JP2004120613A - Mobile communication device, call incoming waiting method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication device which avoids failure of incoming call, and to provide a call incoming waiting method and a program. <P>SOLUTION: When a zone of a channel of a highest receiving level is a non-packet support zone and a peripheral packet support zone is not designated in standard extension information of notification information received via a notification channel, a control part 28 judges a stable location in the non-packet support zone. In such a judgement, even when it is within a channel transit timer period, the control part 28 recovers a waiting state with a control channel for waiting. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile communication device, an incoming call waiting method, and a program.
[0002]
[Prior art]
A mobile communication system using a mobile communication device such as a mobile phone device or a PHS (Personal Handyphone System) adopts a cellular system. This cellular system is a system in which an available area is divided into small areas (zones), and a base station is installed in each zone to cover a large area and to effectively use a frequency band. RCR (Research and development Center for Radio systems) provides various standards for this mobile communication system.
[0003]
Each base station installed in each zone transmits and receives communication information to and from a mobile communication device such as a mobile phone device. Each base station transmits and receives communication information to and from a predetermined control station via wireless or wired communication, and relays transmission and reception of information between the mobile communication device and the control station.
[0004]
The mobile communication device is in a standby state, and can receive an incoming call from the other mobile communication device or a pay phone to the mobile communication device. Also, the mobile communication device can enter a standby state and make a line call to the other mobile communication device or public telephone. In order to enter the standby state, the mobile communication device performs location registration. Then, the mobile communication device waits for an incoming call on the standby control channel.
[0005]
When the mobile communication device is in a standby state, it periodically measures the reception level of propagation received from the base station, and has a base station (peripheral station) having better communication quality than the base station (own station) with which it is currently communicating. It is determined whether or not there is. When the mobile communication device determines that there is a peripheral station having better communication quality than its own station, the mobile communication device switches the communication destination from the own station to the corresponding peripheral station and shifts the zone (for example, see Patent Document 1).
[0006]
In recent years, services capable of performing packet communication have been spreading. This packet communication system is suitable for data services such as electronic mail because a series of data is divided into a plurality of packets and transmitted. However, packet communication is not always possible in all regions. Therefore, in the usable area, there are a packet support zone corresponding to packet communication and a non-packet support zone not supporting packet communication.
[0007]
When the mobile communication device moves during packet communication, the mobile communication device performs zone transition between different packet support zones or between a packet support zone and a non-packet support zone.
[0008]
When packet communication cannot be performed due to zone shift, the mobile communication device searches for a packet support zone. While searching the packet support zone, the mobile communication device does not enter a standby state. If the mobile communication device does not enter the standby state, it cannot perform line transmission or receive incoming paging (wireless paging).
[0009]
For this reason, a time limit for limiting the search of the packet support zone is provided in advance, and if the packet communication is interrupted, if the packet communication cannot be resumed from the time of the interruption until the time limit elapses, the mobile communication device Returns to the standby state.
[0010]
This time limit is defined in accordance with the RCR standard, and is set based on broadcast information from the base station. The time limit is constant irrespective of the radio wave environment, the location of the base station, and the presence or absence of the service, and is usually set from 0 seconds to 310 minutes.
[0011]
However, as in the case where the mobile communication device passes through a tunnel, the session as a unit for identifying communication may be temporarily interrupted. Even in such a case, the time limit cannot be shortened so much that the interrupted session can be immediately resumed.
[0012]
[Patent Document 1]
JP 2000-299885 A (page 2)
[0013]
[Problems to be solved by the invention]
However, if such a time limit is provided, even if it is clear that there is no packet support zone around the zone where the mobile communication device is located, the mobile communication device will Search for a channel that waits until the time has elapsed. Therefore, the mobile communication device cannot return to the standby state unless the time limit has elapsed. If the mobile communication device does not enter the standby state, it cannot receive the incoming call. That is, even if there is an incoming call to the mobile communication device during this period, it cannot be accepted.
[0014]
The present invention has been made in view of such conventional problems, and has as its object to provide a mobile communication device, an incoming call waiting method, and a program that can avoid a state in which an incoming call cannot be received. .
