JP6605440B2 - Headquarter apparatus, base station apparatus, terminal radio apparatus, and radio communication system - Google Patents

Description

  The technology disclosed in this specification relates to a technology in a wireless communication system that performs wireless communication.

  A time division multiple access (TDMA) digital wireless communication system includes a head office device, a base station device, a terminal wireless device, and the like. The TDMA type digital wireless communication system is mainly configured such that a moving individual has a terminal wireless device, or a terminal wireless device is mounted on a moving vehicle or the like, so that it is mainly between an existing communication network or between terminal wireless devices. This is a wireless communication system for performing voice communication.

  In the TDMA system employed in the digital radio communication system, broadcast information, which is information necessary for system operation, is generally transmitted using a control channel (hereinafter also referred to as control CH). A technique for informing the user is known.

  The broadcast information is a signal transmitted cyclically, that is, periodically using a plurality of radio frames from the head office device. The terminal radio apparatus captures the above notification information into its own station via a radio line. Then, the terminal radio apparatus operates after the taken notification information reaches one cycle.

  In order to receive the broadcast information, the terminal radio device needs to always receive the control channel other than the call channel (hereinafter sometimes referred to as call CH) as exemplified in Patent Document 1, for example. .

  Further, in order to avoid the terminal radio device from continuously receiving the notification information, for example, as illustrated in Patent Document 2, the warning channel (hereinafter, In some cases, a method of transmitting a warning CH) may be employed.

JP 2000-11068 A Japanese Patent Laid-Open No. 11-317978

  Since the conventional TDMA digital radio communication system is configured as described above, for example, in the case illustrated in Patent Document 1, the terminal radio apparatus needs to continuously receive control channels other than the speech channel. There is. Therefore, there is a problem that the power consumption of the terminal wireless device is increased and the battery life is shortened.

  Further, for example, in the case exemplified in Patent Document 2, since one slot in the radio frame is occupied by the warning channel, there is a problem that the use efficiency of the communication channel is deteriorated. Further, for example, in the case exemplified in Patent Document 2, since the terminal radio apparatus needs to receive a separate warning channel, the control operation in the terminal radio apparatus becomes complicated. Therefore, there is a problem that the power consumption of the terminal wireless device is increased and the battery life is shortened.

  The technology disclosed in the specification of the present application has been made in order to solve the problems described above, and is a wireless communication technology capable of receiving broadcast information while suppressing power consumption in a terminal wireless device. It is about.

A first aspect of the technology disclosed in the present specification is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a communication channel to which voice information is allocated and a control channel to which broadcast information is allocated. A headquarter device that allocates the call channel and the control channel, manages a generation number that is a number that is changed as the broadcast information is updated, assigns the broadcast information to the control channel, and the broadcast information is When the generation number corresponding to each type of the broadcast information that has been classified and updated is changed, and the voice information is included in the radio communication frame to be transmitted, the call channel in the radio communication frame When the voice information is not included in the wireless communication frame to which the voice information is allocated and transmitted Assigning at least one of the generation number corresponding to each type of the broadcast information to the call channel of said voice channel in the wireless communication frame.
A second aspect of the technology disclosed in the present specification is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a communication channel to which voice information is allocated and a control channel to which broadcast information is allocated. A base station device that transmits the call channel from a headquarter device to a terminal radio device, and when the voice information is included in the radio communication frame, the call channel to which the voice information is assigned is transmitted, and the radio communication When the voice information is not included in the frame, at least one call channel assigned with a generation number that is a number that is changed as the broadcast information is updated is transmitted, and the broadcast information is classified into a plurality of types. Then, the generation number corresponding to each type of the updated notification information is changed .

A third aspect of the technology disclosed in the specification of the present application is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a communication channel to which voice information is allocated and a control channel to which broadcast information is allocated. A terminal radio apparatus connected to a base station apparatus via the radio communication frame, holding a generation number that is a number that is changed as the broadcast information is updated, and the broadcast information is classified into a plurality of types. The generation number corresponding to each type of the broadcast information updated is changed, at least the call channel is received, and the generation number corresponding to the type of the broadcast information is assigned to the received call channel. If it has, for each type of the broadcast information, and the generation number of the terminal wireless device is held, assigned to the traffic channel If the generation number held by the terminal radio apparatus is different from the generation number assigned to the call channel, the broadcast information assigned to the control channel is received. .

A fourth aspect of the technology disclosed in the present specification is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a call channel to which voice information is allocated and a control channel to which broadcast information is allocated. A headquarter device that allocates the call channel and the control channel, a base station device that relays the call channel from the headquarter device, and a terminal radio device that is connected to the base station device via the radio communication frame The terminal radio apparatus holds a generation number that is a number that is changed with the update of the broadcast information , the broadcast information is classified into a plurality of types, and each type of the broadcast information updated the generation number that corresponds is changed to, the headquarters device manages the generation number of the broadcast information, the broadcast information on the control channel If the voice information is included in the wireless communication frame to be allocated and transmitted, the voice information is allocated to the call channel in the wireless communication frame and the voice information is not included in the wireless communication frame to be transmitted. When the generation number corresponding to each type of the broadcast information is allocated to at least one of the call channels in the call channel in a radio communication frame, and the base station device includes the voice information in the radio communication frame And transmitting the call channel to which the voice information is assigned, and when the voice information is not included in the wireless communication frame, at least one call to which the generation number corresponding to each type of the broadcast information is assigned The terminal radio apparatus transmits at least the call channel. Receive, if the generation number that corresponds to each type of the broadcast information to the call channel received is assigned for each type of the broadcast information, and the generation number of the terminal wireless device held, the The generation number assigned to the call channel is compared, and if the generation number held by the terminal radio device is different from the generation number assigned to the call channel, the notification assigned to the control channel Receive information.

A first aspect of the technology disclosed in the present specification is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a communication channel to which voice information is allocated and a control channel to which broadcast information is allocated. A headquarter device that allocates the call channel and the control channel, manages a generation number that is a number that is changed as the broadcast information is updated, assigns the broadcast information to the control channel, and the broadcast information is When the generation number corresponding to each type of the broadcast information that has been classified and updated is changed, and the voice information is included in the radio communication frame to be transmitted, the call channel in the radio communication frame When the voice information is not included in the wireless communication frame to which the voice information is allocated and transmitted Assigning at least one of the generation number corresponding to each type of the broadcast information to the call channel of said voice channel in the wireless communication frame. According to such a configuration, the terminal radio apparatus identifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and the radio frame timing that includes the type of broadcast information. The receiving operation can be performed according to the above.
A second aspect of the technology disclosed in the present specification is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a communication channel to which voice information is allocated and a control channel to which broadcast information is allocated. A base station device that transmits the call channel from a headquarter device to a terminal radio device, and when the voice information is included in the radio communication frame, the call channel to which the voice information is assigned is transmitted, and the radio communication When the voice information is not included in the frame, at least one call channel assigned with a generation number that is a number that is changed as the broadcast information is updated is transmitted, and the broadcast information is classified into a plurality of types. Then, the generation number corresponding to each type of the updated notification information is changed . According to such a configuration, the terminal radio apparatus identifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and the radio frame timing that includes the type of broadcast information. The receiving operation can be performed according to the above.

A third aspect of the technology disclosed in the specification of the present application is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a communication channel to which voice information is allocated and a control channel to which broadcast information is allocated. A terminal radio apparatus connected to a base station apparatus via the radio communication frame, holding a generation number that is a number that is changed as the broadcast information is updated, and the broadcast information is classified into a plurality of types. The generation number corresponding to each type of the broadcast information updated is changed, at least the call channel is received, and the generation number corresponding to the type of the broadcast information is assigned to the received call channel. If it has, for each type of the broadcast information, and the generation number of the terminal wireless device is held, assigned to the traffic channel If the generation number held by the terminal radio apparatus is different from the generation number assigned to the call channel, the broadcast information assigned to the control channel is received. . According to such a configuration, the terminal radio apparatus identifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and the radio frame timing that includes the type of broadcast information. The receiving operation can be performed according to the above.

A fourth aspect of the technology disclosed in the present specification is a wireless communication system that performs wireless communication via a wireless communication frame that includes at least a call channel to which voice information is allocated and a control channel to which broadcast information is allocated. A headquarter device that allocates the call channel and the control channel, a base station device that relays the call channel from the headquarter device, and a terminal radio device that is connected to the base station device via the radio communication frame The terminal radio apparatus holds a generation number that is a number that is changed with the update of the broadcast information , the broadcast information is classified into a plurality of types, and each type of the broadcast information updated the generation number that corresponds is changed to, the headquarters device manages the generation number of the broadcast information, the broadcast information on the control channel If the voice information is included in the wireless communication frame to be allocated and transmitted, the voice information is allocated to the call channel in the wireless communication frame and the voice information is not included in the wireless communication frame to be transmitted. When the generation number corresponding to each type of the broadcast information is allocated to at least one of the call channels in the call channel in a radio communication frame, and the base station device includes the voice information in the radio communication frame And transmitting the call channel to which the voice information is assigned, and when the voice information is not included in the wireless communication frame, at least one call to which the generation number corresponding to each type of the broadcast information is assigned The terminal radio apparatus transmits at least the call channel. Receive, if the generation number that corresponds to each type of the broadcast information to the call channel received is assigned for each type of the broadcast information, and the generation number of the terminal wireless device held, the The generation number assigned to the call channel is compared, and if the generation number held by the terminal radio device is different from the generation number assigned to the call channel, the notification assigned to the control channel Receive information. According to such a configuration, the terminal radio apparatus identifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and the radio frame timing that includes the type of broadcast information. The receiving operation can be performed according to the above.

  The objectives, features, aspects, and advantages of the technology disclosed in this specification will become more apparent from the detailed description and the accompanying drawings provided below.

It is a figure which illustrates roughly the whole structure of the radio | wireless communications system regarding embodiment. It is a figure which illustrates the structure of the TDMA frame regarding embodiment. It is a figure which illustrates the downlink transmission timing in the radio | wireless communications system regarding embodiment. It is a block diagram which illustrates notionally the structure of the headquarter apparatus and the structure of a base station apparatus regarding embodiment. It is a block diagram which illustrates notionally the structure of the terminal radio | wireless apparatus regarding embodiment. It is a figure which illustrates the relationship between the downlink transmission timing in a radio | wireless communications system, and the battery saving of a terminal radio | wireless apparatus regarding embodiment. It is a flowchart which illustrates operation | movement of the headquarters apparatus regarding embodiment. It is a flowchart which illustrates operation | movement of the terminal radio | wireless apparatus regarding embodiment. It is a figure which illustrates the relationship between the downlink transmission timing and the battery saving of a terminal radio | wireless apparatus in a radio | wireless communications system regarding embodiment. It is a figure which illustrates the structure at the time of dividing | segmenting the alerting | reporting information in a control channel regarding every embodiment for every radio | wireless frame. It is a figure which illustrates the relationship between the downlink transmission timing in a radio | wireless communications system, and the battery saving of a terminal radio | wireless apparatus regarding embodiment.

  Embodiments will be described below with reference to the accompanying drawings.

  Note that the drawings are schematically shown, and the configuration is omitted or simplified as appropriate for the convenience of explanation. In addition, the mutual relationships between the sizes and positions of the configurations and the like shown in different drawings are not necessarily accurately described and can be changed as appropriate.

  Moreover, in the description shown below, the same code | symbol is attached | subjected and shown in the same component, and it is the same also about those names and functions. Therefore, detailed descriptions thereof may be omitted to avoid duplication.

<First Embodiment>
Hereinafter, the headquarter device, the terminal radio device, and the radio communication system according to the present embodiment will be described.

<Configuration of wireless communication system>
FIG. 1 is a diagram schematically illustrating an overall configuration of a wireless communication system according to the present embodiment. As illustrated in FIG. 1, the radio communication system includes a headquarter device 10, a base station device 20, a base station device 21, and a terminal radio device 30.

  The headquarter device 10 is a device that accommodates a plurality of base station devices and controls a wireless communication system. The base station apparatus 20 and the base station apparatus 21 are connected to the terminal radio apparatus 30 via a radio line. Then, the base station device 20 and the base station device 21 relay the audio signal between the terminal radio device 30 and the headquarter device 10 and control the radio line.

  Area 200 is an area in which base station apparatus 20 can communicate. The area 200 is an area that does not receive radio wave interference from the base station device 21.

  Area 210 is an area in which base station apparatus 21 can communicate. Area 210 is an area that is not subject to radio wave interference from base station apparatus 20.

  Area 300 is an area in which communication with both base station apparatus 20 and base station apparatus 21 is possible.

  The wireless communication system is a system that mainly performs PressTalk voice communication. In the radio communication system, the uplink voice signal transmitted from the terminal radio apparatus 30 is turned back by the headquarter apparatus 10 and transmitted as a downlink voice signal to all base stations, that is, both the base station apparatus 20 and the base station apparatus 21. Is done.

  Here, the uplink signal is a signal transmitted in the order of the terminal radio device 30, the base station device 20, the base station device 21, and the headquarter device 10. The downlink signal is a signal transmitted in the order of the headquarter device 10, the base station device 20 or the base station device 21, and the terminal radio device 30.

  In the wireless communication system, the terminal wireless device 30 is an audio signal output from another terminal wireless device 30 (not shown here) and returned by the headquarter device 10, that is, from another terminal wireless device 30. In order to receive the output downlink voice signal via the head office apparatus 10, the communication channel to which the voice information is allocated is monitored. And the terminal radio | wireless apparatus 30 receives a control channel, when taking in alerting | reporting information.

  The headquarter device 10 continues to transmit the broadcast information cyclically, that is, periodically using the control channel. The terminal radio apparatus 30 collects broadcast information by receiving the control channel only when necessary.

<About communication format>
Next, a communication format in the wireless communication system according to the present embodiment will be described.

  FIG. 2 is a diagram illustrating a configuration of a TDMA frame as a wireless communication frame according to the present embodiment. It is assumed that one frame is 40 ms in the wireless line. One frame is 25 seconds long.

  Within one frame, four 10 ms slots are provided for each of the uplink and downlink. That is, one frame is composed of four slots. Note that the number of slots constituting one frame is not limited to four, and may be other numbers. In FIG. 2, Slot1, Slot2, Slot3, and Slot4 correspond to four slots.

  One set is composed of 25 frames. The number of radio frames constituting one set is not limited to 25, and may be other numbers.

  One slot is used as a control channel or a communication channel. In addition, for example, a press talk communication channel has an offset of 2 slots, that is, 20 ms for each of a transmission slot and a reception slot.

  Voice information, which is user information, is mapped, that is, allocated to the call channel. On the other hand, broadcast information, which is control information, is mapped to the control channel.

  For example, the uplink signal transmitted from the terminal radio apparatus 30 at Slot 1 is arranged in the downlink signal of Slot 1 of the next frame at the head office apparatus 10 and is returned to the terminal radio apparatus 30.

  The number of slots in one frame is set as a call channel mapping area, that is, a call channel mapping area, and the number of slots is set as a control channel mapping area, that is, a control channel mapping area. The For example, in FIG. 3, the first slot in one radio frame is the mapping area of the control channel 120, and the second slot is the mapping area of the communication channel.

  FIG. 3 is a diagram illustrating downlink transmission timing in the wireless communication system according to the present embodiment.

  In addition, it is set in advance what number of radio frame communication channel mapping area in one set is used as generation number notification information, ie, generation number notification channel mapping area. Here, the generation number is a number that is changed as the notification information is updated. The generation number is held in the terminal radio device 30 that receives the call channel. Also, the mapping area of the generation number notification information, that is, the mapping area of the generation number notification channel is also referred to as a generation number notification information mapping area. For example, in FIG. 3, in the case of a radio frame group 1000 that does not include downlink voice information, the call channel of the first radio frame and the call channel of the second radio frame in one set are assigned to the generation number notification information mapping area. And the generation number notification channel 100 is mapped respectively. Alternatively, the call channel 100 to which generation number notification information is mapped may be used. Alternatively, the generation number notification channel 100 may be mapped using two areas.

  In the case of the radio frame group 1001 including downlink voice information, the call channel is mapped to a predetermined call channel mapping area. That is, in the case of FIG. 3, the call channel 110 is mapped to each of the second slots in all radio frames. Or it is good also as the call channel 110 by which audio | voice information was mapped.

  On the other hand, in the case of the radio frame group 1000 that does not include downlink voice information, the voice information is not mapped to the call channel mapping area. However, the generation number notification information, that is, the generation number notification channel 100 is mapped to a predetermined generation number notification information mapping area.

  Also, neither the generation number notification information nor the voice information is mapped to the call channel 130. For example, a synchronization word for synchronizing the head office device and the terminal radio device may be mapped to the call channel 130.

  FIG. 4 is a block diagram conceptually illustrating the configuration of the headquarter apparatus and the configuration of the base station apparatus according to the present embodiment.

  Base station apparatus 20 is arranged at a radio relay station or the like. The base station device 20 includes a base station control unit 22 and a radio unit 24. The base station device 21 is arranged at a wireless relay station or the like. The base station device 21 includes a base station control unit 26 and a radio unit 28.

  The wireless unit 24 and the wireless unit 28 are relay wireless facilities having a transmission / reception function. The wireless unit 24 and the wireless unit 28 are installed to relay bidirectional wireless communication between the headquarter device 10 and the terminal wireless device 30 and between the terminal wireless devices 30.

  The base station control unit 22 is a facility for monitoring the radio unit 24 and controlling the radio unit 24. The base station control unit 26 is a facility for monitoring the radio unit 28 and controlling the radio unit 28.

  The base station control unit 22 and the base station control unit 26 may execute programs stored in a storage device, an external CD-ROM, an external DVD-ROM, an external flash memory, or the like. That is, for example, it may be a central processing unit (CPU), a microprocessor, a microcomputer, or a digital signal processor (DSP).

  The base station control unit 22 and the base station control unit 26 may be dedicated hardware. That is, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an integrated circuit (ASIC), a field-programmable gate array (FPGA), or a combination thereof It may be.

  The headquarter device 10 is disposed in a central facility or the like. The headquarter device 10 includes a system management unit 14 and a communication control unit 12.

  The system management unit 14 is a facility for monitoring the entire wireless communication system and controlling the operation of the wireless communication system. Specifically, the system management unit 14 performs status monitoring of each device constituting the wireless communication system or setting of various controls.

  The system management unit 14 also monitors the communication line in the wireless communication system and controls the communication line in the wireless communication system. Specifically, the system management unit 14 sets a configuration of a channel used in a wireless line or a channel allocation method.

  The communication control unit 12 assigns a channel to a slot in each radio frame according to the channel assignment method set in the system management unit 14. In addition, the communication control unit 12 generates notification information and updates and manages the generation number of the notification information under the control of the system management unit 14. Further, the communication control unit 12 wraps the uplink voice signal received from the terminal radio apparatus 30 via the base station apparatus toward the terminal radio apparatus 30.

  FIG. 5 is a block diagram conceptually illustrating the configuration of the terminal radio apparatus according to the present embodiment. As illustrated in FIG. 5, the terminal radio apparatus 30 includes a radio unit 32 and a control unit 34.

  The radio unit 32 converts the transmission data from the control unit 34 into a digital signal / analog signal, and outputs the transmission data to the antenna 32D. The signal received by the antenna 32D is converted into an analog signal / digital signal. In addition, a reception unit 32C that outputs the signal to the control unit 34, a transmission / reception switching unit 32A that relays between the antenna 32D and the transmission unit 32B, and between the antenna 32D and the reception unit 32C are provided.

  The control unit 34 includes a modulation unit 34A, a channel CODE unit 34C, a demodulation unit 34B, a channel DECODE unit 34D, a monitoring control unit 34E, an operation display unit 34F, an audio processing unit 34G, and an audio interface unit 34H. Is provided.

  The control unit 34 may execute a program stored in a storage device, an external CD-ROM, an external DVD-ROM, an external flash memory, or the like. That is, for example, a CPU, a microprocessor, a microcomputer, and a DSP may be used.

  The control unit 34 may be dedicated hardware. That is, for example, it may be a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC, an FPGA, or a combination of these.

  When the terminal radio apparatus 30 receives a downlink signal from the base station apparatus, the reception data received by the reception unit 32C is demodulated by the demodulation unit 34B. Then, the channel DECODE unit 34D extracts the mapped information from the received data, and the monitoring control unit 34E performs data confirmation and data analysis.

  The data confirmation and data analysis here means confirmation and analysis of the presence / absence of voice information, the generation number of broadcast information, or other control information. When the audio information is received, the data is processed by the audio processing unit 34G, and further output by the audio interface unit 34H, specifically, a speaker or the like.

  When an uplink audio signal is transmitted from the terminal radio apparatus 30 to the base station apparatus, an audio signal input from the audio interface unit 34H, specifically a microphone or the like, is processed in the audio processing unit 34G. Then, the audio signal is input to the monitoring control unit 34E.

  Then, after the data is confirmed and analyzed by the monitoring control unit 34E, the channel CODE unit 34C performs a mapping process on the data to a prescribed channel configuration. Thereafter, the modulation unit 34 </ b> A modulates the data and outputs a transmission signal to the radio unit 32.

  The radio communication system according to the present embodiment is a radio communication system that mainly performs PressTalk voice communication. Accordingly, the terminal radio apparatus 30 monitors the presence / absence of a downlink audio signal from another terminal radio apparatus 30.

  FIG. 6 is a diagram illustrating a relationship between downlink transmission timing and battery saving of the terminal radio apparatus in the radio communication system according to the present embodiment.

  The terminal radio device 30 receives the call channel and determines whether or not voice information is mapped to the call channel. When it is determined that the audio information is mapped, that is, in the case of the radio frame group 1001 in FIG. 6, the terminal radio apparatus 30 performs an audio signal reception process.

  On the other hand, if it is determined that the voice information is not mapped to the call channel, that is, in the case of the radio frame group 1000 in FIG. 6, the terminal radio apparatus 30 maps the generation number notification information. Judge whether or not. When the generation number notification information is mapped, the terminal wireless device 30 compares the generation number held in the terminal wireless device 30 with the received generation number notification information. If they are the same as a result of the comparison, the saving state is maintained until a preset intermittent reception timing. A radio frame group 1002 in FIG. 6 indicates the reception timing of the communication channel of the terminal radio apparatus 30. The terminal wireless device 30 that has received the generation number notification information, compares the generation number held in the terminal wireless device 30 with the received generation number notification information, and determines that they are the same. The channel 130 may not be received. Note that neither the generation number notification information nor the voice information is mapped to the call channel 130. For example, a synchronization word for synchronizing the head office device and the terminal radio device may be mapped to the call channel 130.

  However, even when the voice information is not mapped to the call channel, if it is confirmed that the generation number notification information, that is, the generation number notification channel is mapped to the call channel, the monitoring control unit 34E sets the terminal radio device 30. Compares the generation number of the broadcast information currently held with the generation number of the generation number channel mapped in the received call channel. In the radio frame group 1003 in FIG. 6, the supervisory control unit 34E of the terminal radio apparatus 30 compares the generation number of the broadcast information currently stored with the generation number of the generation number channel mapped in the received call channel. The reception timings of the call channel (generation number notification channel) and the control channel when it is determined that they are different, that is, when they are determined to be updated are shown.

  When the generation number stored in the monitoring control unit 34E is different from the generation number of the received generation number channel, the monitoring control unit 34E indicates that the notification information has been updated after the previous monitoring control unit 34E received the notification information. to decide. Thereafter, the terminal radio apparatus 30 receives the control channel and takes in the updated broadcast information. That is, the control channel in the radio frame group 1003 in FIG. 6 is received.

<Operation of wireless communication system>
Next, the operation of the wireless communication system according to this embodiment will be described.

  First, the downlink radio frame timing transmitted from the head office apparatus 10 is set to one set, that is, a fixed period in which 25 frames are 1 second, as in the case illustrated in FIG. As illustrated in FIG. 6, for example, the call channel of the first radio frame and the call channel of the second radio frame in one set are mapped as the generation number notification channel 100. However, at least one call channel mapped as the generation number notification channel 100 may be provided in one radio frame.

  When a voice signal is transmitted, the call channel is not mapped as a generation number notification channel, but is mapped as a call channel in which voice information is assigned to all 25 frames.

  Depending on the configuration of the radio frame format, control information such as generation number notification and voice information can be transmitted simultaneously. However, for convenience of explanation in the present embodiment, the generation is performed on one call channel. It is assumed that the number notification channel and the call channel to which the voice information is assigned cannot be transmitted simultaneously.

  The generation number notification channel is a channel that notifies the generation number of the broadcast information on the call channel. Based on the generation number in the generation number notification channel, the terminal radio device 30 determines whether the broadcast information held in the terminal radio device 30 is the latest. Then, the terminal radio apparatus 30 determines whether or not the notification information needs to be captured.

  Next, the battery saving operation of the terminal radio device 30 will be described with reference to FIG. In general, the terminal radio device 30 enters saving when there is no signal to be received, and maintains the saving state for a certain period of time.

  After the predetermined time has elapsed, that is, after the period of intermittent reception in FIG. 6 has elapsed, the terminal radio device 30 releases the saving state. In FIG. 6, the period of intermittent reception corresponds to two sets, that is, 50 frames of radio frames.

  Further, if there is no change in the generation number at this time, the terminal radio device 30 goes into the saving state again, thereby extending the battery life.

  The longer the time of the saving state, the higher the saving effect. However, the acquisition of the notification information is delayed.

  Next, the operation of the terminal radio device 30 when there is a change in the broadcast information will be described. The terminal wireless device 30 that periodically repeats the saving state releases the saving state in anticipation of the transmission timing of the generation number notification channel mapped to the call channel.

  Next, the terminal radio apparatus 30 acquires the generation number of the broadcast information from the generation number notification channel. Then, the terminal radio device 30 compares the generation number held in the terminal radio device 30 with the generation number of the generation number channel, so that the notification information held in the terminal radio device 30 is the latest. Is determined.

  If there is a change in the generation number acquired from the generation number notification channel, the terminal radio device 30 determines that the broadcast information held in the terminal radio device 30 is not the latest. Then, the monitoring control unit 34E of the terminal radio apparatus 30 changes the reception slot from the call channel to the control channel. That is, as illustrated in the radio frame group 1003 in FIG. 6, broadcast information of the control channel is captured from the next radio frame.

  The terminal radio device 30 takes in new notification information, specifically, one cycle of the notification information, and then enters the saving state again until the remaining intermittent reception cycle elapses. In FIG. 6, one cycle of the notification information is described as one set.

  Next, the operation of the terminal radio device 30 when there is no change in the broadcast information will be described. The terminal radio device 30 acquires the generation number of the broadcast information from the generation number notification channel mapped to the call channel.

  If there is no change in the generation number acquired from the generation number notification channel, that is, if the generation number held in the terminal wireless device 30 is the same as the generation number of the generation number channel, the terminal wireless device 30 As illustrated in the radio frame group 1002 of FIG. 6, the saving state is entered again from the next radio frame. Then, if there is no call, the terminal radio device 30 remains in the saving state until the remaining intermittent reception cycle elapses.

  Next, the operation of the headquarter device 10 will be described with reference to FIG. Here, FIG. 7 is a flowchart illustrating the operation of the head office apparatus according to the present embodiment.

  First, the headquarter device 10 determines whether or not an uplink voice signal is received from the terminal radio device 30 (see step ST01).

  When the upstream voice signal is received, the head office apparatus 10 maps the voice information in the received voice signal to the call channel. Then, the headquarter device 10 transmits the voice information mapped to the call channel back to the terminal radio device 30 (see step ST02). Then, the process ends.

  On the other hand, if no uplink audio signal is received, the headquarter device 10 determines whether there is broadcast information to be updated (see step ST03). And when there exists alerting | reporting information which should be updated, the headquarters apparatus 10 updates the generation number of alerting | reporting information (refer step ST04). On the other hand, when there is no notification information to be updated, the process proceeds to step ST05. Here, the broadcast information to be updated is, for example, carrier information, that is, carrier frequency information, transmission / reception slot information, communication system information, and the like.

  Next, headquarter device 10 maps the generation number to the call channel (see step ST05). When the generation number of the broadcast information is updated in step ST04, the updated generation number is mapped to the call channel. Then, the headquarter device 10 transmits the information to the terminal radio device 30.

  Next, the operation of the terminal radio device 30 will be described with reference to FIG. Here, FIG. 8 is a flowchart illustrating the operation of the terminal radio apparatus according to the present embodiment.

  First, terminal radio apparatus 30 receives a call channel and analyzes information included in the call channel (see step ST101). Next, terminal radio apparatus 30 determines whether or not voice information is mapped to the received call channel (see step ST102).

  If the voice information is mapped to the received call channel, the terminal radio apparatus 30 performs voice processing. And after that, the terminal radio | wireless apparatus 30 outputs an audio | voice signal via the audio | voice interface part 34H (refer step ST103).

  On the other hand, when the voice information is not mapped to the received call channel, the terminal radio apparatus 30 determines whether or not the generation number mapped to the received call channel is updated ( (See step ST104).

  When the generation number of the broadcast information is updated, the monitoring control unit 34E of the terminal radio apparatus 30 changes the reception channel in the downlink from the call channel to the control channel. And the terminal radio | wireless apparatus 30 acquires alerting | reporting information again (refer step ST106). By doing so, it is possible to cope with a system change.

  On the other hand, when there is no update of the generation number of the broadcast information, terminal radio apparatus 30 continues the operation in the saving state (see step ST105).

  For example, the following effects can be obtained by the operation in the present embodiment described above.

  The headquarter device 10 manages the update of the generation number of the notification information. And the headquarters apparatus 10 maps a generation number to a call channel, when the alerting | reporting information currently transmitted with the control channel is updated.

  The terminal radio apparatus 30 can collect broadcast information from the control channel when it detects a change in the generation number in the call channel.

  With this configuration, the load of the reception operation of the terminal radio device 30 can be reduced. In addition, optimization of notification information capture and battery saving can be realized.

  By mapping the generation number notification information, that is, the generation number notification channel, to the call channel mapping area, the terminal radio apparatus 30 receives only the call channel mapping area, so that the audio signal from the other terminal radio apparatus 30 is received. A return signal can be received. At the same time, the terminal radio device 30 can also know that the notification information has been updated.

  In addition, if the downlink voice information is included in the mapping area of the generation number notification information, that is, the mapping area of the generation number notification channel, the call channel is mapped without mapping the generation number notification information. Accordingly, the terminal radio apparatus 30 can receive the return signal of the audio signal from the other terminal radio apparatus 30 by monitoring the mapping area of the generation number notification information. At the same time, the terminal radio device 30 can also know that the notification information has been updated.

<Second Embodiment>
The headquarter apparatus, terminal radio apparatus, and radio communication system according to the present embodiment will be described. In the following description, components similar to those described in the above-described embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted as appropriate.

  In the first embodiment, the case where there is no call, that is, the case where the voice information is not included in the call channel is taken as an example, and the effect that the load of the reception operation of the terminal radio apparatus 30 can be reduced, and the notification The effects of being able to realize optimization of information capture and battery saving were shown respectively. In this embodiment, a case where there is a call, that is, a case where voice information is included in the call channel will be described as an example.

  FIG. 9 is a diagram illustrating the relationship between downlink transmission timing and battery saving of the terminal radio apparatus in the radio communication system according to the present embodiment. The downlink radio frame timing transmitted from the headquarter device 10 and the battery saving operation of the terminal radio device 30 are the same as those exemplified in the first embodiment.

  Next, the operation of the wireless communication system according to this embodiment will be described. When the communication channel on which the voice information is mapped is received on the downlink, the terminal radio device 30 cancels the saving state.

  From the headquarter device 10, the generation number notification channel is continuously transmitted after the call is ended in the downlink to be transmitted. That is, the headquarter device 10 assigns a generation number of broadcast information to at least one call channel in a wireless communication frame that is transmitted continuously after a wireless communication frame that includes voice information and that does not include voice information. The headquarter device 10 continuously assigns the generation number of the broadcast information to the call channel regardless of whether or not the intermittent reception cycle has elapsed after the call ends. Further, the terminal radio device 30 continuously receives the call channel, which is the generation number notification channel, after the call ends, regardless of whether or not the intermittent reception cycle has elapsed.

