JP4954742B2 - Mobile station, radio access network apparatus, and call control signal transmission method - Google Patents

Description

  The present invention relates generally to the field of mobile communications, and more particularly to a technique for transmitting a call control signal to a mobile station, and a mobile station and a radio access network apparatus suitable for such a technique.

  A mobile station used in a mobile communication system such as a UMTS (Universal Mobile Telecommunication System) intermittently receives a control signal from a base station during standby to save power (battery saving). Specifically, the intermittent reception operation performed at the mobile station is performed in two stages.

  In the first stage of intermittent reception, the mobile station intermittently receives a PICH (Paging Indicator Channel) according to a DRX (Discontinuous Receiving) period designated from the network. The DRX cycle to be received may be a value such as 640 ms, for example. The PICH includes a large number of short-term paging indicators (PI) of, for example, 0.25 ms. In each mobile station, the PI of the group to which it belongs is defined by its own identifier IMSI (International Mobile Subscriber Identity).

For example, as shown in FIG. 1, when the PICH is transmitted every 2 ^k frames, the DRX cycle is also 2 ^k frames. When the number of groups is N _p , each PI included in the PICH is indicated as P ₀ ,..., P _{q ,.} The mobile station intermittently receives PI at the timing P _q of the group to which the mobile station belongs.

  The paging indicator (PI) indicates whether or not a paging signal (channel shown in parallel with PICH in FIG. 1) addressed to one or a plurality of mobile stations included in each group is generated. Show. The mobile station demodulates the PI and determines whether there is a paging signal addressed to itself. If there is a paging signal addressed to the own station, the process proceeds to the second stage of intermittent reception and receives the paging signal. In UMTS, a paging signal is transmitted on a PCH (Paging Channel) which is a transport channel mapped on a physical channel SCCPCH (Secondary Common Control Physical Channel). For example, the PCH is received over a relatively long period of about 10 ms.

The radio frame to which the PCH is mapped is associated with the PI frame of the _PICH so as to have a time difference of τ _PICH as shown in FIG. Specifically, the paging signal includes a paging request to the mobile station. The mobile station returns a paging response in response to the paging request, and then downlink data transmission starts. For the conventional intermittent reception method in UMTS, refer to Non-Patent Document 1, for example.

On the other hand, even in LTE (Long term evolution) which is currently being put into practical use, it has been agreed that the intermittent reception operation performed in the standby mobile station is performed in two stages. Specifically, a group (Paging group) to be called using a signaling control channel (L1 / L2 control channel) is notified, and only the mobile station to which the group to which the own station belongs is received PCH, It has been agreed that a paging response is made when the mobile station-specific identifier (Precise UE identity) is notified (see, for example, Non-Patent Document 2).
Keiji Tachikawa (supervised), “W-CDMA mobile communication system”, Maruzen Co., Ltd., p.222-223 Evolved Universal Terrestrial RadioAccess (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2 (Release 8) V0.4.0 (2007-01), 10.1.4 Paging and C-plane establishment

  In the method for calling a mobile station in LTE, when trying to call a mobile station belonging to a plurality of groups at the same timing, the number of signaling control channels corresponding to the number of groups to be called is required. If the signaling control channel is reserved for calling, there is a concern that the number of signaling control channels that can be used by a user during communication is limited and the use efficiency of radio resources deteriorates.

  On the other hand, if the number of groups is limited to 1 and all mobile stations that receive intermittently at the same timing are set to the same group, all mobile stations will decode PCH at each intermittent reception timing, and the intermittent reception ratio of the mobile station will be Remarkably high. As a result, there is a concern that battery consumption increases and the mobile station's continuous standby time decreases.

  The present invention has been made in order to address the above-mentioned problems, and its problem is to provide a mobile station calling (paging) method that reduces battery consumption of the mobile station and efficiently uses radio resources. is there.

In order to solve the above problem, in the first aspect of the present invention, the radio access network apparatus sets up a shared data channel and a signaling control channel with a mobile station. This radio access network device
(A) When calling one or a plurality of mobile stations, mobile station group identifier transmission for transmitting the identifiers of one or a plurality of mobile station groups to which these mobile stations belong as a part of the signaling control channel Means,
(B) Call signal identifier transmitting means for transmitting an identifier for a call signal as part of the signaling control channel;
(C) resource allocation information transmitting means for transmitting radio resource allocation information as part of the signaling control channel;
Is provided.

  With this configuration, it is possible to reduce battery consumption of the mobile station and efficiently use radio resources.

In the second aspect of the present invention, the mobile station sets up a shared data channel and a signaling control channel to communicate with the radio access network device. Such mobile stations
(A) Call signal identifier detection means for detecting an identifier for a call signal from the signaling control channel at the intermittent reception timing;
(B) mobile station group identifier detection means for detecting an identifier of a mobile station group to which the own station belongs when detecting the call signal identifier, from a part of the signaling control channel;
(C) A radio resource for detecting radio resource allocation information for a paging signal transmitted as part of the signaling control channel when the mobile station group identifier detecting unit detects a mobile station group identifier to which the own station belongs. Allocation information detecting means;
(D) paging signal receiving means for receiving the radio resource indicated by the radio resource allocation information;
Is provided.