[0015]
[Means for Solving the Problems]
In order to achieve this object, a mobile communication device according to a first aspect of the present invention includes:
In a mobile communication device that shifts from a packet support zone capable of communicating with a base station supporting packet communication to another zone,
When packet communication is interrupted due to being out of the range of the packet support zone, a permissible perch channel is determined based on the reception level of each perch channel, and the transition destination is determined via the perch channel determined to be communicable. Zone information acquisition means for acquiring zone information of
Determining means for determining whether or not there is a zone capable of packet communication at the migration destination based on the zone information obtained by the zone information obtaining means;
If the determination means determines that there is no zone in which packet communication can be performed at the migration destination, a perch that can communicate in the migration destination zone before a predetermined search time has elapsed since the packet communication was interrupted. And waiting means for waiting for an incoming call via a channel.
[0016]
The determining means further determines whether the communicable perch channel includes a packet channel that can perform packet communication, and if the communicable perch channel includes a packet channel, the packet communication can be performed at the migration destination. It may be configured to determine that there is an appropriate zone.
[0017]
An incoming call waiting method according to a second aspect of the present invention includes:
When packet communication is cut off due to being out of the range of the packet support zone, scanning all perch channels and obtaining the reception level of each perch channel;
A step of determining a perch channel that can be communicated based on the reception level of each of the obtained perch channels, and acquiring information of a destination zone via the perch channel determined to be communicable,
Determining whether or not there is a zone where packet communication is possible at the migration destination based on the acquired zone information;
If it is determined that there is no zone in which packet communication can be performed at the migration destination, the packet communication is cut off via a perch channel that can communicate with the migration destination zone before a preset search time has elapsed since the packet communication was interrupted. Waiting for an incoming call.
[0018]
A program according to a third aspect of the present invention includes:
On the computer,
When packet communication is interrupted due to being out of the packet support zone, scanning all perch channels to obtain the reception level of each perch channel,
A procedure for determining a perch channel that can be communicated based on the reception level of each of the obtained perch channels, and obtaining information of a migration destination zone via the perch channel determined to be communicable,
A procedure for determining whether or not there is a zone where packet communication is possible at the migration destination based on the acquired zone information;
If it is determined that there is no zone in which packet communication can be performed at the migration destination, the packet communication is cut off via a perch channel that can communicate with the migration destination zone before a preset search time has elapsed since the packet communication was interrupted. Procedures for waiting for incoming calls,
Is to be executed.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a mobile communication device according to an embodiment of the present invention will be described with reference to the drawings. In the embodiments of the present invention, a mobile communication device will be described as being used in a mobile communication system employing a cellular system.
[0020]
FIG. 1 shows the configuration of such a mobile communication system.
The mobile communication system includes a mobile communication network 11, an HLR (Home Location Register) 12, base stations 13-1 to 13-n (n is a natural number not including 0), and a mobile communication device 14. .
[0021]
The mobile communication network 11 is a network formed by mutually connecting a plurality of control stations 15-1 to 15-m (m is a natural number not including 0), and includes communication information such as voice information and communication packets. For sending and receiving. The mobile communication network 11 is also connected to a public telephone network 16. As a result, communication or communication between the telephone connected to the public telephone network 16 and the mobile communication device 14 becomes possible.
[0022]
The control stations 15-1 to 15-m and the base stations 13-1 to 13-n are connected by wire, and communication information transmitted and received between the mobile communication device 14 and the base stations 13-1 to 13-n. Exchange control. A plurality of base stations are similarly connected to the control stations 15-2 to 15-m, respectively.
[0023]
The HLR 12 is for storing position information indicating the position of the mobile communication device 14 and is connected to the mobile communication network 11.
[0024]
The base stations 13-1 to 13-n transmit and receive communication information to and from the mobile communication devices 14 located in the zones 17-1 to 17-n, respectively. The zones 17-1 to 17-n are areas indicating the communicable ranges of the base stations 13-1 to 13-n, respectively. Each of the base stations 13-1 to 13-n is assigned a plurality of control channels and communication channels.
[0025]
The communication channel is a channel for communicating information including packet communication and voice communication. The control channel is a channel for transmitting and receiving various control signals.