  By doing so, for example, if there is a change in the generation number in the generation number notification channel as in the radio frame group 1004 illustrated in FIG. 9, the terminal radio apparatus 30 captures the notification information continuously after the call is finished. be able to.

  For comparison of the operation, reference is made to the operation of the wireless communication system in the case where the notification channel is not transmitted after the end of the call like the wireless frame group 1005 illustrated in FIG.

  In the case of the radio frame group 1005 illustrated in FIG. 9, the terminal radio device 30 is in a saving state until the intermittent reception cycle elapses after the call ends. For this reason, the terminal wireless device 30 receives the generation number notification channel at the timing of releasing the next saving state.

  Therefore, the reception of the notification information by the terminal radio apparatus 30 is delayed by the time, that is, one period of intermittent reception.

  Next, the wireless frame group 1004 in FIG. 9 and the wireless frame group 1005 in FIG. 9 are compared from the viewpoint of the effect of battery saving.

  The number of radio frames received by the terminal radio apparatus 30 is the same for the radio frame group 1004 in FIG. 9 and the radio frame group 1005 in FIG. 9. However, in the radio frame group 1004 in FIG. 9, the generation number notification channel can be taken in continuously during the cancellation of one saving operation. Therefore, the number of times of the saving operation, that is, the number of times of saving ON / OFF switching is smaller in the radio frame group 1004 in FIG. 9 than in the radio frame group 1005 in FIG. Therefore, the radio frame group 1004 in FIG. 9 has a higher saving effect.

  As described above, the headquarter device 10 notifies the generation number continuously after the call ends, so that the terminal radio device 30 can receive the generation notification number continuously from the start of the call. Further, if there is a change in the generation number in the generation number notification channel, the terminal radio apparatus 30 can take in broadcast information following the generation notification number.

  Therefore, the number of times of saving switching can be reduced. In addition, optimization of notification information capture and battery saving can be realized.

<Third Embodiment>
The headquarter apparatus, terminal radio apparatus, and radio communication system according to the present embodiment will be described. In the following description, components similar to those described in the above-described embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted as appropriate.

  In this embodiment, a case where the battery life is improved will be described as an example.

  FIG. 10 is a diagram illustrating a configuration when broadcast information in the control channel is divided into categories. The headquarter device 10 maps the broadcast information of each category to the control channel of the radio frame number in FIG.

  Next, the operation of the wireless communication system according to this embodiment will be described. FIG. 11 is a diagram illustrating a relationship between downlink transmission timing and battery saving of the terminal radio apparatus in the radio communication system according to the present embodiment.

  In the radio frame group 1006 in FIG. 11, the second slot is the mapping area of the generation number notification channel 100 in the first radio frame in one set, and the second in the second radio frame in the set. Is the mapping area of the generation number notification channel 100.

  A radio frame group 1007 in FIG. 11 shows reception timings of the call channel, the generation number notification channel, and the control channel when the generation number notification channel is transmitted after the call ends.

  Note that the downlink radio frame timing transmitted from the headquarter apparatus 10 and the battery saving operation of the terminal radio apparatus 30 are exemplified in the first embodiment and in the second embodiment. It is the same as the case where it was done.

  In the present embodiment, the generation number is notified for each category of the notification information.

  When the change of the generation number is detected in the same procedure as the procedure exemplified in the first embodiment and the second embodiment, the terminal radio apparatus 30 receives the control channel in order to capture the broadcast information.

  The terminal radio device 30 determines whether or not the generation number for each category in the received generation number notification channel has been updated, and the radio channel control CH to which the broadcast information of the category determined to be updated is mapped. Receive. FIG. 11 illustrates a case where the notification information of category number “1” and category number “2” is updated. As exemplified by the radio frame group 1007 in FIG. 11, it is possible to determine in which radio frame the broadcast information to be acquired again is transmitted. That is, by determining which category of generation number has been updated, it is possible to determine a radio frame in which changed notification information is transmitted. Therefore, the terminal radio apparatus 30 specifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and performs a reception operation in accordance with the radio frame timing that includes the type of broadcast information. It can be performed. And the terminal radio | wireless apparatus 30 can compare a generation number for every kind of alerting | reporting information. In addition, after taking in the notification information which has changed, the terminal radio device 30 enters a saving state.

  Therefore, the terminal radio apparatus 30 can enter the saving state at the radio frame timing at which broadcast information that does not need to be updated, that is, broadcast information that does not change the generation number is transmitted.

  With the above operation, according to the radio communication system according to the present embodiment, the battery life of terminal radio apparatus 30 can be improved.

<About the effects produced by the embodiment described above>
Next, effects produced by the embodiment described above will be exemplified. In the following description, the effect is described based on the specific configuration exemplified in the above-described embodiment, but is exemplified in the present specification within a range in which the same effect occurs. Other specific configurations may be substituted.

  Further, the replacement may be performed across a plurality of embodiments. In other words, the configurations exemplified in different embodiments may be combined to produce the same effect.

  According to the embodiment described above, the headquarter device includes the management unit that manages the generation number of the broadcast information, and the communication control unit 12 that controls wireless communication. Then, the communication control unit 12 assigns broadcast information to the control channel 120. Then, when voice information is included in the wireless communication frame to be transmitted, the communication control unit 12 assigns the voice information to the call channel 110 in the wireless communication frame. Then, when audio information is not included in the wireless communication frame to be transmitted, the communication control unit 12 assigns a generation number of broadcast information to at least one of the call channels 110 in the wireless communication frame. Here, the management unit corresponds to, for example, the system management unit 14.

  According to such a configuration, broadcast information can be received while suppressing power consumption in the terminal radio apparatus 30. That is, if the terminal radio apparatus monitors only the call channel 110 and receives the control channel 120 only when the generation number is assigned to the call channel 110 and the generation number is an updated generation number. It is possible to cope with the update of the notification information. Therefore, the operation control in the terminal radio apparatus 30 is not complicated. Further, since it is not necessary for the terminal radio apparatus 30 to always monitor the control channel 120, the battery life of the terminal radio apparatus 30 can be improved.

  Other configurations exemplified in the present specification other than these configurations can be omitted as appropriate. That is, if at least these configurations are provided, the effects described above can be produced.

  However, when at least one of the other configurations exemplified in the present specification is appropriately added to the configuration described above, that is, the configuration described above is not exemplified as the configuration described above. Even when other configurations described above are added to the configurations described above, the effects described above can be similarly produced.

  Further, according to the embodiment described above, the management unit updates the generation number of the broadcast information when the broadcast information is updated. Then, when audio information is not included in the wireless communication frame to be transmitted, the communication control unit 12 assigns an updated generation number of the broadcast information to at least one of the call channels 110 in the wireless communication frame. . Here, the management unit corresponds to, for example, the system management unit 14. According to such a configuration, the terminal radio apparatus 30 monitors only the call channel 110, and only when the generation number is assigned to the call channel 110 and the generation number is an updated generation number. If the control channel 120 is received, the broadcast information can be updated. Therefore, the operation control in the terminal radio apparatus 30 is not complicated. Further, since it is not necessary for the terminal radio apparatus 30 to always monitor the control channel 120, the battery life of the terminal radio apparatus 30 can be improved.

  Further, according to the embodiment described above, the notification information is classified into a plurality of types. And a management part updates a corresponding generation number for every kind of updated alerting | reporting information. Here, the management unit corresponds to, for example, the system management unit 14. According to such a configuration, the terminal radio apparatus 30 specifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and includes a radio frame that includes the type of broadcast information. A receiving operation can be performed in accordance with the timing. And the terminal radio | wireless apparatus 30 can compare a generation number for every kind of alerting | reporting information. Therefore, the terminal radio apparatus 30 can enter the saving state at the radio frame timing at which broadcast information that does not need to be updated, that is, broadcast information that does not change the generation number is transmitted. Therefore, the battery life of the terminal wireless device 30 can be improved.

  Further, according to the embodiment described above, the communication control unit 12 includes at least one of the call channels 110 in the radio communication frame that does not include the audio information that is continuous with the radio communication frame that includes the audio information. A generation number of broadcast information is assigned to the call channel 110. According to such a configuration, if there is a change in the generation number, the terminal radio device 30 can capture the notification information continuously after the call ends. Therefore, it is possible to prevent delay in the acquisition of the notification information by the terminal radio apparatus 30. Further, since the number of times of saving ON / OFF switching is reduced, the saving effect of the terminal radio device 30 is enhanced.

  According to the embodiment described above, the terminal radio apparatus holds the generation number of the broadcast information. The terminal radio apparatus includes at least a reception unit 32C that receives the call channel 110 and a reception control unit that controls the operation of the reception unit 32C. When the generation number of the broadcast information is assigned to the call channel 110, the reception control unit compares the generation number of the broadcast information held by the terminal radio device 30 with the generation number of the broadcast information assigned to the call channel 110. When the generation number of the broadcast information held by the terminal radio apparatus 30 is different from the generation number of the broadcast information assigned to the call channel 110, the reception unit 32C receives the broadcast information assigned to the control channel 120. Here, the reception control unit corresponds to, for example, the monitoring control unit 34E.

  According to such a configuration, broadcast information can be received while suppressing power consumption in the terminal radio apparatus 30. That is, if the terminal radio apparatus monitors only the call channel 110 and receives the control channel 120 only when the generation number is assigned to the call channel 110 and the generation number is an updated generation number. It is possible to cope with the update of the notification information.

  Other configurations exemplified in the present specification other than these configurations can be omitted as appropriate. That is, if at least these configurations are provided, the effects described above can be produced.

  However, when at least one of the other configurations exemplified in the present specification is appropriately added to the configuration described above, that is, the configuration described above is not exemplified as the configuration described above. Even when other configurations described above are added to the configurations described above, the effects described above can be similarly produced.

  Further, according to the embodiment described above, the reception control unit notifies the reception unit 32C of the notification allocated to the control channel 120 when the updated generation number of the notification information is allocated to the call channel 110. Receive information. Here, the reception control unit corresponds to, for example, the monitoring control unit 34E. According to such a configuration, the terminal radio apparatus 30 monitors only the call channel 110, and only when the generation number is assigned to the call channel 110 and the generation number is an updated generation number. If the control channel 120 is received, the broadcast information can be updated. Therefore, the operation control in the terminal radio apparatus 30 is not complicated. Further, since it is not necessary for the terminal radio apparatus 30 to always monitor the control channel 120, the battery life of the terminal radio apparatus 30 can be improved.

  Further, according to the embodiment described above, the notification information is classified into a plurality of types. Then, when a generation number of broadcast information is assigned to the call channel 110, the reception control unit is assigned to the generation number of the broadcast information held by the terminal radio device 30 and the call channel 110 for each type of broadcast information. The generation number of the broadcast information is compared. Here, the reception control unit corresponds to, for example, the monitoring control unit 34E. According to such a configuration, the terminal radio apparatus 30 specifies the type of broadcast information that needs to be updated, that is, the type of broadcast information that has changed in generation number, and includes a radio frame that includes the type of broadcast information. A receiving operation can be performed in accordance with the timing. And after taking in alerting | reporting information, the terminal radio | wireless apparatus 30 can enter a saving state. Accordingly, the terminal radio device 30 can enter the saving state at the radio frame timing at which the broadcast information that does not need to be updated, that is, the broadcast information that has not changed the generation number, is transmitted. You can improve your time.

  Further, according to the embodiment described above, in the radio communication system, the terminal radio apparatus 30 holds the generation number of the broadcast information. And the headquarters apparatus 10 is provided with the management part which manages the generation number of alerting | reporting information, and the communication control part 12 which controls radio | wireless communication. Then, the communication control unit 12 assigns broadcast information to the control channel 120. Then, when voice information is included in the wireless communication frame to be transmitted, the communication control unit 12 assigns the voice information to the call channel 110 in the wireless communication frame. Then, when audio information is not included in the wireless communication frame to be transmitted, the communication control unit 12 assigns a generation number of broadcast information to at least one of the call channels 110 in the wireless communication frame. The terminal radio apparatus 30 includes at least a receiving unit 32C that receives the call channel 110 and a reception control unit that controls the operation of the receiving unit 32C. Then, when the generation number of the broadcast information is assigned to the call channel 110, the reception control unit displays the generation number of the broadcast information held by the terminal radio device 30 and the generation number of the broadcast information assigned to the call channel 110. In comparison, when the generation number of the broadcast information held by the terminal radio device 30 is different from the generation number of the broadcast information assigned to the call channel 110, the broadcast information assigned to the control channel 120 is received by the receiving unit 32C. Let Here, the management unit corresponds to, for example, the system management unit 14. The reception control unit corresponds to, for example, the monitoring control unit 34E. According to such a configuration, broadcast information can be received while suppressing power consumption in the terminal radio apparatus 30. That is, the terminal radio apparatus 30 monitors only the call channel 110 and receives the control channel 120 only when a generation number is assigned to the call channel 110 and the generation number is an updated generation number. Thus, it is possible to cope with the update of the notification information.

