JPH11136757A - Radio access system and its subscriber terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To use communication channels effectively. SOLUTION: A 1st communication request transmission means 5 of a subscriber terminal equipment 3a sends a communication connection request to a radio base station 2a. An idle channel retrieval means 6 of the radio base station 2a receiving the request searches an idle channel. When no idle channel is found out, a replay transmission means 7 sends a replay denoting it to the subscriber terminal equipment 3a. Upon receiving the replay, a 2nd communication request transmission means 8 of the subscriber terminal equipment 3a sends a communication connection request to any of radio base stations 2a-2m that has not received any communication connection request, e.g. the radio base station 2b. the channels of the radio base station 2a-2m are searched sequentially in this way.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio access system and a subscriber terminal device thereof, and more particularly, to a plurality of radio base stations and a plurality of subscriber terminal devices connected to the plurality of radio base stations by radio lines. And a subscriber terminal device of the wireless access system.

In recent years, mobile phones and PHS (Personal Handyp
hone System) has spread rapidly, and its ripple effect has
WLL (Wireless) in which fixed subscriber terminals are connected by wireless lines
s Local Loop) type wireless access systems have entered the area where cost is practical. The present invention relates to such a WLL wireless access system.

[0003]

2. Description of the Related Art In a radio access system of the WLL system, a directional antenna can be used for a subscriber terminal (a telephone or the like) because the subscriber terminal does not move and becomes a fixed station. As a result, the wireless zone (cell) becomes larger,
Therefore, the number of subscriber terminals that will be located in the wireless zone also increases.

On the other hand, since the number of channels that can be communicated by one radio base station arranged in a radio zone is limited, the number of radio base stations is increased according to the number of subscriber terminals in the radio zone. To secure the required number of channels.

FIG. 14 is a block diagram showing a conventional WLL-type radio access system in which such a plurality of radio base stations are arranged in a radio zone. That is, the wireless zone 10
A plurality of base transceiver stations (BTS; Base Transceiver)
Station) 102a, 102b to 102n are installed,
Further, a subscriber terminal device (SU; Sub)
scriber units) 103a to 103m and 103n are installed. The wireless base stations (BTS) 102 a to 102 n are installed at the center of the wireless zone 101. The subscriber terminals (SU) 103a to 103n are radio base stations (BTS)
A directional antenna for 102a to 102n is provided.
The radio base stations (BTS) 102a to 102n are connected to a base station controller (BSC) 104, and an exchange (LE; Local Exchanger) 105 is connected to the base station controller (BSC) 104. A radio base station (BTS) in another radio zone is also connected to the base station controller (BSC) 104, but is not shown here. The base station controller (BSC) 104 includes a radio base station (BTS) 102 a to 102 n and an exchange (LE) 105.
, And controls the radio base stations (BTS) 102a to 102n.

FIG. 15 shows one radio base station (BTS).
TD when another wireless base station (BTS) is added
FIG. 3 is a diagram illustrating an example of an MA frame. In this example, the TDM
A-TDD (Time Division Multiple Access-Tme Divis
(Ion Duplex) system and uses the same frequency for both uplink and downlink. In FIG. 15, the upper part shows the TDMA frame of the base radio base station (BTS), and the lower part shows the TDMA frame of the base station (BTS) on the additional side.

The basic radio base station (BT) shown in the upper section
In the TDMA frame of S), the control channel (C) of the frequency f0 is arranged in each of the first uplink and downlink slots, and the communication channels (T1 to T3) of the frequency f1 are arranged in the second to fourth slots. . Using this control channel, the subordinate subscriber terminal (SU) performs location registration, channel assignment request, and the like.

[0008] An extension-side radio base station (BTS) shown in the lower section
In the TDMA frame, communication channels (T0 to T3) of the frequency f2 are arranged in all of the first to fourth slots in uplink and downlink. As the control channel used by the subscriber terminal device (SU) connected to the additional radio base station (BTS), the control channel of the frequency f0 arranged in the upper first slot is also used.

In this embodiment, the number of additional base stations (BTSs) is increased in accordance with the number of subscriber terminal units (SUs) located in the wireless zone to secure the required number of communication channels. ing. However, since there is only one control channel, the number of radio base stations (BTSs) to be added is limited. If it is desired to further increase the number of subscriber terminal units (SUs), a separate base radio base station (SU) is required. It is necessary to prepare a station (BTS) and add a radio base station (BTS) by using its control channel.

[0010]

As described above, a plurality of basic radio base stations (BTS) are installed depending on the number of subscriber terminal units (SU) located in one radio zone. In some cases. In such a case, each of the subscriber terminals (SU) may have a plurality of base radio base stations (BTs).
S) by monitoring the received electric field strength of the control channel signal from S) and confirming the radio base station identification number included in the broadcast information in the control channel signal having the highest received electric field strength, thereby enabling the subscriber terminal device (SU) It recognizes the radio base station (BTS) to be selected by itself and writes the radio base station identification number in the memory. A channel assignment request or the like is made to this radio base station (BTS). If the channel assignment fails or the power is turned on again, the wireless base station identification number written in the memory is checked, and as long as a control channel signal including this number exists, the control channel signal is received first. Is the predetermined received field strength,
The radio base station (BT) corresponding to the radio base station identification number
For S), a channel assignment request or the like is made again.