The control channel further includes a broadcast channel, a packet channel, and the like.
[0026]
The broadcast channel is a channel for transmitting broadcast information from the base stations 13-1 to 13-n to the mobile communication device 14. The broadcast information is information on a channel configuration, a system, and the like. The broadcast information includes a standby permission level, a standby deterioration level, a perch channel number (frequency), a count time of a channel shift timer, standard extended information, and the like.
[0027]
The standby permission level is a reception level at which standby is permitted assuming that the reception level in the mobile communication device 14 can perform communication with the base stations 13-1 to 13-n without any trouble.
[0028]
The standby deterioration level is a reception level that should be determined to be out of the service area when the reception level of the mobile communication device 14 during standby has deteriorated.
[0029]
The perch channel number is data indicating a control channel of a frequency that can be used between each of the base stations 13-1 to 13-n and the mobile communication device 14.
[0030]
The channel transfer timer is a timer for limiting a search time of a zone in which packet communication specified according to the RCR standard can be performed. The count time of this channel shift timer is usually set to 0 to 310 seconds.
[0031]
The standard extended information is information defined in accordance with the RCR standard. If there is a packet support zone around the zone where the mobile communication device 14 is located, the packet support zone is used as information of the migration destination zone. This is information that specifies the zone. In the present embodiment, the standard extended information is used to determine whether or not the mobile terminal has been stably located in the non-packet support zone when performing zone transfer.
[0032]
The packet channel is a channel for a user to transfer packet information.
[0033]
The mobile communication device 14 is a portable terminal for transmitting and receiving communication information to and from the base stations 13-1 to 13-n. The mobile communication device 14 includes, for example, a mobile phone, a PHS (Personal Handyphone System), a PDA (Personal Digital Assistance), and a mobile (Mobile) computer.
[0034]
Next, FIG. 2 shows a configuration of mobile communication device 14 according to the present embodiment.
The mobile communication device 14 according to the present embodiment includes an antenna 21, a radio unit 22, a storage unit 23, a display unit 24, a key operation unit 25, a speaker 26, a microphone 27, a control unit 28, .
[0035]
The antenna 21 is composed of a predetermined rod antenna or the like provided with an element, and superimposes communication information (radio waves) supplied from the radio unit 22 on a carrier wave of a predetermined frequency, and performs communication among the base stations 13-1 to 13-n. Transmit to a possible base station or the like.
The antenna 21 receives communication information transmitted from a communicable base station among the base stations 13-1 to 13-n and supplies the communication information to the radio unit 22.
[0036]
The wireless unit 22 is controlled by the control unit 28, and communicates with the base station (eventually, another telephone or service provider) among the base stations 13-1 to 13-n that can communicate via the antenna 21. Communication information such as voice information and communication packets is transmitted and received between the devices.
[0037]
Radio section 22 includes an RF signal processing section (not shown) and a baseband signal processing section (not shown). The RF signal processing unit is a radio signal processing unit for modulating and demodulating a radio signal transmitted and received between each of the base stations 13-1 to 14-n. The baseband signal processing unit is for extracting a signal that can be processed by the control unit 28 and an audio signal from the baseband signal demodulated by the RF signal processing unit.
[0038]
In addition, the radio unit 22 measures the electric field strength (RSSI) of each of the surrounding channels received via the antenna 21, that is, the plurality of control channels that are candidates for the perch channel.
[0039]
The storage unit 23 stores data necessary for each control of the control unit 28. The storage unit 23 stores, as necessary data, perch channels usable in each of the base stations 13-1 to 13-n, data of a reception level when a signal of each perch channel is received, and mobile communication. The position information indicating the position of the device 14, the standby permission level, the standby deterioration level included in the broadcast information, and the count time of the channel shift timer and the like are stored.
[0040]
The display unit 24 includes a liquid crystal display panel or the like, and displays various information for notifying a user of an operation state of the mobile communication device 14.
For example, the display unit 24 displays information such as date and time, information indicating the remaining amount of the battery, and information indicating the communication range (reception level of the currently used channel) or information indicating that the communication is out of the communication range.