<Modifications in Embodiments Described above>
In the embodiments described above, the dimensions, shapes, relative arrangement relations, implementation conditions, and the like of each component may be described. However, these are examples in all aspects, and It is not limited to those described in the document.

  Accordingly, countless variations and equivalents not illustrated are envisioned within the scope of the technology disclosed in this specification. For example, when deforming, adding or omitting at least one component, extracting at least one component in at least one embodiment, and combining with at least one component in another embodiment Is included.

  In addition, as long as no contradiction arises, “one or more” components described as being provided with “one” in the embodiment described above may be provided.

  Further, each component in the embodiment described above is a conceptual unit, and one component is composed of a plurality of structures within the scope of the technique disclosed in this specification. In addition, a case where one component corresponds to a part of a structure and a case where a plurality of components are provided in one structure are included.

  In addition, each component in the embodiment described above includes structures having other structures or shapes as long as the same function is exhibited.

  Also, the descriptions in the present specification are referred to for all purposes related to the present technology, and none of them is admitted to be prior art.

  In addition, each component described in the above-described embodiment is assumed to be software or firmware or hardware corresponding thereto, and in both concepts, each component is a “part”. Alternatively, it is called “processing circuit” or the like.

  10 headquarters device, 12 communication control unit, 14 system management unit, 20, 21 base station device, 22, 26 base station control unit, 24, 28, 32 radio unit, 30 terminal radio unit, 32A transmission / reception switching unit, 32B transmission unit , 32C reception unit, 32D antenna, 34 control unit, 34A modulation unit, 34B demodulation unit, 34C channel CODE unit, 34D channel DECODE unit, 34E monitoring control unit, 34F operation display unit, 34G audio processing unit, 34H audio interface unit, 100 generation number notification channel, 110 call channel, 120 control channel, 200, 210, 300 area, 1000, 1001, 1002, 1003, 1004, 1005, 1006, 1007 radio frame group.

Claims (8)

In a radio communication system that performs radio communication via a radio communication frame including at least a call channel to which voice information is assigned and a control channel to which broadcast information is assigned, the head unit apparatus that assigns the call channel and the control channel ,
Manage the generation number, which is a number that is changed with the update of the broadcast information,
Assigning the broadcast information to the control channel;
The notification information is classified into a plurality of types, and the generation number corresponding to each type of the updated notification information is changed,
When the voice information is included in the wireless communication frame to be transmitted, the voice information is assigned to the call channel in the wireless communication frame;
If the voice information is not included in the wireless communication frame to be transmitted, assign the generation number corresponding to each type of the broadcast information to at least one of the call channels in the wireless communication frame,
Headquarters equipment. The generation corresponding to each type of broadcast information for at least one of the call channels in the radio communication frame in the radio communication frame that does not include the voice information that is continuous with the radio communication frame in which the voice information is included Assign a number,
The headquarter apparatus according to claim 1 . In a wireless communication system that performs wireless communication via a wireless communication frame including at least a communication channel to which voice information is allocated and a control channel to which notification information is allocated, a base that transmits the communication channel from the headquarter apparatus to a terminal radio apparatus Station equipment,
When the voice information is included in the wireless communication frame, the voice channel to which the voice information is allocated is transmitted.
If the voice information is not included in the wireless communication frame, transmit at least one call channel assigned with a generation number that is a number that is changed with the update of the broadcast information ,
The broadcast information is classified into a plurality of types, and the generation number corresponding to each updated type of the broadcast information is changed.
Base station device. Transmits at least one call channel assigned with the generation number corresponding to each type of broadcast information in the wireless communication frame that does not include the voice information that is continuous with the wireless communication frame that includes the voice information. To
The base station apparatus according to claim 3 . A terminal connected to a base station apparatus via a radio communication frame in a radio communication system that performs radio communication via a radio communication frame having at least a call channel to which voice information is assigned and a control channel to which broadcast information is assigned A wireless device,
Holding a generation number that is a number that is changed with the update of the broadcast information,
The notification information is classified into a plurality of types, and the generation number corresponding to each type of the updated notification information is changed,
At least receiving the call channel;
When the generation number corresponding to each type of the broadcast information is assigned to the received call channel, the generation number held by the terminal radio apparatus is assigned to the call channel for each type of the broadcast information. If the generation number held by the terminal radio apparatus is different from the generation number assigned to the call channel, the broadcast information assigned to the control channel is received. ,
Terminal wireless device. For each type of broadcast information allocated to at least one of the call channels in the radio communication frame that does not include the audio information that is continuous with the radio communication frame that includes the audio information. Receiving the corresponding generation number,
The terminal wireless device according to claim 5 . A wireless communication system that performs wireless communication via a wireless communication frame having at least a call channel to which voice information is assigned and a control channel to which broadcast information is assigned,
A headquarter device that allocates the call channel and the control channel, a base station device that relays the call channel from the headquarter device, and a terminal radio device that is connected to the base station device via the radio communication frame With
The terminal wireless device holds a generation number that is a number that is changed with the update of the broadcast information,
The notification information is classified into a plurality of types, and the generation number corresponding to each type of the updated notification information is changed,
The headquarters device
Managing the generation number of the broadcast information;
Assigning the broadcast information to the control channel;
When the voice information is included in the wireless communication frame to be transmitted, the voice information is assigned to the call channel in the wireless communication frame;
If the voice information is not included in the wireless communication frame to be transmitted, assign the generation number corresponding to each type of the broadcast information to at least one of the call channels in the wireless communication frame,
The base station device
When the voice information is included in the wireless communication frame, the voice channel to which the voice information is allocated is transmitted.
When the voice information is not included in the radio communication frame, the at least one call channel assigned with the generation number corresponding to each type of the broadcast information is transmitted,
The terminal wireless device is
At least receiving the call channel;
When the generation number corresponding to each type of the broadcast information is assigned to the received call channel, the generation number held by the terminal radio apparatus is assigned to the call channel for each type of the broadcast information. If the generation number held by the terminal radio apparatus is different from the generation number assigned to the call channel, the broadcast information assigned to the control channel is received. ,
Wireless communication system.   The generation corresponding to each type of broadcast information for at least one of the call channels in the radio communication frame in the radio communication frame that does not include the voice information that is continuous with the radio communication frame in which the voice information is included Assign a number,
  The wireless communication system according to claim 7.

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