JP2007104417A - Mobile communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To connect a mobile communication terminal to an appropriate access point in consideration of a status of the own terminal. <P>SOLUTION: A rejection code determining section 12 determines whether a message received by a message receiving section 11 includes a rejecting code indicating that connection to an access point 20 has been rejected. When it is determined that the message includes the reject code, a reject list registering section 13 registers the identification code of the access point having transmitted the message into a reject list 18. A connection destination searching section 14 scans radio channels to search access points existing in the vicinity. A connection destination selecting section 15 selects access points which are not registered in the reject list among the searched access points, as candidates of connection destination. A message transmitting section 16 transmits a connection request message to an access point having the highest radio wave intensity among the selected connection destination candidates. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a mobile communication terminal.

Patent Document 1 listed below discloses a technology related to a SIP server that manages a call state of a mobile communication terminal (wireless terminal) connected to a wireless LAN access point and limits the number of calls under the access point. . When the SIP server receives a call request from the mobile communication terminal, the SIP server checks the number of calls at the access point to which the mobile communication terminal is connected. Reject call requests from the terminal. The SIP server connects the mobile communication terminal whose call request has been rejected to another access point having a sufficient number of calls.
JP 2005-229591 A

  By the way, in the technique described in Patent Document 1 described above, a mobile communication terminal whose call request has been rejected is reconnected to an access point having a sufficient number of calls. That is, an access point that is a reconnection destination of the mobile communication terminal is determined based on the call state on the access point side managed by the SIP server. In this case, since the reconnection destination is determined without taking into consideration the situation on the mobile communication terminal side, the mobile communication terminal may connect to an inappropriate access point.

  Accordingly, an object of the present invention is to provide a mobile communication terminal that can be connected to an appropriate access point in consideration of the situation on the own terminal side in order to solve the above-described problems.

  A mobile communication terminal according to the present invention is a mobile communication terminal capable of wireless communication with an access point of a wireless LAN, a receiving means for receiving a message transmitted from the access point, and a message received by the receiving means. Registration that registers an access point identification code that uniquely identifies the access point that sent the message that includes the rejection code in the rejection list, when a rejection code indicating that the connection with the device is rejected is included And a connection request message for requesting connection to the access point having the highest priority among access points other than the access point corresponding to the access point identification code registered in the deny list by the registration unit. Transmitting means for performing the above-described processing.

  According to this invention, since the identification code of the access point that transmitted the message including the rejection code can be registered in the rejection list, the access point that cannot be connected can be recognized on the mobile communication terminal side. That is, by managing the rejection list, it is possible to grasp the connection availability status on the network side. In addition, since the connection request message can be sent to an access point other than the access points registered in the deny list and having the highest priority, the network side connection availability situation is considered. In addition, it is possible to connect to an access point with a higher priority given in consideration of the situation on the mobile communication terminal side.

  In the mobile communication terminal of the present invention, a search means for scanning an access point by scanning a wireless channel, and an access point that is not registered in the deny list among access points searched by the search means Selecting means, and the transmitting means preferably transmits a connection request message to an access point with the highest priority among the connection destination candidates selected by the selecting means. . Furthermore, in the mobile communication terminal of the present invention, it is preferable that the priorities are assigned in descending order of the radio wave intensity of the access points searched by the search means.

  In this way, it is possible to connect to the access point with the highest radio wave intensity among the connectable access points.

  In the mobile communication terminal of the present invention, among the storage means for storing the access point identification code and the priority in association with each other and the access point corresponding to the access point identification code stored in the storage means, the access point identification code is registered in the deny list. In order to search for an access point with the highest priority stored in the storage unit from the selection unit that selects a non-access point as a connection destination candidate and the connection destination candidates selected by the selection unit. Search means for scanning a radio channel is further provided, and the transmission means preferably transmits a connection request message to the access point searched by the search means.

  If it does in this way, it can be made to connect with the access point which the user who has a mobile communication terminal desires among the access points which can be connected.

  According to the mobile communication terminal of the present invention, it is possible to connect to an appropriate access point considering the situation on the own terminal side.

  Embodiments of a mobile communication terminal according to the present invention will be described below with reference to the drawings. In addition, in each figure, the same code | symbol is attached | subjected to the same element and the overlapping description is abbreviate | omitted.

[First embodiment]
First, a first embodiment of the present invention will be described. FIG. 1 is a diagram illustrating a system configuration of a communication system 1 according to the first embodiment. As shown in FIG. 1, the communication system 1 includes a mobile phone 10 (mobile communication terminal) and an access point 20. The access point 20 is a relay device provided for connecting the mobile phone 10 to a wireless LAN network.