[0041]
The key operation unit 25 includes a plurality of operation keys arranged on the front (front) of the device. For example, the key operation unit 25 includes a numeric key, a character key, a function key, a call key, and the like. One of these keys also functions as a power switch.
[0042]
The speaker 26 emits sound or the like according to a sound signal or the like demodulated by a baseband signal processing unit or the like provided in the wireless unit 22.
The microphone 27 is composed of a condenser microphone or the like, converts the collected user's voice or the like into a voice signal, and supplies the voice signal to a baseband signal processing unit or the like provided in the wireless unit 22.
[0043]
The control unit 28 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory) and the like, and controls the entire mobile communication device 14.
The ROM stores a program executed by the control unit 28, and stores all perch channel numbers and frequency codes in association with each other.
[0044]
Next, the operation of mobile communication device 14 according to the present embodiment will be described.
When the key of the key operation unit 25 is operated and the power switch is turned on, the control unit 28 of the mobile communication device 14 controls the wireless unit 22 to execute a process called a perch scan.
[0045]
This process will be described with reference to FIG.
The control unit 28 controls the radio unit 22, sets the perch channel stored in the ROM, and receives the control signal (step S11).
[0046]
The control unit 28 controls the wireless unit 22 to measure the reception level (electric field strength) of the received perch channel control signal (step S12).
The control unit 28 stores the measured reception level in the storage unit 23 in association with the perch channel (step S13).
[0047]
The control unit 28 determines whether or not the reception levels of the control signals have been measured for all the perch channels stored in the ROM (step S14).
[0048]
When determining that the reception levels of the signals of all the perch channels have not been measured (No in step S14), the control unit 28 sets the next perch channel and receives the control signal (step S11). . The control unit 28 measures the reception level (Step S12).
[0049]
In this way, the reception level is sequentially measured, and when it is determined that the reception levels of all the perch channel signals stored in the ROM have been measured (Yes in step S14), the control unit 28 determines that the reception level is high. The data is rearranged in order (step S15).
[0050]
The control unit 28 establishes synchronization with the perch channel having the highest reception level (step S16).
The control unit 28 acquires the broadcast information via the perch channel (BCCH) (step S17).
[0051]
The control unit 28 selects a perch channel to be awaited included in the acquired broadcast information (step S18).
The control unit 28 activates the selected perch channel (step S19). Then, the control unit 28 ends the perch scan processing.
[0052]
Next, the control unit 28 performs position registration. When the zone in which the mobile communication device 14 is located is the zone 17-1, the radio unit 22 transmits the signal from the base station 13-1 in the zone 17-1 via the standby control channel (perch channel). Receive location information.
[0053]
When the received position information is different from the position information stored in the storage unit 23, the control unit 28 stores the position information received by the wireless unit 22 in the storage unit 23. Further, the base station 13-1 receives this position information and transmits it to the control station 15-1. The HLR 12 stores the received position information.
[0054]
Further, the control unit 28 stores the acquired position information in the storage unit 23. As a result, location registration is performed, and the mobile communication device 14 enters a standby state in which the mobile communication device 14 waits for a line transmission or an incoming call via the standby control channel.
[0055]
The mobile communication device 14 periodically executes a perch scan process during packet communication and monitors the reception level of the perch channel. When the reception level of the perch channel decreases due to the zone shift, the control unit 28 searches for a packet channel in a peripheral zone.
[0056]
This operation will be described with reference to the flowchart of FIG.
The control unit 28 specifies the control channel having the highest reception level (step S21).
The control unit 28 determines whether or not the specified control channel is a channel in the packet support zone (Step S22).
[0057]
When the control unit 28 determines that the designated control channel is a channel in the packet support zone (Yes in step S22), the control unit 28 returns to the standby state as a standby control channel (step S23). Then, the control unit 28 ends this processing.
[0058]
When the control unit 28 determines that the specified control channel is not a channel of the packet support zone (No in step S22), the control unit 28 acquires broadcast information via the perch channel of the base station in the zone in which it is located (step S24). ).
[0059]
The control unit 28 determines whether or not the acquired broadcast information includes designation of a peripheral packet support zone (step S25).
