JP3469856B2 - Communication terminal device and handover control method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication terminal device and a handover control method, and more particularly, to a field intensity of a control channel transmitted by a peripheral base station during communication via a first base station. The present invention relates to a communication terminal apparatus and a handover control method for selecting a base station suitable for communication, performing handover, and continuing communication.

[0002]

2. Description of the Related Art In recent years, PHS (Personal Handy phone System)
stem) and PDC (Personal Digital Cellular telecommuni
Mobile communication devices such as cation systems) have become widespread due to reduction in size and weight, improvement in communication quality, and reduction in main unit price and call charges.

Communication between a mobile communication device and a base station in a PHS or PDC is performed by a communication channel (traffic channel: hereinafter abbreviated as "TCH") and a control channel (contr).
ol channel: Hereinafter, abbreviated as “CCH”. ) And.

[0004] Here, TCH is a channel used for a call with another mobile communication device or a telephone via a base station, and CCH is TC when a call is made or received in a standby state.
It is a channel used to control the transition to H.

FIG. 1 shows a base station selection process in a conventional mobile communication device (personal station: PS in the figure) in the PHS system, a mobile communication device and a base station (cell statio).
(n: CS in the figure) is a diagram showing a link establishment sequence when a CCH is switched to a communication channel.

In the base station selection process in FIG. 1, when the mobile communication device is powered on, when searching for another base station during handover, the base station is instructed to switch to another base station during a call. This is done in some cases.

[0007] First, the mobile communication device has Cs of a plurality of base stations.
Monitor CH. In the case of PHS, a specific frequency is assigned for CCH, and a plurality of base stations are assigned to each CCH.
Are time-division multiplexed. When the mobile communication device receives signals of a specific frequency in sequence and can decode the identifier (CSID) of the base station from the signals of each CCH, the CSID and the reception electric field strength of the CCH are paired. And memorize (S1).

[0008] Further, the mobile communication device uses the stored CSI.
The sets of the received electric field strengths of D and CCH are sorted in descending order of the received electric field strength (S2), and the received electric field strength C is the strongest.
The base station of CH is selected (S3). If this selection is immediately after the power is turned on, the mobile communication device registers the location with respect to the selected base station, and then enters the CCH standby reception state.

In the figure, the link establishment sequence is performed when a call is made or received from the standby state, or when switching to the base station of the handover destination during a call.

In these cases, the mobile communication device transmits a link channel establishment request on the CCH to the base station selected by the base station selection processing (S11), and the base station transmits on the CCH as a response. The received link channel assignment is received (S12), and the electric field strength of the U wave of the assigned TCH is measured (S153). The electric field strength of this U wave is the electric field strength of the TCH immediately after the link channel allocation, that is, in the period when neither the base station nor the mobile communication device is using the TCH yet. , Noise). If the reception level of the U wave is high, it is determined that the TCH is not suitable for a call, and the link channel establishment request is made again.

When the level of the U wave is small, the mobile communication device and the base station establish synchronization of the TCH by sequentially transmitting the synchronization burst signal and the TCH idle burst signal on the TCH (S154 to S157). (S158). The link establishment sequence up to this synchronization establishment corresponds to the processing of layer 1 (physical layer).

Furthermore, it is confirmed that the mobile communication device and the base station are in a state where they can communicate with each other (S159 and S160). This corresponds to the processing of layer 2 (data link layer), and thereafter, the call connection message and the location registration message are transmitted and received. This corresponds to the processing of layer 3 (network layer) and above.

The above is the base station selection and CC for PHS.
This is a link establishment sequence when transitioning from H to TCH, but the same processing is performed in a system such as PDC that uses CCH and TCH separately.

[0014]

By the way, the recent PH
In S, in order to solve the problem of call disconnection and sound interruption during high-speed movement, which has been a problem in the past, HHS (Edge: registered trademark), which is a PHS with improved handover performance, has been developed, and it has a low price and a high price. Performance (data communication function and call quality)
Combined with the original advantage, the share that was pushed by the PDC is gradually recovering.

