JP2010245631A - Mobile communication terminal and connection mode switching method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power consumption by efficiently switching connection modes in accordance with user's past behavior patterns. <P>SOLUTION: This mobile communication terminal 2 includes: a position information acquiring part 121 for acquiring position information; a time information acquiring part 122 for acquiring time information; a base station connection part 125 having a normal connection mode 127 connected to an optional macro cell 11 by radio and a femto connection mode 126 connected to a predesignated femto-cell 12 in a switchable way; a base station information storing part 124 for associating base station specification information for specifying the connected femto-cell 12 with the time information and the position information when the femto-cell 12 is connected to store them; and a connection mode switching part 123 for switching the base station connection part 125 to the femto connection mode 126 when it is determined that base station specification information associated with the time information corresponding to the current time and with the position information corresponding to the current position is stored. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a mobile communication terminal and a connection mode switching method.

  Conventionally, with regard to the technology for switching the operation mode of a mobile communication terminal, a mobile communication terminal that sets a specific operation mode such as a manner mode based on acceleration information detected by an acceleration sensor and time information is known. (See Patent Document 1 below). This technique intends to enable more complex operation control using detection information from a sensor provided in a mobile communication terminal.

  On the other hand, in recent years, in a mobile communication network, in addition to a relatively large base station (hereinafter referred to as “macro cell”) in a conventional communication area (cell), it is called a “femto cell” having a relatively small call area. Different types of base stations are being installed. Here, since parameters necessary for communication connection such as a used frequency band and a scramble code (encryption code) are different between the conventional macro cell and the femto cell, the user of the mobile communication terminal tries to connect to the femto cell. In this case, the connection mode of the mobile communication terminal needs to be switched in order to search for a signal from the femtocell and enable connection.

JP-A-2005-192206

  However, even if the above-described conventional operation mode switching technology is applied to connection mode switching related to a base station, the connection mode is switched in accordance with user behavior patterns that are diversified every day between holidays and weekdays. It is difficult. In addition, even if the connection mode is switched according to time and acceleration information, the user's behavior pattern changes day by day, so that there is a problem that wasteful power is consumed by searching for a base station.

  Therefore, the present invention has been made in view of such problems, and a mobile communication terminal and a connection mode that can efficiently switch a connection mode according to a user's past behavior pattern and reduce power consumption. An object is to provide a switching method.

  In order to solve the above-described problem, a mobile communication terminal according to the present invention includes position information acquisition means for acquiring position information regarding the current position, time information acquisition means for acquiring time information regarding the current time, and a signal from an arbitrary base station. Switching between a first connection mode for searching for a base station and connecting to an arbitrary base station, and a second connection mode for searching for a signal from a base station of a specific type specified in advance and connecting to a base station of a specific type Possible base station connection means, base station specification information for specifying a specific type of base station connected by the base station connection means, time information acquired by the time information acquisition means at the time of connection with the base station, Corresponding to the current time by referring to the base station information storage means and the base station information storage means for storing the position information acquired by the position information acquisition means in association with the base station at the time of connection with the base station Connection mode switching means for switching the base station connection means to the second connection mode when it is determined that the base station specifying information associated with the time information and the position information corresponding to the current position is stored; Is provided.

  Alternatively, the connection mode switching method of the present invention includes a position information acquisition step in which the position information acquisition means acquires position information related to the current position, and a time information acquisition step in which the time information acquisition means acquires time information related to the current time. The first connection mode in which the base station connection means searches for a signal from an arbitrary base station and connects to the arbitrary base station, and searches for a signal from a base station of a specific type specified in advance A base station connection step having a switchable second connection mode to connect to the base station, and base station information storing means for specifying a specific type of base station connected by the base station connecting means The time information acquired by the time information acquisition means when connected to the base station and the position information acquired by the position information acquisition means when connected to the base station The base station information storing step and the connection mode switching means refer to the base station information storing means, so that the base station specifying information associated with the time information corresponding to the current time and the position information corresponding to the current position is A connection mode switching step of switching the base station connection means to the second connection mode when it is determined that the access point is stored.