If the control unit 28 determines that the broadcast information includes the peripheral packet support zone (Yes in step S25), the control unit 28 returns to the standby state as a standby control channel (step S23). Then, the control unit 28 ends this processing.
[0060]
When determining that there is no designation of the peripheral packet support zone in the broadcast information (No in step S25), the control unit 28 clears the count value of the counter (step S26).
[0061]
The control unit 28 determines whether or not the count value has become equal to or greater than a preset threshold value (Step S27).
[0062]
When determining that the count value is smaller than the preset threshold value (No in step S27), the control unit 28 increments the count value of the counter (step S28).
[0063]
The control unit 28 sequentially increments the count value while the count value is less than the preset threshold (step S28). When the control unit 28 determines that the count value of the counter has become equal to or greater than the predetermined value (Yes in step S27), the control unit 28 returns to the standby state on the control channel having the highest reception level (step S29).
[0064]
Thereby, the mobile communication device 14 can receive the service in the non-packet support zone.
[0065]
Next, this operation will be specifically described with reference to FIGS.
As shown in FIG. 5, when the mobile communication device 14 located in the zone 17-6 of the base station 13-6 shifts to the zone 17-1 of the base station 13-1, FIG. As shown in a), the reception level (strength) V1 when the vehicle is located in the zone 17-6 decreases.
When the reception level V1 becomes equal to or lower than the preset standby deterioration level Vth at time t0, the mobile communication device 14 searches for a packet channel as shown in FIG. 6B.
[0066]
In FIG. 6B, times t0 to t1 are count times of the channel shift timer. As described above, this time is a time limit for restricting the search of the packet support zone when the packet communication cannot be performed due to the zone shift, and is usually based on the broadcast information from the base station 13-1. , 0 seconds to 310 minutes.
[0067]
At time t0, if there is no packet support zone even when the perch scan including the peripheral zone is performed, the control unit 28 determines that the search has failed. If the search has failed, the control unit 28 executes the perch scan again after a certain period of time.
[0068]
The mobile communication device 14 receives the broadcast information via the perch channel.
When the zone 17-3 of the base station 13-3 is the packet support zone, the base station 13-1 includes the designation of the peripheral packet support zone in the standard extended information of the broadcast information.
[0069]
On the other hand, when none of the zones 17-1 to 17-5 is a packet support zone, the base station 13-1 does not include the designation of the packet support zone around the base station 13-1 in the standard extended information.
[0070]
If the standard extended information specifies a peripheral packet support zone, the mobile communication device 14 searches for a peripheral packet support zone. Again, even if the mobile communication device 14 fails to search for the peripheral packet support zone, the perch scan and the search for the peripheral packet support zone are repeated at regular intervals until time t1 when the count time of the channel shift timer expires. Do.
During this time, if the mobile communication device 14 moves and comes to the zone 17-3, the mobile communication device 14 can perform packet communication again.
[0071]
However, if the perch channel of the base station 13-3 cannot be detected even at the time t1, the mobile communication device 14 returns from the search process to the standby state at the time t1.
[0072]
If there is no designation of the peripheral packet support zone in the standard extended information of the broadcast information received at time t11, the mobile communication device 14 determines that it is stably located in the non-packet support zone. In this case, even before the count period of the channel transfer timer expires, the mobile communication device 14 immediately returns to the standby state.
[0073]
After the mobile communication device 14 returns to the standby state, the mobile communication device 14 can receive an incoming call in the visited zone.
[0074]
As described above, according to the present embodiment, the mobile communication device 14 is configured such that the perch channel having the highest reception level is a channel in the non-packet support zone, and the peripheral packet is included in the standard extended information of the broadcast information. If the support zone is not specified, it is determined that the mobile station has been stably located in the non-packet support zone, and the mobile station returns to the standby state on the standby channel even before the expiration of the channel transfer timer.
[0075]
Therefore, if it is determined that the mobile terminal is stably located in the non-packet support zone, the mobile terminal immediately returns to the standby state, so that a state in which an incoming call cannot be received can be avoided. Unnecessary search of the packet support zone can be terminated immediately, incoming calls can be reliably monitored, and even if the service of the packet bearer cannot be provided, reconnection by circuit switching can be performed. Becomes possible.
