JP4396000B2 - Mobile communication device, communication method, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cellular phone or the like in which a plurality of radio base stations are allocated for each frequency band, a standby channel capable of optimal transmission and reception is selected, and communication is performed through the radio base station. The present invention relates to a mobile communication device, a communication method, and a recording medium that are suitable for application.
[0002]
[Prior art]
In recent years, in the information communication field, code division multiplexing cellular phones and automobile phones using spread spectrum communication have been increasingly used. In a telephone premised on this type of movement, a plurality of frequency bands are allocated to a telecommunications carrier in advance, and a plurality of radio base stations are arranged for each frequency band, and a standby channel capable of optimal transmission / reception is selected. Communication is made through the radio base station.
[0003]
FIG. 9 is a block diagram showing a configuration example of the mobile phone 10 according to the conventional example. A cellular phone 10 shown in FIG. 9 has an antenna 1. A radio communication unit 2 is connected to the antenna 1 so as to communicate with a radio base station. A central processing unit (CPU) 3 and an audio processing unit 4 are connected to the wireless communication unit 2. The CPU 3 activates the wireless radio station from the channel having the strongest received electric field strength, and controls the wireless communication unit 2 to receive the notification information from the wireless radio station after the activation is successful.
[0004]
At this time, if the wireless communication network number based on the notification information is the same as the standby channel (hereinafter also referred to as a perch channel) of the scan-destination operator that is currently scanning, the mobile phone 10 can wait. So it enters standby operation. If the wireless communication network number according to the broadcast information is different from the perch channel of the scan-destination operator that is currently scanning, the mobile phone 10 cannot wait, so is there a next perch scan destination? Is judged.
[0005]
In addition, a microphone 34 and a speaker 31 are connected to the voice processing unit 4 connected to the CPU 3 to detect a user's conversation or to process a voice of the other party. A liquid crystal display monitor (hereinafter referred to as LCD) 5, an operation unit 6 and a memory 7 are connected to the CPU 3, and the CPU 3 performs the wireless communication unit 2 and the audio processing unit 4 based on operation information obtained by user key operations. It is made to control the input / output of.
[0006]
FIG. 10 is a flowchart showing an operation example when the mobile phone 10 selects a wireless communication network. For example, it is assumed that there are 20 channels above the cut-off level for seven radio base stations constituting one radio communication network. When the mobile phone 10 selects a standby channel capable of optimal transmission / reception, when the power of the mobile phone 10 is turned on at step E1 in the flowchart shown in FIG. It is determined whether or not there is a channel that can be activated by the previous provider.
[0007]
If there is a channel that can be activated, the process proceeds to step E3, where the perch channel is activated by the CPU 3. For example, when the wireless communication unit 2 is controlled so that the wireless communication unit 2 is activated in order from the wireless base station with strong reception electric field strength, the wireless communication unit 2 receives the notification information from the wireless base station, and based on the notification information A standby channel is selected.
[0008]
Then, the process proceeds to step E4, and the CPU 3 determines whether the perch channel has been successfully activated. Here, the number of the wireless communication network obtained from the broadcast information from the wireless base station is compared with the perch channel of the currently scanned scan operator, and if they are different, the mobile phone 10 You cannot wait in this communication area. Therefore, it is necessary to activate the next channel.
[0009]
That is, when the perch channel is successfully activated, the process proceeds to step E5 and enters a standby operation. If the perch channel is not successfully activated in step E4 for some reason, the process returns to step E2 to determine again whether there is a channel that can be activated. In step E2, if there are a plurality of startable channels as described above, step E3 → step E4 → step E2 is repeatedly executed correspondingly. In this example, it is repeated 20 times.
[0010]
If there is no channel that can be activated in step E2, the process proceeds to step E6 and the CPU 3 determines whether there is a next perch scan destination. If there is a next perch scan destination, the process proceeds to step E7, where scan settings relating to the next perch scan destination are made.
[0011]
For example, a local oscillation frequency (perch frequency) is set to match the carrier frequency of the wireless communication station related to the perch channel of the scan destination operator. Thereafter, the process returns to step E2 to determine whether there is a startable channel in the perch channel. If there are a plurality of startable channels as described above, step E3 → step E4 in the same way as before. → Step E2 is repeatedly executed. As described above, when the next channel is activated, if the standby fails similarly, the cellular phone 10 further activates the next perch channel.
[0012]
If there is no next perch channel destination in step E6, the process proceeds to step E8, and the CPU 3 proceeds to an out-of-service operation. In the out-of-service operation, the characters “out of service” are displayed on the LCD 5. When the process shifts to the standby operation in step E9 and after the shift to the “out of service” operation in step E8, in step E9, the power-off information is detected and the wireless communication network selection process is terminated. If the power-off information is not detected, the standby operation or “out of service” operation is repeated.
[0013]
[Problems to be solved by the invention]
By the way, when selecting a standby channel capable of optimal transmission / reception of the conventional method, if the standby fails, the next channel is repeatedly activated. Only when standby on channel fails.
[0014]
In the example of FIG. 10, the transition to the next perch channel destination scan is not made unless the standby fails in all 20 channels. For this reason, unnecessary channel activation is repeated, the time for standby transition is delayed, and as a result, when waiting is not performed, the time for transition to out-of-service transition is also delayed. In addition, unnecessary power is consumed as long as unnecessary channel activations are repeated.
[0015]
Thus, the present invention solves such a conventional problem, and can reduce the standby channel selection time and the out-of-service transition time, and can select an extra standby channel or other communication business. An object of the present invention is to provide a mobile communication device, a communication method, and a recording medium that can suppress the number of activations to a person.
[0016]
[Means for Solving the Problems]
The above-described problem is that a plurality of frequency bands are allocated and a plurality of radio base stations are arranged for each frequency band. Starts in order from the radio base station with strong received electric field strength, receives broadcast information from the radio base station, and based on this broadcast information In an apparatus for selecting a standby channel that can be optimally transmitted and received and communicating with the radio base station, a radio communication unit, and a storage unit that records the number of times of selection for allowing a selection operation of a standby channel in the radio communication unit; A measuring unit that measures the number of selection failures, which is the number of times the selection operation of the standby channel in one frequency band has failed, and the selection failure number by the measuring unit and the selection allowable number by the storage unit are appropriately compared and selected. Control means for controlling the wireless communication means so as to select a standby channel in another frequency band when the number of failures exceeds the selection allowable number Relocation It is solved by the moving body communication device.
[0017]
According to the mobile communication device of the present invention, Starts in order from the radio base station with strong received electric field strength, receives broadcast information from the radio base station, and based on this broadcast information When selecting a standby channel that can be optimally transmitted / received and communicating with a radio base station, the selection allowable number is read from the storage means, and the measuring means has failed to select a standby channel in one frequency band. Is measured. In the control means, the number of selection failures by the measuring means and the selection allowable number by the storage means are compared as appropriate, and when the number of selection failures exceeds the selection allowable number, a standby channel in another frequency band is selected. The wireless communication means is controlled.
[0018]
Therefore, even if there is a standby channel that can be activated in the frequency band that exceeds the allowable number of selections, if the number of selection failures exceeds the allowable number of selections, other channels can be activated without activating the standby channel. Since the standby channel in the frequency band can be selected, it is not necessary to select all the standby channels for each frequency band.
[0019]
Thereby, a standby channel capable of optimal transmission / reception can be selected at high speed, and the standby channel selection time and out-of-service transition time can be shortened. In addition, since it is possible to select an extra standby channel and to suppress the number of activations to other communication carriers, the power consumption of the mobile communication device can be reduced.
[0020]
In the communication method according to the present invention, a plurality of frequency bands are allocated, and a plurality of radio base stations are arranged in one frequency band, Start in order from the radio base station with strong received electric field strength, receive broadcast information from the radio base station, and based on the broadcast information In the method of selecting a standby channel capable of optimal transmission / reception and communicating between the radio base station and the mobile communication device, a selection allowable number for allowing the mobile communication device to select a standby channel in advance is set. Set, Mobile communication device The number of times of selection failure is measured as the number of times that the selection operation of the standby channel in one frequency band has failed, and the number of times of selection failure is compared with the allowable number of times of selection, and if this number of selection failures exceeds the allowable number of times of selection, Select a standby channel in the frequency band Rumo It is.
[0021]
According to the communication method of the present invention, even when there is a startable standby channel that exceeds the selection allowable number in the frequency band, if the number of selection failures exceeds the selection allowable number, the standby channel Since it is possible to select standby channels in other frequency bands without starting up, it is not necessary to select all the standby channels for each frequency band.
[0022]
Therefore, even when the frequency band is assigned to a different carrier, it is possible to select a standby channel capable of optimal transmission / reception at high speed. As a result, the standby channel selection time and out-of-service transition time can be advanced. In addition, it is possible to select an extra standby channel and to suppress the number of activations to other communication carriers.
[0023]
The recording medium according to the present invention is assigned a plurality of frequency bands, and a plurality of radio base stations are arranged in one frequency band, Start in order from the radio base station with strong received electric field strength, receive broadcast information from the radio base station, and based on the broadcast information Allowing the mobile communication device to select a standby channel in advance in a recording medium that records a control program for selecting a standby channel capable of optimal transmission and reception and communicating between the radio base station and the mobile communication device Set the allowable number of times as the number of times, Mobile communication device The number of selection failures is measured as the number of times the standby channel selection operation has failed in one frequency band, the number of selection failures is compared with the allowable number of selections as appropriate, and if the number of selection failures exceeds the selection allowable number, A control procedure for selecting a standby channel in a certain frequency band is described.
[0024]
According to the recording medium of the present invention, by controlling the mobile communication device according to the control procedure, it is not necessary to select all the standby channels for each frequency band. Can be selected at high speed. In addition, since the mobile communication device can be controlled with good reproducibility by the control procedure, it is possible to always select a standby channel that can be optimally transmitted and received and communicate with the radio base station.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Subsequently, an embodiment of a mobile communication device, a communication method, and a recording medium according to the present invention will be described with reference to the drawings.
[0026]
(1) Embodiment
FIG. 1 is a block diagram showing a configuration example of a mobile communication device 100 as an embodiment according to the present invention.
In this embodiment, there is provided control means for appropriately comparing the number of selection failures that have failed in the selection operation of the standby channel in one frequency band and the selection allowable number of times that allows the selection operation of the standby channel. If the allowable number of times is exceeded, select a standby channel in another frequency band to shorten the standby channel selection time and out-of-service transition time, select an extra standby channel, and others The number of startups to telecommunications carriers can be suppressed.
[0027]
A wireless communication system 19 to which the mobile communication device 100 shown in FIG. 1 is applied is provided with a wireless communication network 19, and the wireless communication network 19 includes a plurality of frequency bands #i (i = 1 to N). And a plurality of radio base stations Bj (j = 1 to m) are arranged for each frequency band #i. In general, the radio base station Bj is arranged at the center of a zone 19A indicated by a regular hexagon, and one zone 19A is expressed by being divided into three sectors 19B. The mobile communication device 100 is moved with the action of the user (subscriber), and always selects a standby channel (optimum perch channel) that can be optimally transmitted / received in one sector 19B.
[0028]
Each of the mobile communication devices 100 is provided with a wireless communication means 11, and a wired or wireless connection is used from the wireless base station Bj via the wireless base station Bj of the communication carrier with which the user has signed a telephone subscription contract. Then, communication is performed with the other party. The wireless communication means 11 is controlled based on the activation control signal S1. The activation control signal S1 is a signal for activating (scanning) the radio base station Bj.
[0029]
A measuring unit 12 is connected to the wireless communication unit 11, and when the number of times of failing to select a standby channel in one frequency band #i is defined as a selection failure number R, the selection failure number R is measured. To be made.
[0030]
The control means 13 is connected to the measuring means 12, and the activation control signal S1 is supplied to the radio communication means 11, and the radio base station Bj having the strong reception electric field strength is activated in order and the broadcast information from the radio base station Bj is received. Then, control is performed so as to select a standby channel based on the broadcast information. The storage means 14 is connected to the control means 13 and stores the selection allowable number of times Rth set in advance as the number of times allowed for the standby channel selection operation.
[0031]
The control means 13 compares the selection failure count R obtained from the measurement means 12 with the selection allowance count Rth read from the storage means 14 as appropriate, and if this selection failure count R exceeds the selection allowance count Rth, The wireless communication means 11 is controlled to select a standby channel in the frequency band #i.
[0032]
If the selection failure frequency R is less than the selection allowable frequency Rth, the standby channel in the frequency band #i is selected until the selection failure frequency R matches the selection allowable frequency Rth. The selection allowable number of times Rth is about 3 to 5. If the selection allowable number Rth is too large, the selection time of the standby channel and the out-of-service transition time cannot be advanced. On the contrary, if the selection allowable number of times Rth is small, the reliability of the standby channel selection operation may be reduced.
[0033]
In this example, a wireless communication network related to a predetermined frequency band #i is assigned to a plurality of communication carriers, and the control means 13 selects the wireless communication network of the communication carrier with which the user has signed a telephone subscription contract. It is made like. In the other frequency band #i, if the standby channel is not selected, the control means 13 determines that “out of range”. Out of service area is when the current position of the user is not within the wireless communication network of the communication carrier that has signed the telephone subscription contract or when the mobile communication device 100 is not within the wireless range. This includes a case where the user who has the radio base station Bj and the mobile communication device 100 is in an environment such as a subway or a tunnel and cannot perform radio communication.
[0034]
In this example, the recording medium 15 is connected to the control means 13 to select a standby channel that can be optimally transmitted / received in the above-described wireless communication system and to communicate between the wireless base station Bj and the mobile communication device 100. The control program is recorded. The recording medium 15 is preferably a non-volatile semiconductor memory, and a flash memory such as an EEPROM is used.
[0035]
In the recording medium 15, a selection allowable number Rth is set in advance as the number of times that the mobile communication device 100 is allowed to select a standby channel, and is selected as the number of times that the standby channel selection operation has failed in one frequency band #i. The number of failures R is measured, the selection failure number R and the selection allowable number Rth are appropriately compared, and if the selection failure number R exceeds the selection allowable number Rth, a standby channel in another frequency band #i is selected. Such a control procedure D0 is described.
[0036]
Next, a processing example in the mobile communication device 100 will be described. FIG. 2 is a flowchart showing an example of processing in the mobile communication device 100.
[0037]
In this embodiment, in a radio communication system to which the mobile communication device 100 is applied, a plurality of frequency bands #i are allocated to a communication carrier, and a plurality of radio base stations Bj are arranged for each frequency band #i. The mobile communication device 100 is moved together with the user's action, and the mobile communication device 100 always selects a standby channel that can be optimally transmitted / received, and the wireless base station of the communication carrier for which the user has signed a telephone subscription contract. Assume that communication is performed with the station Bj.
[0038]
On the premise of this, in step A1 of the flowchart shown in FIG. 2, a selection allowable number Rth for allowing the mobile communication device 100 to select a standby channel is set in advance. The selection allowable number of times Rth is set by the manufacturer of the mobile communication device 100 by the control procedure D0 described in the recording medium 15. Of course, the user may be allowed to change the number of times according to the control procedure D0 by the recording medium 15.
[0039]
Thereafter, the process proceeds to step A2, and the standby channel selection operation for the frequency band #i is executed. When the wireless communication means 11 is controlled so that the control means 13 starts in order from the wireless base station Bj having a strong received electric field strength, the wireless communication means 11 receives the broadcast information from the wireless base station Bj, and the broadcast information is included in the broadcast information. Based on this, a standby channel is selected. Then, the process proceeds to step A3, and the measurement unit 12 measures the selection failure frequency R in which the standby channel selection operation in the frequency band #i has failed.
[0040]
This selection failure count R is output to the control means 13, and the selection allowable count Rth is read from the storage means 14 by the control means 13. Then, the process proceeds to step A4, and the selection failure frequency R and the selection allowable frequency Rth are appropriately compared by the control means 13. Based on this comparison result, the control means 13 detects whether the process has shifted to step A5 and the selection failure frequency R has exceeded the selection allowable frequency Rth.
[0041]
When the selection failure frequency R exceeds the selection allowable frequency Rth, the process proceeds to step A6 to select a standby channel in another frequency band #i. If the selection failure frequency R does not exceed the selection allowable frequency Rth, the wireless communication means 11 is controlled based on the control signal S1 so as to return to step A2 and continue the standby channel selection operation for the frequency band #i. The If the current position of the user is not the wireless communication network of the communication carrier that has signed the telephone subscription, and the mobile communication device 100 is not within the wireless range, the control means 13 If the standby channel cannot be selected, “out of service area” is set.
[0042]
Therefore, even if there is a startable standby channel exceeding the selection allowable number Rth in the frequency band #i, if the selection failure number R exceeds the selection allowable number Rth, the standby channel is started. Therefore, it is possible to select the standby channel in the other frequency band # i + 1, so that it is not necessary to select all the standby channels for each frequency band # 1 to #N.
[0043]
As a result, it is possible to select a standby channel capable of optimal transmission and reception at a higher speed than in the conventional method, and to shorten the standby channel selection time and out-of-service transition time. In addition, since it is possible to select an extra standby channel and to suppress the number of activations to other communication carriers, the power consumption of the mobile communication device 100 can be reduced.
[0044]
(2) Examples
FIG. 3 is a block diagram showing a configuration example of a mobile phone 200 as an embodiment according to the present invention. A cellular phone 200 shown in FIG. 3 is an example of a mobile communication device, and for example, a code division multiplexing system using spread spectrum communication is adopted.
[0045]
The cellular phone 200 has a rod antenna 21 and takes in a wideband spread signal (radio wave) based on spread spectrum communication from a radio base station Bj (not shown). The rod antenna 21 is connected to a receiving unit 22 that constitutes a part of the wireless communication means so as to receive at least audio and video information DIN from the other party. A voice detection amplification unit 23 is connected to the reception unit 22 to detect and amplify voice information and ringer information from the other party. A speaker 24 is connected to the sound detection amplifying unit 23 so that a sound signal is output loudly.
[0046]
The receiving unit 22 is connected to a central processing unit (hereinafter simply referred to as CPU) 25 as an example of a measuring unit and a control unit. The CPU 25 is provided with a measurement function such as a counter (not shown) as an example of a measurement unit, and measures the number of selection failures R regarding the standby channel selection operation in one frequency band #i. The number of selection failures R in which the standby channel selection operation in one frequency band #i has failed is measured.
[0047]
The CPU 25 is connected to a transmission unit 26 constituting a part of the wireless communication means, and transmits audio and video information DOUT to the other party via the wireless base station Bj based on a well-known technique. Further, the CPU 25 supplies the activation control signal S11 to the transmission unit 26, and activates in order from the radio base station Bj having the strong received electric field strength. The CPU 25 supplies the activation control signal S12 to the reception unit 22 and outputs from the radio base station Bj. Broadcast information is received, and a standby channel is selected based on the broadcast information.
[0048]
The CPU 25 is connected to a RAM (memory that can be written and read as needed) 27 as an example of a storage means, used as a work memory, and a selection allowable number of times Rth set in advance as the number of times allowed for the standby channel selection operation. Is stored. In addition to the RAM 27, the storage means is provided with an ID-ROM (read only memory) 28, in which a program for controlling the system of the entire telephone and a perch channel destination perch frequency are described. The selection allowable number of times Rth may be described in the ROM 28.
[0049]
The CPU 25 appropriately compares the selection failure count R calculated by itself with the selection allowance count Rth read from the RAM 27. If the selection failure count R exceeds the selection allowance count Rth, the CPU 25 waits in another frequency band #i. The transmission unit 26 and the reception unit 22 are controlled so as to select a channel.
[0050]
If the selection failure frequency R is less than the selection allowable frequency Rth, the standby channel in the frequency band #i is selected until the selection failure frequency R matches the selection allowable frequency Rth. In this mobile phone 200, for example, “3” is set as the selection allowable number of times Rth. Of course, it is not limited to this. If the standby channel is not selected in the other frequency band #i, the CPU 25 determines “out of range”.
[0051]
In this example, a wireless communication network related to a predetermined frequency band #i is assigned to a plurality of communication carriers, and the CPU 25 selects a wireless communication network of a communication carrier with which the user has signed a telephone subscription contract. Made. For example, “roaming mode 6” is set in the mobile phone 200, and perch channel scanning is executed by this “roaming mode 6”.
[0052]
Here, the roaming mode is a network selection operation that can designate a wireless communication network (hereinafter referred to as a roaming destination carrier group network) other than the carrier (home carrier group network) that has concluded a telephone subscription contract. Modes 0 to 7 are prepared. For example, the user can specify two roaming modes other than the home operator group network at the time of telephone subscription. In this example, home network information for selecting a home operator group network, roaming destination network 1 information for selecting a first roaming destination operator group network, and roaming destination network 2 information for selecting a second roaming destination operator group network. Etc. are specified at the time of subscription. The user can specify by selecting and combining three of the eight roaming modes 0 to 7.
[0053]
In this “roaming mode 6”, it is possible to stand by on the operator group network designated in any of the home network information, roaming destination network 1 information and roaming destination network 2 information. The scanning order at that time is home network information> roaming destination network 1 information> roaming destination network 2 information.
[0054]
A frequency band #i is assigned to the home operator group network and the roaming destination operator group network. After the roaming mode is designated by the user's operation, the mobile phone 200 performs a network selection operation according to the designated roaming mode. For example, when a roaming mode designation up serial signal serving as broadcast information is received from a radio base station Bj, a roaming mode designation acceptance display down serial signal is returned to the radio base station Bj.
[0055]
This roaming mode designation acceptance display downlink serial signal is a signal sent from the mobile phone 200 to the radio base station Bj when the location registration is completed or failed, and its contents include information on whether roaming is off or the home network. Information on whether or not, information on whether or not the home group network, the reason for roaming failure, and the network number.
[0056]
In this example, an EEPROM 29, which is an example of a recording medium, is connected to the CPU 25 to select a standby channel that can be optimally transmitted and received in the above-described wireless communication system and to communicate between the wireless base station Bj and the mobile phone 200. The control program is recorded. In the EEPROM 29, the selection allowable number Rth is set in advance as the number of times the mobile phone 200 is allowed to select a standby channel, and the selection failure number R is set as the number of times the standby channel selection operation has failed in one frequency band #i. A control procedure for measuring and comparing the selection failure frequency R with the selection allowable frequency Rth as appropriate, and selecting the standby channel in the other frequency band #i when the selection failure frequency R exceeds the selection allowable frequency Rth. D0 is described.
[0057]
By controlling the mobile phone 200 according to this control procedure D0, it is not necessary to select all the standby channels for each frequency band #i, so that the standby channels that can be optimally transmitted and received can be selected at high speed. . In addition, since the mobile phone 200 can be controlled with good reproducibility by the control procedure D0, it is possible to always select a standby channel that can be optimally transmitted and received and communicate with the radio base station Bj.
[0058]
Note that a liquid crystal display monitor (LCD) 31 is connected to the CPU 25 to display video information such as characters and characters received from the other party, and such video information transmitted to the other party. A cross key 32, a keyboard 33, and the like are connected to the CPU 25, and are used when inputting various information such as character information and characters. The keyboard 33 is provided with ten numeric keys “0” to “9”, a “*” key, and a “#” key. In addition, the mobile phone 200 is provided with a microphone 34 serving as a transmitter, and detects a voice transmitted to the other party and outputs a voice signal. An audio modulation amplification unit 35 is connected to the microphone 34, and audio information to be transmitted to the other party is subjected to modulation amplification processing to reach the transmission unit 26 described above.
[0059]
FIG. 4 is an image diagram showing a configuration example of a wireless communication network of a roaming business operator group adjacent to the wireless communication network of the home business operator group. Generally, the wireless communication networks of the home operator group G0 and the roaming destination operator group G1 are displayed by a collection of regular hexagonal zones. A radio base station Bj is arranged at the center of one zone, and one zone is divided into three sectors, and a communication channel is assigned to each sector.
[0060]
In the home operator group G0 shown in FIG. 4, one frequency band # 1 is allocated, and seven radio base stations Bj (j = 1 to 7) are arranged for one frequency band # 1. In this example, six zones are arranged around the zone of the radio base station B1. Six radio base stations B2 to B7 are arranged around the radio base station B1, the zone of the radio base station B1 is divided into three sectors, and perch frequencies (hereinafter simply referred to as frequencies) F11 to F13 of three channels. Is used.
[0061]
Similarly, the zone of the radio base station B2 is also divided into three sectors and the frequencies F21 to F23 of the three channels are used, and the zone of the radio base station B3 is also divided into three sectors and the frequencies of the three channels F31 to F31 are used. F33 is used, the zone of the radio base station B4 is also divided into three sectors, the frequencies F41 to F43 of the three channels are used, the zone of the radio base station B5 is also divided into three sectors, and the frequencies of the three channels F51 to F53 are used, the zone of the radio base station B6 is also divided into three sectors, the frequencies F61 to F63 of the three channels are used, the zone of the radio base station B7 is also divided into three sectors, and three channels Frequencies F71 to F73 are used.
[0062]
Here, when the cellular phone 200 possessed by the user is powered on, the perch channel written in the ID-ROM is scanned, and a table is created in order of level for channels above the cut-off level. Since there is one perch channel in each sector, for example, assuming that the mobile phone 200 is located in a sector related to the frequency F21 in the zone of the radio base station B2, seven radio base stations Bj (j = 1 to 1) In step 7), activation is possible (wireless communication is possible), but in practice, a perch channel based on the frequency F21 of the wireless base station B2 is selected to perform wireless communication.
[0063]
In this case, the perch channel is ranked in descending order of reception strength, with the perch frequency F21 being the first and the second and lower, and the frequencies F23, F22, F71, F72, F11, F12, F31,. Candidates can be extracted until However, there is only one perch channel that can be optimally transmitted / received, that is, only one sector can wait. Therefore, the other 20 channels correspond to the addition level.
[0064]
In the method of the present invention, even when there are 20 startable channels, the start retry is not performed beyond the allowable number of selections. The roaming destination operator group G1 adjacent to the home operator group G0 does not interfere because the frequency band is different.
[0065]
Next, an operation example at the time of network selection in the mobile phone 200 will be described. FIG. 5 is an image diagram showing an operation example when selecting a network according to the roaming mode [6]. FIG. 6 is a flowchart showing an example of the operation. 7 and 8 are diagrams showing examples of supplementary operations.
[0066]
In this example, the mobile phone 200 possessed by the user is initially located in the communication area P1 of the home operator group G01 shown in FIG. 5, and on the way from there, the communication area P2 of the roaming destination operator group G1 and the roaming destination business A case is assumed where the user moves to the communication area P4 of the home operator group G02 via the communication area P3 of the operator group G2. P1 to P4 are current positions at the time of movement of each mobile phone 200 possessed by the user.
[0067]
In this “roaming mode 6”, when home network information is designated, it is possible to wait for the home operator groups G01 and G02, and when roaming destination network 1 information is designated, it waits for the roaming destination operator group G1. If the roaming destination network 2 information is designated, it is possible to wait for the roaming destination operator group G2. The scanning order at that time is home network information> roaming destination network 1 information> roaming destination network 2 information. The case where “3” is set as the allowable selection frequency Rth is taken as an example. Based on these assumptions.
[0068]
(1) Network selection operation in communication area P1
When the power of the mobile phone 200 is turned on in step C1 of the flowchart shown in FIG. 6, the process proceeds to step C2 and a counter (standby failure counter) in the CPU 25 is initialized to “0”. The reference selection allowable number of times Rth = “3” is described in the ROM 28 in advance.
[0069]
Thereafter, the CPU 25 determines whether or not there is a channel that can be activated by the scan destination operator in order to execute the standby channel selection operation of the home operator group G01. If there is a channel that can be activated, the process proceeds to step C4, and the selection failure frequency R and the selection allowable frequency Rth are appropriately compared by the CPU 25. If the comparison result shows that the selection failure frequency R is equal to or smaller than the selection allowable frequency Rth (R ≦ Rth), the process proceeds to step C5 and the perch channel is activated (scanned).
[0070]
For example, when the reception unit 22 and the transmission unit 26 are controlled so that the CPU 25 sequentially starts from the radio base station B2 having the strong reception electric field strength, the reception unit 22 tunes the frequency to establish synchronization with the radio base station B2. Is made. After synchronization is established, a color code is detected on the channel, a scramble code determined from the color code is obtained, and a scrambler is activated. This is for checking standby transition conditions.
[0071]
Then, broadcast information (BCCH) is received from the radio base station B2, and a standby channel is selected based on the broadcast information. The broadcast information includes a standby permission level, control channel structure information, restriction information, and the like. As for the standby permission level, location registration information is included, and the number of location registration areas and the location number are notified. Regarding the control channel structure information, information specifying the channel structure is included, and the current position of the own station, the intermittent reception timing, the number of control channels in the zone, and the channel number are broadcast. With respect to the restriction information, information indicating the restriction is notified to a user waiting on the channel. In addition, it is possible to know peripheral zone monitoring information, the maximum transmission power of the mobile phone 200 in that zone, the standby deterioration level, and the like.
[0072]
Then, the process proceeds to step C6 to determine whether the perch channel has been successfully activated. Here, the standby control channel (wireless communication network number) obtained from the control channel structure information (broadcast information) from the radio base station B2 and the home operator group G01 of the perch channel currently being scanned are To be compared. If they are different, the mobile phone 200 cannot wait in this communication area, so it is necessary to activate the next channel.
[0073]
Therefore, if the perch channel is successfully activated, the process proceeds to step C8 and enters a standby operation. If the perch channel is not successfully activated in step C6 for some reason, that is, if the standby channel selection operation in the home operator group G01 fails, the process proceeds to step C7 and the standby failure counter is set. Incremented by one.
[0074]
Thereby, the selection failure frequency R can be measured by the standby failure counter. The selection failure frequency R is output from the standby failure counter to the CPU 25, and the selection allowable frequency Rth is read from the ROM 28 by the CPU 25 and referred to.
[0075]
Thereafter, the process returns to step C3, and the CPU 25 determines whether there is a channel that can be activated by the scan destination operator. If there is a channel that can be activated, the CPU 25 compares the selection failure frequency R = 1 and the selection allowable frequency Rth = 3 in step C4. In this example, the network selection operation is performed up to three times in each of the home operator groups G01 and G02 and the roaming destination operator groups G1 and G2.
[0076]
Therefore, when the perch channel is activated in step C5, the above-described step C3 → step C4 → step C5 → step C6 is repeated three times at the maximum. Of course, if the perch channel is successfully activated in step C6, the process proceeds to step C7 to enter a standby operation.
[0077]
That is, when there are sectors “1” to “6” in two zones 19A in one frequency band shown in FIG. 7A and the mobile phone 200 is located in sector “3”, the received electric field strength ( In the following, a table of five perch channels in sector “3, 1, 2, 4, 5” is created in descending order of E). In this case, there are 5 channels that can be activated, but in the method according to the present invention, the activation is not attempted beyond the selection allowable number of times Rth = “3”. In this example, since Rth = “3 times”, if waiting for sector “3, 1, 2, 2” fails, sector “4” can be started next, but since Rth = “3 times” is exceeded, the next perch Scanning is performed (moving to selection of roaming network).
[0078]
Therefore, if there is no channel that can be activated by the scan destination operator in step C3 and if the selection failure frequency R exceeds the selection allowable frequency Rth (R> Rth) in step C4, the step for selecting the roaming network is performed. After shifting to C9, the CPU 25 determines whether there is a next perch scan destination. If there is a next perch scan destination, that is, if a roaming network can be selected, the process proceeds to step C10 and scan settings related to the next perch scan destination are made.
[0079]
For example, when a new scan is performed for the adjacent zone indicated by the wavy line in FIG. 8A, a table of five perch channels in sectors “10, 8, 11, 12, and 7” in the descending order of reception field strength shown in FIG. Created. In this case, there are 5 channels that can be activated, but in the method of the present invention, the activation retry is not performed beyond the selection allowable number of times Rth = “3 times”. Activated for sector "10, 8, 11".
[0080]
With this as a precondition, the process returns to step C2 and the standby failure counter is initialized. Then, the process goes to step C3 to determine whether or not there is a startable channel as described above. If there is no next perch channel in step C9, the process proceeds to step C11, and the CPU 25 proceeds to an out-of-service operation. In the out-of-service operation, the characters “out of service” are displayed on the liquid crystal display monitor 31.
[0081]
(2) Network selection operation in communication area P2
In this case, since the cellular phone 200 possessed by the user has moved to the communication area P2 of the roaming mode destination operator group G1 shown in FIG. 5, the above-mentioned (1) based on the home network information according to the scan order. Subsequent to the network selection operation, a network selection operation based on the roaming destination network 1 information is performed. That is, when the number of selection failures R exceeds the selection allowable number of times Rth in step C4 (R> Rth), the process proceeds to activation of the roaming mode destination operator group G1 as the scan destination of the next perch channel. Made.
[0082]
That is, since there is a next perch scan destination in step C9, the process proceeds to step C10, and scan setting is performed to activate the perch channel based on the roaming destination network 1 information. For example, returning to step C2, the standby failure counter is initialized, and the local transmission frequency is changed in order to select the frequency in the roaming mode destination operator group G1.
[0083]
Thereafter, the CPU 25 determines whether or not there is a channel that can be activated by the scan destination operator in step C3. If there is a channel that can be activated, the process proceeds to step C4, and the selection failure frequency R and the selection allowable frequency Rth are appropriately compared by the CPU 25. If the comparison result shows that the selection failure frequency R is equal to or smaller than the selection allowable frequency Rth (R ≦ Rth), the process proceeds to step C5 and the perch channel is activated (scanned).
[0084]
For example, when the reception unit 22 and the transmission unit 26 are controlled so that the CPU 25 sequentially starts from a radio base station having a strong reception electric field strength (not shown), the reception unit 22 receives the notification information from the radio base station, and the notification A standby channel is selected based on the information. Then, the process proceeds to step C6 to determine whether the perch channel has been successfully activated. If the perch channel has been successfully activated, the process proceeds to step C8 to enter a standby operation.
[0085]
If the perch channel is not successfully activated in step C6 for some reason, that is, if the standby channel selection operation in the roaming mode destination operator group G1 fails, the process proceeds to step C7 and the standby failure counter is set. Incremented by one. The selection failure count R is output from the standby failure counter to the CPU 25, and the selection allowable count Rth read from the ROM 28 is also output to the CPU 25.
