JPH07245581A - Mobile radio communication system - Google Patents

Abstract

PURPOSE:To attain the communication by applying relay connection to other communication terminal equipment when the communication terminal equipment is available of signal relaying is in existence around a concerned communication equipment so as to establish synchronization even when the concerned communication terminal equipment is located at a dead zone. CONSTITUTION:The system is provided with one base station or over (21, 22), mobile communication terminal equipments 11-13, and a management station 31 acting like a host station to the base stations 21, 22 to manage and register position information of each communication terminal equipment. Then at least either of the communication terminal equipments 11, 12 is provided with a means relaying and sending information included in a signal sent through a 1st outgoing channel from the base station 21 to other 2nd outgoing channel than the 1st outgoing channel, and a means relaying and sending the information included in the signal subject to relaying and transmission and coming from a 2nd incoming channel corresponding to the 2nd outgoing channel to a 1st incoming channel corresponding to the 1st outgoing channel while being addressed to the base station. Thus, the information included in a control channel sent from the base stations 21, 22 is reached not only in an area covered by the base stations 21, 22 but also to the outside of the area.

Description

Detailed Description of the Invention

[0001]

The present invention is used as a mobile telephone, a car telephone, and other mobile communication systems. The present invention is suitable for use in digital communication systems. The present invention is suitable for use in public communication networks.

[0002]

2. Description of the Related Art As a basic function, a communication terminal in conventional mobile radio communication receives a control signal from a base station through a downlink channel, establishes synchronization by the synchronization information included in the control signal, and shifts to a communication standby state. When the communication terminal switches to a communication state for making a call or receiving a call, it has a function of transitioning the state by receiving the allocation of the information channel used in the wireless section.

This allocation is performed by a management station, which is an upper station of the base station, and allocation information is transmitted from the base station using a downlink channel, and the communication terminal receiving this sets the information channel and starts communication. It is said that. Here, one management station is provided as an upper station of a plurality of base stations, but for the sake of convenience, it may be physically accommodated inside one base station.

Here, since the communication state is established by the direct connection between the base station and the movable communication terminal in the wireless section, the area covered by the base station due to the complicated radio wave propagation situation in the mobile communication is shown in FIG. A situation in which a dead zone exists as shown in (1) occurs, and the communication quality may deteriorate when the communication terminal enters the dead delay, which may result in communication disconnection.

For example, when there is a dead zone as shown in FIG. 9, a communication terminal located in the dead zone cannot receive a control signal from any of the surrounding base stations even if the power is turned on. Therefore, it becomes impossible to make and receive calls,
The function as a communication terminal is lost. In addition, since the dead zone changes in terms of time, a situation may occur in which a place that was not the dead zone at one point becomes the dead zone at the next point. As a conventional measure against such a problem, a new base station 25 is added as shown in FIG. 10 or a rearrangement is performed to correct the position of the base station as shown in FIG. However, these measures were very inefficient in terms of cost.

There is also known a technique of providing a relay base station in addition to the base station in a narrow specific area where radio wave propagation is extremely bad such as an underground parking lot. This technology can be installed in areas where a lot of communication terminals can enter such as an underground parking lot and it is always clear that radio wave propagation is poor, but communication terminals do not necessarily enter such as in the shade of a building. It is unrealistic to extend to less frequent areas. The technique for providing the relay base station needs to be permanent to some extent, and it is not appropriate to install it at a construction site that is temporarily performed, for example.

[0007]

The present invention has been made against such a background, and has a direct connection relationship between a base station and a movable communication terminal in a conventional mobile communication system, and a radio wave. The communication failure and the communication disconnection of the communication terminal due to the dead zone between the base station coverage areas due to the complicated propagation characteristics of the above are attempted to be solved.

An object of the present invention is to provide a mobile communication system capable of communicating even with a communication terminal located outside the coverage area of a base station. It is an object of the present invention to provide a method capable of economically communicating with a communication terminal located outside the coverage area of a base station.

The present invention provides a mobile communication system which is located outside the coverage area of a base station but enables communication when it can be connected to another communication terminal located within the coverage area of the base station. The purpose is to do. An object of the present invention is to reduce the control load for a communication terminal to perform channel selection. An object of the present invention is to provide a method capable of determining whether the communication terminal itself is located in the coverage area of the base station or in other areas.