In the above-described system, if the transmission electric field strength between the control channel signals transmitted by each of the plurality of basic radio base stations (BTSs) varies due to aging or the like, the subscriber joins. All the user terminal units (SUs) are the base radio base station (BT) with the higher electric field strength.
S) is always selected, and traffic is concentrated. If the traffic exceeds the capacity that can be accommodated by the base radio base station (BTS), the subscriber terminal (SU) fails to acquire a channel, and furthermore, the other base radio base station (BTS). ), And despite the fact that there is a vacancy in the communication channel of the extension base station (BTS), channel acquisition continues to fail, and many busy states occur.

[0012] Further, there is a system such as PIIS in which a mobile station receives a control channel of a predetermined threshold or more and which radio base station is selected is random. It has been reported that traffic is concentrated. In addition, since the frequency is low but random, the traffic concentration state is theoretically surely present.

Further, the conventional example described above comprises a plurality of basic radio base stations (BTSs) and radio base stations (BTSs) respectively added to the radio base stations (BTSs). The above problem also occurs when a plurality of basic radio base stations (BTSs) are provided in one radio zone without providing a BTS.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and has as its object to provide a radio access system and a subscriber terminal device for effective use of a communication channel.

[0015]

According to the present invention, in order to achieve the above object, as shown in FIG.
a to 2m, and a plurality of subscriber terminal devices 3a to 3n connected to the plurality of wireless base stations 2a to 2m by wireless lines, and has the following configuration.

That is, the radio access system is provided in each of the plurality of subscriber terminal devices 3a to 3n and transmits a communication connection request to one of the plurality of radio base stations 2a to 2m. 1 communication request transmitting means 5;
A plurality of wireless base stations 2a to 2m, each of which is provided in each of the plurality of wireless base stations 2a to 2m for searching for an available channel when receiving a communication connection request; 6, a response transmitting means 7 for transmitting a response to that effect to the subscriber terminal device which has transmitted the communication connection request when no free channel is found by the communication connection request, and a plurality of subscriber terminal devices 3a to 3n, respectively. When a response indicating that a vacant channel cannot be found is received from the response transmission means 7 in response to the communication connection request transmitted from the self-subscriber terminal device, a second communication connection request is transmitted to another wireless base station. Communication request transmitting means 8. A base station controller 9 is connected to the plurality of wireless base stations 2a to 2m, and an exchange 10 is connected to the base station controller 9.

In the above configuration, for example, it is assumed that the subscriber terminal device 3a attempts to communicate with the radio base station 2a. In this case, the first communication request transmitting means 5 of the subscriber terminal device 3a transmits a communication connection request to the wireless base station 2a.

The vacant channel searching means 6 of the radio base station 2a which has received the request searches for a channel which is currently vacant from the channels which the radio base station 2a can use for communication. As a result, when an empty channel cannot be found, the response transmitting means 7 of the wireless base station 2a transmits a response to that effect to the subscriber terminal device 3a which has transmitted the communication connection request.

When the subscriber terminal device 3a receives a response to the effect that a free channel cannot be found from the response transmitting means 7 of the radio base station 2a in response to the communication connection request transmitted from itself, the second communication The request transmission means 8 transmits a communication connection request to, for example, the wireless base station 2b, of which the communication connection request has not been transmitted yet, among the wireless base stations 2a to 2m.

The vacant channel searching means of the radio base station 2b receiving the request searches for a channel which is currently vacant from the channels which the radio base station 2b can use for communication. As a result, when no free channel can be found, the response transmitting means of the wireless base station 2b transmits a response to that effect to the subscriber terminal device 3a that has transmitted the communication connection request.

When the subscriber terminal device 3a receives a response to the effect that a free channel cannot be found from the response transmitting means of the radio base station 2b in response to the communication connection request transmitted from itself, the second communication request The transmitting means 8 is a radio base station 2
The communication connection request is transmitted to the wireless base station 2c to which the communication connection request has not been transmitted yet, for example, among the wireless communication devices a to 2m.

By performing such repetition, each of the radio base stations 2a to 2m is searched for an available channel. Therefore, a search for an empty channel is performed for all communication channels of the wireless base stations 2a to 2m in the wireless zone 1, so that communication cannot be performed despite an empty channel in the wireless zone 1. Is avoided, and the communication channel is effectively used.

[0023]

Embodiments of the present invention will be described below with reference to the drawings. First, the principle configuration of the first embodiment of the present invention will be described with reference to FIG. The first embodiment of the radio access system according to the present invention is provided in each of a plurality of subscriber terminal devices 3a to 3n, and communicates with one of the plurality of radio base stations 2a to 2m. First communication request transmitting means 5 for transmitting a connection request
And provided in each of the plurality of wireless base stations 2a to 2m,
When a communication connection request is received, an empty channel searching means 6 for searching for an empty channel, and a plurality of wireless base stations 2a to 2m
When an empty channel cannot be found by the empty channel searching means 6, a response to that effect is given by
Response transmitting means 7 for transmitting the communication connection request to the subscriber terminal device which has transmitted the communication connection request; and a response transmission means 7 provided in each of the plurality of subscriber terminal devices 3a to 3n, And a second communication request transmitting means for transmitting a communication connection request to another wireless base station when receiving a response indicating that no free channel can be found from the transmitting means. Note that a plurality of wireless base stations 2a
The base station controller 9 is connected to 2 m, and the exchange 10 is connected to the base station controller 9.