  According to such a mobile communication terminal and connection mode switching method, base station specifying information related to a specific type of base station connected in the past is stored in association with time information and position information at the time of connection. When the base station information corresponding to each of the current time and the current position is stored, the first connection mode for connecting to an arbitrary base station and a specific type of base station as the connection mode for the base station The second connection mode is selected from the second connection modes that are connected to. As a result, the base station type can be efficiently selected according to the user's behavior pattern by preferentially connecting with the specific type base station according to the temporal and locational connection tendency with the specific type base station. The power consumption due to the signal search of the base station is also reduced.

  The base station connection means is based on base station specifying information associated with time information corresponding to the current time and position information corresponding to the current position when the connection mode switching means switches to the second connection mode. It is preferable to search for a signal from a specific type of base station. In this way, when searching for a specific type of base station preferentially, since it is connected to a more limited base station from among the specific type of base station, selection of a base station that further matches the user's behavior pattern Is realized. For example, it is possible to automatically select a base station that provides an optimal communication service according to a time zone or a place.

  The connection mode switching means deletes the base station specifying information corresponding to the specific type of base station from the base station information storing means when the connection with the specific type of base station by the base station connecting means fails. It is also preferable. By adopting such a configuration, even when there is a change in the connection environment such as the radio wave condition or the installation state of the base station, it is possible to smoothly connect to the base station following the change.

  According to the present invention, it is possible to efficiently switch the connection mode according to the user's past behavior pattern and reduce power consumption.

1 is a schematic configuration diagram of a mobile communication system according to a preferred embodiment of the present invention. It is a figure which shows the structure of the data stored in the base station information storage part 124 of FIG. 4 is a flowchart showing an operation when a mobile communication terminal 2 stores a location history. 4 is a flowchart showing an operation during a location process by the mobile communication terminal 2;

  Hereinafter, preferred embodiments of a mobile communication terminal and a connection mode switching method according to the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 is a schematic configuration diagram of a mobile communication system 1 according to a preferred embodiment of the present invention. As shown in FIG. 1, a mobile communication system 1 according to the present embodiment includes a mobile communication terminal 2, a macro cell 11, a femto cell 12, and a location information server 13, and moves through a mobile communication network NW. This is a communication system that enables data communication and voice communication between the communication terminal 2 and other terminals, server devices, etc. (not shown). The mobile communication terminal 2 is connected (located) with either the macro cell 11 or the femto cell 12 by a mobile communication system such as IMT-2000 (International Mobile Telecommunication 2000), and thus the mobile communication terminal 2 is connected to the mobile communication network NW. It is possible to send and receive various data. Here, for convenience, one macro cell 11 and one femto cell 12 are shown in the figure, but it goes without saying that a plurality of macro cells 11 and femto cells 12 may exist.

  The macro cell 11 is a base station that can be connected to the mobile communication terminal 2 by a wireless access method such as W-CDMA (Wideband Code Division Multiple Access), and the communication data transmitted from the mobile communication terminal 2 is transferred to the mobile communication network NW. The communication data transmitted from the mobile communication network NW to the mobile communication terminal 2 is relayed to the mobile communication terminal 2. The macro cell 11 has a relatively large communication area (hereinafter also referred to as a cell) having a radius of about several hundred m to several tens of km, and the mobile communication terminal 2 located in the communication area wirelessly transmits to the macro cell 11. It is possible to be connected (located). When the mobile communication terminal 2 is located in the macro cell 11, the frequency band information relating to the frequency band of the radio wave used, the encryption code (scrambling code) used for encoding in the CDMA system, etc. are shared and transmitted wirelessly. Signals are sent and received.

