, when the access authentication process of each AP (AP # 1, AP # 2, AP # 3) is completed, access to the backhaul through each AP (AP # 1, AP # 2, AP # 3) becomes possible. (S4)

In the mobile communication terminal, when authentication for each AP (AP # 1, AP # 2, AP # 3) is completed, an area including a backhaul period of each AP (AP # 1, AP # 2, AP # 3) The speed measurement procedure is made. At this time, the test packet is transmitted one-way or round-trip of the measurement interval to check the packet arrival delay time. In addition, a test packet transmission destination of the Internet network in the backhaul period may be an Internet access server, a gateway server, a speed measurement server, etc. (S5).

When the speed measurement to the Internet network is performed as described above, the mobile communication terminal selects an AP to be used as a medium for Internet access based on the measured speed information. Here, the AP for which the fastest packet transmission rate is measured as a result of the speed measurement is selected. In addition, since the measured speed is a packet transmission speed to a specific node of the Internet network through each AP (AP # 1, AP # 2, AP # 3) in the mobile communication terminal, the data communication speed in actual use of the Internet Results close to.

On the other hand, no matter how good the speed or signal strength of the wireless link between the mobile terminal and the AP, if the backhaul failure occurs or the speed decreases, the speed of the entire Internet connection will be reduced. That is, for example, assume that the situation as shown in Figure 1, when the backhaul of AP # 3 occurs and the connection between the Internet network and AP # 3 is disconnected, AP # 1 and AP # 2 are normally measured speed On the other hand, AP # 3 cannot measure speed or generate errors. Therefore, even if the wireless link signal strength between AP # 3 and the mobile communication terminal is the best and the packet transmission speed is the highest in this section, the Internet connection or AP may fail when accessing the Internet through this AP # 3. Normal internet service will not work.

Therefore, the mobile communication terminal according to the present invention is based on the speed for the section from the mobile communication terminal to the Internet via the AP as well as the speed for the section between the mobile terminal and the AP when selecting the AP to be used for Internet access. Select the AP to solve the problem described above. In this embodiment, it is assumed that the test packet transmission rate through AP # 2 is the best, and AP # 2 is selected (S6).

When the AP is selected, the mobile communication terminal performs a connection setup process between the selected AP # 2 and the mobile communication terminal. At this time, a process of forming a channel and allocating a session is performed.

When the connection setting process of the selected AP (AP # 2) is completed, the mobile communication terminal performs a procedure of performing an internet connection setting process to the Internet network connected through the AP # 2. As a result of the Internet connection setting process, a data communication channel is formed between the mobile communication terminal and the Internet network via AP # 2, and data communication traffic is generated to normally operate the Internet service. At this time, the formed data communication channel will appear better than the communication channel connected through the AP # 1 and the AP # 3. That is, the Internet access processing is performed through the AP capable of providing the Internet communication service at the most optimal speed, thereby providing a high quality service to the user (S8).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

100: mobile communication terminal 200: wireless access point (AP)
300: Internet access server, gateway server
400: speed measurement server 500: Internet

Claims (14)

A mobile communication terminal capable of accessing a plurality of wireless access points (APs) installed to be connected to an internet network,
Short-range wireless communication means capable of connecting to the wireless access point through short-range wireless communication, and performing data communication by accessing the Internet through the connected wireless access point; And
Search for wireless access points that are accessible in the vicinity of the current location through the short-range wireless communication means, select the fastest wireless access point by measuring the actual packet rate with the Internet network among the found accessible wireless access points, and select the And a connection management means for establishing an internet connection. The method of claim 1,
The connection management means,
And transmitting a test data packet to the Internet via the accessible wireless access points, and then checking a packet transmission delay time to measure an actual packet rate for each wireless access point. The method according to claim 1 or 2,
In the connection management means, the packet transmission section targeted at the actual packet rate measurement is a one-way section or a round-trip section from the mobile communication terminal to a specific node of the Internet network via a wireless access point. The method of claim 3, wherein
The specific node of the Internet network,
And a Internet access server or a gateway server located in a backhaul section between the wireless access point and the internet network. The method of claim 3, wherein
The specific node of the Internet network,
A mobile communication terminal, characterized in that the speed measurement server connected to the Internet network. The method of claim 3, wherein
In the connection management means, the actual packet rate measurement is a mobile communication terminal, characterized in that through a ping test (Ping Test) of the packet transmission interval. The method according to claim 1 or 2,
The short range wireless communication means,
A mobile communication terminal, characterized in that the wireless LAN (Wireless Lan) or WiFi wireless communication means. The method according to claim 1 or 2,
And automatic authentication means for generating connection authentication information of the accessible wireless access points found by the connection management means according to the authentication information generation rule promised by the wireless access point operator and performing the access authentication process. Communication terminal. The method of claim 8,
The automatic authentication means,
And receiving information consisting of any one of BSID, SSID, authentication method information, disclosure / protection information, or a combination thereof from the searched wireless access points and using the same to generate access authentication information. A mobile communication terminal capable of accessing a plurality of wireless access points (APs) installed so as to be connected to an internet network, the method of accessing the internet network through these wireless access points,
(a) searching for wireless access points that are accessible in the vicinity of the current location;
(b) measuring the actual packet rate with the Internet network for the discovered accessible wireless access points;
(c) selecting a wireless access point having the fastest actual packet rate as a result of the measurement; And
and (d) establishing and establishing an internet connection through the selected wireless access point. 11. The method of claim 10,
The step (b)
The test data packet is transmitted to the Internet via the accessible wireless access points, and then the packet transmission delay time is checked to measure the actual packet rate for each wireless access point. How to handle internet access. The method of claim 10 or 11,
In step (b),
The packet transmission section targeted for the actual packet rate measurement is a one-way section or a round-trip section from the mobile communication terminal to a specific node of the Internet network via a wireless access point. Way. The method of claim 12,
The specific node of the Internet network,
An internet access processing method using an access point in a mobile communication terminal, characterized in that any one of an internet access server, a gateway server, and a speed measurement server. The method of claim 10 or 11,
Before step (b) above,
Generating access authentication information of the found accessible wireless access points according to a rule for generating authentication information promised to a wireless access point operator, and automatically performing access authentication processing; Internet access processing method using a.

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