In the above configuration, for example, it is assumed that the subscriber terminal device 3a attempts to communicate with the radio base station 2a. In this case, the first communication request transmitting means 5 of the subscriber terminal device 3a transmits a communication connection request to the wireless base station 2a.

The vacant channel searching means 6 of the radio base station 2a receiving the request searches for a channel which is currently vacant from the channels which can be used by the radio base station 2a for communication. As a result, when an empty channel cannot be found, the response transmitting means 7 of the wireless base station 2a transmits a response to that effect to the subscriber terminal device 3a which has transmitted the communication connection request.

When the subscriber terminal device 3a receives from the response transmission means 7 of the radio base station 2a a response to the effect that a free channel cannot be found in response to the communication connection request transmitted from itself, the second communication The request transmission means 8 transmits a communication connection request to, for example, the wireless base station 2b, of which the communication connection request has not been transmitted yet, among the wireless base stations 2a to 2m.

The vacant channel searching means of the radio base station 2b which has received the request searches for a channel which is currently vacant from the channels which the radio base station 2b can use for communication. As a result, when no free channel can be found, the response transmitting means of the wireless base station 2b transmits a response to that effect to the subscriber terminal device 3a that has transmitted the communication connection request.

When the subscriber terminal device 3a receives a response to the effect that a free channel cannot be found from the response transmission means of the radio base station 2b in response to the communication connection request transmitted from itself, the second communication request The transmitting means 8 is a radio base station 2
The communication connection request is transmitted to the wireless base station 2c to which the communication connection request has not been transmitted yet, for example, among the wireless communication devices a to 2m.

By performing such repetition, each of the radio base stations 2a to 2m is searched for an available channel. Therefore, a search for an empty channel is performed for all communication channels of the wireless base stations 2a to 2m in the wireless zone 1, so that communication cannot be performed despite an empty channel in the wireless zone 1. Is avoided, and the communication channel is effectively used.

Next, the first embodiment will be described in detail. FIG. 2 is a block diagram illustrating a configuration of a communication system including the wireless access system according to the first embodiment. That is, a plurality of wireless base stations (B
TS1 to BT3) 12a to 12c are installed, and subscriber terminals (SU) 13a to 13
e is installed. Wireless base stations (BTS1 to BT3) 12
a to 12 c are installed at the center of the wireless zone 11. Each of the subscriber terminal devices (SU) 13a to 13e has a directional antenna directed to the radio base station (BTS) 12a to 12c, and the installation position is fixed. Subscriber terminal (S
U) 13a to 13e and a radio base station (BTS) 1
A WLL access method is set between each of 2a to 12c. The total number of wireless base stations (BTS) installed in one wireless zone is usually about 2 to 20.

The radio base stations (BTS) 12a to 12c
The base station controller (BSC) 14 is connected to the base station controller (BSC) 14, and an exchange (LE) 15 is connected to the base station controller (BSC) 14. A radio base station (not shown) of another radio zone 16 is also connected to the base station controller (BSC) 14. The base station controller (BSC) 14 is a radio base station (BTS) 12
a to 12c and an exchange (LE) 15 and a radio base station (BTS) 12a to 12c.
12c is performed.

FIG. 3 shows radio base stations (BTS) 12a-1
It is a figure which shows each internal structure of 2c. Radio base station (B
TS) 12a to 12c have the same configuration. The wireless base station (BTS) includes a BSCIF unit 17, a control unit 18, a wireless unit 19, and a power supply unit 20. BSCIF
The unit 17 communicates with the base station controller (BSC) 14 using, for example, the protocol of the I ′ interface, and performs each interface process of the physical layer (layer 1) and the data link layer (layer 2). . The control unit 18 controls C
Communication means 4 in the radio base stations 2a to 2m shown in FIG.
The free channel searching means 6 and the response transmitting means 7 are realized by this processor. Details will be described later with reference to FIG. The radio unit 19 is, for example, a radio
Using the CR-28 protocol, the subscriber terminal (S
U) Transmission and reception of signals with each of 13a to 13e.

FIG. 4 is a diagram showing the contents of each process performed by the control unit 18. The BSCIF processing 21
The operation of the unit 17 is controlled. Call control protocol conversion processing 2
2 converts between the protocol of the I 'interface and the protocol of the radio standard RCR-28. SUI
The F process 23, which will be described later with reference to FIGS. 7 and 8, performs an interface process with the subscriber terminal device according to the protocol of the radio standard RCR-28. BTS processing 2
Reference numeral 4 denotes operation control of the radio unit 19, failure detection and monitoring of the own radio base station, processing of test and maintenance, TDMA (Time Division M
ultiple Access) control.