  Similar to the macro cell 11, the femtocell 12 is a base station that can be connected to the mobile communication terminal 2 by a wireless access method such as WCDMA, and relays communication data transmitted from the mobile communication terminal 2 to the mobile communication network NW. At the same time, the communication data transmitted from the mobile communication network NW to the mobile communication terminal 2 is relayed to the mobile communication terminal 2. The femtocell 12 is a simple base station of a type different from the macrocell 11 having a relatively small communication area with a radius of about several tens of meters, and the mobile communication terminal 2 located in this communication area is connected to the femtocell 12. It is possible to establish a wireless connection (within the area). When the mobile communication terminal 2 is located in the femtocell 12, radio waves and scrambling codes in a frequency band different from that of the macrocell 11 are used. Further, the femtocell 12 is configured to be able to provide a communication service different from that of the macro cell 11. For example, the femto cell 12 transmits limited content data that is not relayed by the macro cell 11, and the communication fee is lower than that of the macro cell 11. It is possible to set.

  The location information server 13 is a server device that is connected to the mobile communication network NW and stores location information regarding the communication area in which the mobile communication terminal 2 is located. As this position information, base station specifying information (Cell ID) for specifying the macro cell 11 or the femto cell 12 in which the mobile communication terminal is located is used. Further, the location information regarding the mobile communication terminal 2 stored in the location information server 13 is updated accordingly when the mobile communication terminal 2 moves across the communication areas of the macro cell 11 and the femto cell 12.

  The mobile communication terminal 2 is a mobile phone, a PDA (Personal Digital Assistants), or a portable personal computer having a voice communication function and a data communication function, and a position information acquisition unit (position information acquisition means) as a functional component. 121, a time information acquisition unit (time information acquisition unit) 122, a connection mode switching unit (connection mode switching unit) 123, a base station information storage unit (base station information storage unit) 124, and a base station connection unit (base station connection unit) 125). Next, each component of the mobile communication terminal 2 will be described in detail.

  The position information acquisition unit 121 acquires position information indicating the current position of the mobile communication terminal 2 by executing GPS (Global Positioning System) positioning. For example, the position information acquisition unit 121 acquires position information “(45,135)” including latitude information and longitude information corresponding to the current position of the mobile communication terminal 2. In addition to acquiring position information by GPS positioning, the position information acquisition unit 121 also includes base station specifying information (Cell ID) for specifying a communication area in which the mobile communication terminal 2 is currently located from the position information server 13. May be acquired as position information. However, GPS positioning is more preferable from the viewpoint of accuracy of position information.

  The time information acquisition unit 122 acquires the current time by incorporating a clock function or the like. For example, the time information acquisition unit 122 acquires time information “Mon 19:35” that specifies the day of the week and time corresponding to the current time.

  The base station connection unit 125 has a function of selecting and wirelessly connecting either the macro cell 11 or the femto cell 12 according to the current position of the mobile communication terminal 2. Specifically, the base station connection unit 125 searches for a broadcast signal from the base station and refers to information such as frequency band information and a scrambling code included in the broadcast signal, thereby establishing a wireless connection with the base station. Is established, and location registration is executed for the mobile communication network NW. By performing this location registration, base station identification information (Cell ID) regarding the mobile communication terminal 2 in the location information server 13 is registered and updated.

  Here, the base station connection unit 125 has a connection mode 127 (first connection mode) called “normal connection mode” and a connection mode 126 called “femto connection mode” as connection modes for connecting to the base station. (Second connection mode) can be switched. The normal connection mode 127 is a function of connecting to an arbitrary macro cell 11 based on a notification signal from the base station, and connects to a base station that satisfies a predetermined condition among the plurality of macro cells 11. As this predetermined condition, conditions relating to the communication environment are set in advance, and examples include selecting the macro cell 11 having the highest received power, selecting the macro cell 11 having the lowest error rate in data transmission, and the like. On the other hand, the femto connection mode 126 is a function for preferentially connecting to the femtocell 12 that is a specific type of base station designated in advance by searching for a notification signal from the base station. For example, the femto connection mode 126 stores in advance base local area information such as frequency band information and a scrambling code for being in the femto cell 12, and a broadcast signal in which the base local area information is searched for. If the information matches the information included in the femtocell 12, the location processing is executed on the femtocell 12. The base localized area information is stored in the base station connection unit 125 by being input in advance from the user of the mobile communication terminal 2 or the connection mode switching unit 123.