[0086]
Thereafter, returning to step C3, the CPU 25 determines whether or not there is a channel that can be activated by the scan destination operator. In step C4, the CPU 25 determines that the selection failure frequency R = 1 and the selection allowable frequency Rth = 3 in the group G1. Are compared. In this example, the network selection operation is performed up to three times in the roaming destination operator group G1.
[0087]
Therefore, when the CPU 25 detects that the selection failure frequency R exceeds the selection allowable frequency Rth (R> Rth) in step C3, the process proceeds to step C9 to determine whether there is a next perch scan destination. . If it is determined in step C9 that there is no next perch scan destination, the process proceeds to step C11, and the CPU 25 proceeds to an out-of-service operation.
[0088]
(3) Network selection operation in communication area P3
In this case, since the mobile phone 200 possessed by the user has moved to the communication area P3 of the roaming mode destination operator group G2 shown in FIG. Following the network selection operation (2), a network selection operation based on roaming destination network 2 information is performed. That is, in step C3, the CPU 25 determines whether there is a channel that can be activated by the scan destination operator. If there is a channel that can be activated, the process goes to step C4, and when the CPU 25 detects that the selection failure count R exceeds the selection allowable count Rth, the relationship between the two becomes R> Rth. Shifts to the activation of the roaming mode destination operator group G2 as the next perch scan destination.
[0089]
In other words, since there is a next perch scan destination in Step C9, the process proceeds to Step C10 and scan settings relating to the next perch scan destination are made. Thereafter, the process returns to step C2 and the standby failure counter is initialized. Then, the process goes to step C3 to determine whether or not there is a startable channel as described above.
[0090]
In step C5, the perch channel based on the roaming destination network 2 information is activated (scanned). For example, when the reception unit 22 and the transmission unit 26 are controlled so that the CPU 25 sequentially starts from a radio base station having a strong reception electric field strength (not shown), the reception unit 22 receives the notification information from the radio base station, and the notification A standby channel is selected based on the information.
[0091]
Then, the process proceeds to step C6 to determine whether the perch channel has been successfully activated. If the perch channel has been successfully activated, the process proceeds to step C8 to enter a standby operation. If the perch channel is not successfully activated in step C6 for some reason, that is, if the standby channel selection operation in the roaming mode destination operator group G2 fails, the standby failure counter is set to 1 in step C7. Incremented by one.
[0092]
The selection failure frequency R is output from the standby failure counter to the CPU 25, and the selection allowable frequency Rth read from the ROM 28 is output to the CPU 25. Thereafter, returning to step C3, the CPU 25 determines whether or not there is a channel that can be activated by the scanning destination operator. In step C4, the CPU 25 determines that the selection failure frequency R = 1 and the selection allowable frequency Rth = 3 in the group G2. Are compared. In this example, the network selection operation is performed up to three times in the roaming destination operator group G2.
[0093]
Therefore, when the CPU 25 detects that the selection failure frequency R exceeds the selection allowable frequency Rth (R> Rth) in step C4, the process proceeds to step C9 to determine whether there is a next perch scan destination. . If it is determined in step C9 that there is no next perch scan destination, the process proceeds to step C11, and the CPU 25 proceeds to an out-of-service operation.
[0094]
(4) Network selection operation in communication area P4
In this case, since the cellular phone 200 possessed by the user has moved to the communication area P4 of the home operator group G02 shown in FIG. 5, the above network selection (1) based on the home network information according to the scan order. Operation is performed. After entering the standby operation at step C6 of (1) to (4) or entering the out-of-service operation at step C11, the CPU 25 determines whether or not to move to step C12 and end the operation. . The CPU 25 detects the power off information and ends the process. The power-off information is obtained from key information operated by the user. If the power-off information is not detected, the process returns to step C2, the counter is initialized, and the processing as described above is repeated.
[0095]
As described above, according to the mobile phone 200 as the embodiment of the present invention, there is a case where there is a startable standby channel exceeding the selection allowable number of times Rth in the home operator group (the frequency band) G01 and G02. If the selection failure count R exceeds the selection allowable count Rth in step C4 (R> Rth), the standby channel is not activated in step C5, and the roaming destination operator group (others) is selected in step C9. (Frequency band) Since standby channels in G1 and G2 can be selected, it is not necessary to select all the standby channels for each of the home operator groups G01 and G02 and the roaming destination operator groups G1 and G2.
[0096]
Therefore, even when assigned to a communication carrier such as a home carrier group G01, G02 or a roaming destination carrier group G1, G2 having a different frequency band #i, a standby channel capable of optimal transmission / reception can be selected at high speed. . As a result, the standby channel selection time and out-of-service transition time can be advanced. In addition, it is possible to select an extra standby channel and to suppress the number of activations to other communication carriers.
[0097]
【The invention's effect】
As described above, according to the mobile communication device of the present invention, When starting in order from a radio base station with strong received electric field strength, receiving broadcast information from the radio base station, and selecting a standby channel capable of optimal transmission and reception based on the broadcast information, When a control means for appropriately comparing the number of selection failures that have failed in the selection operation of the standby channel in one frequency band and the selection allowable number of times allowing the selection operation of the standby channel is provided, and the number of selection failures exceeds the selection allowable number of times Controls the wireless communication means so as to select a standby channel in another frequency band.
[0098]
With this configuration, even if there is a standby channel that can be activated in the frequency band that exceeds the allowable number of selections, if the number of selection failures exceeds the allowable number of selections, without activating the standby channel, Since standby channels in other frequency bands can be selected, it is not necessary to select all the standby channels for each frequency band.
[0099]
Therefore, a standby channel capable of optimal transmission / reception can be selected at high speed, and the standby channel selection time and out-of-service transition time can be shortened. In addition, since it is possible to select an extra standby channel and to suppress the number of activations to other communication carriers, the power consumption of the mobile communication device can be reduced.