FIG. 5 shows subscriber terminal units (SU) 13a-
13e is a diagram showing the internal configuration of each of the components 13e. Each of the subscriber terminal devices (SU) 13a to 13e has the same configuration. The subscriber terminal device (SU) includes a radio unit 25, a control unit 26, an audio processing unit 27, a speaker 28, a microphone 29, an operation / display unit 30, and a power supply unit 31. Radio unit 25
Transmits and receives signals to and from each of the radio base stations (BTS) 12a to 12c using, for example, the protocol of the radio standard RCR-28. The control unit 26 includes a CPU, ROM, R
The first communication request transmitting means 5 and the second communication request transmitting means 8 in the subscriber terminal devices 3a to 3n shown in FIG. 1 are realized by this processor. Details will be described later with reference to FIG.
The audio processing unit 27 performs A / D conversion and D / A conversion.

FIG. 6 is a diagram showing the contents of each process performed by the control unit 26. The BTSIF process 32, which will be described later with reference to FIGS. 7 and 8, performs an interface process with a radio base station according to the protocol of the radio standard RCR-28. The SU process 33 performs operation control of the operation / display unit 30, operation control of the radio unit 25, failure detection and monitoring of the own subscriber terminal device, TDMA control, test and maintenance processes, and the like.

FIGS. 7 and 8 show the SUIF processing 23 and B
FIG. 7 illustrates the TSIF processing 32. FIG. 7 illustrates interface processing in a link channel establishment phase, and FIG. 8 illustrates interface processing in a service channel establishment phase and a communication phase.

The call connection phase includes a link channel establishment phase for establishing a link in a wireless section, and a service channel establishment phase for establishing a radio link for a telephone service such as voice transmission and a non-telephone service such as ISDN. . In the link channel establishment phase, a link channel establishment request and a link channel allocation are performed, and in the service channel establishment phase, a series of processes related to call setup are performed. In the communication phase, an optimal protocol and an optimal channel for each service are adopted for each service, and communication is performed. Further, a disconnection process of the wireless channel is also performed.

In the link channel establishment phase shown in FIG. 7, in the protocol of the radio standard RCR-28,
Radio management (RT; Radio Tr) by a mixed mechanism of data link layer (Layer 2) and network layer (Layer 3)
ansmission), Mobility Management (MM)
), Call control (CC), address control,
Retransmission control is performed. The radio management (RT) specifies a frequency and a slot, controls output, and the like. Movement management (M
M) manages location registration and channel switching. Call control (C
C) performs call control such as outgoing / incoming calls. The present invention provides these radio management (RT), mobility management (MM), call control (CC).
It is a technology included in.

In the service channel establishment phase and the communication phase shown in FIG. 8, the radio standard RCR-28
In the protocol, wireless management, mobility management, and call control are performed by a network layer (layer 3), and address control and retransmission control are performed by a data link layer (layer 2).

FIG. 9 shows the SUIF processing 23 and the BTSIF
It is a flow chart which shows a procedure of processing 32. Hereinafter, a case where the subscriber terminal (SU) 13c shown in FIG. 2 attempts to make a communication connection request to the radio base station (BTS) will be described along the step number (S) shown in FIG. I do.

[S1] Subscriber terminal (SU) 13c
Measures the received electric field strength of the radio wave transmitted from each wireless base station (BTS). Here, the radio base station (BTS
1) The electric field strength of 12a is the highest, and the radio base station (BTS
2) It is assumed that the electric field strength becomes lower in the order of 12b and the radio base station (BTS3) 12c, and the electric field strength of each radio base station in the radio zone 16 is further lower.

[S2] Subscriber terminal (SU) 13c
Selects the radio base station (BTS1) 12a having the highest electric field strength among the measured electric field strengths. When this step is performed after step S4 or step S6, the radio base station having the highest electric field strength is selected, excluding the radio base station already selected.

[S3] Subscriber terminal (SU) 13c
Sends a communication connection request to the radio base station (BTS) selected in step S2, that is, a link channel establishment request. [S4] In the base station (BTS), the names (identification information) of all the subscriber terminal devices located in the wireless zone (paging zone) to which the base station belongs are registered in advance in its own control unit. For example, radio base stations (BTS) 12a to 12
For each of c, the names of the subscriber terminal units (SU) 13a to 13e are registered in advance in themselves.

Upon receiving the communication connection request, the radio base station (BTS) determines whether or not the subscriber terminal device that has transmitted the request is registered in itself. If registered, the process proceeds to step S5. If not registered, the process returns to step S2.

For example, the radio base station (BTS) 12a
When a communication connection request is received from the subscriber terminal (SU) 13c, it is registered. This is a wireless base station (BT
S) 12a communicates with the subscriber terminal device (S
U) indicates that a communication connection request has been received, for example, that a communication connection request has not been received from a subscriber terminal (SU) in the wireless zone 16. When a communication connection request is received from the appropriate subscriber terminal (SU), the process proceeds to step S5, and a search for an empty channel is performed to establish a communication connection. On the other hand, a wireless base station (BTS) 12a
Is a subscriber terminal (SU) located in another wireless zone
Since communication quality cannot be guaranteed for a communication connection request from, communication connection is not performed. That is, the process does not proceed to step S5, but returns to step S2.

[S5] The radio base station (BTS) uses the information channel (Traffic Cha
(nnel) to find a free channel that is not currently in use but is free. If there is an empty channel, the process proceeds to step S8, and if not, the process proceeds to step S6.