  In addition, when the location processing for the femtocell 12 is normally completed in the femto connection mode 126, the base station connection unit 125 stores base localized area information regarding the femtocell 12 in the base station information storage unit 124. FIG. 2 shows an example of the data structure of the base localized area information of the base station information storage unit 124 stored in this way. As shown in the figure, when the base station connection unit 125 is wirelessly connected to the femtocell 12, the time zone information “Wed 15:00” corresponding to the time when the location processing is completed is the time information acquisition unit 122. The location information “(45,135)” obtained when the location processing is completed is acquired from the location information acquisition unit 121, and at the same time, the base station specifying information “# 1” specifying the femtocell 12 and the femtocell The frequency band information “F1” and the scrambling code “SC1” used at the time of location processing for 12 are specified. Then, the base station connection unit 125 allows time zone information “Wed 15:00”, position information “(45,135)”, frequency band information “F1”, scrambling code “SC1”, and base station identification information “# 1”. Are stored in the base station information storage unit 124 as base local area information in association with each other. In addition, when the base station connection unit 125 is located in the same femtocell 12 at the same position at the same time zone multiple times, the base station connection unit 125 additionally stores the number of times of presence in the base local area information, The number of visits is updated to a value corresponding to the number of visits in the past (for example, “10” when the number of visits in the past is 10). The “same position” mentioned here includes not only the case where the position information exactly matches, but also the case where they match within an area including a certain error range (the same applies hereinafter).

  The connection mode switching unit 123 periodically performs automatic switching of the connection mode of the base station connection unit 125 after the mobile communication terminal 2 is activated. That is, the connection mode switching unit 123 periodically acquires position information related to the current position and time information related to the current time from the position information acquisition unit 121 and the time information acquisition unit 122, and corresponds to the position information and time information. Base local area information is acquired by referring to the base station information storage unit 124. Further, when the connection mode switching unit 123 determines that there is base local area information associated with a time zone including the current time and position information indicating the same position as the current position, the base local area The frequency band information (FID), scrambling code (SC), and base station identification information (Cell ID) included in the information are read out. The connection mode switching unit 123 preferentially reads information with a large number of times of presence when there are a plurality of base location information. Then, the read frequency band information (FID), scrambling code (SC), and base station identification information (Cell ID) are handed over to the base station connection unit 125, and the information is preferentially connected to the femtocell 12. Thus, the base station connection unit 125 is switched to the femto connection mode 126.

  For example, when the base localized area information as shown in FIG. 2 is stored, the current time is “Wed 15:35”, and the current position is “(45,135)”, the connection mode switching unit 123. Reads out frequency band information (FID) “F1”, scrambling code (SC) “SC1”, and base station identification information (Cell ID) “# 1” and uses these information to connect to the base station The unit 125 is switched to the femto connection mode 126.

  On the other hand, when the connection mode switching unit 123 determines that there is no base local area information associated with the time zone including the current time and the position information indicating the same position as the current position, In order to make sure that the presence of the cell 12 is low or the user's need for using the femtocell 12 is low, and to be surely located in the macrocell 11 having a wider communication area, the base station connection unit 125 is switched to the normal connection mode 127.

  Hereinafter, the operation of the mobile communication terminal 2 in the mobile communication system 1 will be described with reference to FIGS. 3 and 4, and the connection mode switching method in the mobile communication terminal 2 will be described in detail. FIG. 3 is a flowchart showing the operation when the mobile communication terminal 2 stores the location history, and FIG. 4 is a flowchart showing the operation when the mobile communication terminal 2 performs the location processing.