  With this configuration, it is possible to reduce battery consumption of the mobile station and efficiently use radio resources.

According to a third aspect of the present invention, there is provided a call control signal transmission method for transmitting a call control signal between a mobile station and a radio access network apparatus. This method
(A) intermittently receiving a signaling control channel at a mobile station;
(B) determining whether the signaling control channel has a call signal identifier corresponding to a physical channel that transmits the call signal of the mobile station;
(C) when the signaling control channel has the paging signal identifier, determining whether the signaling control channel includes an identifier of a mobile station group to which the mobile station belongs;
(D) when the mobile station group identifier to which the mobile station belongs is received by the mobile station using the radio resource specified by the signaling control channel;
including.

  With such a configuration and method, it is possible to reduce battery consumption of the mobile station and efficiently use radio resources.

  According to the embodiments of the present invention, it is possible to realize a mobile station, a radio access network apparatus, and a mobile communication system that can reduce battery consumption of a mobile station and efficiently use radio resources.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. In all the drawings for explaining the embodiments, the same reference numerals are used for those having the same function, and repeated explanation is omitted.

  FIG. 2 is a schematic diagram of a mobile communication system according to an embodiment of the present invention. The mobile communication system includes a mobile station 100 and a radio access network device 200. The mobile station 100 and the radio access network device 200 perform downlink communication using a shared data channel and a signaling control channel. Calling (paging) to the mobile station is performed using a signaling control channel.

  FIG. 3 is a schematic block diagram of the mobile station 100 used in the system of FIG. The mobile station 100 includes a data transmission / reception unit 102 including an antenna, a channel correspondence management unit 104 connected to the data transmission / reception unit 102, a call signal identifier detection unit 108, and a call signal reception unit 114. The call signal identifier detection unit 108 is also connected to the channel correspondence management unit 104.

  The mobile station 100 also includes a call signal physical channel calculation unit 106 connected to the channel correspondence management unit 104, a mobile station group identifier detection unit 110 connected to the call signal identifier detection unit 108, and the mobile station group identifier. A radio resource allocation information detection unit 112 connected to the detection unit 110 is provided. The output of the radio resource allocation information detection unit 112 is connected to the call signal reception unit 114 described above.

  The data transmitter / receiver 102 transmits and receives data. The data transmitter / receiver 102 receives the channel correspondence transmitted as part of the broadcast information, and intermittently receives the signaling control channel when performing intermittent reception.

  The call signal physical channel calculation unit 106 calculates a physical channel number on which the call signal to the mobile station 100 is transmitted. The physical channel number may be calculated in association with an identifier individually assigned to the mobile station 100, or a mathematical formula to be calculated may be determined in advance according to specifications, or may be notified by broadcast information.

  The channel correspondence management unit 104 stores the correspondence between the physical channel number received by the data transmitting / receiving unit 102 as part of the broadcast information and the call signal identifier number for identifying the call signal transmitted on the physical channel. . When the physical channel number for transmitting the call signal of the mobile station 100 is calculated by the call signal physical channel calculation unit 106, the call signal identifier number corresponding to the physical channel number is selected.

  The call signal detection unit 108 determines whether the signaling control channel received intermittently by the data transmission / reception unit 102 includes the call signal identifier number for the mobile station 100 selected by the channel correspondence management unit 104. Is detected. If the signaling control channel includes the call signal identifier number of the mobile station 100, the mobile station group identifier detection unit 110 uses the mobile station group identifier (group ID) to which the mobile station belongs to the signaling control channel. ) Is detected.

  If the mobile station group identifier (group ID) of the mobile station is included as a result of the detection, the radio resource allocation information detection unit 112 notifies the radio resource allocation notified by the intermittently received signaling control channel. Detect information.

  The radio resource allocation information detected by the radio resource allocation information detection unit 112 is supplied to the call signal reception unit 114. The call signal reception unit 114 receives and decodes the call information received by the data transmission / reception unit 102 using the allocated radio resource.

  Although not shown, the mobile station 100 may include call signal size detection means for detecting the call signal size from this signaling control channel. In this case, the calling signal size detecting means is connected to the mobile station group identifier detecting unit 110 and the calling signal receiving unit 114. That is, when the mobile station group identifier to which the mobile station 100 belongs is detected, the call signal size is detected, and the detected call signal size is supplied to the call signal receiving unit 114.

  FIG. 4 shows a format example of the signaling control channel. In this example, the signaling control channel has a paging signal identifier # 1, calls a mobile station belonging to the mobile station group identifier (group ID) # 11, and mobile stations belonging to the mobile station group identifier (group ID) # 15. Used for calling. Here, the call signal identifier # 1 may be transmitted as the same amount of information at a location where a user identifier (C-RNTI: Cell specific radio network temporal identity) is transmitted in the normal format of the signaling control channel.