[S6] The subscriber terminal (SU) makes a communication connection request to a certain radio base station (BTS).
Although the communication connection request is repeatedly made for S), the upper limit number of times of repeatedly making the communication connection request is registered in advance in its own control unit.

The subscriber terminal (SU) refers to the number of repetitions of the registered communication connection request, and if the number has not been reached yet, determines that another radio base station (BTS) should be selected in step S2. Returning to step S7, if it has been reached, proceed to step S7.

When returning to step S2, for example,
If the radio base station (BTS) 12a has been selected last time, the radio base station (BTS) 12b will be selected this time. For example, if the radio base station (BTS) 12b was previously selected, this time the radio base station (BTS) 12b is selected.
c will be selected.

[S7] Although a vacant channel of the radio base station (BTS) is repeatedly searched, there is no vacant channel. Therefore, busy (busy) processing is performed and the communication connection request is terminated.

Returning to step S2 without performing the busy process, the radio base station (BTS) selected first is selected again, and an empty channel of each radio base station (BTS) is repeatedly searched in the same selection order. You may do so.

[S8] If there is a vacant channel, the radio base station (BTS) notifies the subscriber terminal (SU) that sent the communication connection request of the name of the vacant channel (such as an identification number).

[S9] On the basis of the notified free channel name, the subscriber terminal (SU) performs a series of wireless line connection processing with the wireless base station (BTS), and communication is started.

[S10] After the communication is completed, the process proceeds to step S11. [S11] When the call is terminated, the subscriber terminal (S
U) is the radio base station (BT)
The name of S) is stored, and communication termination processing is performed. That is,
When the subscriber terminal (SU) issues a communication connection request next time, first, in step S2, referring to the stored name of the wireless base station (BTS), the wireless base station (BTS) is first referred to. To choose.

Thus, a specific radio base station (BTS)
And the overall average time required for communication connection is reduced. Instead of this, when the call is terminated, the subscriber terminal (SU) measures the received electric field strength and stores the name of the radio base station (BTS) indicating the maximum value, When the subscriber terminal (SU) issues a communication connection request next time, first in step S2, the stored wireless base station (B
This radio base station (BTS) may be selected first with reference to the name of the (TS).

FIG. 10 is a sequence diagram of communication connection performed at the time of calling. That is, in the configuration shown in FIG. 2, the subscriber terminal device (SU) 13c
A communication connection request (link channel LCH establishment request) is made to the BTS 2) 12a and 12b in order, and rejected because there is no free channel, and a communication connection is made only when there is a free channel in the following wireless base station (BTS 3) 12c. Is shown. The "decision of rejection factor" in FIG. 10 is for selecting a busy (busy) case from among various factors that may be involved in rejecting link channel assignment.

FIG. 11 is a diagram showing a sequence of communication connection performed at the time of receiving a call under the same conditions as in FIG.
By the way, step S4, step S5 shown in FIG.
The process of step S8 may be performed by the base station controller (BSC) 14. That is, the base station control device (BSC) 14 transmits the radio base station (BTS) located in the radio zone for each radio zone (paging zone).
A correspondence table is created in which names and subscriber terminal (SU) names are associated with a wireless zone, and registered in advance in its own control unit.

Then, the subscriber terminal (SU) transmits a connection request signal to the base station controller (BSC) 14 by designating one of the radio base stations (BTS). Upon receiving the connection request signal, the base station controller (BSC) 14 refers to the correspondence table, and the subscriber terminal device (SU) that has transmitted the connection request signal transmits to the wireless base station located in its own wireless zone. It confirms that the connection request signal has been sent. If it is not confirmed, the process returns to step S2. On the other hand, if it is confirmed, it is determined that the communication connection request is made by the appropriate subscriber terminal (SU), and the base station controller (BSC) 14
Searches for a vacant channel that is not currently used for communication at the radio base station (BTS) specified by the connection request signal. If no free channel is found, the base station controller (BSC) 14 proceeds to step S6. If there is a free channel, the base station controller (BSC) 14 sends the free channel name to the subscriber terminal (SU) that transmitted the connection request signal. I do.

This will be specifically described with reference to FIG. FIG. 12 shows only the parts necessary for the above description in the configuration shown in FIG. 2, and furthermore, a radio base station (BTS4) 34 in the radio zone 16 and a base station controller (B
SC) 14 to which a correspondence table 14c is newly added.

In FIG. 12, a subscriber terminal (SU)
13c is the wireless base station (BTS1) 1 in the wireless zone 11
When a connection request signal is transmitted to the base station controller (BSC) 14 via the base station 2B or the radio base station (BTS2) 12b, the base station controller (BSC) 14 refers to the correspondence table 14c to properly join. It is determined that the request is a communication connection request by the user terminal device (SU). However, even though the electric field strength is high, the subscriber terminal device (SU) 13c sends a connection request signal to the base station control device (BSC) 14 via the radio base station (BTS4) 34 in the radio zone 16. When sent, it is determined that the request is a communication connection request by an inappropriate subscriber terminal (SU).

Further, the processing of steps S2 and S6 shown in FIG. 9 may be performed as follows. That is, in step S2, the subscriber terminal device (SU) 1
3c selects only those whose measured electric field strength exceeds a predetermined value, and selects the radio base station (BT) having the highest among them.
S1) Select 12a. When this step is executed after step S4 or step S6, the electric field strength is the highest among the radio base stations (BTS) whose electric field strength exceeds a predetermined value, excluding the radio base station already selected. Select a higher radio base station.