  The mobile phone 10 is a mobile communication terminal that can perform wireless communication with an access point 20 or a base station (not shown) that covers a communication area in which the mobile phone is located. The mobile phone 10 is equipped with a wireless LAN function compatible with IEEE 802.11b, which is one of the wireless link types.

  In the communication system 1 according to the present embodiment, the mobile phone 10 is described as a specific example of the mobile communication terminal. However, the specific example of the mobile communication terminal is not limited to this, for example, a simple mobile phone (PHS). ) Or a mobile communication terminal such as a portable information terminal (PDA) having a communication function.

  With reference to FIG. 1, the functional configuration of the mobile phone 10 will be described. As shown in FIG. 1, the mobile phone 10 includes a message receiving unit 11 (receiving unit), a rejection code determination unit 12 (registration unit), a rejection list registration unit 13 (registration unit), and a connection destination search unit 14 ( A search unit, a transmission unit), a connection destination selection unit 15 (a selection unit, a transmission unit), and a message transmission unit 16 (a transmission unit).

  The message receiving unit 11 receives various messages transmitted from the access point 20. Examples of messages transmitted from the access point 20 include the following messages when the wireless LAN standard is IEEE 802.11b. (1) A response message (Authentication Response) from the access point 20 to a user authentication request message (Authentication Request) transmitted from the mobile phone 10 to the access point 20. (2) A response message (Association Response) from the access point 20 in response to an association request message (Association Request) such as usage parameters transmitted from the mobile phone 10 to the access point 20. (3) A message (De-authentication, Dis-association) transmitted from the access point 20 to the mobile phone 10 when the mobile phone 10 belongs to the access point 20.

  The rejection code determination unit 12 determines whether or not the message transmitted from the access point 20 includes a rejection code indicating that the connection with the access point 20 has been rejected. As a case where the rejection code is included, for example, the allowable number that can be attributed to the access point 20 is exceeded, or the resource of the access point 20 is insufficient. The rejection code will be described using a specific example. For example, when the response message from the access point 20 is “Authentication Response” or “Association Response”, the case where “Status code” is “17” is applicable. When the message transmitted from the access point 20 described above is “De-authentication” or “Dis-association”, the case where “Reason code” is “5” is applicable.

  The rejection list registration unit 13 registers an identification code that uniquely identifies the access point 20 that has transmitted the message including the rejection code in the rejection list 18. Here, the data structure of the rejection list 18 will be described with reference to FIG. The rejection list 18 has, for example, an AP identification code as a data item. In this AP identification code, an identification code for uniquely specifying the access point 20 is stored.

  The connection destination search unit 14 scans the wireless channel to search for the access points 20 existing around the mobile phone 10 and measures the radio field intensity of the searched access points 20.

  The connection destination selection unit 15 selects an access point that is not registered in the deny list 18 among the searched access points 20 as a connection destination candidate. More specifically, for example, the connection destination selection unit 15 refers to the deny list 18 based on the identification code of the searched access point, and whether or not the searched access point is registered in the deny list 18. To check. When the searched access point is registered in the deny list 18, the connection destination selection unit 15 excludes the access point from the connection destination candidates. As a result, only the access points that are not registered in the deny list 18 among the searched access points 20 are selected as connection destination candidates. The connection destination selection unit 15 temporarily stores the identification code of each access point 20 included in the selected connection destination candidates in association with the radio wave intensity of each access point 20 in the memory. If all of the searched access points 20 are registered in the rejection list 18, a message to that effect may be displayed on the screen and the process may be terminated.

  The message transmission unit 16 selects an access point with the highest radio wave intensity from the access points 20 stored in the memory, and transmits a connection request message for requesting connection to the selected access point. To do. Note that the access point 20 stored in the memory may be temporarily displayed on the screen to allow the user to select a connection destination. In this case, the message transmission part 16 should just transmit a connection request message to the access point selected by the user.

  Next, the flow of reconnection processing to the access point in the mobile phone 10 of the first embodiment will be described with reference to FIG.

  First, the message receiver 11 of the mobile phone 10 receives a message transmitted from the access point 20 (step S1).

  Next, the rejection code determination unit 12 determines whether or not the message received by the message reception unit 11 includes a rejection code indicating that the connection with the access point 20 has been rejected (step S2). . If this determination is NO (step S2; NO), the reconnection process is terminated.

  On the other hand, if it is determined in step S2 that the message includes a rejection code (step S2; YES), the rejection list registration unit 13 rejects the identification code of the access point 20 that transmitted the message. Registration in the list 18 (step S3).