The method of handing over the H "type PHS will be briefly described. During the call, the base station of the transfer destination is searched in advance, the call is made possible, and then the old base station is switched to the new base station. In comparison with the conventional method of temporarily holding the call and then searching for the transfer-destination base station and switching the call, the call performance in high-speed movement is significantly improved. That is, in the case of the H "scheme PHS, , In order to improve the call performance, it tries to execute the handover by searching for the new base station of the transfer destination as soon as possible, but of course even if the optimum base station found is the same base station in the call, handover is performed. Start processing. As a result, even if the limit of the call quality is not reached, and since it is the base station that is in the call, it is unlikely that a TCH of higher quality than the current TCH will be assigned, but unnecessary handover will occur. Since it is executed, a jerky sound is frequently generated.

The present invention has been made in order to solve the above-mentioned problems, and it is possible to suppress the execution of unnecessary handover and thereby reduce the occurrence of sound interruption and handover control. The purpose is to provide a method.

[0017]

In order to achieve the above-mentioned object, a communication terminal device of the present invention according to claim 1 transmits a signal from a peripheral base station during communication via a first base station. In the communication terminal device that selects a base station suitable for communication to perform handover by measuring the electric field strength of the control channel, the electric field strength of the communication channel of the first base station is stored. 1 storage means, second storage means for storing the electric field strength of the control channel of the selected base station, electric field strength of the communication channel stored in the first storage means and control channel stored in the second storage means Comparison means for comparing the magnitude with the electric field strength, judgment means for judging whether or not the selected base station is the first base station, and the judgment means for the selected base station is the first base station. To be a base station In the case of disconnecting, when the result of the comparison by the comparison means indicates that the electric field strength of the control channel is larger than the electric field strength of the communication channel, there is provided control means for performing handover control with the first base station. Is characterized by.

A communication terminal device of the present invention according to claim 2 is
The communication terminal device according to claim 1, wherein the control means performs handover control with the first base station when the electric field strength of the control channel is larger than the electric field strength of the communication channel by a predetermined value or more. It is characterized by
A communication terminal device according to a third aspect of the present invention is the communication terminal device according to the first or second aspect, wherein when the control means does not perform handover control with the first base station, the next base station is used. A feature is that a station is selected and handover control is performed. A communication terminal device according to a fourth aspect of the present invention is the communication terminal device according to any one of the first to third aspects, wherein the control unit is a link establishment sequence for shifting from a control channel to a speech channel,
When a call channel assignment request is sent through the control channel of the handover destination base station and the call channel assignment is received from the base station, the electric field strength of the synchronization burst signal transmitted from the base station through the assigned call channel is It is characterized in that it is judged whether or not it is less than or equal to a threshold value, and if it is judged that it is less than or equal to the threshold value, the link establishment is stopped. A communication terminal device according to a fifth aspect of the present invention is the communication terminal device according to the fourth aspect, wherein the control means retransmits a call channel allocation request through a control channel when the link establishment is stopped. Characterize.

The handover control method of the present invention according to claim 6 is suitable for communication by measuring the electric field strength of a control channel transmitted by a peripheral base station during communication via the first base station. In a handover control method for a communication terminal device that continues communication by selecting a different base station, a first step of storing the electric field strength of the speech channel of the first base station, and the control of the selected base station The second step of storing the electric field strength of the channel, the third step of comparing the electric field strength of the communication channel stored in the first step with the electric field strength of the control channel stored in the second step, and the selection. A fourth step of determining whether the selected base station is the first base station, and the fourth step determines that the selected base station is the first base station. If the result of the comparison in the third step is that the electric field strength of the control channel is larger than the electric field strength of the speech channel, a control step of performing handover control with the first base station in communication is performed. It is characterized by including.