In step S6, the subscriber terminal (SU) makes a communication connection request to a certain radio base station (BTS), and if there is no vacant channel, the subscriber terminal (SU) transmits the request to another radio base station (BTS). The communication connection request is repeatedly made, but in step S2, the radio base station remaining when the already selected radio base station is removed from the radio base stations (BTS) whose electric field strength exceeds a predetermined value. (BT
If S) exists, the process returns to step S2; otherwise, the process proceeds to step S7.

Next, a second embodiment will be described. Second
The configuration in the second embodiment is basically the same as the configuration in the first embodiment. Therefore, in the description of the second embodiment, the configuration of the first embodiment is used.

In the second embodiment, the SUIF processing 23
And the BTSIF processing 32 has some differences. FIG.
FIG. 3 shows a procedure of the SUIF processing 23 and the BTSIF processing 32 in the second embodiment. 13, the same steps as those of the SUIF processing 23 and the BTSIF processing 32 in the first embodiment shown in FIG. 9 are denoted by the same step numbers, and the description thereof will be omitted. Only different parts will be described. .

[S21] The subscriber terminal (SU) selects a radio base station (BTS) having the highest electric field strength among the measured electric field strengths. Then, the paging area number PNo of the selected radio base station (BTS) is stored in its own control unit. The paging area number PNo is information that can specify a paging area.

When this step is executed after step S24, the subscriber terminal unit (SU) transmits the BCCH (Broadcasting Ch) transmitted from each radio base station (BTS).
An originator identification code is monitored, and only the radio base station (BTS) whose paging area number PNo included in the source identification code matches the paging area number PNo stored in the control unit is extracted. From the extracted wireless base station (BTS), the wireless base station (BT
The wireless base station having the highest electric field strength is selected from among those excluding S).

[S22] The subscriber terminal (SU) issues a communication connection request, that is, a link channel establishment request, to the radio base station (BTS) selected in step S21. [S23] Radio base station (BTS) receiving the communication connection request
Searches for a vacant channel that is not currently in use but is vacant among information channels of a wireless channel that can be used in its own station. If there is a free channel, the process proceeds to step S8, and if not, the process proceeds to step S24.

[S24] The subscriber terminal (SU) makes a communication connection request to a certain radio base station (BTS).
The communication connection request is repeatedly made to S). At this time, the B transmitted from each radio base station (BTS) is transmitted.
The originating identification code of the CCH is monitored, and only the radio base station (BTS) whose paging area number PNo included therein matches the paging area number PNo stored in the control unit is extracted. From the extracted wireless base station (BTS), the wireless base station (BT
If there is a remaining radio base station (BTS) after excluding S), the flow returns to step S21; otherwise, the flow proceeds to step S7.

It should be noted that each name of the radio base station (BTS) selected in step S21 is stored in the subscriber terminal (STS).
U) may be stored, and at the time of the next or subsequent communication connection request, the target of the communication connection request may be determined based on the stored contents.

[0070]

As described above, according to the present invention, the subscriber terminal device searches for a free channel of a radio base station, and if not found, searches for a free channel of another radio base station in the same radio zone. .

As a result, it is possible to eliminate the case where a plurality of radio base stations exist in the radio zone, and the busy processing is performed in spite of the presence of an empty channel in any of them.
Effective use of the communication channel is achieved, and the call loss rate is reduced.

Further, even if a failure occurs in a certain radio base station, the subscriber terminal device can make a call connection with another radio base station in the same radio zone, and thus has a redundant configuration. , Service reliability is improved.

Further, the subscriber terminal device is configured so as not to make a call connection with a radio base station in another radio zone. As a result, it is possible to easily avoid performing a call connection in which communication quality cannot be ensured.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a communication system including the wireless access system according to the first embodiment.

FIG. 3 is a diagram showing an internal configuration of a radio base station (BTS).

FIG. 4 is a diagram illustrating the content of each process performed by a control unit of a radio base station (BTS).

FIG. 5 is a diagram showing an internal configuration of a subscriber terminal (SU).

FIG. 6 is a diagram showing the content of each process performed by a control unit of a subscriber terminal (SU).

FIG. 7 is a diagram showing interface processing contents in a link channel establishment phase.

FIG. 8 is a diagram showing interface processing contents in a service channel establishment phase and a communication phase.

FIG. 9 is a flowchart illustrating a procedure of SUIF processing and BTSIF processing.

FIG. 10 is a sequence diagram of communication connection performed at the time of calling.

FIG. 11 is a sequence diagram of a communication connection performed when a call is received.

FIG. 12 is a configuration diagram based on FIG. 2 for explaining another process.

FIG. 13 is a flowchart illustrating a procedure of SUIF processing and BTSIF processing according to the second embodiment.

FIG. 14 is a configuration diagram showing a conventional WLL wireless access system in which a plurality of wireless base stations are arranged in a wireless zone.

FIG. 15 shows a subscriber terminal (SU) and a radio base station (BT).
FIG. 3 is a diagram illustrating an example of a form of a signal used in wireless communication performed with S).