  Next, the connection destination search unit 14 scans the wireless channel and searches for the access point 20 existing around the mobile phone 10 (step S4). The connection destination search unit 14 measures the radio field intensity of each access point 20.

  Next, the connection destination selection unit 15 selects access points that are not registered in the deny list 18 among the access points 20 searched by the connection destination search unit 14 as connection destination candidates (step S5).

  Next, the message transmission unit 16 transmits a connection request message to the access point with the highest radio field intensity among the access points that are connection destination candidates selected by the connection destination selection unit 15 (step S6). ).

  As described above, according to the mobile phone 10 in the first embodiment, since the identification code of the access point 20 that has transmitted the message including the rejection code can be registered in the rejection list 18, the access point that cannot be connected 20 can be recognized on the mobile phone 10 side. In other words, by managing the rejection list 18, it is possible to grasp the connection possibility status on the network side.

  In addition, since the connection request message can be transmitted to the access point 20 other than the access point 20 registered in the deny list 18 and having the highest radio wave intensity, whether or not the connection on the network side is possible. In consideration of the situation, it is possible to connect to an appropriate access point considering the reception situation on the mobile phone 10 side.

  In addition, since the message exchange between the mobile phone 10 and the access point 20 can be performed using only messages defined in IEEE802.11b, it is not necessary to independently develop and incorporate software. Therefore, it can be provided as a highly versatile system.

  In addition, although the message transmission part 16 in 1st Embodiment mentioned above has transmitted the connection request message to the access point with the highest electric field strength, the factor which selects the access point which transmits a connection request message is not limited to this. . For example, the connection request message may be transmitted to an access point having the smallest number of packet transmission / reception or an access point having the highest device performance. That is, it is only necessary to prioritize events that are effective when the mobile phone 10 is connected and to connect to the access point with the highest priority. The packet transmission / reception number can be acquired when the connection destination search unit 14 searches for the access point 20, and the performance of the apparatus is acquired when the connection destination search unit 14 searches for the access point 20. This can be determined based on the type of access point that can be used, the device name, and the like.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. FIG. 4 is a diagram illustrating a system configuration of the communication system 2 in the second embodiment. As shown in FIG. 4, the system configuration of the communication system 2 in the second embodiment is the same as the system configuration of the communication system 1 in the first embodiment. The second embodiment is different from the first embodiment in that some of the functions of the mobile phone are different.

  With reference to FIG. 4, the functional configuration of the mobile phone 10s will be described. As shown in FIG. 4, the mobile phone 10s includes a message receiving unit 11 (receiving unit), a rejection code determination unit 12 (registration unit), a rejection list registration unit 13 (registration unit), and a connection destination selection unit 15s ( A selection unit, a transmission unit), a connection destination search unit 14s (search unit, transmission unit), and a message transmission unit 16s (transmission unit). Among the functional configurations of the mobile phone 10s in the second embodiment, the functions of the connection destination selection unit 15s, the connection destination search unit 14s, and the message transmission unit 16s are described in connection destination selection of the mobile phone 10 in the first embodiment. The functions of the unit 15, the connection destination search unit 14, and the message transmission unit 16 are different. Accordingly, since the other functions are the same as the functions of the mobile phone 10 in the first embodiment, the same reference numerals are given to these components and the description thereof will be omitted. Differences from the embodiment will be described.

  The connection destination selection unit 15s illustrated in FIG. 4 selects access points that are not registered in the deny list 18 among access points registered in the access point list 19 (storage means) as connection destination candidates. Here, the data structure of the access point list 19 will be described with reference to FIG. The access point list 19 has, for example, priority and an AP identification code as data items. In the priority order, the priority order of the access point as the connection destination is stored. In the AP identification code, an identification code for uniquely specifying the access point 20 is stored. The data stored in the access point list 19 can be arbitrarily changed by the user. By registering a desired access point in the access point list 19 in advance, it is possible to connect only to the registered access point. If all the access points registered in the access point list 19 are registered in the deny list 18, a message to that effect is displayed on the screen and the reconnection process is terminated. Good.

  The connection destination searching unit 14s scans the wireless channel in order to search for an access point with the highest priority from the access points that are candidates for the connection destination. If the access point with the highest priority cannot be searched, the access points may be sequentially searched according to the priority until the access point is searched. The priority order can be grasped by referring to the access point list 19.

  The message transmission unit 16s transmits a connection request message for requesting connection to the searched access point.

  Next, the flow of reconnection processing in the mobile phone 10 of the second embodiment will be described with reference to FIG. Note that the processes in steps S11 to S13 shown in FIG. 6 have the same processing contents as the processes in steps S1 to S3 shown in FIG. 3 described in the first embodiment. The processing contents of steps S14 to S16 different from the above will be described.