  First, referring to FIG. 3, the femto connection mode 126 of the base station connection unit 125 is activated in response to acceptance of an activation instruction from the user (step S101). Then, the broadcast signal of the femtocell 12 is searched using the stored frequency band information (FID), scrambling code (SC), and base station identification information (Cell ID) (step S102). Then, it is determined whether or not there is a femtocell 12 that emits a notification signal in which these pieces of information match (step S103). As a result of the determination, when the femtocell 12 is not detected (step S103; NO), the process returns to step S101, and the corresponding femtocell 12 is searched again.

  On the other hand, when the femtocell 12 is detected as a result of the determination (step S103; YES), the stored frequency band information (FID), scrambling code (SC), and base station identification information (Cell ID) Is used to execute the location processing for the femtocell 12 (step S104). Thereafter, when the wireless connection with the femtocell 12 is completed, the time zone information corresponding to the current time is acquired from the time information acquisition unit 122 (step S105). At the same time, position information related to the current position is acquired from the position information acquisition unit 121 (step S106). Then, the base station connection unit 125 stores the base location information including the acquired time zone information and position information in the base station information storage unit 124 (step S107). At this time, if base local area information having the same contents already exists, the number of areas is added and updated.

  Moving to FIG. 4, when the mobile communication terminal 2 is activated, first, the normal connection mode 127 is activated in the base station connection unit 125 (step S201). Thereafter, the position information and time information are periodically acquired from the position information acquisition unit 121 and the time information acquisition unit (step S202). Next, the connection mode switching unit 123 determines whether base local area information including time zone information corresponding to the acquired time is stored in the base station information storage unit 124 (step S203). As a result, if there is no corresponding base localized area information (step S203; NO), the process returns to step S201, and the operation in the normal connection mode 127 is continued.

  As a result of the determination, if the corresponding base local area information exists (step S203; YES), the connection mode switching unit 123 includes a position that matches the acquired position information in the base local area information. It is determined whether there is base local area information including information (step S204). As a result, if the corresponding base localized area information does not exist (step S204; NO), the process returns to step S201, and the operation in the normal connection mode 127 is continued.

  On the other hand, when the corresponding base local area information exists (step S204; YES), the connection mode switching unit 123 uses the frequency band information (FID) and scrambling code (SC) included in the base local area information. Then, the base station specifying information (Cell ID) is delivered, and the connection mode of the base station connection unit 125 is switched to the femto connection mode 126 (step S205). Then, the notification signal of the femtocell 12 is searched by the base station connection unit 125 (step S206), and it is determined whether or not the femtocell 12 with the matching FID, SC, and CellID is detected (step S207). As a result of this determination, when the connection with the femtocell 12 fails because the femtocell 12 is not detected (step S207; NO), the base station connection unit 125 determines that the corresponding base local area information is the base station information. It is deleted from the storage unit 124 (step S208).

  On the other hand, when the femtocell 12 is detected (step S207; YES), the base station connection unit 125 executes the location processing to the femtocell 12 using the FID, SC, and CellID ( Step S209). Finally, the base station connection unit 125 adds and updates the number of times the corresponding base location information is located (step S210).

  According to the mobile communication terminal 2 and the connection mode switching method described above, the frequency band information (FID), the scrambling code (SC), and the base station identification information (Cell ID) related to the previously connected femtocell are connected. Connection to the base station when the time zone information and the position information are stored in association with the current time and the current location and the base localized area information corresponding to each of the current time and the current position is stored. As a mode, the femto connection mode 126 is selected from the normal connection mode 127 connected to an arbitrary macro cell and the femto connection mode 126 connected preferentially to the femto cell. As a result, by connecting to the femtocell preferentially according to the temporal and locational connection trends with the femtocell, it is possible to efficiently select and connect the type of base station according to the user's behavior pattern. In addition, waste of power due to the signal search of the base station is also reduced.