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Radio zone 2a-2m Radio base station 3a-3n Subscriber terminal device 5 First communication request transmission means 6 Free channel search means 7 Response transmission means 8 Second communication request transmission means 9 Base station control device 10 Switch

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hitoshi Ishikawa 4-1-1, Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa Prefecture Inside Fujitsu Limited (72) Inventor Hirokazu Matsuura 4-chome, Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa Prefecture No. 1 Inside Fujitsu Limited

Claims (16)

[Claims] 1. A radio access system comprising a plurality of radio base stations and a plurality of subscriber terminal devices connected to the plurality of radio base stations by radio lines, wherein the plurality of subscriber terminal devices are provided in the plurality of subscriber terminal devices, respectively. A first communication request transmitting unit that transmits a communication connection request to one of the plurality of wireless base stations; and a communication connection request that is provided in each of the plurality of wireless base stations and receives the communication connection request. In this case, a vacant channel searching means for searching for a vacant channel is provided in each of the plurality of radio base stations. When the vacant channel searching means cannot find a vacant channel, the communication connection request is transmitted. Response transmitting means for transmitting to the subscriber terminal device, and a communication connection provided in each of the plurality of subscriber terminal devices and transmitted from the own subscriber terminal device. And a second communication request transmitting means for transmitting a communication connection request to another wireless base station when receiving a response to the request from the response transmitting means that a free channel cannot be found. Wireless access system characterized. 2. A measuring unit provided in each of the plurality of subscriber terminal devices and measuring a received electric field strength of a control channel signal transmitted from each of the plurality of radio base stations,
Further, the first communication request transmitting means selects a wireless base station showing the highest value among the electric field strengths measured by the measuring means as a wireless base station transmitting a communication connection request. First
The second communication request transmitting means, wherein the second communication request transmitting means indicates the highest value among the electric field strengths measured by the measuring means for another wireless base station. 2. The wireless access system according to claim 1, further comprising: a second selection unit that selects a wireless base station that transmits a communication connection request. 3. A counting means provided in each of the plurality of subscriber terminal devices for counting the number of times a communication connection request is transmitted by the first communication request transmitting means and the second communication request transmitting means; And stopping means for stopping the operation of the second communication request transmitting means when the value counted by the counting means reaches a predetermined value. The wireless access system according to claim 2, wherein 4. A counting unit provided in each of the plurality of subscriber terminal devices, the counting unit counting the number of times a communication connection request is transmitted by the first communication request transmitting unit and the second communication request transmitting unit; Are provided in each of the subscriber terminal devices, and when the value counted by the counting means reaches a predetermined value, the first communication request transmitting means and the second Control means for causing the first communication request transmission means and the second communication request transmission means to make a communication connection request in accordance with the order of the communication connection requests by the communication request transmission means. 3. The wireless access system according to claim 2, wherein: 5. A measuring unit provided in each of the plurality of subscriber terminal devices and measuring a received electric field strength of a control channel signal transmitted from each of the plurality of radio base stations,
Further, the first communication request transmitting means selects a value equal to or more than a predetermined value among the electric field strengths measured by the measuring means, and indicates the highest value among the selected values. The first communication unit includes a first selection unit that selects a base station as a wireless base station that transmits a communication connection request, and the second communication request transmission unit performs measurement by the measurement unit for another wireless base station. Selecting a value equal to or greater than a predetermined value from among the obtained electric field strengths, and selecting the radio base station having the highest value among the selected values as the radio base station transmitting the communication connection request. 2. The wireless access system according to claim 1, further comprising: selecting means. 6. A registration holding unit provided in each of the plurality of wireless base stations, for registering and holding an identification number of a subscriber terminal device located in its own wireless zone, and provided in each of the plurality of wireless base stations. , With reference to the registration holding means, at the time of a communication connection request by the first communication request transmission means or the second communication request transmission means,
Confirming means for confirming that the subscriber terminal device making the communication connection request is a subscriber terminal device arranged in its own wireless zone; and the confirming means provided in each of the plurality of wireless base stations. 2. The wireless access system according to claim 1, further comprising: control means for activating said empty channel searching means and said response transmitting means only when the confirmation by the following is obtained. 7. A base station controller connected to the plurality of wireless base stations via a wired line, and associates a wireless base station name and a subscriber terminal device name arranged in a wireless zone with a wireless zone. A registration holding means for registering and holding, and provided in the base station control device, at the time of a communication connection request by the first communication request sending means or the second communication request sending means, referring to the registration holding means, Confirmation means for confirming that the subscriber terminal device making the communication connection request is making a communication connection request to a radio base station arranged in its own radio zone, provided in the base station control device 2. The wireless communication system according to claim 1, further comprising: control means for activating said empty channel search means and said response transmission means only when said confirmation by said confirmation means is obtained. Access system. 8. When a free channel is found by the free channel searching means, each of the plurality of wireless base stations transmits a free channel name to the subscriber terminal device which has transmitted the communication connection request. A vacant channel name transmitting unit, provided in each of the plurality of subscriber terminal devices, when a vacant channel name is transmitted from the vacant channel name transmitting unit in response to a communication connection request transmitted from the own subscriber terminal device. In the communication means for performing communication using the free channel, provided in each of the plurality of subscriber terminal devices, storing the name of the wireless base station that has performed communication with the communication means, when the next communication connection request 2. A storage designating means for setting the stored wireless base station as a wireless base station for transmitting a communication connection request. Wireless access system. 