An object of the present invention is to provide a method capable of rationally coping with the deterioration of communication quality when one communication terminal is in communication standby or in communication. It is an object of the present invention to provide a method in which a control signal sent from a base station is relayed and transmitted to the outside of the base station cover area so that a dead zone generated between the base station cover areas up to now can be covered.

[0011]

SUMMARY OF THE INVENTION The present invention comprises one or more base stations (21, 22) and a mobile communication terminal (11, 1).
2, 13) and one management station (31) that registers and manages the location information of the communication terminal as an upper station of the base station and is used for mobile radio communication. Here, the management station (31) may be physically provided in one base station, or the management station may be provided in a plurality of base stations with its functions distributed.

A feature of the present invention is that information included in a signal transmitted from the base station (21) to the first downlink channel is sent to at least some of the communication terminals (11, 12). Means for relay transmission to a second downlink channel different from the channel, and information included in a signal arriving at the second uplink channel corresponding to the relay-transmitted second downlink channel addressed to the base station And means for relaying transmission to the first upstream channel corresponding to the channel.

According to the present invention, the management station (31) selects the second downlink channel and the second uplink channel from free channels and designates the channel information in the information to be transmitted to the first downlink channel. The means for performing relay transmission may be configured to include means for selecting the second downlink channel designated in the information arriving at the first downlink channel.

The communication terminal (11) for relay connection includes means for selecting a control channel as the first downlink channel while waiting for communication, and the base station selects means for selecting an information channel as the second downlink channel. It is desirable to have a configuration including.

The management station (31) identifies to the second communication terminal that the relay to the second communication terminal has been established in the information coming from the one communication terminal to the first upstream channel. In addition, it may be configured to further include means for designating a third downlink channel to be relayed to the third communication terminal.

In the management station, when the communication terminal on standby on the control channel and one of the communication terminals relayed to the communication terminal and on standby are changed to the communication state, the first downlink channel and the Means may be provided for causing the base station to transmit information to the effect that the information channel is designated as the first uplink channel instead of the control channel.

The communication terminal is waiting for communication and is relaying to another communication terminal, and all the communication terminals in the relay are in communication standby. It is desirable to have a configuration that includes means for transmitting information to the channel to stop relaying and stopping relaying.

In this case, it is desirable that the communication terminal be configured to use the channel used for the downlink channel as the information channel after transmitting the information for stopping the relay to the downlink channel.

The communication terminal searches for a base station to be newly connected on the control channel when the communication quality is lower than a predetermined value while waiting for communication or in a communication state, and when there is no base station to be connected, the information channel It is desirable that the configuration includes means for searching for a relay communication terminal to be newly connected.

Another aspect of the present invention is a communication terminal used in the above-mentioned system, which is also within the scope of the present invention when the communication terminal is sold alone.

[0021]

According to the method of the present invention, the information contained in the control channel transmitted from the base station reaches not only the area covered by the base station but also the outside thereof. Therefore, the communication terminals located outside the base station can also communicate using the base station.

Further, the management station selects the second downlink channel and the second uplink channel from the empty channels and designates the channel information in the information to be transmitted to the first downlink channel. In the relay communication terminal, By selecting the second downlink channel specified in the information arriving at the first downlink channel, it becomes possible for the base station to manage all available channels, and the communication terminal for channel selection setting. The control load to perform is reduced.

Also, the communication terminal selects a control channel as the first downlink channel while waiting for communication, and the management station
By selecting the information channel as the second downlink channel, it becomes possible to determine whether the communication terminal itself is located in the base station cover area or in another area.

After the management station has identified that the relay for the second communication terminal has been established in the information coming from the one communication terminal to the first upstream channel, the management station further determines the second communication terminal for the second communication terminal. By specifying the third downlink channel to be relayed to the third communication terminal, the information sent from the base station will not be limited to the above range, but will be sent to the expanded range as long as there are empty channels, and the dead zone Can be made smaller.

When the management station switches to the communication state when the communication terminal that has been waiting on the control channel and one of the communication terminals that have been relayed to the communication terminal and are on standby are switched to the communication state, the first downlink channel and the first downlink channel. Instead of the control channel selected as the uplink channel, by transmitting information from the base station to the control channel to the effect that the information channel is designated, the communication channel uses the information channel, Will be distinguished from the signal transmitted and received when the communication terminal is in the communication state.

