KR20120070177A - Method for handover between ap in wireless lan environment and mobile communication terminal therefor - Google Patents

Abstract

PURPOSE: A handover method between access points in wireless local area network(LAN) environment and a mobile communication terminal for the same are provided to reduce loads due to monitoring operations. CONSTITUTION: A signal intensity measuring unit(110) searches surrounding access points(AP) and measures the signal intensities of the searched AP. A grouping unit(120) classifies the AP into groups in the order of the signal intensities. A monitoring unit(130) applies differential searching periods to the groups and monitors the signal intensities of AP in the groups according to the periods by using the signal intensity measuring unit. If a handover request event to accessing AP is occurred, a handover unit(140) implements handover based on the signal intensities of the AP under monitoring.

Description

Method for handover between AP in wireless LAN environment and mobile communication terminal therefor}

The present invention relates to a handover processing technology of a mobile communication terminal in a wireless LAN environment. More particularly, the mobile communication terminal efficiently performs handover of a data link layer (L2) between WLAN access points (APs). It is about a method.

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 smart phones are connected to the Internet using a 3G mobile communication network and a WiFi communication network via WiFi, or use a data communication service. As such, most mobile communication terminals such as smart phones have recently been equipped with Internet access functions through 3G networks or wireless LAN networks, and mobile communication terminals with these functions will be provided in the future. It is predicted.

Among them, IEEE 802.11 based WLAN is widely used all over the world due to the advantages of high speed, low price, and user mobility. In addition, real-time multimedia services such as VoIP and video are becoming more common by the IEEE 802.11n standard. However, IEEE 802.11 handover is not suitable for providing real time multimedia services. In this method, handover is performed when the connection between the serving AP and the mobile communication terminal is lost, and the target AP is selected after all channels are searched for authentication and combining. Therefore, there is a problem that a lot of delay occurs due to the search for all AP channels during handover, and call disconnection or quality deterioration in providing real-time multimedia services such as VoIP.

In addition, although standards for security authentication for handover and communication between APs have been established in IEEE 802.11i and IEEE 802.11f, a method for reducing discovery delay time has not been proposed yet. Therefore, recently, various methods for reducing the search delay time in the L2 layer in a WLAN environment have been proposed, and representative methods include selective channel search and pre-search method.

Here, the selective channel search is a method of performing partial channel search instead of all channel search through the cache memory and the handover history information. On the other hand, pre-discovery monitors the neighboring APs before the handover time, and selects the target AP among the candidate APs having the strongest RSS (Received Signal Strength) values of the neighboring APs collected through monitoring when the handover is needed. There is an advantage that a quick handover is possible. However, there is an overhead in managing neighboring APs by switching other channels to perform monitoring, which may cause a problem in providing a service from an accessing serving AP and monitoring all APs during pre-discovery, thereby increasing the load.

Accordingly, the present invention has been made to solve the above problems, and the mobile communication terminal improves the handover processing scheme between the WLAN APs, while performing a fast handover process, traffic during prior AP discovery and monitoring And a handover processing method capable of reducing the load, 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 handover method between APs in a wireless LAN environment according to the present invention is a handover method between APs of a mobile communication terminal connected to a wireless LAN. Measuring signal strength of the APs and classifying the APs into a predetermined number of groups in order of signal strength; (b) the mobile communication terminal, applying differential search periods for each of the classified groups, and monitoring signal strength by searching for APs included in each group according to a corresponding period; (c) generating, at the mobile communication terminal, a handover request event for an accessing AP; And (d) performing, by the mobile communication terminal, handover based on the signal strengths of the APs being monitored according to a handover request event.

According to another aspect of the present invention, there is provided a mobile communication terminal device for performing a handover between APs for WLAN access, comprising: signal strength measuring means for searching for APs installed in the vicinity and measuring signal strength of the discovered APs; Grouping means for classifying APs measured by the signal strength measuring means into a predetermined number of groups in order of signal strength; Monitoring means for applying a differential search period for each group classified by the grouping means and monitoring the signal strength of APs included in each group according to the corresponding period through the signal strength measuring means; And a handover means for performing a handover based on signal strengths of the APs being monitored through the monitoring means when the handover request event for the accessing AP occurs.

According to the present invention, a mobile communication terminal classifies a group of APs according to signal strength of neighboring APs during a WLAN AP handover process, sets different monitoring periods for each group, and then performs monitoring for each period. By performing the handover process based on the signal strength of the monitored AP at the time of over, it provides an effect that can be performed immediately while reducing the load due to the monitoring process.

In addition, by dynamically updating the group classification processing according to the signal strength of the neighboring AP, it is possible to immediately reflect the situation according to the movement of the location of the mobile communication terminal or the change of the surrounding environment in the group classification to perform the handover process according to the change of the situation. It provides a fluid and effective effect.

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 a handover method between APs is implemented in a WLAN environment 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 an example of grouping APs and setting a monitoring period according to an inter-AP handover method in a WLAN environment according to an embodiment of the present invention.
4 is a flowchart illustrating a procedure of a handover method between APs in a WLAN environment according to an embodiment of the present invention.
5 is a flowchart illustrating a grouping process and a differential monitoring process of a handover method between APs in a WLAN environment 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 or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. 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 a handover method between APs is implemented in a WLAN environment 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 WLAN access points (APs) 200 installed around the mobile communication terminal 100, and the plurality of mobile communication terminals 100. Is connected to the wireless LAN access point 200 of the wired distribution system (DS: Distribution System) (300) and the Internet network 400 is made of.

The present invention is to improve the problem of the existing L2 handover method, to enable the mobile communication terminal to efficiently monitor the neighboring AP during the pre-discovery for handover and the mobile communication terminal 100 in which the method is implemented It starts. That is, the pre-discovery or monitoring procedure according to the present invention may be performed by classifying the AP channel group into three levels according to the received signal strength (RSS) value, and the first group includes candidate APs to be target APs. The second group includes APs that are likely to be target APs in the future, and the third group includes other remaining APs. The monitoring or discovery periods of the classified groups are performed at a higher frequency for groups that are more likely to become target APs in the order of first group> second group> third group. Thereafter, when a handover event occurs, the target AP is immediately selected after comparing the RSS values of the currently monitored APs to perform a handover process.

As such, when the monitoring process for the neighboring APs is performed in the method according to the present invention, the handover traffic and the load generated during the monitoring process for all the existing APs can be efficiently adjusted and reduced, and when the handover event occurs. Handover can be performed immediately based on the result of pre-monitoring, which can provide seamless services such as VoIP and video.

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 access means such as WiFi, and has a function of wirelessly accessing the Internet network through a wireless LAN access point (AP) 200 installed in the vicinity.

In addition, the mobile communication terminal 100 performs a handover process between accessible APs. That is, when the signal strength at the first AP falls below a threshold in a state where the signal strength is connected to the Internet through the first AP having the strongest signal strength, the second AP having the strongest signal strength among the APs being monitored is selected. Select to perform a handover to access the Internet through the second AP. At this time, the mobile communication terminal 100 according to the present invention performs a pre-discovery or monitoring before the time of handover, and during the pre-discovery or monitoring, different differential search according to the group classified in order of signal strength among the neighboring APs Apply the cycle. In other words, APs classified into groups with strong signal strength perform monitoring at very frequent intervals, and APs classified into groups with relatively low signal strength have a long monitoring cycle.

Therefore, APs that are more likely to become target APs during handover (APs included in a group with strong signal strength) perform monitoring in a short period, and APs that are less likely to become target APs (for groups with weak signal strength). Included APs can be monitored at relatively long intervals to increase efficiency while reducing load and traffic during pre-discovery or monitoring processes. Furthermore, the group classification process for the neighboring APs is performed at predetermined time intervals so that the group classification can be grouped dynamically without being fixed, and the group classification according to the signal strength is updated during each group monitoring process. Or dynamic grouping processing such as updating the group classification at the time of monitoring the lower group having low signal strength.

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

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

The WLAN access point 200 is a so-called AP called a WLAN, and when the mobile communication terminal 100 attempts to access the Internet through a wireless LAN such as WiFi, the WLAN access point 200 serves as an intermediate connection node of the Internet connection. . The AP 200 is usually installed and operated by a large number of operators that provide communication services in the region, and also installed and operated by individuals. The WLAN AP 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 of the mobile communication terminal 100. After receiving (Wired Equivalency Privacy) key information (network authentication information) to perform the connection authentication operation of the mobile communication terminal 100, the predetermined IP (Internet Protocol), gateway, DNS (Domain Name Server) information ( IP allocation (flow / fixed IP) processing for the Internet access of the terminal is performed using the Internet access information. The WLAN AP 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 distribution system 300 is a gateway device for connecting the plurality of APs 200 and the Internet network 400, and is connected to the plurality of APs 200 by wire. That is, the distribution system 300 serves to connect the mobile communication terminal 100 wirelessly connected to the Internet network 400 through the plurality of APs 200.