9. When a free channel is found by the free channel searching means, each of the plurality of wireless base stations transmits a free channel name to the subscriber terminal device which has transmitted the communication connection request. A vacant channel name transmitting unit, provided in each of the plurality of subscriber terminal devices, when a vacant channel name is transmitted from the vacant channel name transmitting unit in response to a communication connection request transmitted from the own subscriber terminal device. Communication means for performing communication using the free channel; and measuring means provided in each of the plurality of subscriber terminal devices, for measuring reception electric field strengths of control channel signals respectively transmitted from the plurality of radio base stations. And provided in each of the plurality of subscriber terminal devices, and measured by the measurement unit after the communication by the communication unit is completed. The identification number of the wireless base station showing the highest value among the electric field strengths is stored, and the stored wireless base station is used as the wireless base station that transmits the communication connection request when the next communication connection request is made. The wireless access system according to claim 1, further comprising: a designation unit. 10. A subscriber terminal device of a radio access system comprising a plurality of base stations and a plurality of subscriber terminal devices connected to the plurality of radio base stations by radio lines, wherein First communication request transmitting means for transmitting a communication connection request to one of the wireless base stations; and when receiving a response indicating that a free channel cannot be found in response to the communication connection request, the other wireless base station And a second communication request transmitting means for transmitting a communication connection request to the station. 11. The communication device according to claim 11, further comprising: a measuring unit configured to measure a received electric field strength of a control channel signal transmitted from each of the plurality of radio base stations, wherein the first communication request transmitting unit measures the received electric field intensity. A first radio base station that selects the highest value among the electric field strengths is selected as a radio base station that transmits a communication connection request.
The second communication request transmitting means, wherein the second communication request transmitting means indicates the highest value among the electric field strengths measured by the measuring means for another wireless base station. 11. A subscriber terminal device for a wireless access system according to claim 10, further comprising: a second selection unit that selects a wireless base station that transmits a communication connection request. 12. A counting means for counting the number of transmissions of a communication connection request by said first communication request sending means and said second communication request sending means, and a value counted by said counting means has reached a predetermined value. 12. The subscriber terminal device of the wireless access system according to claim 11, further comprising: stopping means for stopping the operation of said second communication request transmitting means. 13. The communication request transmitting unit according to claim 13, further comprising: a measuring unit that measures a received electric field strength of a control channel signal transmitted from each of the plurality of wireless base stations, wherein the first communication request transmitting unit measures the received electric field intensity. A first selection unit that selects a value equal to or more than a predetermined value from among the electric field strengths, and selects a wireless base station having the highest value among the selected values as a wireless base station that transmits a communication connection request; Wherein the second communication request transmitting means performs the measurement by measuring the radio base stations other than the radio base stations to which the communication connection request has already been transmitted from the plurality of radio base stations. Selecting a value equal to or greater than a predetermined value from among the obtained electric field strengths, and selecting the radio base station having the highest value among the selected values as the radio base station transmitting the communication connection request. 11. Selection means for selecting Subscriber terminals of the mounting of the radio access system. 14. A plurality of wireless base stations, a base station control device connected to the plurality of wireless base stations by a wired line, and a plurality of subscriber terminal devices connected to the plurality of wireless base stations by a wireless line. A connection request signal provided in each of the plurality of subscriber terminal devices and designating one of the plurality of radio base stations and requesting a communication connection with the radio base station. And a first communication request transmission means for transmitting the connection request signal to the base station control device via the designated wireless base station. A vacant channel searching means for searching for a vacant channel in the radio base station specified by the signal; provided in the base station controller, when the vacant channel searching means cannot find a vacant channel. Response transmitting means for transmitting a response to that effect to the subscriber terminal device that has transmitted the connection request signal; and a connection request provided in each of the plurality of subscriber terminal devices and transmitted from the own subscriber terminal device. When receiving from the response transmitting means a response to the effect that no vacant channel can be found to the signal, the base station controls the connection request signal by designating another radio base station among the plurality of radio base stations. And a second communication request transmitting means for transmitting the request to the device. 15. A wireless access device included in each of a plurality of wireless base stations and a plurality of subscriber terminal devices connected to the plurality of wireless base stations via wireless lines, wherein each of the plurality of wireless base stations transmits from the plurality of wireless base stations. Measuring means for measuring the received electric field strength of the control channel signal, and selecting the radio base station having the highest value among the electric field strengths measured by the measuring means, and selecting the radio base station for the selected radio base station. Communication request transmitting means for transmitting a communication connection request by means of a communication terminal, storage means for storing a specific signal that can specify a paging area to which the selected wireless base station belongs, and communication transmitted from the own subscriber terminal device When receiving a response indicating that no free channel can be found to the connection request, a plurality of radio base stations related to the paging area indicated by the specific signal stored in the storage means. And a second communication request transmitting means for selecting a wireless base station to which a communication connection request has not been transmitted yet and transmitting a communication connection request to the selected wireless base station. Wireless access device. 16. The radio access apparatus according to claim 15, wherein said specific signal is a paging area number.