The handover control method of the present invention according to claim 7 is the handover control method according to claim 6, wherein in the control step, the electric field strength of the control channel is more predetermined than the electric field strength of the communication channel. When the value is larger than the value, handover control with the first base station is performed. The handover control method of the present invention according to claim 8 is the handover control method according to claim 6 or 7, wherein when the control step does not perform handover control with the first base station, the next base station A feature is that a station is selected and handover control is performed. The handover control method of the present invention according to claim 9 is the handover control method according to any one of claims 6 to 8, wherein the control step is a handover in a link establishment sequence for shifting from a control channel to a communication channel. When a call channel allocation request is sent through the control channel of the previous base station and the call channel allocation is received from the base station, the electric field strength of the synchronization burst signal transmitted from the base station through the allocated call channel is threshold. It is characterized in that it is determined whether or not the value is less than or equal to a value, and if it is determined that the value is less than or equal to the threshold value, the link establishment is stopped. The handover control method of the present invention according to claim 10 is the handover control method according to claim 9, wherein the control means retransmits a call channel allocation request through a control channel when the link establishment is stopped. Characterize.

[0021]

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a block diagram showing the configuration of the communication terminal device according to the present invention.

This communication terminal device (also referred to as a mobile communication device) has an antenna 10, a transmission / reception switching unit 11, and a radio unit 1.
2, modem 13, TDMA / TDD (time division m)
ultimate access / time division duplex:
(Time-division bidirectional) unit 14, voice processing unit 15, microphone 16,
The speaker 17 and the control unit 18 are included.

The control unit 18 includes a memory 181 and a CPU 18
2 and stores the program stored in the memory 181 as C
Execution by the PU 182 controls the entire communication terminal device.

The control unit 18 assigns the T assigned by the base station when shifting from the control channel to the communication channel.
Received signal strength Indic of CH
ator: Hereinafter referred to as RSSI. ) Is insufficient, it is configured to request the allocation of a new TCH from the base station or another base station.

Further, the control unit 18 measures the RSSIs of the CCHs of a plurality of peripheral base stations during a call and stores them in the memory 181 in the order of strong electric field strength together with the CSID, and the FER (frame error rate) of the received signal. Is degraded to a predetermined value or less, or the RSSI of the communication channel is weakened to a predetermined level or less, the handover process is started. In particular, in this handover process, the control unit 18 compares the electric field strength of the communication channel and the electric field strength of the control channel when the base station having the highest electric field strength is the same as the base station in the call, and the control channel is compared. When the electric field strength of is higher than the electric field strength of the communication channel, the handover control with the base station in communication is started. In addition, the control unit 18
Is configured to start handover control with a base station in communication only when the electric field strength of the control channel is larger than the electric field strength of the communication channel by a predetermined value or more.

In the figure, the antenna 10, the transmission / reception switching unit 11, the radio unit 12, the modem unit 13, the TDMA /
The circuit portion including the TDD unit 14, the voice processing unit 15, the microphone 16, and the speaker 17 is a general configuration of a communication terminal device of the TDMA / TDD system, and is defined by, for example, the PHS standard “RCR STD-28”. TDMA
/ TDD wireless communication circuit. Therefore,
Although detailed description thereof is omitted, only the TDMA / TDD system will be briefly described.

FIG. 3 is an explanatory diagram of the time division multiplexing system in PHS.

In the TDMA / TDD system according to this embodiment, 5 milliseconds is 1 TDMA / TDD frame. One TDMA / TDD frame is divided into 8 time slots. The first to fourth slots are slots for downlink (from base station to communication terminal device) (hereinafter referred to as downlink slots), and the fifth to eighth slots are slots for uplink (from communication terminal device to base station). (Hereinafter, referred to as an upstream slot).

The TCH is a set of upstream slots and downlink slots, for example, a set of first and fifth slots and a set of second and sixth slots. Since a plurality of carrier frequencies for TCH are assigned, one TCH is
The carrier frequency (carrier number) and the upstream and downstream slot numbers are specified.

The CCH is also a set of an upstream slot and a downstream slot, but a specific carrier frequency (about 1 or 2 waves) is allocated and transmitted / received intermittently. The intermittent transmission / reception is periodically transmitted / received once every 100 milliseconds (20 frames), for example. In this case, the carrier for CCH can time-division-multiplex intermittent transmission / reception signals of CCH by a maximum of 80 (20 frames × 4 divisions) base stations.

Next, the operation and the handover control method of the communication terminal apparatus according to the present invention configured as described above will be explained.

FIG. 4 is a flowchart showing a base station selection process and a link channel establishment sequence.

As has already been described with reference to FIG. 1, the base station selection process is performed when the mobile communication device is powered on, when another base station is searched for at the time of handover, from the base station to another base station during a call. This is performed when switching is instructed.

