JP2004129001A - Mobile communication terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power consumption by performing only required handovers in handover processing that frequently occurs during travel at a high speed. <P>SOLUTION: A communication history storing part 109 stores handover information. A demodulating part 106 outputs the handover information to a comparing part 107 when the reception level of a demodulated received signal is not lower than a prescribed value. The comparing part 107 compares the inputted information with contents stored in the communication history storing part 109. A handover control part 108 stops radio communication with a base station device in the case of the coincidence of comparison results and subsequently, restarts radio communication with the base station device on the basis of the contents stored in the communication history storing part 109 under a fixed condition. When the comparison results do not coincide, the handover information is outputted from the comparing part 107 to a communication history updating part 110 to determine whether to update the contents stored in the communication history storing part 109. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile communication terminal device.
[0002]
[Prior art]
In mobile communication, when a moving mobile communication terminal device deviates from a wireless zone (hereinafter, referred to as a “cell”) managed by a base station device that is currently performing wireless communication, the mobile communication terminal device communicates with a base station device that is to perform wireless communication next. A so-called handover process for establishing communication is performed.
[0003]
In this case, the mobile communication terminal apparatus transmits a base station apparatus (hereinafter, referred to as a “handover source base station apparatus”) adjacent to a base station apparatus currently performing communication (hereinafter referred to as a “handover source base station apparatus”). , "Handover destination base station").
[0004]
[Problems to be solved by the invention]
However, when the mobile communication terminal device moves at high speed, movement between cells frequently occurs, so that a handover process for switching a wireless base station of a communication destination frequently occurs. As a result, there has been a problem that the processing load on the mobile communication terminal device becomes extremely large, and the power consumption is greatly increased.
[0005]
The present invention has been made in view of the above point, and an object of the present invention is to provide a mobile communication terminal device that can be controlled to perform only necessary handover during high-speed movement of a route determined by a user's lifestyle. I do.
[0006]
[Means for Solving the Problems]
A mobile communication terminal device of the present invention is a mobile communication terminal device that wirelessly communicates with a plurality of base station devices, wherein the storage unit stores a communication history with the base station device that wirelessly communicates, and the storage unit stores the communication history at the time of handover. Comparing means for comparing handover information in the communication history to the current handover information, and controlling execution, stop and restart of handover based on the comparison result of the comparing means and the contents stored in the storage means. And a control unit that performs the control.
[0007]
According to this configuration, the execution, stop, and restart of the handover can be controlled by using the communication history with the base station device stored in the storage unit in advance, so that the high-speed movement of the fixed route according to the user's lifestyle is achieved. Inside, only necessary handover can be performed, and unnecessary handover can be stopped. As a result, the wireless communication between the mobile communication terminal device and the base station device is cut off by stopping the handover, so that power consumption can be reduced and battery saving of the mobile communication terminal device can be achieved.
[0008]
In the mobile communication terminal device of the present invention, in the above invention, the storage unit newly establishes communication with the identification information of the base station device that is currently communicating as the communication history with the base station device that has wirelessly communicated. In this configuration, the handover information including the identification information of the base station apparatus to be executed and the handover execution time are stored.
[0009]
According to this configuration, the storage unit performs the handover in advance on a route determined by the user's lifestyle in advance, and stores the base station that is currently performing communication as the communication history with the base station device that has performed wireless communication. The handover information including the identification information of the device and the identification information of the base station device that newly establishes communication and the execution time of the handover can be stored.
[0010]
The mobile communication terminal device according to the present invention, in the above invention, further comprises an updating unit that updates a communication history stored in the storage unit with the base station device that has performed wireless communication based on a comparison result of the comparing unit. Take the configuration.
[0011]
According to this configuration, the communication history stored in the storage unit can be updated as needed.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is that a mobile communication terminal device prepares a communication history at the time of handover with a base station device along a route determined by a user's lifestyle, and executes, stops, and executes handover using the communication history. Resume is to be controllable.
[0013]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
(One embodiment)
FIG. 1 is a block diagram showing a configuration of a mobile communication terminal according to one embodiment of the present invention.
[0015]
In FIG. 1, transmitting section 101 converts modulated transmission data such as voice and data into a wideband transmission baseband signal and outputs the signal to radio section 102. Radio section 102 frequency-converts the transmission baseband signal input from transmission section 101 to a transmission radio signal and outputs the signal to antenna 103. The antenna 103 transmits the transmission radio signal input from the radio unit 102 to the base station device.
[0016]
The radio signal transmitted from the base station apparatus is received by antenna 103 and input to radio section 102 as a received radio signal. Radio section 102 converts the frequency of the received radio signal input from antenna 103 to a received baseband signal, and outputs it to receiving section 104.
[0017]
The reception unit 104 includes a filter unit 105, a demodulation unit 106, a comparison unit 107, a handover control unit 108, a communication history storage unit 109, and a communication history update unit 110.
[0018]
Filter section 105 performs filtering on the received baseband signal output from radio section 102 and outputs the received baseband signal limited to a desired band to demodulation section 106.
[0019]
Demodulation section 106 demodulates the received baseband signal band-limited by filter section 105 and outputs the demodulated baseband signal as received data. Further, when the signal level of the demodulated received signal is equal to or higher than a predetermined value, demodulation section 106 outputs to communication section 107 that communication with the base station apparatus is possible and handover information. The handover information includes identification information of a handover source base station device and identification information of a handover destination base station device.
[0020]
The comparison unit 107 compares the handover information input from the demodulation unit 106 with the communication history stored in the communication history storage unit 109 to determine whether or not a necessary handover is required. Output to the over control unit 108. The comparing unit 107 compares the handover information input from the demodulation unit 106 with the communication history stored in the communication history storage unit 109, and when the handover information does not match the communication history, Is output to the communication history updating unit 110.
[0021]
The handover control unit 108 performs the handover process of the mobile communication terminal device using the determination result of whether the handover is a necessary handover input from the comparison unit 107 and the storage content of the communication history storage unit 109. And wireless communication control.
[0022]
The communication history updating unit 110 determines whether or not it is necessary to store the handover information input from the comparing unit 107 as a communication history, and if necessary, deletes the handover information recognized as necessary. Output to the communication history storage unit 109.
[0023]
The communication history storage unit 109 includes, for example, a handover history table as shown in FIG. The handover history table includes identification information 201 of the handover source base station apparatus and identification information 202 of the handover destination base station apparatus, which are handover information, a handover execution time 203, and a handover path identifier 204. They are stored in association with each other.
[0024]
These pieces of information are communication histories at the time of handover acquired by performing handover with each base station device on the route in a route determined in advance by the lifestyle of the user. Then, these stored contents are updated by the communication history updating unit 110 as necessary.
[0025]
In FIG. 2, according to the handover history table, as a part of the continuous handover indicated by the path identifier R322, for example, the base station apparatus whose identification information is C302 is obtained from the cell of the base station apparatus whose identification information is C301. Is performed at time T201.
[0026]
Next, with reference to FIGS. 1 to 4, a description will be given of a handover control operation performed in the mobile communication terminal device configured as described above. FIG. 3 is a conceptual diagram showing the positional relationship between the mobile communication terminal device and the base station device. FIG. 4 is a flowchart illustrating a handover control operation in the mobile communication terminal apparatus.
[0027]
In FIG. 3, a cell 311 indicates a wireless zone managed by the base station device 301. Similarly, cells 312 to 316 indicate wireless zones managed by the base station devices 302 to 306, respectively.
[0028]
The mobile communication terminal device 321 currently in the cell 311 and performing wireless communication with the base station device 301 has a moving route from the cell 311 to the cell 315 via the cell 312, the cell 313, and the cell 314. And a movement route 323 from the cell 311 to the cell 315 via the cell 316, the cell 313, and the cell 314.
[0029]
Each time the mobile communication terminal apparatus 321 moves out of the current cell, it performs a so-called handover process for establishing communication with a base station apparatus with which wireless communication is to be performed next. In the present embodiment, the following operation is performed as one of the handover processes.
[0030]
That is, in the mobile communication terminal apparatus 321, every time the demodulation section 106 detects a handover destination base station apparatus, the comparison section 107 stores the handover information input from the demodulation section 106 and the communication history storage section 109. Is compared with the handover information. If they match, the handover control unit 108 stops the handover. As a result, the mobile communication terminal 321 stops wireless communication and moves between cells.
[0031]
At this time, the handover control unit 108 determines that the mobile communication terminal 321 has started the same movement indicated by the handover path identifier stored in the communication history storage unit 109 and disconnects the wireless communication. Thereby, unnecessary handover processing is avoided. Then, the disconnection of the wireless communication is continued until the latest handover execution time having the same handover path identifier in the communication history storage unit 109 is the latest time. This will be specifically described below.
[0032]
In FIG. 2, it is assumed that the handover history table of the communication history storage unit 109 stores the handover information and the handover execution time on the moving route 322. That is, in FIG. 2, C301 to C304 in the column of the identification information 201 of the handover source base station device and C302 to C305 in the column of the identification information 202 of the handover destination base station device are the base station 301 in FIG. 305 correspond to the identification information. Further, R322 in the column of the handover route identifier 204 corresponds to the route identifier of the moving route 322 in FIG.
[0033]
T201, T202, T203, and T204 in the column of the handover execution time 203 are the boundaries between the cells 311 and 312, the boundaries between the cells 312 and 313, and the boundaries between the cells 313 and 314 in FIG. , And the time at which the handover is performed at the boundary between the cell 314 and the cell 315. In FIG. 3, since the cell 315 is the last reaching cell, the time T204 at which the handover is performed at the boundary between the cell 314 and the cell 315 is the latest time described above.
[0034]
In FIG. 3, a case will be described where a mobile communication terminal device 321 performing wireless communication with the base station device 301 moves along a movement route 322. When the mobile communication terminal device 321 in the standby state heads for the cell 312, near the boundary between the cell 311 and the cell 312, the demodulation unit 106 sets the reception level to be equal to or higher than a predetermined value determined as the handover execution level. The identification information C301 of the base station apparatus 301 as the handover source and the handover information including the identification information C302 of the base station apparatus 302 as the handover destination are output to the comparing section 107.
[0035]
The comparison unit 107 compares the handover information from the demodulation unit 106 with the handover information stored in the communication history storage unit 109. In this case, the two pieces of handover information are C301 and C302, and they match, so that the comparison unit 107 outputs to the handover control unit 108 that the handover process is unnecessary. The handover control unit 108 continues disconnection of the wireless communication from this time until the latest handover execution time having the same handover path identifier R322 in the communication history storage unit 109.
[0036]
When the latest handover execution time (T204 in FIG. 2) having the same handover path identifier R322 is reached in the communication history storage unit 109, the mobile communication terminal 321 moves to the handover destination base station (T204) corresponding to the handover execution time. Handover to C305 in FIG. 2 is performed. That is, at the time when the movement to the cell 315 ends, the mobile communication terminal apparatus 321 performs handover to the wireless base station apparatus 305 as the handover destination base station stored in the communication history storage unit 109 and restarts wireless communication. I do.
[0037]
Next, a case where the mobile communication terminal device 321 moves along the movement route 323 will be described. In the vicinity of the boundary between the cell 311 and the cell 316 and the vicinity of the boundary between the cell 316 and the cell 313, the handover information does not match the storage content of the communication history storage unit 109. Therefore, the handover control unit 108 executes handover when moving from the cell 311 to the cell 316 and when moving from the cell 316 to the cell 313.
[0038]
On the other hand, when moving from the cell 313 to the cell 314, the handover information near the boundary between the cell 313 and the cell 314 matches the content stored in the communication history storage unit 109. The wireless communication of the terminal device 321 is stopped, and the wireless connection with the wireless base station device 305 is restarted at the time when the movement to the cell 315 is completed based on the contents stored in the communication history storage unit 109. In other words, when the vehicle passes through the movement route 323, the movement is performed on the same route as the handover route identifier R322 from the middle of the movement. Therefore, the control based on the handover route identifier R322 is performed from the stage when the route becomes the same.
[0039]
FIG. 4 is a flowchart in which the above-described handover control operation is organized and shown. In FIG. 4, in step ST401, the mobile communication terminal device checks whether or not the signal level of the received signal from the base station device as a new communication candidate demodulated by demodulation section 106 is equal to or higher than a predetermined value. In step ST401, if the signal level of the received signal is not equal to or higher than the predetermined value (step ST401: No), the process proceeds to step ST402, and the mobile communication terminal device continues wireless connection with the current base station device.
[0040]
On the other hand, if the signal level of the received signal is equal to or higher than the predetermined value in step ST401 (step ST401: Yes), the process proceeds to step ST403, where the mobile communication terminal apparatus communicates with the handover information output from demodulation section 106. It is checked whether the contents stored in the history storage unit 109 match.
[0041]
That is, in step ST403, the identification information of the handover source base station apparatus, the identification information of the handover destination base station apparatus, and the handover execution time are compared in the handover information and the contents stored in the communication history storage unit 109. . However, it is assumed that the handover execution times match up to a certain value deviation.
[0042]
In step ST403, when the handover information and the storage content of the communication history storage unit 109 match (step ST403: Yes), the process proceeds to step ST404, and the mobile communication terminal device stops handover, and Disconnect wireless communication with the base station device.
[0043]
Next, in step ST405, the mobile communication terminal apparatus confirms, based on the stored contents of communication history storage section 109, whether or not it is time to complete the movement to the last reached cell in the current handover route. In step ST405, when it is not time to complete the movement to the final destination cell (step ST405: No), the mobile communication terminal device continues disconnection of wireless communication with all base station devices.
[0044]
Then, in step ST405, if it is the time to complete the movement to the final destination cell (step ST405: Yes), the process proceeds to step ST406, where the mobile communication terminal apparatus stores the hand in the wireless history storage unit 109 Establish wireless communication with the over-destination base station device.
[0045]
Further, in the previous step ST403, when the handover information does not match the storage content of the communication history storage unit 109 (step ST403: No), the process proceeds to step ST407, and the mobile communication terminal apparatus executes the handover. Then, the communication destination base station device is switched from the handover source base station device to the handover destination base station device.
[0046]
Next, in step ST408, the mobile communication terminal apparatus confirms whether or not to update the storage content of communication history storage section 109 with handover information of the base station apparatus that has established wireless communication in step ST407. In this step ST408, it is determined whether or not the handover information is related to high-speed movement, and whether or not the handover information is related to a user's lifestyle of moving on a fixed route. It is determined whether or not to update the storage content of unit 109.
[0047]
Whether or not the information is handover information during high-speed movement is determined by a handover interval. Whether or not it is related to the lifestyle of the user is determined by whether or not handover information that matches handover information output from the demodulation unit 106 is output at a frequency equal to or higher than a certain frequency. I do. If the matched handover information is output at a frequency equal to or higher than a certain frequency, it is assumed that the handover information is related to the lifestyle of the user.
[0048]
If it is determined in step ST408 that the handover information is not to be updated to the handover information of the base station apparatus (step ST408: No), the process proceeds to step ST409, and the mobile communication terminal apparatus retains the storage content of the communication history storage unit 109 as it is.
[0049]
Also, in step ST408, when updating to the handover information of the base station apparatus (step ST408: Yes), the mobile communication terminal apparatus proceeds to step ST410, where the mobile communication terminal apparatus stores the handover information as the storage content of the communication history storage unit 109. Is stored.
[0050]
As described above, according to the mobile communication terminal device according to the present embodiment, focusing on the user's lifestyle of moving on a predetermined route, the communication history with the base station device at the time of handover on the predetermined route is determined in advance. Is prepared in advance, and the execution, stop, and restart of the handover are controlled using the prepared information. Therefore, unnecessary handover when moving at a high speed along a fixed route can be stopped.
[0051]
As a result, the mobile communication terminal device disconnects the wireless communication with the base station device, so that power consumption can be reduced and battery saving of the mobile communication terminal device can be achieved. Further, since the base station apparatus that releases the stop of the handover and resumes the wireless communication is included in the communication history, the time required for detecting the base station apparatus can be reduced.
[0052]
【The invention's effect】
As described above, according to the present invention, handover execution, stop, and restart can be controlled using handover information corresponding to a user's lifestyle of moving along a fixed route. In handover processing frequently performed during high-speed movement, handover other than necessary handover can be prevented from being performed, and power consumption can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a mobile communication terminal device according to an embodiment of the present invention; FIG. 2 is a diagram showing storage contents of a communication history storage unit shown in FIG. 1; FIG. 4 is a conceptual diagram showing a positional relationship with a base station apparatus. FIG. 4 is a flowchart showing a handover control operation in a mobile communication terminal apparatus.
101 transmitting section 102 radio section 103 antenna 104 receiving section 105 filter section 106 demodulating section 107 comparing section 108 handover control section 109 communication history storing section 110 communication history updating section

Claims (3)

In a mobile communication terminal device that wirelessly communicates with a plurality of base station devices, a storage unit that stores a communication history with the base station device that wirelessly communicates, and handover information in the communication history stored in the storage unit during handover A comparison unit that compares the current handover information with the current handover information; and a control unit that controls execution, stop, and restart of handover based on the comparison result of the comparison unit and the content stored in the storage unit. A mobile communication terminal device characterized by the above-mentioned. The storage means, as the communication history with the base station device that has wirelessly communicated, handover information consisting of identification information of the base station device that is currently communicating and identification information of the base station device that newly establishes communication, 2. The mobile communication terminal device according to claim 1, wherein an execution time of the handover is stored. 3. The updating device according to claim 1, further comprising an updating unit configured to update a communication history with the base station device that has performed wireless communication stored in the storage unit based on a comparison result of the comparing unit. Mobile communication terminal.

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