The communication terminal is waiting for communication and is relaying to another communication terminal, and all of the relaying communication terminals are in communication standby. When the communication terminal is switched to the communication state, , If the communication terminal is in the communication state by transmitting the information indicating that the relay is stopped to the downlink channel and the communication terminal is in the communication state, the base station does not relay the control signal and the communication terminal communicates. The signal transmitted / received in the state is relayed. In this case, since the downlink channel (information channel) that has been relay-transmitted until then cannot be used by other communication terminals until then, without performing channel idle detection or selection control, The downlink channel can be used as it is as an uplink channel, and can be used to transmit an information signal to a base station (or to a communication terminal that performs higher level relay).

The communication terminal searches for a base station to be newly connected on the control channel when the communication quality is lower than a predetermined value while waiting for communication or in the communication state, and when there is no base station to be connected, the communication terminal uses the information channel. By searching for a relay communication terminal to be newly connected, it is possible to reasonably deal with the case where the communication terminal is in a communication standby state or a state other than the communication state.

[0028]

【Example】

[Concept of the Present Invention] As shown in FIG. 1, the present invention provides one or more base stations 21, base stations 22, and a movable communication terminal 1.
The mobile radio communication system includes a communication terminal 1, a communication terminal 12, a communication terminal 13, and one management station 31 that registers and manages the position information of each communication terminal as an upper station of the base station. here,
According to the present invention, at least some of the communication terminals 11 and 12 include the information contained in the signal transmitted from the base station 21 in the first downlink channel as a second downlink channel different from the first downlink channel. Means for relay-transmitting to the base station 21 and information to be included in a signal arriving on the second uplink channel corresponding to the second downlink channel relay-transmitted to the base station 21, and to the first uplink corresponding to the first downlink channel. Means for relaying transmission to the channel.

The management station 31 is provided with means for selecting the second downlink channel and the second uplink channel from free channels and designating the channel information in the information to be transmitted to the first downlink channel. The means for relay transmission includes means for selecting the second downlink channel designated in the information arriving at the first downlink channel.

The communication terminal 11 includes means for selecting a control channel as the first downlink channel while waiting for communication.
The management station 31 includes means for selecting an information channel as the second downlink channel.

The management station 31 includes the second communication terminal 1 in the information coming from one communication terminal 11 to the first upstream channel.
After identifying that the relay for 2 has been established, the second communication terminal 12 is further provided with means for designating a third downlink channel to be relayed to the third communication terminal 13. The communication terminal 1 that was on standby in the control channel at the management station 31
1 and one of the communication terminal 12 or the communication terminal 13 relayed to the communication terminal 11 and on standby, is changed to the communication state, the information channel is replaced with the control channel as the first downlink channel and the first uplink channel. Is provided to the control channel.

The communication terminal 11 is waiting for communication and is relaying to another communication terminal 12, and the communication terminal 1 that is relaying the communication terminal 1
2. Communication terminal 1 in which all communication terminals 13 are in communication standby
When 1 has been converted to the communication state, it is provided with means for transmitting information to the effect that the relay is stopped to the downlink channel and stopping the relay. The communication terminals 11, 12, and 13 are
For relaying, which searches for a new base station to connect to on the control channel when the communication quality is lower than the specified value while waiting for communication or in the communication state, and to newly connect to the information channel when there is no base station to connect to And a means for searching the communication terminal.

The management station 31 is the base station 21 in FIG.
Although it is shown separately from 22, it can be physically provided inside the base station 21 or 22. The function of the management station 31 is not limited to one and may be provided in a distributed manner.

The hardware configuration of the communication terminal is shown in FIG. That is, the antenna 61 is connected to the duplexer 62. The duplexer 62 is composed of a directional coupler. Transmission and reception are switched by the high speed switching synthesizer 63. In addition, it includes a control unit 65 that performs various controls such as channel setting, a CODEC 66 that encodes and decodes input and output voices, and a TDMA circuit 64 that aggregates access operations to a wireless line.

FIG. 3 shows the system configuration of the embodiment of the present invention. Management station 31 includes base station 21, base station 22, and base station 23.
Respectively under the control of the control station 31 and the base station 21.
And are connected by a wired line. Also, the communication terminal 11
15 to the base stations 21 to 23 are connected by a wireless line.

[Radio Channel Configuration] FIG. 4 shows the configuration of the radio channel. In the base station coverage area, two types are used: a control channel used for communication of control signals between the base station and the communication terminal, and an information channel used for communication of information signals. The vertical axis of FIG. 4 represents frequency and the horizontal axis represents time. That is, each frequency is time-divided into channels.

The information channel comprises a plurality of channel groups (in FIG. 3).
TCH-1 to TCH-N). Each channel group consists of frame units, and one frame is Uplink and Downli
divided into nk. The Uplink of the control channel corresponds to the first uplink channel, and the Downlink corresponds to the first downlink channel. This Uplink and Downlink respectively
Consists of 4 slots. Each slot has 256 bits as an example. This conforms to the radio channel used in the mobile communication system of digital type.

[Relay of Control Signal] FIG. 5 shows a relay procedure of the control signal. The communication terminal 12 and the communication terminal 13 are communication terminals located outside the base station coverage area.
Since it cannot receive the control signal from, the synchronization cannot be established even when the power is turned on. Therefore, the control signal sent from the base station 21 is relayed by the communication terminal 11 located in the base station cover area.

The control signals exchanged between the management station and the communication terminal (not shown) include synchronization information, base station information, relay stage number information and various control information (call origination request, call termination request, location registration, new synchronization establishment notification, communication). Link setting start notification, redial request request notification). By relaying this control signal, the communication terminals 12 and 13 located in the dead zone can establish synchronization.

The communication terminal 11 is a communication terminal located in the base station cover area, and the control signals sent by the communication terminal 11 for the communication terminals 12 and 13 located in the dead zone are shown in FIG. Uplink of the channel group TCH-1 selected by the management station (not shown) from among a plurality of preset usable information channel groups TCH-1 to TCH-N
It is transmitted from the base station 21 on the empty channel 403 in. This control signal is received by communication terminal 12 on channel 411 of information channel group TCH-1, and relayed on channel 414 of information channel group TCH-2.

In FIG. 5, the frequency at which the control signal is transmitted is CCH, and the frequencies at which the information signal (the control signal is also transmitted in the case of relay) are TCH1 and TCH, respectively.
CH2 and TCH3. In the figure, TCH1 and TCH2 are shown in two rows, but they have the same frequency.

In FIG. 5, the first downlink channel corresponds to channel 402 and the first uplink channel is channel 4.
Corresponds to 01. The second downlink channel is channel 40
3 and the second upstream channel corresponds to channel 404. The third downlink channel corresponds to the channel 414, and the third uplink channel corresponds to the channel 413.

Hereinafter, as long as the information channel has an empty channel, the control signal is sequentially relayed to the nth channel by the same procedure. The information channel is used to send the control signal because the control signal sent by the base station and the control signal sent by the communication terminal are mixed in the base station cover area when the control channel is used for the control. Is.

Regarding the selection of the information channel for transmitting the control signal, even if it is the same as the channel group used by the local station for transmission / reception with the upper station toward the base station, it is possible to select the information channel at different timings (channels). By transmitting the control signal, relay transmission becomes possible. That is, the communication terminal 12
That is, even if the TCH-1 and TCH-2 in the above are the same, it does not matter if the timings of the channels 411 and 413 are different. On the contrary, even when a different channel group is selected, the control signal cannot be transmitted at the same timing as the timing (channel) of transmitting / receiving with the upper station. This is because most of the current communication terminals have one transmission / reception device.

[Basic Operation of Communication Terminal] The basic operation of the communication terminal is shown in the flowchart of FIG. The power supply is turned on, and in step 71, the communication terminal that cannot receive the signal from the base station in the control channel and determines that the own station is located in the dead zone scans the information channel in step 72. However, the synchronization can be established (step 74) at the time when the above-mentioned control signal is detected (step 73). The communication terminal that has established the synchronization further performs the relay transmission step 77 of the control signal received by itself for the communication terminal located outside the dead zone.

The control signal is relayed periodically,
Since each communication terminal that relays the control signal does not communicate between the communication terminals, various data that require communication are not relayed in the same channel as the control signal. When actually performing communication, a communication link is established and communication is started. However, the signal relay in the case of setting a communication link that requires relay is based on the relay procedure described above and is omitted.

[Location Registration] It is assumed that a communication terminal that has established synchronization immediately performs location registration. However, in the location registration of the present invention, not only is the ID information (identification information) of the communication terminal sent, but relay connection is also performed. If necessary, the communication terminal performing the relay adds the ID information of the communication terminal itself to perform the relay. As a result, the management station can centrally manage the connection information between the communication terminals.

FIG. 7 shows a control procedure between the base station and the communication terminal until the communication terminal described above transmits a control signal from the base station. The control signal 50 sent from the base station 21 includes the ID information and the synchronization information of the base station 21, and the communication terminal 11 that receives this establishes synchronization and makes a location registration request. The control signal 52 includes the communication terminal 1
The location registration completion notification of No. 1 and the information channel usage information are included, and the communication terminal 11 receiving this information determines that relay is possible based on the channel availability information, and can relay to the base station 21 by the control signal 53. Notify that there is. Receiving this, the base station 21 allocates the information channel used for the relay by the communication terminal 11, and transmits the channel information by the control signal 54. Communication terminal 11 receiving this
Sets the information channel allocated by the base station 21, and starts relay transmission by the control signal 55. The control signal 55 includes the base station 21ID, the synchronization information, and the relay communication terminal 11ID.

After the power is turned on, the communication terminal 12 senses the control channel but cannot receive the control signal. Therefore, the communication terminal 12 senses the information channel and receives the control signal 55 transmitted from the communication terminal 11. Here, synchronization is established and a location registration request is made. The control signal 57 includes a location registration completion notification of the communication terminal 12 and information channel usage information. The communication terminal 12 receiving this information determines that relay is possible based on the available channel information, and the control signal 53 The base station 21 is notified that relay is possible. Base station 2 which received this
1 allocates an information channel used by the communication terminal 12 for relaying, and transmits the channel information by the control signal 54. Receiving this, the communication terminal 12 sets the information channel allocated by the base station 21, and starts relay transmission by the control signal 58. The control signal 55 includes
The base station 21ID, the synchronization information, the relay communication terminal 11ID, and the relay communication terminal 12ID are included.

Also, the effective range A corresponds to the base station 21 and the effective range B is shown by the thick arrow indicating the effective range.
Corresponds to the communication terminal 11, and the effective range C corresponds to the communication terminal 12.

[Relay Control at the Time of Originating / Incoming Call] The connection relation between the stations used for relaying the control signal is defined as a sub-link so as to be distinguished from the actual communication link. An example of communication links and sublinks is shown in FIG. With respect to the call origination / receipt of the communication terminal, since the control signal from the base station can be received for the communication terminal located within the base station cover area, the call origination / termination can be performed according to the control signal. A communication terminal located in the dead zone can make and receive a call by using the sub-link to regard the upper station of the own station as a temporary base station.

When the communication is actually started from the communication of the control signal with the network side, the information channel which has been used for the sub-link is used as it is for the communication link so that the communication terminal located in the dead zone can be used. Can also communicate.

Specifically, in FIG. 8A, when the communication terminal 130 makes a call, a call request signal is sent to the management station. Upon receiving this, the management station refers to the link connection information related to the communication terminal 130 for communication link setting, determines the communication link, and communicates with the communication terminals 111 and 122 involved in the communication link formation. Send the link setting start notification signal. Up to now, the sublink was formed in association with the communication terminal 130, the communication terminal 122, and the communication terminal 111, but the communication terminal 123 and the communication terminal 131 not involved in the communication link formation are prompted to detect a new sublink. For sending a new synchronization establishment notification signal. The communication terminals 123 and 131 that have received this enter the sublink detection operation, scan the information channel,
When a control signal sent from another communication terminal is detected, it is added to a new sublink 21-112-123-131 (FIG. 8 (b)).

On the other hand, the communication terminals 111 and 122 which have received the communication link setting start notification signal from the management station start the operation of setting the communication link. As a result, FIG. 8 (b)
The communication link 21-111-122-130 at is established. When receiving a call, the management station refers to the link connection information to determine the communication link, and the procedure thereafter is the same as that at the time of calling.

When the mobile station relays the control signal, that is, when forming a sub-link, it is possible to accommodate a plurality of subordinate stations. Therefore, when an incoming call arrives at the local station while the sub-link is being formed, the sub-link is formed by being located at the same level or lower than the lower station (that is, the number of relays is equal to or less than that of the communication terminal). A communication terminal that is currently in communication with another communication terminal other than its own station (new synchronization establishment notification signal) by referring to the inter-station link connection information held by the management station It is sent to all communication terminals involved in the setting.

When the local station makes a call in a situation where a sub-link is formed, a call request signal is sent to the management station, but the control station that receives the call request signal from the communication terminal receives the call when it receives a call. The new synchronization establishment notification signal is sent to all the communication terminals involved in the link connection by the same procedure as in. However, for both outgoing and incoming calls, a communication link setting start notification signal is sent to the communication terminal involved in establishing the communication link. For example, when an incoming call arrives at the communication terminal 123 in FIG. 8A, the communication link is 21-1.
Connection setting 11-123 is performed. Therefore, a communication link setting start signal is sent from the management station to the communication terminal 111 involved in communication link setting. In addition, the management station notifies the communication terminal 131, which has been directly involved in the formation of the sublink with the communication terminal 123, and the communication terminals 122 and 130, which have been indirectly involved, to the new synchronization establishment notification. Send a signal. As described above, each communication terminal starts the operation of detecting another relay connection or the operation of setting the communication link according to the instruction from the management station.

Calling and receiving of the relaying communication terminal forming the communication link are performed as follows. The communication terminal for relay is basically in the communication standby state as already described, but the communication terminal which actually tried to originate the communication of the other communication terminal during the relay is the signal from the base station side at its own station. The relay transmission of the signal from the communication terminal is interrupted, and the call request signal is sent to the management station using the communication link that has been set so far. Upon receiving this, the management station sends a new synchronization establishment notification signal to the communication terminals involved in the communication link formation. The original communication relaying communication terminal receiving this transitions to the sub-link formation state.

The management station sends a re-originating request notification signal to the communication terminal which has been communicating, and prompts to reset the other communication link. In response to this, the communication terminal under original communication starts an operation of scanning another channel again to establish a new communication link, and restarts the communication held at the time when the communication link was established by the procedure described above.

When an incoming call is received while relaying the communication of another communication terminal, the management station suspends the communication until then, and the management station participates in the communication link formation of the new synchronization establishment notification signal. It is sent to the communication terminal. The original communication relaying communication terminal receiving this transitions to the sub-link formation state.

The management station sends a re-originating request notification signal to the communication terminal with which it is communicating, and prompts the communication terminal to re-establish another communication link. In response to this, the communication terminal under original communication starts an operation of scanning another channel again to establish a new communication link, and restarts the communication held at the time when the communication link was established by the procedure described above.

As described above, the basic procedure has been described for transmission, but the receiving side can similarly understand it as a corresponding procedure of this procedure, and therefore its explanation is omitted.

[Relay Control at the Time of Deterioration of Relay Communication Quality] When the quality of the wireless line is deteriorated due to the movement of the communication terminal or the relay communication terminal or the appearance of radio wave obstacles, the communication link / wireless channel of the communication is reduced. Make changes. Specifically, a communication terminal that has detected deterioration of line quality during communication,
Alternatively, the relay communication terminal detects a control signal sent from the peripheral communication terminal in a time slot not currently used for communication or relay. This is to detect the control signal sent from another communication terminal immediately by the communication terminal which has recognized the level deterioration above a certain set threshold value. At this time, the communication terminal does not suspend communication even during communication. The communication terminal that has succeeded in the synchronization detection sends the information to the management station. The link used at this time is a newly detected sublink.

When the management station determines that it is necessary to change the communication link based on the line quality information (for example, the radio wave reception level) sent from the communication terminal, it sends a communication link setting start notification signal to the communication link. It is sent to the communication terminal that needs to be changed. Further, to a communication terminal that is involved in the formation of the old communication link and is not related to the new communication link, a new synchronization establishment notification signal is sent to prompt the transition to the sublink formation state.

For example, in FIG. 8B, the communication terminal 1
Although 30 is in communication, if the communication terminal 130 detects the deterioration of the line quality and detects the control signal transmitted by the peripheral communication terminal, the control signal transmitted by the communication terminal 121 is detected. The terminal 130 uses the sub-link 1 for the line quality information of the currently communicating line and the line quality information of the new detection control signal.
21-110-21 to the management station. When the management station receives the change and acknowledges the communication link change of the communication terminal 130, the management station sends a communication link setting start notification signal to the communication terminals 121 and 110 involved in the new communication link formation. Further, a new synchronization establishment notification signal is sent to the communication terminal 122 and the communication terminal 111 which have been involved in the formation of the communication link so far, and the sub-link is established. As a result, the communication route is changed to the state shown in FIG. By the procedure described above, the communication link can be changed when the line quality deteriorates.

[0065]

According to the present invention, even when the communication terminal is located in the dead zone, if another communication terminal capable of relaying a signal exists in the surroundings, the other communication terminal relays. By making the connection, there is an effect that the synchronization can be established and the communication can be performed as in the case where the mobile terminal is located in the base station cover area.