First, the control unit 18 of the mobile communication device monitors the CCHs of a plurality of base stations, and in the case of PHS, sequentially receives signals of a specific frequency. Then, when the base station identifier (CSID) can be decoded from the signal of each CCH, the CSID and the received electric field strength of the CCH are stored as a set (S1).

Further, the control unit 18 stores the stored CSID.
And the received field strengths of CCH are sorted in descending order of received field strength (S2), and according to the sorting order, it is confirmed whether or not the base station satisfies a predetermined condition, and a base station that satisfies the condition is selected. (S3).

FIG. 5 is a flow chart showing details of the selection step (S3) in the base station selection processing.

Upon entering the selection step (S3), the control unit 18 confirms whether or not the base station selected according to the sorting order in step S31 is the base station in communication, and if not in communication, proceeds to step S11. If it is on the other hand, the process proceeds to step S32. Control unit 18
In step S32, the electric field strength of the control channel of the base station during the call is compared with the electric field strength of the call channel. If the electric field strength of the control channel is larger, step S11
However, if the call is in progress, step S3
3, the base station having the next sorting order is selected, and the process proceeds to step S11. In step S32, the electric field strength of the control channel of the base station during the call and the electric field strength of the call channel are compared to determine whether the electric field strength of the control channel is larger than a predetermined value. Good.

By this selection processing (S3), when the base station to be handed over is the base station in communication, the electric field strength of CCH and the electric field strength of TCH are compared and a larger allocation of TCH is made. The possibility is judged, and when the possibility is low, the handover to the base station during the call is not executed, so that it is possible to suppress the occurrence of unnecessary sound interruption.

Returning now to FIG. 4, the link establishing sequence is performed when switching to the base station of the handover destination during a call. The control unit 18, as shown in FIG.
In the link establishment sequence for shifting from CCH to TCH, the TCH is transmitted through the CCH of the handover destination base station.
When the TCH allocation is received from the base station as the response (S1)
2), a synchronization burst signal (S1) that is a signal for link establishment transmitted from the base station through the allocated TCH
Obtaining the electric field strength of 6) from the RSSI detector 124,
It is determined whether or not the electric field strength is less than or equal to a threshold value (Th1) (S17). If it is determined that the electric field strength is less than or equal to the threshold value Th1, link establishment is stopped and the CCH of the base station.
Control so that the TCH allocation request is retransmitted.

When determining the electric field strength of the TCH in S17, the TCH allocation request is retransmitted even if the difference between the electric field strength of the U wave (interfering wave) is less than or equal to the threshold value (Th2). Control to do so.

On the other hand, when the electric field strength of TCH is larger than the threshold value Th1 and the difference between the electric field strengths of TCH and the U wave (interference wave) is larger than the threshold value Th2, the control section 18 burst signal. (Synchronization establishment signal) is continuously transmitted and received to establish the link of the TCH (S18 to S2).
1).

As a result, when the electric field strength of the TCH allocated from the base station is insufficient, the communication terminal device retransmits another TCH allocation request, so that the actual communication (call) is performed. Before the transition, the TCH having the electric field strength that does not hinder the communication is secured.

[0044]

As described above, according to the communication terminal device and the handover control method of the present invention, when the base station of the handover destination and the base station in the call are the same, the control channel Handover is performed after comparing the electric field strength with the electric field strength of the communication channel to determine the possibility of allocating a better communication channel with a high reception level, and as a result, the number of unnecessary handover executions is suppressed. Therefore, the occurrence of sound break can be reduced.

[Brief description of drawings]

FIG. 1 is a diagram showing a conventional base station selection process and a link channel establishment sequence.

FIG. 2 is a block diagram showing a configuration of a communication terminal device according to the present invention.

FIG. 3 is an explanatory diagram of a time division multiplexing method in PHS.

FIG. 4 is a flowchart showing a base station selection process and a link channel establishment sequence.

FIG. 5 is a flowchart showing details of a selection step (S3) in the base station selection processing.