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 signal strength measuring module 110, a grouping module 120, a handover module 140, a monitoring module 130, and the like.

The signal strength measuring module 110 searches for APs installed in the vicinity and measures the signal strength of the corresponding APs. That is, the signal strength measurement module 110 searches for APs that can be wirelessly connected to the surroundings or APs for which a wireless signal is caught, and measures a received signal strength (RSS) between the discovered AP or a designated AP. In this case, the AP is searched by receiving a probe response message from APs installed around the AP and the wireless signal strength of the received message is measured.

The grouping module 120 classifies the discovered APs into predetermined groups in order of signal strength. For example, a process of classifying the first group in the order of the strongest signal strength, classifying the second group in the order of the next signal strength, and then classifying the remaining APs into the third group may be exemplified. When the APs are classified into groups of three levels as described above, the APs of the first group are the APs most likely to be the target APs during handover, and the APs of the second group are handed according to the change of environment and the positional movement of the mobile communication terminal. APs that are likely to be target APs during overtime, and the APs of the third group may mean other peripheral APs. In addition, the criteria of group classification may be set by a user or a terminal designer or an operator, and the group may be classified based on the absolute signal strength of APs, or the group may be classified based on the number of APs included in each group. have.

In addition, the grouping module 120 includes a regrouping processing unit 122 to re-perform the grouping process for all neighboring APs as a whole for a predetermined time period. When a time period set by a user or an operator arrives, the regrouping processing unit 122 searches for APs installed in the vicinity through the signal strength measuring module 110 and controls to measure signal strengths of all discovered APs. do. Next, reprocessing is performed to classify the groups in order of signal strength, based on the APs of the latest state which are searched again and measured again. Through this, it is possible to maintain the latest grouping state reflecting the change of state of the neighboring APs according to the movement of the location of the mobile communication terminal or the change of the surrounding environment.

The monitoring module 130 monitors APs by applying a differential discovery period for each classified group through the grouping module 120. In this case, the monitoring module 130 monitors the signal strength of the APs in advance before the handover processing time according to the pre-discovery method. In addition, the monitoring module performs monitoring at different frequencies for each group. That is, the first group including the APs having strong signal strength performs monitoring in a very short period, and the monitoring period is decreased in order of the groups including APs having relatively weak signal strength to reduce the frequency.

This increases the frequency of monitoring processing to a group of APs that are more likely to become target APs during handover to provide immediate and up-to-date information, and to reduce the frequency of monitoring processing to groups of APs that are less likely to become target APs. This is to reduce the processing load or traffic of the terminal so as to perform more efficient discovery and monitoring processing.

The monitoring module 120 includes a search period setting unit 132, a group monitoring unit 134, a configuration change checking unit 136, a group classification updating unit 138, and the like. The search period setting unit 132 performs a role of applying each search period to groups classified by the grouping module 120. The search period setting unit 132 applies the shortest period to the group (first group) of APs having strong signal strength, and the longest period to the group (third group) of APs having low signal strength. Of course, the search period is also applied to the group of APs (second group) having a relatively medium signal strength.

The monitoring unit 134 for each group performs monitoring by measuring signal strength of APs included in the corresponding group when a search period applied to each classified group arrives. Signal strength values measured as a result of this monitoring are used to select a target AP at the time of handover. Assuming that the group monitoring unit 134 in the above-described example, the monitoring of the APs of the first group will be most frequently performed, and the monitoring processing frequency of the APs of the third group will be the lowest.

The configuration change confirming unit 136 checks whether the signal strength values of the currently measured APs are changed from the configuration of the previously classified groups as a result of monitoring by the group monitoring unit 134. That is, for example, when the signal strength of the AP included in the second group is stronger than the signal strength of the AP included in the first group, it is determined that a change has occurred in the configuration of the group classified in order of signal strength. do. At this time, the group classification updater 138 to be described later to reflect the configuration of the changed AP for each group to perform the update process for performing the group classification process again.

The group classification updater 138 updates the group classification through the grouping module 120 based on the signal strength values of the currently monitored APs when the configuration of the group classified by the configuration change checker 136 is changed. It controls the processing. Through this, it is possible to immediately reflect the change in signal strength value of the AP in the group classification during monitoring.

In addition, the group classification updating unit 138 is another embodiment, which is currently monitored through the grouping module 120 when the monitoring processing of other groups except for the group (first group) where monitoring is most frequently performed is performed. Based on the received information, it is possible to control to update the group classification. Through this, when the state of the APs included in the group having a relatively low signal strength is changed to increase the probability of becoming a target AP, it is included in the group having the strongest signal strength, thereby improving handover accuracy.

When the handover request event for the AP currently being accessed by the mobile communication terminal occurs, the handover module 140 performs a handover to the APs being monitored through the monitoring module 130. The handover module 140 includes a handover event processor 142 and a handover performer 144.

The handover event processor 142 generates a handover event when a handover is required in the current state of the mobile communication terminal. That is, when the signal strength with the AP to which the mobile terminal is currently connected falls below a predetermined limit, when the wireless channel formed with the access AP is disconnected, or when there is a failure in communication traffic with the accessing AP. It can be a condition of over event occurrence.

When the handover event occurs in the handover event processor 142, the handover performer 144 performs a handover process of changing a radio access path to another AP. That is, when a handover event occurs, the AP having the strongest signal strength or the most suitable signal strength is selected as the target AP based on the signal strength information of the APs currently monitored through the monitoring module 130. A process of changing the wireless data communication connection path is performed.

3 is a diagram illustrating an example of grouping APs and setting a monitoring period according to an inter-AP handover method in a WLAN environment according to an embodiment of the present invention.

As shown in the figure, in the present embodiment, it is assumed that the neighboring APs are classified and monitored in groups of three levels, and the signal strength values of the discovered APs are measured as shown in the figure.

As such, the first group (a) includes AP0, AP1, and AP2 in order of the strongest signal strength among the discovered APs, and the second group (b) includes AP3, AP4 in the order of the next signal strength. The third group (c) includes AP5 and AP6 having the lowest signal strength values. In this case, it is assumed that the criteria for group classification are absolute signal strengths. The signal strengths of 80 or more are classified into the first group (a), the 80 to 50 groups are classified into the second group (b), and the 50 or less are classified into the third group (c). It was. In addition, the signal strength value shown in the figure is a relative value based on 100 to confirm that it is not an actual RSS measurement.

In addition, the pre-monitoring period according to the pre-search method is to apply the shortest shortest period in the order of the strongest signal strength, and apply the longest longest period to the group with the lowest signal strength. Therefore, the most frequent monitoring is performed in the first group that is more likely to be the target AP, and the least frequent monitoring is performed in the third group which is least likely to be the target AP.

In addition, when the signal strength value of each group member AP is changed as a result of monitoring as described above, the grouping of the members is updated according to the corresponding criteria. That is, for example, if the AP4 included in the second group in FIG. 3 measures the monitoring result signal strength as '93', the AP4 is incorporated into the first group, and the AP1 of the first group has the monitoring result signal strength. If it is measured as '34', group update processing to be incorporated into the third group is performed.

4 is a flowchart illustrating a procedure of a handover method between APs in a WLAN environment according to an embodiment of the present invention.

Referring to FIG. 4, in the handover procedure according to the present invention, a mobile communication terminal first searches for neighboring APs and performs a procedure for measuring their signal strength. In this case, the mobile communication terminal may be connected to the wireless LAN through a specific AP, or may be connected to the Internet, or may be in a state of attempting to connect to the Internet through a wireless LAN without being connected to any AP (S10).

In the mobile communication terminal, when the discovery of the neighboring AP and the measurement of the signal strength are completed, a procedure of classifying the discovered APs into predetermined groups in order of signal strength is performed. That is, for example, APs having strong signal strengths are classified into a first group, APs having intermediate signal strengths into a second group, and remaining APs into a third group (S20).

When a group classification process is performed for APs, the mobile communication terminal performs a procedure of setting a differential search or monitoring period for each group. That is, assuming the above-described example, the shortest search period is set in the first group, the longest search period is set in the third group, and the middle search period is set in the second group (S30).

After this procedure, the mobile communication terminal performs a procedure of performing monitoring processing of APs for each discovery period set in each group before handover processing (or initial AP access processing). That is, when a discovery period set for each group arrives, a process of measuring signal strengths of APs included in the group and storing them as monitoring values is performed for each group. At this time, as in the above-described example, the monitoring processing of the first group will be performed most frequently, and the monitoring processing of the third group will be processed with the least frequency.

The mobile communication terminal generates an event for requesting handover during the monitoring process according to the pre-search method and the differential search period for each group. The handover event occurs when the signal strength with the currently connected AP drops below the limit, or when the access path needs to be changed from the currently connected AP to another AP due to a communication failure or disconnection. In addition, the first WLAN access request signal may be processed in the same manner as the handover event (S50).

When a handover event occurs, the mobile communication terminal performs a handover process based on the monitoring result information of the differential period for each group. That is, at this time, the strongest AP or the most suitable AP is selected as the target AP based on the signal strength information of the currently monitored APs, and the access of the previously accessed AP is terminated and the access processing is performed to the target AP. In addition, in the case of a handover event according to the initial WLAN access request, the target AP is selected and the access processing is performed to the corresponding AP (S60).

As described above, the handover process enables immediate handover at the time of the handover process (since the advance AP monitoring is performed in advance), and the monitoring is performed by applying a differential discovery period to the grouped APs. It is a feature of the present invention to reduce the load caused by discovery and monitoring processing and to provide the effect of reducing the traffic of the wireless environment.

5 is a flowchart illustrating a grouping process and a differential monitoring process of a handover method between APs in a WLAN environment according to an embodiment of the present invention.

Referring to FIG. 5, the grouping process and the differential monitoring process performed in the handover method according to the present invention will be described.

First, as shown in the drawing, a procedure for measuring signal strength for all of the neighboring APs of the mobile communication terminal is performed at the first or one time point. In this case, the process of dividing the APs and measuring signal strength of the discovered APs is performed.

Next, when the signal strength of the entire AP is measured in this way, a procedure of performing grouping processing on them is performed. In this case, all APs are classified into a predetermined number of groups in order of signal strength, and a process of setting differential search periods for each classified group is performed. In this embodiment, APs are classified into three levels of first group, second group, and third group in order of signal strength, and different search periods are applied to them. Of course, the shortest search period of the first group is applied, and the longest search period is applied in order of the second group and the third group (S2).

When the grouping process is performed as described above, the mobile communication terminal performs the monitoring process for each group according to the pre-search method, and a procedure for determining whether a search period for the first group having the shortest search period has arrived is performed (S3).

As a result of the determination, when the discovery period set in the first group arrives, a monitoring procedure for measuring the signal strength of the APs included in the first group is performed.

On the other hand, when the discovery period set for the first group does not arrive, a process of checking whether the group update period for all the APs has arrived and then repeating the procedure for determining whether the discovery period for the first group has arrived is performed. (S9)

In addition, when the monitoring process for the first group is performed, a procedure for determining whether a search period for the second group having a shorter search period arrives is performed next (S5).

As a result of the determination, when a discovery period set in the second group arrives, a monitoring procedure for measuring signal strength of APs included in the second group is performed. In addition, in this case, the grouping processing of the step S2 is performed based on the monitoring result information of the APs included in the second group, and the group classification updating process of reflecting the signal strength information of the monitored APs to the group classification is performed. Can be done. This is to maintain the current state by applying the status information of APs changed during the monitoring to the monitoring group classification immediately (S6).

On the other hand, in this case, when the discovery period set in the second group does not arrive, the procedure for determining whether the discovery period of the first group in step S3 arrives again after checking the entire group update period in step S9. .

In addition, when the monitoring process for the second group is performed, a procedure for finally determining whether a search period for the third group having the longest search period has arrived is performed (S7).

As a result of the determination, when the discovery period set in the third group arrives, a monitoring procedure for measuring signal strength of APs included in the third group is performed. In addition, at this time, since it is a monitoring procedure for the last group, it is possible to search the entire AP around and measure the signal strength for them. This is because an additional AP may be discovered due to the movement of the mobile communication terminal or the change of the surrounding environment.

Also in this step, the group classification update process of performing the grouping process of the step S2 based on the monitoring result information of the APs included in the third group to reflect the signal strength information of the APs monitored so far in the group classification. Can be done. This is also to maintain the current state by applying the status information of APs changed during the monitoring to the monitoring group classification immediately (S8).

On the other hand, when the discovery period set in the third group has not arrived, the process of step S9 and step S3 are performed again.