  First, when the identification code of the access point 20 that transmitted the message including the rejection code is registered in the rejection list 18 in steps S11 to S13, the connection destination selection unit 15s of the mobile phone 10 is registered in the access point list 19. Among the access points that are registered, access points that are not registered in the deny list 18 are selected as connection destination candidates (step S14).

  Next, the connection destination search unit 14s scans the wireless channel in order to search for an access point with the highest priority from among the access points that are connection destination candidates selected by the connection destination selection unit 15s ( Step S15).

  Next, the message transmission unit 16s transmits a connection request message to the access point searched by the connection destination search unit 14s (step S16).

  As described above, according to the mobile phone 10 s in the second embodiment, since the identification code of the access point 20 that has transmitted the message including the rejection code can be registered in the rejection list 18, the access point that is not connectable 20 can be recognized on the mobile phone 10s side. In other words, by managing the rejection list 18, it is possible to grasp the connection possibility status on the network side.

  Further, a connection request message can be transmitted to an access point 20 other than the access point 20 registered in the deny list 18 and having the highest priority that can be arbitrarily set. Therefore, it is possible to connect to an appropriate access point in consideration of the demand on the mobile phone 10s side in consideration of the connection possibility status on the network side.

  In addition, since message exchange between the mobile phone 10s and the access point 20 can be performed using only messages defined in IEEE802.11b, it is not necessary to independently develop and incorporate software. Therefore, it can be provided as a highly versatile system.

  A mobile phone having the functions of the mobile phones 10 and 10s in the above-described embodiments may be used. For example, when the access point is not registered in the access point list 19, the function of the mobile phone 10 in the first embodiment is exhibited, and when the access point is registered in the access point list 19, The function of the mobile phone 10s according to the second embodiment may be exhibited. Further, for example, a search mode such as a mode for searching for all access points or a mode for searching only the access points registered in the access point list in order of priority may be provided. In this case, for example, the function of the cellular phone 10 in the first embodiment is exhibited in the former mode, and the function of the cellular phone 10s in the second embodiment is exhibited in the latter mode. do it.

It is a block diagram which shows the system configuration | structure of the communication system in 1st Embodiment, and the function structure of a mobile telephone. It is a figure which illustrates the data structure of the refusal list shown in FIG. It is a flowchart for demonstrating the flow of the reconnection process to the access point in 1st Embodiment. It is a block diagram which shows the system configuration | structure of the communication system in 2nd Embodiment, and the function structure of a mobile telephone. FIG. 5 is a diagram illustrating a data configuration of an access point list shown in FIG. 4. It is a flowchart for demonstrating the flow of the reconnection process to the access point in 2nd Embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Communication system, 2 ... Communication system, 10, 10s ... Mobile phone, 11 ... Message receiving part, 11 ... Message receiving part, 12 ... Rejection code determination part, 13 * ..Reject list registration unit, 14, 14s ... Connection destination search unit, 15, 15s ... Connection destination selection unit, 16, 16s ... Message transmission unit, 18 ... Reject list, 19 ... Access point list, 20... Access point.

Claims (4)

A mobile communication terminal capable of wireless communication with a wireless LAN access point,
Receiving means for receiving a message transmitted from the access point;
When the message received by the receiving means includes a rejection code indicating that the connection with the access point has been rejected, the access point that has transmitted the message including the rejection code is A registration means for registering a uniquely specified access point identification code in the deny list;
A connection request message for requesting connection to the access point having the highest priority among access points other than the access point corresponding to the access point identification code registered in the deny list by the registration means. Transmitting means for transmitting
A mobile communication terminal comprising: Search means for scanning the wireless channel to search for the access point;
A screening unit that screens the access points that are not registered in the deny list among the access points searched by the search unit, as connection destination candidates;
2. The transmission unit according to claim 1, wherein the transmission unit transmits the connection request message to the access point having the highest priority among the connection destination candidates selected by the selection unit. Mobile communication terminal.   The mobile communication terminal according to claim 2, wherein the priorities are given in descending order of the radio wave intensity of the access points searched by the search means. Storage means for storing the access point identification code and priority in association with each other;
Screening means for screening access points that are not registered in the deny list among access points corresponding to the access point identification code stored by the storage means, as connection destination candidates;
Search means for scanning a radio channel to search for the access point with the highest priority stored in the storage means from among the connection destination candidates selected by the selection means; ,
The mobile communication terminal according to claim 1, wherein the transmission unit transmits the connection request message to the access point searched by the search unit.

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