The present invention can also communicate with communication terminals located outside the coverage area of a base station. INDUSTRIAL APPLICABILITY The present invention can enable communication when it is located outside the coverage area of the base station but is connectable to another communication terminal located within the coverage area of the base station.

INDUSTRIAL APPLICABILITY The present invention can be used as a relay communication terminal by simply making a relay connection to a radio wave insensitive area in a building within one company. INDUSTRIAL APPLICABILITY The present invention uses a communication terminal installed in an automobile owned by the user as a communication terminal for relay connection so that communication can be performed even when a communication terminal that is mobile and moves enters a place where radio waves do not reach. Can be used.

[Brief description of drawings]

FIG. 1 is a system conceptual diagram of an embodiment of the present invention.

FIG. 2 is a hardware configuration diagram of a communication terminal according to the embodiment of the present invention.

FIG. 3 is a system configuration diagram of an embodiment of the present invention.

FIG. 4 is a wireless channel configuration diagram of an embodiment of the present invention.

FIG. 5 is a diagram illustrating relay connection control according to the embodiment of this invention.

FIG. 6 is a flowchart illustrating the basic operation of the communication terminal according to the embodiment of the present invention.

FIG. 7 is a control sequence diagram according to an embodiment of the present invention.

FIG. 8 is a diagram illustrating a communication link and a sublink according to the embodiment of the present invention.

FIG. 9 is a diagram illustrating a base station and a radio dead zone.

FIG. 10 is a diagram for explaining that a radio dead zone is covered by adding a base station.

FIG. 11 is a diagram for explaining covering of a radio dead zone by rearrangement of base stations.

[Explanation of symbols]

 11, 12, 13, 14, 15 Communication terminal 21, 22, 23 Base station 31 Management station

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yasuharu Kosuge 1-6-1, Nishi-Waseda, Shinjuku-ku, Tokyo Waseda University

Claims (9)

[Claims] 1. A mobile radio communication system comprising one or more base stations, a movable communication terminal, and one management station that registers and manages position information of the communication terminal as an upper station of the base station, Means for relaying information contained in a signal transmitted from the base station to the first downlink channel to at least a part of the communication terminals, to a second downlink channel different from the first downlink channel; And means for relaying and transmitting the information contained in the signal arriving at the second upstream channel corresponding to the transmitted second downstream channel to the base station to the first upstream channel corresponding to the first downstream channel. A mobile radio communication system characterized by. 2. The management station comprises means for selecting the second downlink channel and the second uplink channel from free channels and designating the channel information in the information to be transmitted to the first downlink channel. The mobile radio communication system according to claim 1, wherein the relay transmitting means includes means for selecting a second downlink channel designated in the information arriving at the first downlink channel. 3. The communication terminal includes means for selecting a control channel as the first downlink channel while waiting for communication, and the base station includes means for selecting an information channel as the second downlink channel. 2. The mobile wireless communication system described in 2. 4. The management station identifies to a second communication terminal after identifying that a relay for the second communication terminal has been established in the information coming from one communication terminal to the first uplink channel. The mobile radio communication system according to claim 2 or 3, further comprising means for designating a third downlink channel to be relayed to the third communication terminal. 5. The first downlink channel is provided to the management station when a communication terminal waiting on a control channel and one of the communication terminals relayed to the communication terminal and waiting is switched to a communication state. 4. The mobile radio communication system according to claim 3, further comprising means for transmitting from the base station to the control channel information for designating an information channel instead of a control channel as the first upstream channel. 6. The communication terminal is waiting for communication and relaying to another communication terminal, and all of the relaying communication terminals are in communication standby when the communication terminal is switched to a communication state. 2. The mobile radio communication system according to claim 1, further comprising means for transmitting information indicating that the relay is stopped to a downlink channel and stopping the relay. 7. The mobile radio communication according to claim 6, wherein the communication terminal includes means for transmitting the information for stopping the relay to the downlink channel and then using the channel used for the downlink channel as the information channel. method. 8. The communication terminal searches for a base station to be newly connected through a control channel when the communication terminal is in communication standby or in a communication state and the communication quality is lower than a predetermined value, and when there is no base station to be connected. The mobile radio communication system according to claim 1, further comprising means for searching for a relay communication terminal to be newly connected through an information channel. 9. A communication terminal used in the mobile communication system according to claim 1.