[Explanation of symbols]

10 antennas 11 Transmission / reception switching unit 12 radio section 13 Modem section 14 TDMA / TDD section 15 Voice processing unit 16 microphone 17 speakers 18 Control unit 181 memory 182 CPU

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-8-223627 (JP, A) JP-A-10-224847 (JP, A) JP-A-2000-232672 (JP, A) JP-A-7-284145 (JP, A) JP 11-4470 (JP, A) JP 3-226127 (JP, A) JP 9-224281 (JP, A) (58) Fields investigated (Int. Cl. ⁷⁾ , DB name) H04B 7/24-7/26 H04Q 7/00-7/38

Claims (10)

(57) [Claims] 1. A base station suitable for communication is selected and handover is performed by measuring the electric field strength of a control channel transmitted by a peripheral base station during communication via the first base station. in the communication terminal device to continue communication, a first storage means for storing the electric field intensity of speech channels of the first base station, a second storage means for storing the field strength of the control channel of the selected group Chikyoku, Comparing means for comparing the electric field strength of the communication channel stored in the first storage means with the electric field strength of the control channel stored in the second storage means, and the selected base station is the first base station . Determining means for determining whether or not there is, and when the determining means determines that the selected base station is the first base station , as a result of comparison by the comparing means, the control channel Electric field strength is before When greater than the electric field intensity of speech channels, the communication terminal apparatus characterized by comprising a control means for performing handover control between the first base station. A communication terminal apparatus according to claim 1, wherein, when direction of the electric field strength of the control channel is greater than a predetermined value than the electric field intensity of the speech channel, and said first base station And a communication terminal device for performing the handover control. 3. The communication terminal device according to claim 1 or 2.
In the above arrangement, the control means controls handover with the first base station.
Otherwise, select the next base station and perform handover.
A communication terminal device characterized by performing control . 4. The method according to any one of claims 1 to 3.
In the communication terminal device, the control means shifts from the control channel to the call channel.
In the link establishment sequence
Call channel allocation request through base station control channel
And received a call channel assignment from the base station
Transmitted from the base station via the assigned call channel.
If the electric field strength of the received synchronous burst signal is below the threshold value
It is determined whether or not there is, and it is determined that it is below the threshold value.
If the connection is established, the link establishment is stopped.
Communication terminal device. 5. The communication terminal device according to claim 4, wherein the control means controls the control channel when the link establishment is stopped.
Re-send the call channel allocation request through the channel.
And a communication terminal device. 6. A base station suitable for communication is selected and handover is performed by measuring the electric field strength of a control channel transmitted from a peripheral base station during communication via the first base station. in the handover control method of a communication terminal device to continue communication, a first step of storing the electric field intensity of speech channels of the first base station, a second step of storing the electric field intensity of the control channel of the selected group Chikyoku And a third step of comparing the electric field strength of the communication channel stored in the first step with the electric field strength of the control channel stored in the second step, and the selected base station is the first base station. And a fourth step of determining whether the selected base station is the first base station.
When it is determined that the base station is a ground station , as a result of the comparison in the third step, when the electric field strength of the control channel is larger than the electric field strength of the communication channel, handover control with the first base station in communication is performed. And a control step for performing the following. 7. A handover control method according to claim 6, wherein the control step, when direction of the electric field strength of the control channel is greater than a predetermined value than the electric field intensity of the speech channel, and said first base station the child that is responsible for the handover control
And a handover control method characterized by: 8. The hand operation according to claim 6 or 7.
Control method, the control step comprises a handover with the first base station.
If you do not want to control, select the next base station
A handover control method characterized by performing server control. 9. The method according to any one of claims 6 to 8.
In the handover control method, the control step comprises changing from a control channel to a speech channel.
Handover in transitioning link establishment sequence
Allocation of speech channels through the control channel of the destination base station
Send requests and receive call channel assignments from base stations
The base station through the assigned call channel
The electric field strength of the sync burst signal transmitted from the
It is determined whether it is below the threshold, and it is determined that it is below the threshold value.
The feature is that the link establishment is stopped when it is specified.
And a handover control method. 10. The handover control method according to claim 9.
In the above, the control means, if the link establishment is stopped,
Re-send the call channel allocation request through the channel.
And a handover control method characterized by: