JP3625414B2 - Repeater - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a relay device used in a communication system having a configuration in which a plurality of terminals are connected to a switch in a fixed communication network via a relay station, and in particular, each terminal should wait for an incoming call signal or the like during standby. The present invention relates to a repeater for specifying a general call channel.
[0002]
[Prior art]
Recently, with the development of communication technology, mobile cellular phone terminals and mobile call-only terminals have become widespread in addition to desktop wired telephone terminals. PHS (Personal Handyphone System) is used as one of wireless communication systems including a mobile cellular phone terminal and a mobile call dedicated terminal.
[0003]
FIG. 8 is a diagram illustrating a schematic configuration of the PHS 1. The PHS 1 includes a plurality of public base stations (Cell Station: CS) 3, a fixed communication network 5 including a mobile switching center (MSC) 4, and one or more terminals (Personal Stations: PS) 6. It includes at least a relay machine 7 in some cases. The plurality of public base stations 3 are distributed in an area where the PHS 1 service is provided. The public base stations 3 are interconnected via a communication network 5 such as ISDN. The repeater 7 is interposed between the public base station 3 and the terminal 6 for relaying wireless communication between the public base station 3 and the terminal 6. In principle, the terminal 6 is wirelessly connected to one of the public base stations 3, and in some cases, wirelessly connected to the repeater 7. The terminal 6 can arbitrarily move within the service providing area of the PHS 1.
[0004]
Signal transmission / reception between the public base station 3 and the terminal 6, signal transmission / reception between the public base station 3 and the repeater 7, and signal transmission / reception between the repeater 7 and the terminal 6 are performed by wireless communication. The various specifications of PHS1 are in accordance with the public specifications specified in RCR_STD-28 [2nd generation cordless telephone system standard]. RCR_STD-28 was studied by the Radio System Development Center (RCR / current: Radio Industry Association: ARAB) and was established in December 1993. The public base station 3 and the repeater 7 continuously transmit a control signal wirelessly using a logical control channel (Logic CCH: LCCH), which is one of digital wireless communication control channels (CCH). Yes. The terminal 6 intermittently receives control channel signals during standby.
[0005]
FIG. 9 is a diagram showing a prior art incoming sequence from the public base station 3 to the terminal 6. In response to the arrival of incoming call information addressed to the terminal 6 from the mobile communication switching center 4, each public base station 3 in the location registration area where the terminal 6 is currently located is a general call channel which is one of predetermined control channels. Is used to transmit an incoming call signal. If the terminal 6 receives an incoming call signal to itself transmitted from the nearest public base station 3, an LCH (Link Channel) establishment request signal is transmitted from the terminal 6 via the public base station 3 to the mobile communication exchange. It is transmitted to the station 4 using the control channel. A communication channel to be used by the terminal 6 is allocated in response to the LCH establishment request signal, and an LCH allocation signal indicating the allocated communication channel is transmitted from the public base station 3 to the terminal 6 using the control channel. Thereafter, various control signals such as an incoming call response signal, a call setup signal, a call setup acceptance signal, and a paging signal are transmitted between the terminal 6 and the mobile switching center 4 using the communication channel notified by the LCH assignment signal. Are transmitted and received via the public base station 3. The terminal 6 that has received the call signal rings the ringer to notify the user of the terminal 6 that there is a call to the terminal 6. When the user performs a predetermined response operation on the terminal 6 in response to the ringer ringing, the response is confirmed between the terminal 6 and the mobile switching center 4 via the public base station 3 in response to the response operation. Is done. After confirming the response, the terminal 6 and the mobile communication switching center 4 shift to a communication state in which user information can be transmitted and received via the public base station 3.
[0006]
Japanese Patent Application Laid-Open No. 8-340560 discloses a technique related to confirmation of a response signal to a call signal in a communication system including a telephone set as a terminal 6 and a digital exchange. In the communication system disclosed in Japanese Patent Application Laid-Open No. 8-340560, a response line is provided between the digital exchange and the telephone, in addition to the call and call lines. The telephone transmits a response signal for the calling signal to the digital exchange using the response line.
[0007]
In the PHS 1, the repeater 7 is a pseudo public base station 3 when viewed from the terminal 6, and is a pseudo terminal 6 when viewed from the public base station 3. The repeater 7 wirelessly uses one of the channel between the public base station 3 and the terminal 6 for relaying communication between the public base station 3 and the terminal 6. If the signal is obtained by the above, the other channel of the two channels is used to transmit the signal.
[0008]
As described above, the incoming call signal indicating that there is an incoming call to the terminal 6 is transmitted using a paging channel (PCH) which is one of the control channels. When the repeater 7 can use a plurality of simultaneous call channels, any one of all the simultaneous call channels is transmitted to the terminal 6 that is under the relay 7 and communicates with the public base station 3 via the repeater. One is assigned and assigned individually from the repeater 7 as the standby position of the terminal 6. For example, as shown in FIG. 10, in a situation where eight simultaneous call channels P1 to P8 can be used, the third general call channel P3 is designated as the standby position of the terminal 6A numbered 1234, and the seventh general call channel is set. If channel P7 is designated as the standby position of terminal 6B with number 5678, terminal 3A with number 1234 receives the incoming call signal if the incoming signal is transmitted using third simultaneous call channel P3. The terminal 6B with the number 5678 does not recognize the incoming call because it cannot receive the incoming call signal.
[0009]
When a plurality of terminals 6 are registered in the repeater 7, the plurality of terminals 6 are grouped into groups individually corresponding to two or more incoming groups as shown in FIG. For example, all the registered terminals 6 are classified so as to belong to one of two or more groups according to the information processing capability of the terminals 6. Specifically, all of the terminals 6 are classified into two, that is, a voice terminal 6V dedicated to voice communication and a data terminal 6D dedicated to data communication. In this case, a paging channel is assigned to each incoming call group, and the paging channel assigned to the incoming call group is designated as a standby position for all terminals 6 belonging to the group facing the single incoming call group.
[0010]
For each terminal 6 under the relay machine 7, a general paging channel that each terminal 6 should wait for at the time of location registration to the relay machine 7 is designated. The terminal 6 under the relay 7 does not know which paging channel signal is received until the location registration is completed. For example, immediately after a voice terminal is registered under the relay station 7 to which the first paging channel is assigned to the incoming call group corresponding to the group of voice terminals, as shown in FIG. It is not known whether it is waiting on the general paging channel, and after the location registration is completed, reception of the first general paging channel signal is started as shown in FIG.
[0011]
When the repeater 7 is a base unit of a second generation cordless telephone or the repeater 7 is a relay antenna to which a telephone number can be assigned, an incoming call to the repeater 7 and an incoming call to a terminal under the repeater The two types of incoming calls are possible. When an incoming call is received at the repeater 7, all incoming calls are made to all terminals under the repeater, and when an incoming call is received at a terminal under the repeater 7, an individual incoming call is sent to the destination terminal. At the time of a simultaneous incoming call, an incoming call signal is transmitted using all the simultaneous call channels that can be used by the repeater 7, and information indicating that the incoming call signal is a simultaneous incoming call is included in the incoming call signal. The terminal 6 that has received the incoming call signal for simultaneous incoming calls rings the ringer. After any one terminal responds to the incoming call signal of simultaneous incoming, the incoming sequence after the LCH establishment request signal transmission is started. In contrast to this, at the time of individual incoming call, the ringing of the destination terminal rings after the incoming call sequence is advanced to call signal transmission. Further, when the terminals under the repeater are grouped in the repeater 7, simultaneous incoming calls can be made in units of groups. In this case, the repeater 7 transmits the incoming call signal for the simultaneous incoming call using the general call channel assigned to the incoming call group corresponding to the group to which the simultaneous incoming call is to be made.
[0012]
[Problems to be solved by the invention]
In the communication system including the repeater 7 that can use a plurality of simultaneous paging channels as described above, as described with reference to FIGS. The terminal 6 under 7 is waiting for an incoming call signal transmitted using the general call channel assigned before the location registration. Therefore, if there is a simultaneous incoming call to the group to which the terminal 6 belongs before completion of location registration via the repeater 7, it is difficult for the terminal 6 to receive an incoming call signal for the simultaneous incoming call. Japanese Patent Laid-Open No. 8-340560 only discloses a reliable method of confirming a response signal to a call signal, and reliably receives an incoming call signal transmitted prior to the call signal, particularly an incoming call signal for simultaneous incoming calls. A technique for causing the terminal 6 to receive is not disclosed.
[0013]
An object of the present invention is to provide a repeater capable of reliably transmitting an incoming call signal to each terminal at the time of simultaneous incoming calls executed in units of incoming calls.
[0014]
[Means for Solving the Problems]
The present invention provides a relay device that relays communication between a plurality of terminals and base stations that selectively belong to two or more groups,
A communication means capable of individually connecting calls to two or more terminals;
Storage means for storing data indicating the belonging status to the incoming call group corresponding to the group to which each terminal belongs together with the identification information of the terminal when accepting the location registration from the terminal;
An incoming call group designating means for notifying each terminal of the incoming call group corresponding to the group to which the terminal belongs and notifying a general call channel on which the terminal should wait for an incoming call;
Based on the incoming call instruction from the base station to the repeater, the communication means belongs to each group by using the paging channel assigned to the incoming call group corresponding to each group stored in the storage means. If there is no terminal that responds after a predetermined reference time has elapsed since the start of the simultaneous incoming call and the simultaneous incoming call for all terminals is performed, the storage means is referred to and the identification information of each terminal belonging to each group is obtained. And an incoming call control means for executing the individual incoming call specified by the identification information by using the remaining simultaneous call channel of the simultaneous call channel assigned to the corresponding incoming call group for each group. It is a repeater.
[0015]
According to the present invention, in the repeater, in response to an instruction for an incoming call from the base station to the repeater, simultaneous incoming calls for all terminals belonging to any group and individual incoming calls for each terminal belonging to the group are used together. As a result, if there is no terminal that can respond to the simultaneous incoming call to the repeater among all the terminals whose identification information is stored in the storage means of the repeater, each terminal can receive an individual call, so it belongs to the repeater An incoming call can be reliably made to the terminal.
[0016]
The repeater of the present invention further includes reference time setting means for setting the reference time,
The incoming call control means performs control using the reference time set in the reference time setting means at the time of simultaneous incoming instruction,
The reference time set in the reference time setting means is variable.
[0017]
According to the present invention, in the repeater, the reference time, which is the time difference from the start of simultaneous incoming calls to the start of individual incoming calls, can be changed. This improves the usability of the repeater.
[0018]
The repeater of the present invention is characterized in that the incoming call control means continues the simultaneous incoming call to all the terminals belonging to the group even while the individual incoming call is being executed for each terminal belonging to the group.
[0019]
According to the present invention, simultaneous incoming calls and individual incoming calls can be executed in parallel in the repeater. As a result, the repeater can reduce the time required for incoming calls to all terminals belonging to the group.
[0020]
Each of the terminals of the present invention responds only to an incoming call that is executed using the simultaneous call channel notified by the incoming call group designation means when waiting for an incoming call,
The incoming call control means refers to the storage means in response to a simultaneous incoming instruction from the base station to all terminals belonging to any group, and is assigned to the incoming call group corresponding to the group by the communication means. The terminal is identified if there is no terminal that responds after the predetermined reference time has elapsed since the start of the general incoming call by executing the simultaneous incoming call to all terminals belonging to the group using the existing general paging channel. The individual incoming call designated by the information is executed using a remaining general call channel other than the general call channel assigned to the incoming call group corresponding to the group.
[0021]
According to the present invention, when the communication means can use a plurality of paging channels, not only paging is performed using only the paging channels assigned to any group, but also the remaining paging channels. Individual incoming calls for terminals belonging to the group are executed using the channel. As a result, if there is a terminal that belongs to a certain group but is waiting only for an incoming call that is performed using a remaining channel other than the paging channel assigned to the incoming call group corresponding to the group, in the standby state, the terminal Can be reliably received. As a result, the success rate of call connection at the time of simultaneous incoming calls is improved.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a schematic configuration of a PHS (Personal Handyphone System) 11 which is a communication system using a repeater according to an embodiment of the present invention. The PHS 11 includes one or more public base stations (Cell Station) 13, a fixed communication network 15, a plurality of terminals (Personal Station: PS) 16, and a repeater 17. In the example of FIG. 1, three public base stations 13, one repeater 17, and six terminals 16 are included. The fixed communication network 15 includes at least one mobile communication switching center 18 (Mobile Switch Center: MSC), at least one service control station 19, and a transmission line network.
[0023]
The public base stations 13 are distributed in the service area where the PHS 11 service is to be provided. All public base stations 13 are interconnected via a fixed communication network 15. All mobile communication switching centers 18 and all service control stations 19 are interconnected via a transmission line network. The repeater 17 is wirelessly connected or wired to the public base station 13 for relaying communication between the public base station 13 and the terminal 16. In the example of FIG. 1, the repeater 17 is wirelessly connected to the wireless base station 13. The terminal 16 is wirelessly connected to any one of all public base stations 13 and all repeaters 17. The terminal 16 is registered in advance in the PHS 11 and can arbitrarily move within the service area of the PHS 11.
[0024]
The transmission line network of the fixed communication network 15 is realized by, for example, ISDN (Integrated Services Digital Network). The fixed communication network 15 may be further connected to an external communication network other than the PHS 11 such as a general telephone exchange network. The repeater 17 is realized by, for example, a base unit of a second generation cordless telephone or a PHS indoor relay antenna. The terminal 16 is realized by a handset of a second generation cordless telephone or a PHS terminal.
[0025]
Various specifications of the PHS 11 conform to the public specifications specified in RCR_STD-28 [2nd generation cordless telephone system standard]. Signal transmission / reception between the public base station 13 and the terminal 16, signal transmission / reception between the public base station 13 and the relay 17, and signal transmission / reception between the relay 17 and the terminal 16 are performed by wireless communication. For these wireless communications, there are logical control channels (between the public base station 13 and the terminal 16, between the public base station 13 and the relay 17, and between the relay 17 and the terminal 16.
A Logic Control Channel (LCCH) and a communication channel (Traffic Channel: TCH) are prepared.
[0026]
The logical control channel includes a common control channel (Common CCH: CCCH), a broadcast channel (Broadcasting CCH: BCCH) used in the communication system, and an optional USCCH. The common control channel includes a paging channel (PCH) and a dedicated cell channel (Signaling CCH: SCCH). The general call channel is used for transmission of an incoming call signal when an incoming call is received. The dedicated cell channel is used to transfer information necessary for call connection with the public base station 13. The communication channel is used for signal transmission / reception with the public base station 13 at the time of outgoing and incoming calls, and particularly for transmission / reception of user information such as voice information and data information.
[0027]
The basic incoming sequence when the terminal 16 is directly connected to the public base station 13 is the same as the incoming sequence described with reference to FIG. The basic incoming sequence when the terminal 16 is connected to the public base station 13 via the repeater 17 is the terminal 16 and the public base station, instead of the direct transmission and reception of signals between the terminal 16 and the public base station 13. The only difference is that the repeater 17 relays signal transmission / reception to / from 13. For this purpose, if the repeater 17 receives a signal transmitted using a channel in one of the channel group with the public base station 13 and the channel group with the terminal 16, For example, the received signal is transmitted using a channel of the same type as the certain channel in the other channel group of the two channel groups.
[0028]
Signal transmission / reception between the public base station 13 and the repeater 17 is performed using a channel group used by the public base station 13. Signal transmission / reception between the repeater 17 and the terminal 16 is performed using a self-supporting standard channel group. As an example, when relaying signal transmission from the public base station 13 to the terminal 16 using the logical control channel, the repeater 17 receives a signal transmitted from the public base station 13 using the logical control channel. Then, the received signal is transmitted to the terminal 16 using a self-employed standard logical control channel. The terminal 16 under the relay 17 receives a signal transmitted from the relay 17 using a self-employed standard logical control channel. The self-supporting logical control channel and the self-supporting communication channel are standardized by RCR STD-28. The wireless transmission between the public base station 13 and the repeater 17 and the wireless transmission between the repeater 17 and the terminal 16 are different only in that the details of the channel are for public and private standards, respectively. Is equal to
[0029]
The wireless communication within the PHS 11 employs a four-multiplex multi-carrier TDMA (Time Division Multiple Access) / TDD (Time Division Duplex) method as a multiple access method. FIG. 2A is a diagram illustrating a configuration of the baseband signal 21 of the 4-multiplex multicarrier TDMA / TDD system. In the 4-multiplex multicarrier TDMA / TDD system, the baseband signal 21 superimposed on one radio carrier is divided into a plurality of TDMA frames 22, and the single TDMA frame 22 is divided into eight time slots 23. The time width of the single TDMA frame 22 is 5 milliseconds. The first four of all time slots 23 in a single TDMA frame 22 are assigned to the downlink channel, and the latter half four of all time slots 23 are assigned to the uplink channel. In this specification, the “downlink” is a line used when a signal is transmitted from the public base station 13 to the repeater 17 or the terminal 16 or when a signal is transmitted from the repeater 17 to the terminal 16. The “uplink” is a line used when the public base station 13 receives a signal from the repeater 17 or the terminal 16 or when the repeater 17 receives a signal from the terminal 16 or the like.
[0030]
Of the four time slots 23 for uplink in the TDMA frame 22 that are intermittently arranged in the baseband signal 21 at predetermined intervals, the time slot 23 at a predetermined position in the first half of the TDMA frame 22 is Assigned to the uplink logical control channel. Similarly, out of the four time slots 23 for the downlink in the TDMA frame 22 that are intermittently arranged in the baseband signal 21 at predetermined intervals, the time at a predetermined position in the latter half of the TDMA frame 22 Slot 23 is allocated to the uplink logical control channel. As a result, the time slots 23 constituting the uplink and downlink logical control channels are intermittently arranged in the baseband signal 21 at a predetermined specific cycle that is an integral multiple of the time width of the TDMA frame 22. . In FIG. 2, only one TDMA frame 22 at the head of the baseband signal is given a reference symbol.
[0031]
The LCCH superframe, which is the minimum unit of the logical control channel, includes time slots 23 that are intermittently arranged in the baseband signal 21 with a period that is an integral multiple of the time width of the TDMA frame 22 and assigned to the logical control channel. A predetermined number is arranged along the time series. FIGS. 2B and 2C are diagrams respectively showing configurations of the LCCH superframe 24 of the uplink logical control channel and the LCCH superframe 25 of the downlink logical control channel. In FIG. 2C, the first frame of the first half of the TDMA frame 22 is assigned to the downlink logical control channel, and the downlink LCCH superframe 25 is composed of m intermittent transmission slots for every n frames. It has become an example when it is. That is, the downlink LCCH frame 25 in FIG. 2C is configured by arranging the first time slots 23 (1) of the m TDMA frames 22 appearing every n pieces in time series. Since the time width of the TDMA frame 22 is 5 milliseconds, the period of the downlink LCCH frame is 5 × n × m milliseconds.
[0032]
Of all time slots 23 in all TDMA frames 22 in the baseband signal 21, the remaining time slots 23 that are not allocated to the uplink and downlink logical control channels are called communication physical slots. Communication physical slots in all TDMA frames 22 in the baseband signal 21 are assigned to communication channels.
[0033]
A plurality of time slots 23 in the LCCH superframe 25 of a single downlink logical control channel are further assigned to various control channels. FIG. 3A is a diagram showing the configuration of the downlink logical control channel. Specifically, time slots 23 constituting the downlink logical control channel are arranged in the order of transmission. In the example of FIG. 3A, a single LCCH frame 25 includes 12 time slots, the first time slot BC is assigned to the broadcast channel, and the third, seventh, and tenth time time slots. The SC is fixedly assigned to the dedicated cell channel, and the remaining eight time slots P1 to P8 are assigned to the first to eighth simultaneous call channels. As a result, the time slot Pi assigned to a single general paging channel appears in the baseband signal 21 in the same cycle as the downlink LCCH superframe. In this specification, i is an arbitrary integer that is equal to or greater than 1 and equal to or less than the total number of paging channels.
[0034]
The terminal 16 under the relay 17 is in a standby time when no outgoing or incoming call is made, and the time of the simultaneous call channel that is most recently designated as the standby position among all the simultaneous call channels that can be used by the relay 17. Only slot Pi is received. FIG. 3B is a diagram showing the standby timing of an incoming call signal in each terminal 16 of the first incoming call group in which the first simultaneous call channel is designated as the standby position. FIG. 3C is a diagram showing the reception timing of the incoming call signal in each terminal 16 of the second incoming call group in which the third simultaneous call channel is designated as the standby position. 3B and 3C, the terminal 16 receives a signal superimposed on the electromagnetic wave arriving at the terminal 16 only during a period in which the waveform diagram is at a high level. As described above, in the PHS 11, the signals are configured as shown in FIGS. 2 (A) to 2 (C) and FIG. 3 (A), so that the single terminal 16 at the time of standby is designated as a standby position. The time slot Pi assigned to the general call channel is repeatedly transmitted in the same cycle as the downlink LCCH superframe 25.
[0035]
FIG. 4 is a block diagram showing a schematic configuration of the repeater 17. In the present invention, the relay 17 relays signal transmission / reception between the terminal 16 and the public base station 13 under the relay 17. The present invention is characterized in controlling incoming signal transmission at the time of simultaneous incoming calls to the terminals 16 under the relay 17. For this purpose, the repeater 17 includes a communication device 31 and a control device 32, and the control device 32 includes an incoming call group designation unit 33, an incoming call group determination unit 34, and an incoming call control unit 35. Preferably, the relay device 17 further includes an input device 36 and a storage device 37. The control device 32 is a device for integrally controlling the communication device 31, the storage device 37, and the input device 36, and is realized by, for example, a microcomputer. In this case, each processing unit 33 to 35 in the control device 32 is realized by a program operation of a microcomputer, for example.
[0036]
The communication device 31 can individually connect a call to two or more terminals 16 under the relay 17. A terminal under the relay 17 is a terminal in a service area that can receive an electromagnetic wave from the communication device 31 in the relay 17. Furthermore, the communication device 31 can use a plurality of simultaneous call channels. The plurality of simultaneous call channels are individually assigned in advance to two or more predetermined incoming groups. That is, the correspondence between the paging channel and the incoming call group is defined in advance. For example, it is defined that the incoming call group 1 = the general call channel 1.
[0037]
At least two of the terminals 16 registered in the PHS 11 are also registered in the relay unit 17. Each terminal 16 registered in the relay device 17 selectively belongs to one of the groups individually corresponding to the two or more incoming groups. The group to which the terminal 16 belongs is determined by the information processing capability of the terminal 16, for example. The information processing capabilities of all terminals 16 belonging to a single group are equal. For example, when the terminal 16 is registered in the relay machine 17, the information processing capability of the terminal 16 is input from the input device 36, and a group to which the terminal 16 belongs is selected and specified according to the input information processing capability. Data indicating the belonging status of the terminal 16 to the group is stored in the storage device 37, for example.
[0038]
The incoming call group designation unit 33 notifies each terminal 16 of the simultaneous call channel assigned to the incoming call group corresponding to the group to which each terminal 16 under the relay 17 belongs by using the communication device 31. Yes. Each terminal 16 under the relay 17 receives only a signal transmitted using the general call channel notified from the relay 17 at the latest while waiting for an incoming call signal.
[0039]
The incoming call group discriminating unit 34 selects an incoming call group corresponding to the group based on the simultaneous incoming instruction to all the terminals belonging to any group given from the base station. The simultaneous incoming instruction is, for example, an incoming call to the repeater 17. The incoming call control unit 35 controls the execution state of incoming calls in the communication device 31. Specifically, the incoming call control unit 35 causes the communication device 31 to perform simultaneous incoming calls to the incoming call group selected by the incoming call group determination unit 34 (hereinafter simply referred to as “selected incoming call group”), After a predetermined reference time has elapsed from the start of simultaneous incoming calls, individual incoming calls are executed for all the terminals 16 belonging to the group corresponding to the selected incoming call group.
[0040]
Thus, the incoming call control unit 35 causes the communication device 31 to use simultaneous incoming calls for all terminals belonging to any group and individual incoming calls for each terminal belonging to the group. As a result, when there is a terminal that cannot respond to a simultaneous incoming call to the incoming call group corresponding to the group among all terminals belonging to a group, an individual incoming call is made to the terminal that cannot respond, It is possible to reliably receive incoming calls to all the terminals to which it belongs.
[0041]
In the communication system including the repeater 17 described above, it is preferable that the communication device 31 can use a plurality of simultaneous call channels, and the general call channel for waiting for an incoming call signal is designated from the repeater 17 to the terminal 16. The terminal 16 receives only the signal of the latest general paging channel specified. In this case, preferably, the simultaneous call channel assigned to the selected incoming call group is used to execute the simultaneous incoming call to all terminals 16 belonging to the group corresponding to the incoming call group, and the assigned incoming call group is assigned to the incoming call group. Using the remaining general paging channels other than the paging channel, an individual incoming call is executed for each terminal 16 belonging to the group corresponding to the selected incoming call group. Accordingly, when there is a terminal 16 that belongs to a certain group but can respond only to an incoming call that is performed using a remaining channel other than the paging channel assigned to the incoming call group corresponding to the group, the terminal 16 Therefore, the call connection success rate at the time of simultaneous incoming calls is improved.
[0042]
As described above, the terminal 16 waits only for an incoming call signal transmitted using the latest general paging channel assigned to itself. A general paging channel for waiting for an incoming call signal is assigned when the location of the terminal 16 is registered. FIG. 5 is a diagram for explaining the location registration sequence.
[0043]
The public base station 13 always transmits location information of a predetermined location registration area including the cell to which the public base station belongs to the cell using the common control channel. The terminal 16 periodically received the position information transmitted using the dedicated cell channel, and the position information was changed by comparing the position information received in the past with the latest position information. Then, it is recognized that the boundary of the location registration area has been exceeded.
[0044]
If the boundary is exceeded, a link channel establishment request signal is transmitted from the terminal 16 to the repeater 17 using the dedicated cell channel. A communication channel is allocated in response to the link channel establishment request signal, and a link channel allocation signal indicating the allocated communication channel is transmitted from the mobile communication switching center 18 to the terminal 16 via the public base station 13 and the relay 17. It is transmitted using a channel for dedicated cells. After the communication channel is assigned, the terminal 16 is authenticated between the terminal 16 and the mobile switching center 18 via the relay 17 and the public base station 13 using the assigned communication channel or dedicated cell channel. Signals for are sent and received. If it is determined that the terminal 16 is valid as a result of the transmission / reception of the authentication request signal and the authentication response signal, the location registration is continued.
[0045]
If the terminal 16 that is performing location registration via the repeater 17 is a terminal that is registered in advance in the repeater 17, the incoming call group designation unit is provided in parallel with signal transmission / reception between the mobile communication switching center 18 and the terminal 16. 33 determines what is the incoming call group to which the terminal 16 belongs based on the stored contents of the storage device 37, and selects the general call channel assigned to the incoming call group to which the terminal 16 belongs. As shown in FIG. 6 (A), the incoming call group designation unit 33 adds the independent standard incoming group designation information to the location registration acceptance signal from the mobile communication switching center 18 to the repeater 17 via the public base station 13. Append. As shown in FIG. 6 (B), the private standard incoming group designation information is assigned to the terminal 16, an information identifier indicating that the information is private standard incoming group designation information, a flag indicating a designation method, and the like. And an incoming call group number for designating a general paging channel. A location registration acceptance signal after the incoming group designation information is added is transmitted from the repeater 17 to the terminal 16.
[0046]
After receiving the location registration acceptance information, the terminal 16 in the standby state is added to the location registration acceptance signal among the time slots P1 to P8 of all simultaneous call channels in the LCCH superframe of the downlink logical control channel. Only the incoming call signal transmitted using the time slot Pi of the general call channel designated by the incoming call group number of the self-supporting incoming call group designation information is awaited.
[0047]
Similar to the terminal 16, a telephone number is assigned to the repeater 17 in FIG. 1. A number obtained by combining the telephone number of the relay machine 17 and the subaddress is assigned to the terminal 16 under the relay machine 17 as a telephone number.
[0048]
If incoming information addressed to a telephone number specifying the terminal 16 under the relay is given from the mobile communication switching center to the relay 17 via the public base station 13, in response to the incoming information, the relay 17 Executes an individual incoming call to the designated terminal 16 under the relay. In this case, the repeater 17 is first designated as the destination of all the terminals 16 under the repeater while executing the same incoming sequence as in FIG. 9 between the repeater 17 and the public base station 13. Execute an individual incoming call to the terminal that is on. The incoming call signal transmitted using the simultaneous call channel at the time of individual incoming call includes identification information such as the number of the destination terminal, and when receiving the incoming call information, each terminal 16 confirms the identification information, If it is identified as an individual incoming call to itself, it advances the incoming call sequence to the call and rings the ringer. In a terminal that is ringing, a response to an incoming call is returned after a response operation such as pressing a call key. If a response is returned, the stopped incoming call sequence is resumed between any one of the terminals 16 and the public base station 13 via the repeater 17, and a call is started.
[0049]
If incoming information addressed to the telephone number assigned to the repeater 17 is given from the mobile communication switching center to the repeater 17 via the public base station 13, first, between the repeater 17 and the public base station 13. Incoming call sequence is executed. As a result, if the repeater 17 receives the call setting signal including the information transfer capability flag, the simultaneous call reception to all the terminals belonging to the group corresponding to the information transfer capability among all the terminals 16 under the repeater is performed. The relay machine 17 executes. The incoming call signal transmitted using the general call channel at the time of the general incoming call includes the extended call service type information, and the extended call service type information indicates whether or not the incoming call signal is for the general incoming call. A flag is included. When the terminal 16 receives the incoming call information, it checks the flag in the extended call service type information, and if it is a simultaneous incoming call, it rings the ringer. While the ringer is ringing, the currently executing sequence is paused. If a response to the incoming call is made, such as pressing a call key, at any of all the terminals 16 that have received a simultaneous incoming call, the stopped incoming call sequence is changed to the one of the terminals 16 and the public base station 13. And resumed via the relay 17. The sequence after resumption is almost the same as the sequence at the time of individual incoming call to any one of the terminals 16.
[0050]
As shown in FIG. 11, the first simultaneous channel is assigned to the incoming call group to which the voice terminal 6V, which is a voice call terminal, belongs, and the fifth simultaneous use is assigned to the incoming call group, to which the data terminal 6D, which is a data communication terminal, belongs. Taking a case where a channel is assigned as an example, the behavior of the repeater 17 at the time of simultaneous incoming will be schematically described.
[0051]
When incoming information for a simultaneous voice incoming call arrives at the repeater 17 from the mobile communication switching center 18, the incoming call group discriminating unit 34 in the control device 32 determines whether the information transfer capability in the incoming information is a voice call or a data communication. It is determined whether it is a voice incoming call or a data incoming call depending on whether the incoming call is a voice incoming call or a data incoming call. For example, if the information transfer capability flag indicates a voice call, it is determined that a voice simultaneous call is instructed. In this case, the communication device 31 of the repeater 17 can respond to all the voice terminals 6V belonging to the group using only the first simultaneous call channel assigned to the incoming call group corresponding to the group to which the voice terminal 6V belongs. An incoming call signal for simultaneous calling is transmitted. As a result, only the voice terminal 6V waiting for the incoming call signal transmitted using the first simultaneous call channel is notified of the incoming call.
[0052]
As described above, the paging channel that the terminal 16 under the relay 17 should wait for an incoming call signal is designated when the terminal 16 registers the location with the mobile switching center 18 via the relay 17. The A PHS terminal under the control of the relay device operates as a slave device of the relay device with respect to the relay device functioning as a parent device. The location registration of the slave units under the repeater is terminated at the repeater and is not routed to the public network. Location registration to the public is performed only when the repeater itself performs. The case where the position registration has not been completed is, for example, a case where the position registration has failed due to a reason such as radio quality degradation immediately after SO registration (slave device registration). Since the stand-by position when position registration has not been completed is not particularly defined, it is uncertain whether to wait for the incoming call group. In this way, it is unclear on which general calling channel the terminal 16 that has not been registered for location via the repeater 17 for some reason is waiting for an incoming call signal.
[0053]
As shown in FIG. 12, when one voice terminal 6V has not yet performed location registration via the repeater 17, the first simultaneous call channel for the incoming call group corresponding to the group to which the voice terminal 6V belongs and Is waiting for an incoming call signal on another third general call channel. Since the incoming call signal for simultaneous incoming calls addressed to the voice terminal 6V is transmitted using the first simultaneous call channel, the voice terminal 6V that has not yet been registered for location is the voice terminal 6V but is addressed to the voice terminal 6V. Cannot receive incoming call signal for simultaneous incoming calls.
[0054]
For this reason, after a predetermined reference time has elapsed since the start of transmission of the incoming call signal for simultaneous incoming calls, the incoming call control unit 35 sets the incoming call group assigned to the first simultaneous call channel that has transmitted the incoming call signal for simultaneous incoming calls. All the terminals 16 of the corresponding group are determined as non-responding terminals. Next, the unanswered terminal 16 determined using the remaining simultaneous call channels other than the first simultaneous call channel that transmitted the incoming call signal for simultaneous reception, that is, the second to eighth simultaneous call channels in FIGS. 11 and 12. An individual incoming call is executed for any one of the devices. If there are two or more unanswered terminals 16, an individual incoming call for each unanswered terminal 16 is executed every predetermined time. If there is no response to the individual incoming call to each unanswered terminal 16 within a predetermined time, the incoming sequence to the unanswered terminal 16 is terminated halfway.
[0055]
In the example of FIG. 12, the individual incoming call is executed for the voice terminal 6V that is waiting for the signal of the third simultaneous call channel. However, for the two data terminals 6D that are waiting for the signal of the fifth simultaneous call channel, the individual call is not executed because the group to which the data terminal 6D belongs is different from the group corresponding to the call reception group of the simultaneous call destination. As described above, after a predetermined reference time has elapsed since the start of the simultaneous reception in units of the incoming call group, the individual incoming calls to the terminals 16 belonging to the group corresponding to the incoming call group are used together, so that the terminals 16 belonging to the simultaneous incoming call destination group can be notified. On the other hand, it is always possible to make incoming calls.
[0056]
FIG. 7 is a flowchart for explaining a control process at the time of simultaneous incoming calls in the control device 32 in the repeater 17. If incoming information addressed to the repeater 17 is given from the mobile communication switching center 18 in the fixed communication network 15 to the repeater 17 via the public base station 13, the process proceeds from step A0 to step A1.
[0057]
In step A1, the incoming call group discriminating unit 34 first selects an incoming call group that should be simultaneously received based on the incoming call information from the mobile communication switching center 18. For example, if the flag indicating the information transfer capability included in the incoming information addressed to the repeater 17 from the mobile communication switching center 18 indicates a voice call, relaying as a voice call among all the terminals 16 under the repeater 17 The incoming call group corresponding to the group of voice terminals 6V already registered in the machine 17 is selected. Also, for example, if the information transfer capability included in the incoming information from the mobile switching center 18 indicates data communication, among all the terminals 16 under the relay 17, it has already been registered in the relay 17 for data communication. The incoming call group corresponding to the group of data terminals 6D that are present is selected. Subsequently, the incoming call control unit 35 causes the communication device 31 to execute simultaneous incoming calls to the incoming call group selected by the incoming call group discriminating unit 34 using only the simultaneous call channel assigned to the incoming call group. In addition, when the incoming call signal for simultaneous incoming calls starts to be transmitted, the incoming call control unit 35 starts counting the first elapsed time from the start of the transmission.
[0058]
If the response to the incoming call signal for simultaneous incoming calls is returned from any one terminal 16 belonging to the selected incoming call group, the communication device 31 stops the simultaneous incoming call and The execution of the sequence relating to the call connection with the server is started. As a result, ringer ringing in the remaining terminals other than the one terminal is stopped, and communication using the one terminal becomes possible.
[0059]
In step A2, the incoming call control unit 35 determines a response state to the incoming call signal for simultaneous incoming calls from each terminal 16 belonging to the group corresponding to the selected incoming call group. If a response to the incoming call signal is returned from any one of the terminals 16 belonging to the group corresponding to the selected incoming call group, the process of the flowchart ends in step A8. If the responses to the incoming call signals from all the terminals 16 belonging to the group corresponding to the selected incoming call group have not yet been returned, in step A3, the first elapsed time being measured is compared with the predetermined first reference time. Is done. If the first elapsed time is less than the first reference time, the process returns from step A3 to step A2. The processes in steps A2 and A3 are repeated as time elapses until either one of the terminals 16 belonging to the selected incoming call group returns a response to the incoming call signal or the first elapsed time is equal to or greater than the first reference time. .
[0060]
If the responses to the incoming call signals from all the terminals 16 belonging to the selected incoming call group have not yet returned until the first elapsed time becomes equal to or greater than the first reference reception, the incoming call control unit 35 in step A4 The communication apparatus 31 is caused to execute an individual incoming call to any one of the unanswered terminals 16 belonging to the group corresponding to the incoming call group using the remaining all simultaneous call channels other than the general call channel assigned to the incoming call group. . In addition, along with the start of the individual incoming call, the incoming call control unit 35 starts measuring the second elapsed time from the start of the transmission.
[0061]
In step A5, the incoming call control unit 35 determines the response state to the incoming call signal for individual incoming calls from any one of the unanswered terminals 16 belonging to the group corresponding to the selected incoming call group. If the response to the incoming call signal from any one of the unanswered terminals 16 belonging to the group corresponding to the selected incoming call group has not yet returned, in step A6, the second elapsed time being measured and the predetermined second time Compare with the reference time. If the second elapsed time is less than the second reference time, the process returns from step A6 to step A5. In the processing of steps A5 and A6, the response to the incoming call signal is returned from any one of the unanswered terminals 16 belonging to the group corresponding to the selected incoming call group, or the second elapsed time is equal to or longer than the second reference time. Until time is repeated. Also, if any one of the terminals 16 returns a response to the incoming call signal or no response to the incoming call signal is returned from any one of the terminals 16 by the time when the second elapsed time is equal to or greater than the second reference time. If any one of the terminals 16 is deemed unresponsive, the process proceeds to step A7.
[0062]
In step A7, the incoming call control unit 35 selects the terminal 16 that is not yet the target of individual incoming calls from the unanswered terminals 16 belonging to the group corresponding to the selected incoming call group, and performs the same procedure as in step A4. The execution of the individual incoming call for the selected terminal 16 is started. The processing of steps A5 to A7 is repeated until any unanswered terminal 16 belonging to the group corresponding to the selected incoming call group responds to the individual incoming call. If any unanswered terminal 16 responds to the individual incoming call, the call is started. When all the unanswered terminals 16 belonging to the group corresponding to the selected incoming call group do not respond to the individual incoming call, the individual incoming calls are respectively applied to all the unanswered terminals 16 for the second reference time, and then the flowchart of FIG. Can be completed.
[0063]
In this way, the incoming call control unit 35 individually receives the individual terminals 16 belonging to the group corresponding to the incoming call group after a predetermined reference time has elapsed since the start of the simultaneous incoming call to all the terminals 16 belonging to the group corresponding to the selected incoming call group. The communication device 31 starts executing the incoming call. As a result, simultaneous incoming calls and individual incoming calls can be used together.
[0064]
Preferably, the first reference time, which is a time difference from the start of simultaneous transmission of incoming call signals to the start of individual transmission of incoming call signals, can be changed. For this purpose, the incoming call control device 32 further includes a first reference time setting unit for setting the first reference time, and the first reference time set in the first reference time setting unit at the time of simultaneous incoming instruction is used. Then, the incoming call control unit 35 controls the communication device 31. This improves the usability of the repeater. Further, the first reference time and the second reference time are equal, and the first reference time set in the first reference time setting unit may be used as the second reference time.
[0065]
More preferably, the incoming call control unit 35 transmits the incoming call signals to all the terminals 16 belonging to the group all at once even during the individual transmission of the incoming call signals to the terminals 16 belonging to the group corresponding to the selected incoming call group. To continue. As a result, a terminal waiting for an incoming call using the general call channel assigned to the selected incoming call group and an incoming call using a general call channel other than the general call channel assigned to the selected incoming call group are received. You can make incoming calls at the same time to both the terminal you are waiting for. Therefore, it is possible to further reduce the time required for incoming calls to all terminals 16 belonging to the group corresponding to the selected incoming call group.
[0066]
The repeater 17 of the present embodiment is an example of the repeater of the present invention, and can be realized in various other forms as long as the main configuration and operation are the same. In particular, the detailed configuration and operation of each component of the repeater 17 are not limited to the above-described configuration and operation, and may be realized by other configurations and operations as long as the same effects can be obtained. That is, the relay device 17 has at least a communication device 31 capable of parallel connection of calls between two or more terminals 16 and an incoming call control unit 35 that controls incoming calls at the communication device 31 as described above. Any device that relays communication between a station and a terminal may be used, and other components may be appropriately increased or decreased. Further, for example, a communication system including a repeater, an exchange, and a terminal is not limited to PHS, but is a general mobile communication system including other communication systems such as a mobile phone system and a car phone system that employ a PDC (Personal Digital Cellular). It may be realized by a fixed communication system other than the mobile communication system.
[0067]
【The invention's effect】
As described above, according to the present invention, when an incoming call from a base station to a repeater is received at the same time for all terminals belonging to any of the groups under the relay, If there is no terminal that responds, an individual incoming call to each terminal belonging to each group is executed. This makes it possible to reliably receive an incoming call to any terminal belonging to the repeater.
In addition, according to the present invention, since the reference time, which is the time difference from the start of simultaneous incoming calls to the start of individual incoming calls, can be changed, the usability of the repeater is improved.
[0068]
Furthermore, according to the present invention, the simultaneous incoming call is continued even while the individual incoming call is being executed for each terminal belonging to the group. As a result, the repeater can reduce the time required for an incoming call to each terminal belonging to the group.
Further, according to the present invention, when the communication means can use a plurality of simultaneous call channels, not only the simultaneous call channels assigned to any group are used, but also the remaining simultaneous calls are performed. Individual incoming calls are performed using the paging channel. This improves the success rate of call connection at the time of simultaneous incoming calls.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a PHS 11 that is a communication system including a repeater 17 according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a signal configuration of wireless communication in the PHS 11 of FIG.
FIG. 3 is a diagram showing a configuration of a downlink logical control channel in the PHS 11 of FIG. 1 and a standby timing of an incoming call signal of a terminal 16 during standby.
4 is a block diagram showing a configuration of a repeater 17 in the PHS 11 of FIG.
5 is a diagram for explaining a location registration sequence including simultaneous call channel designation in the PHS 11 of FIG. 1. FIG.
6 is a diagram showing a configuration of a location registration acceptance signal transmitted and received in the location registration sequence of FIG. 5 and a configuration of incoming group designation information added to the location registration acceptance signal.
7 is a flowchart for explaining control processing at the time of simultaneous incoming calls in units of incoming calls in the control device 32 in the repeater 17 of FIG. 4;
FIG. 8 is a diagram showing a configuration of a conventional PHS1.
FIG. 9 is a diagram for explaining an incoming call sequence for a terminal in PHS1 of the prior art.
FIG. 10 is a diagram showing an assignment state of a general paging channel to a terminal 6 in the conventional PHS1.
FIG. 11 is a diagram showing an allocation state of simultaneous call channels to terminals 6 selectively belonging to two or more incoming groups in the conventional PHS 1;
FIG. 12 is a diagram showing an allocation state of a paging channel to a terminal 6 before completion of location registration via a repeater in the conventional PHS1.
[Explanation of symbols]
11 PHS
13 Public Base Station (CS)
16 terminals (PS)
17 Repeater
18 Mobile Switching Center (MSC)
31 Communication device
33 Incoming call group designation section
34 Incoming call group discriminator
35 Incoming control unit

Claims (4)

In a relay device that relays communication between a plurality of terminals and base stations that selectively belong to two or more groups,
A communication means capable of individually connecting calls to two or more terminals;
Storage means for storing data indicating the belonging status to the incoming call group corresponding to the group to which each terminal belongs together with the identification information of the terminal when accepting the location registration from the terminal;
An incoming call group designating means for notifying each terminal of the incoming call group corresponding to the group to which the terminal belongs and notifying a general call channel on which the terminal should wait for an incoming call;
Based on the incoming call instruction from the base station to the repeater, the communication means belongs to each group by using the paging channel assigned to the incoming call group corresponding to each group stored in the storage means. If there is no terminal that responds after a predetermined reference time has elapsed since the start of the simultaneous incoming call and the simultaneous incoming call for all terminals is performed, the storage means is referred to and the identification information of each terminal belonging to each group is obtained. And an incoming call control means for executing the individual incoming call specified by the identification information by using the remaining simultaneous call channel of the simultaneous call channel assigned to the corresponding incoming call group for each group. Relay machine. A reference time setting means for setting a reference time;
The incoming call control means performs control using the reference time set in the reference time setting means at the time of simultaneous incoming instruction,
The repeater according to claim 1, wherein the reference time set in the reference time setting means is variable. The repeater according to claim 1 or 2, wherein the incoming call control means continues the simultaneous incoming call to all the terminals belonging to the group even while the individual incoming call is being executed for each terminal belonging to the group. Each terminal responds only to an incoming call that is executed using the general call channel notified by the incoming call group designation means when waiting for an incoming call,
The incoming call control means refers to the storage means in response to a simultaneous incoming instruction from the base station to all terminals belonging to any group, and is assigned to the incoming call group corresponding to the group by the communication means. The terminal is identified if there is no terminal that responds after the predetermined reference time has elapsed since the start of the general incoming call by executing the simultaneous incoming call to all terminals belonging to the group using the existing general paging channel. 3. The relay according to claim 1, wherein the individual incoming call designated by the information is executed using a remaining general call channel other than the general call channel assigned to the incoming call group corresponding to the group. Machine.

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