[0076]
In carrying out the present invention, various modes are conceivable, and the present invention is not limited to the above embodiments.
For example, in the above embodiment, the mobile communication device 14 has been described as being used in a mobile communication system employing a cellular system. However, the present invention is not limited to this, and can be applied to a PHS system.
[0077]
Further, in the present embodiment, based on the standard extension information of the broadcast information, it is determined whether or not mobile communication device 14 is stably located in the non-packet support zone. However, the present invention is not limited to this. If the mobile communication device 14 stores information on all perch channels including information on whether or not the perch channel is compatible with the packet channel, the standard extension of the broadcast information can be achieved. The above determination can be made without using information.
[0078]
In addition, a program for causing the computer to operate as all or a part of the mobile communication device 14 or for executing the above-described processing is stored in a flexible disk, a compact disk read-only memory (CD-ROM), or a DVD (digital). The program may be stored and distributed on a computer-readable recording medium such as a Versatile Disk, and may be installed in a computer and operated as the above-described means or may execute the above-described steps. Further, the program may be stored in a disk device or the like of a server device on the Internet, and may be superimposed on a carrier wave and downloaded to a computer, for example.
[0079]
【The invention's effect】
As described above, according to the present invention, it is possible to avoid a state in which an incoming call cannot be received.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a mobile communication system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a mobile communication device according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a perch scanning process executed by a control unit in FIG. 2;
FIG. 4 is a flowchart illustrating a packet channel search process executed by a control unit in FIG. 2;
FIG. 5 is an explanatory diagram showing zone transition of the mobile communication device.
FIG. 6 is a time chart illustrating an operation of the mobile communication device.
[Explanation of symbols]
11 mobile communication network 13-1 to 13-n base station 14 mobile communication device 15-1 to 15-m control station 17-1 to 17-n zone 22 radio unit 28 control unit

Claims (4)

In a mobile communication device that shifts from a packet support zone capable of communicating with a base station supporting packet communication to another zone,
When packet communication is interrupted due to being out of the range of the packet support zone, a permissible perch channel is determined based on the reception level of each perch channel, and the transition destination is determined via the perch channel determined to be communicable. Zone information acquisition means for acquiring zone information of
Determining means for determining whether or not there is a zone capable of packet communication at the migration destination based on the zone information obtained by the zone information obtaining means;
If the determination means determines that there is no zone in which packet communication can be performed at the migration destination, a perch that can communicate in the migration destination zone before a predetermined search time has elapsed since the packet communication was interrupted. Waiting means for waiting for an incoming call via a channel,
A mobile communication device characterized by the above-mentioned. The determining means further determines whether the communicable perch channel includes a packet channel that can perform packet communication, and if the communicable perch channel includes a packet channel, the packet communication can be performed at the migration destination. Is configured to determine that there is a zone
The mobile communication device according to claim 1, wherein: When packet communication is cut off due to being out of the range of the packet support zone, scanning all perch channels and obtaining the reception level of each perch channel;
A step of determining a perch channel that can be communicated based on the reception level of each of the obtained perch channels, and acquiring information of a destination zone via the perch channel determined to be communicable,
Determining whether or not there is a zone where packet communication is possible at the migration destination based on the acquired zone information;
If it is determined that there is no zone in which packet communication can be performed at the migration destination, the packet communication is cut off via a perch channel that can communicate with the migration destination zone before a preset search time has elapsed since the packet communication was interrupted. Waiting for an incoming call.
A method for waiting for an incoming call. On the computer,
When packet communication is interrupted due to being out of the packet support zone, scanning all perch channels to obtain the reception level of each perch channel,
A procedure for determining a perch channel that can be communicated based on the reception level of each of the obtained perch channels, and obtaining information of a migration destination zone via the perch channel determined to be communicable,
A procedure for determining whether or not there is a zone where packet communication is possible at the migration destination based on the acquired zone information;
If it is determined that there is no zone in which packet communication can be performed at the migration destination, the packet communication is cut off via a perch channel that can communicate with the migration destination zone before a preset search time has elapsed since the packet communication was interrupted. Procedures for waiting for incoming calls,
The program to execute.

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