[0100]
According to the communication method of the present invention, when a standby channel capable of optimal transmission / reception is selected and communication is performed between the radio base station and the mobile communication device, a standby channel selection operation for the mobile communication device in advance is performed. The number of times of selection failure for selecting a standby channel in one frequency band is measured, and then the number of selection failures is compared with the number of allowable selections as appropriate. When the number of times exceeds the selection allowable number of times, a standby channel in another frequency band is selected.
[0101]
With this configuration, since it is not necessary to select all the standby channels for each frequency band, even when the frequency band is assigned to a different carrier, the standby channel capable of optimal transmission / reception is selected at high speed. be able to. Accordingly, the standby channel selection time and out-of-service transition time can be advanced. In addition, it is possible to select an extra standby channel and to suppress the number of activations to other communication carriers.
[0102]
According to the recording medium of the present invention, the number of times of selection failure in which the selection allowable number of times for allowing the mobile communication device to select the standby channel is set in advance and the standby channel selection operation in one frequency band fails. After that, the number of selection failures is compared with the number of allowable selections as appropriate, and if this number of selection failures exceeds the number of allowable selections, a control procedure for selecting a standby channel in another frequency band is described. It is made up of.
[0103]
With this control procedure, it is not necessary to select all the standby channels for each frequency band, so that a standby channel capable of optimal transmission / reception can be selected at high speed. In addition, since the mobile communication device can be controlled with good reproducibility by the control procedure, it is possible to always select a standby channel that can be optimally transmitted and received and communicate with the radio base station.
[0104]
The present invention is applied to a cellular phone in which a plurality of frequency bands are allocated and a plurality of radio base stations are arranged for each frequency band, and a standby channel capable of optimal transmission / reception is selected to communicate through the radio base station. Therefore, it is very suitable.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration example of a mobile communication device 100 as an embodiment according to the present invention.
FIG. 2 is a flowchart showing an example of processing in the mobile communication device 100.
FIG. 3 is a block diagram showing a configuration example of a mobile phone 200 as an embodiment according to the present invention.
FIG. 4 is an image diagram showing a configuration example of a wireless communication network.
FIG. 5 is an image diagram showing an operation example when a network is selected according to roaming mode [6].
FIG. 6 is a flowchart showing an operation example in the mobile phone 200;
FIGS. 7A and 7B are contents of a zone and a table showing an operation supplement example when scanning a perch channel. FIGS.
FIGS. 8A and 8B are contents of a zone and a table showing a supplementary operation example when a roaming network is selected.
FIG. 9 is a block diagram showing a configuration example of a mobile phone 10 according to a conventional example.
10 is a flowchart showing an operation example in the mobile phone 10. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Wireless communication means, 12 ... Measuring means, 13 ... Control means, 14 ... Storage means, 15 ... Recording medium, 22 ... Reception part (wireless communication means), 25. ..CPU (control means), 26... Transmitter (wireless communication means), 28... ROM (storage means), 100... Mobile communication device, 200. )

Claims (9)

A plurality of frequency bands are allocated and a plurality of radio base stations are arranged for each frequency band , starting from a radio base station having a strong received electric field strength in order, receiving broadcast information from the radio base station, when selecting the best reception possible waiting channel to communicate through wireless base station based on broadcast information,
Wireless communication means;
Storage means for recording the selected allowable number for allowing the waiting channel selection operation in the wireless communication unit,
Measurement means for measuring a selected failure frequency which is the number of failed selection operation of the standby channel at one frequency band,
With comparing the selected allowable number of times by the selection failure count and the storage means by said measuring means as appropriate, when said selected failure count exceeds the selected allowable number, the to select the standby channel in other frequency bands Ru moving body communication device and a control means for controlling the wireless communication means. Mobile communication device according to 請 Motomeko 1, wherein selecting allowable number is set to about 3 to 5. The control means includes
2. The mobile communication apparatus according to claim 1, wherein when the standby channel is not selected, it is determined as “out of range”. A wireless communication network related to the frequency band is assigned to a plurality of carriers,
The control means includes
2. The mobile communication device according to claim 1, wherein a wireless communication network of a communication carrier to which a user has previously subscribed is selected. A plurality of frequency bands are allocated, and a plurality of radio base stations are arranged in one frequency band. The radio base stations start up in order from a strong reception electric field strength , receive broadcast information from the radio base stations, and when the communication between the selected best reception possible standby channel and radio base station and the mobile communication device based on the information,
Set the selected allowable number for permitting selective operation of the standby channel to advance the mobile communication device,
It said mobile communication device, measures the waiting selection number of failures in operation of selecting channels in one frequency band,
Compare the number of times of selection failure with the number of times of selection as appropriate,
The selection if the failure count exceeds the selected allowable number, that communicate how to select the waiting channel in other frequency bands. The communication method according to 請 Motomeko 5 wherein selecting allowable number is set to about 3 to 5. The communication method according to 請 Motomeko 5 Ru made as "out of range" as the waiting channel is not selected. The communication method according to 請 Motomeko 5 wireless communication network that are assigned to operators regarding the frequency band. A plurality of frequency bands are allocated, and a plurality of radio base stations are arranged in one frequency band. The radio base stations start up in order from a strong reception electric field strength , receive broadcast information from the radio base stations, and and it relates to a control program for the communication between the selected best reception possible standby channels and wireless base station and the mobile communication device based on the information,
Set the selected allowable number for permitting selective operation of the standby channel to advance the mobile communication device,
It said mobile communication device, measures the waiting selection number of failures in operation of selecting channels in one frequency band,
Compare the number of times of selection failure with the number of times of selection as appropriate,
When said selected failure times exceeds the allowed selection number, other record medium control procedure Ru is written so as to select the standby channel in the frequency band.

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