In addition, when the search period set in each of the steps S3, S5, and S7 does not arrive, a procedure for determining whether or not the entire group update period is reached is performed. This step resets the signal strength measurement and grouping process for the entire group. This is a procedure to determine whether the cycle has arrived. This period may be preset by the mobile communication terminal user or the wireless LAN operator or terminal designer. In addition, the entire grouping reprocessing cycle setting is configured to be changeable by a user or an operator (S9).

As a result of determining whether the entire group update period arrives as described above, when the entire group update period arrives, the grouping process for the entire AP of the step S2 is performed together with the discovery and signal strength measurement procedures for the entire AP of the step S1. Proceed with the procedure. Through this, it is possible to accurately reflect the latest state of the AP according to the movement of the mobile communication terminal and changes in the surrounding environment to the monitoring group.

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 LAN access point
300: distribution system 400: Internet

Claims (14)

A method for handover between APs of a mobile communication terminal connected to a wireless LAN,
(a) measuring, by the mobile terminal, signal strengths of neighboring APs, and classifying the APs into a predetermined number of groups in order of signal strength;
(b) the mobile communication terminal, applying differential search periods for each of the classified groups, and monitoring signal strength by searching for APs included in each group according to a corresponding period;
(c) generating, at the mobile communication terminal, a handover request event for an accessing AP; And
(d) the mobile communication terminal according to a handover request event, performing a handover based on signal strengths of the APs being monitored; The method of claim 1,
The step (a)
A method of handover between APs in a WLAN environment, wherein the group configuration is dynamically updated by repeating a predetermined time period. The method according to claim 1 or 2,
After step (b),
As a result of monitoring the signal strength of the APs included in each group, if a change occurs in the group configuration sorted in order of signal strength in step (a), updating the group classification of the APs by reflecting the change; Handover method between APs in a WLAN environment comprising a. The method according to claim 1 or 2,
The step (a)
A method for handover between APs in a WLAN environment, characterized in that the AP is classified into a first group, a second group, and a third group in order of signal strength of the APs. The method of claim 4, wherein
In step (b),
The first group applies the shortest period, and the third group applies the longest period, and performing monitoring according to each period, characterized in that the inter-AP handover method in a WLAN environment. The method of claim 5, wherein
After step (b),
If the signal strength of the APs is monitored according to the discovery period applied to the second group or the third group, updating the group classification of all the APs; handover method between APs in a WLAN environment . The method according to claim 1 or 2,
In the step (a)
The signal strength of the neighbor AP is a wireless link between the mobile terminal and the neighbor AP AP (Received Signal Strength) value, characterized in that the handover between APs in a WLAN environment. The method according to claim 1 or 2,
Step (c) is,
In the WLAN environment, a handover request event is generated when a signal strength of an AP currently connected in a mobile communication terminal falls below a predetermined limit or when a channel with an accessing AP is terminated. Over way. A mobile communication terminal device performing handover between a WLAN access AP,
Signal strength measuring means for searching for APs installed in the vicinity and measuring signal strengths of the discovered APs;
Grouping means for classifying APs measured by the signal strength measuring means into a predetermined number of groups in order of signal strength;
Monitoring means for applying a differential search period for each group classified by the grouping means and monitoring the signal strength of APs included in each group according to the corresponding period through the signal strength measuring means; And
And a handover means for performing a handover based on signal strengths of the APs being monitored through the monitoring means when a handover request event for the accessing AP occurs. The method of claim 9,
The grouping means,
And repeating the search and the signal strength measurement through the signal strength measuring means at predetermined time intervals, thereby dynamically updating the group configuration. The method according to claim 9 or 10,
The monitoring means,
As a result of monitoring the signal strength of the APs according to the period applied to each group, if a change occurs in the group configuration sorted in order of signal strength by the grouping means, the grouping means reflects this to update the group classification of the APs. Mobile communication terminal, characterized in that. The method according to claim 9 or 10,
The grouping means,
APs are classified into first group, second group, and third group in order of signal strength,
The monitoring means,
The first group applies the shortest period, and the third group applies the longest period, the mobile communication terminal, characterized in that for monitoring according to each period. The method of claim 12,
The monitoring means,
And when the signal strength of the APs is monitored according to the discovery period applied to the second group or the third group, processing to update the group classification of all APs through the grouping means. The method according to claim 9 or 10,
The handover means,
And a handover request event is generated when the signal strength of the currently connected AP falls below a predetermined limit or when the channel with the accessing AP is terminated.

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