  Specifically, when it is desired to connect to a specific femtocell 12 having a relatively small communication area and enjoy a specific communication service, conventionally, a parameter corresponding to the femtocell 12 is designated in advance and a search is performed based on the parameter. In order to do so, power consumption for searching tended to increase. On the other hand, according to the present embodiment, since the parameters are automatically taken over by comparing the past user behavior pattern and the current behavior status, the search for useless signals is prevented. This reduces power consumption.

  In addition, when connection with the femtocell 12 fails, the connection mode switching unit 123 deletes the corresponding base local area information from the base station information storage unit 124, so that the radio wave status, the installation state of the femtocell, etc. Even if there is a change in the connection environment, it is possible to smoothly connect to the femtocell following the change.

  In addition, this invention is not limited to embodiment mentioned above. For example, in the femto connection mode 126 of the base station connection unit 125, the location processing to the specific femtocell 12 is executed using the FID, SC, and CellID stored in advance, but it is not always necessary to use these information. There is no need to connect to the cell 12. That is, the base station type of the femtocell 12 may be determined based on the Cell ID or flag information included in the broadcast signal from the femtocell 12 to perform the location processing. In this case, parameters such as FID, SC, and CellID for executing the location processing are extracted from the broadcast information.

  Further, in the base station information storage unit 124, time information and position information are acquired and stored as base local area information at the timing when the location processing for the femtocell 12 is completed. It may be acquired at a timing when it deviates from the femtocell 12 and departs from the femtocell 12.

  DESCRIPTION OF SYMBOLS 1 ... Mobile communication system, 2 ... Mobile communication terminal, 11 ... Macro cell, 12 ... Femtocell, 121 ... Position information acquisition part (position information acquisition means), 122 ... Time information acquisition part (time information acquisition means), 123 ... Connection mode switching unit (connection mode switching unit), 124 ... base station information storage unit (base station information storage unit), 125 ... base station connection unit (base station connection unit), 126 ... femto connection mode (second connection mode) 127) Normal connection mode (first connection mode).

Claims (4)

Position information acquisition means for acquiring position information relating to the current position;
Time information acquisition means for acquiring time information related to the current time;
A first connection mode for searching for a signal from an arbitrary base station and connecting to the arbitrary base station; and searching for a signal from a base station of a specific type specified in advance and connecting to the base station of the specific type Base station connection means having a switchable second connection mode;
Base station specifying information for specifying the specific type of base station connected by the base station connecting means, the time information acquired by the time information acquiring means at the time of connection with the base station, and connection with the base station Base station information storage means for storing the position information acquired in association with the position information acquisition means at times,
When it is determined by referring to the base station information storage means that the base station identification information associated with the time information corresponding to the current time and the position information corresponding to the current position is stored. Connection mode switching means for switching the base station connection means to the second connection mode;
A mobile communication terminal comprising: The base station connection means, when switched to the second connection mode by the connection mode switching means, the time information corresponding to the current time and the position information corresponding to the current position Based on the base station identification information, search for the signal from the specific type of base station,
The mobile communication terminal according to claim 1. The connection mode switching means, when the connection with the specific type of base station by the base station connection means fails, from the base station information storage means, the base station specifying information corresponding to the specific type of base station Delete
The mobile communication terminal according to claim 2. A position information acquisition means for acquiring position information related to the current position;
A time information acquisition step in which the time information acquisition means acquires time information related to the current time;
A base station connection means searches for a signal from an arbitrary base station and connects to the arbitrary base station, and searches for a signal from a base station of a specific type specified in advance to specify the specific A base station connection step having a switchable second connection mode for connecting to a type of base station;
Base station information storage means specifies base station specifying information for specifying the specific type of base station connected by the base station connecting means, and the time information acquired by the time information acquiring means at the time of connection with the base station, A base station information storage step for storing the location information acquired by the location information acquisition means in association with the base station;
The base station specification information associated with the time information corresponding to the current time and the position information corresponding to the current position is stored by the connection mode switching means referring to the base station information storage means. A connection mode switching step for switching the base station connection means to the second connection mode,
A connection mode switching method comprising:

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