  The mobile station 100 determines that the mobile station group identifier of the group to which the mobile station belongs belongs to this signaling control channel only when the call signal identifier # 1 is an identifier for the call signal corresponding to the physical channel calculated by the mobile station. Determine if it is included. When the mobile station 100 does not belong to the group represented by the mobile station group identifiers # 11 and # 15, the mobile station 100 immediately returns to the power save mode. On the other hand, when the mobile station 100 belongs to, for example, the mobile station group # 11, the call signal size and the radio resource allocation information are decoded, and the call signal is received and decoded using the allocated radio resource.

  Thus, a single signaling control channel can be used to call a mobile station belonging to any of a plurality of mobile station groups. The mobile station 100 does not perform any further decoding when the intermittently received signal control channel does not have a call signal identifier corresponding to the call signal physical channel used by the mobile station. Thereby, the battery consumption of the mobile station 100 can be reduced. In addition, when it is a signaling control channel having an identifier corresponding to a physical channel for transmitting a call signal of the own station and is a call to a group to which the own station belongs, the call information is received using a specified radio resource. Therefore, it becomes possible to efficiently use radio resources.

  FIG. 5 is a schematic block diagram of the radio access network apparatus 200 according to the embodiment of the present invention. The radio access network device 200 includes a data transmission unit 202, a paging signaling control channel generation unit 204, a paging signal generation unit 206, and a channel correspondence generation unit 208 that are connected to the data transmission unit 202, respectively.

  The signal generated by the channel correspondence generation unit 208 is transmitted from the data transmission unit 202 as part of the broadcast information.

  The format of the calling signaling control channel generated by the calling signaling control channel generating unit 204 has, for example, the format of FIG.

  The call signal generated by the call signal generation unit 206 is mapped to the call channel (PCH) or the data sharing channel and transmitted from the data transmission unit 202.

  As one configuration example, the radio access network device 200 may integrally include the function of the radio control device 220 and the function of the radio base station device 230, as shown in FIG. In this case, for example, the radio control device 220 includes a call signal generation unit 206 and a channel correspondence generation unit 208, and the radio base station device 230 includes a call signaling control channel generation unit 204, data A transmission unit 202 is arranged.

  Further, the radio access network device 200 may be realized as a separate configuration of the radio control device 220 and the radio base station device 23.

  According to the configuration described above, it is possible to realize a mobile station, a radio access network apparatus, and a mobile communication system that can reduce battery consumption of the mobile station and can efficiently use radio resources.

  The mobile station, radio access network apparatus, and mobile communication system according to the present invention can be applied to a mobile communication system.

It is a figure which shows the channel used at the time of calling of a mobile station. It is a block diagram which shows a radio | wireless access network apparatus and a mobile station. It is a functional block diagram of the mobile station concerning one Example of this invention. 4 is a format of a calling signaling control channel according to an embodiment of the present invention. It is a functional block diagram of the radio | wireless access network apparatus concerning one Example of this invention. 1 is a block diagram illustrating a radio access network apparatus according to an embodiment of the present invention.

Explanation of symbols

100 mobile station 102 data transmission / reception unit 104 channel correspondence management unit 106 call signal physical channel calculation unit 108 call signal identifier detection unit 110 mobile station group identifier detection unit 112 radio resource allocation information detection unit 112
114 Call signal receiver 114
200 Radio Access Network Device 202 Data Transmission Unit 204 Calling Signaling Control Channel Generation Unit 206 Calling Signal Generation Unit 208 Channel Correspondence Relationship Generation Unit 220 Radio Control Device 230 Radio Base Station Device

Claims (9)

A radio access network apparatus that establishes a shared data channel and a signaling control channel and communicates with a mobile station:
When performing a call one or more mobile stations, wherein one each mobile station belongs or more mobile station group identifier transmitting means for transmitting the identifier of the mobile station group as part of the signaling control channel;
As part of the signaling control channel, a call signal identifier for identifying a call signal transmitted on a physical channel is transmitted to cause each mobile station to determine the presence or absence of a call signal identifier corresponding to the physical channel used by the mobile station. Call signal identifier transmission means;
As part of the signaling control channel, when there is a call signal identifier corresponding to a physical channel used by each mobile station, and when there is a group identifier of a mobile station group to which each mobile station belongs, Resource allocation information transmitting means for transmitting radio resource allocation information indicating radio resources allocated to each mobile station so that the call signal can be received on a physical channel ;
A wireless access network device comprising: A radio access network device for setting a shared data channel and a signaling control channel with a mobile station and performing communication,
A signaling control channel generator for generating the signaling control channel for calling one or more mobile stations;
The signaling control channel comprises:
An identifier of one or more mobile stations to which each of the mobile stations belongs; and
A call signal identifier for identifying a call signal for each mobile station transmitted on a physical channel ;
When each mobile station uses a physical channel corresponding to the paging signal identifier, it indicates a radio resource allocated to the mobile station so that the paging signal can be received on the physical channel corresponding to the paging signal identifier Radio resource allocation information,
Only including, to the each mobile station, the presence or absence of the paging signal by the mobile station group identifier of the mobile station group that the own station belongs when the identifier is included in the signaling control channel corresponding to the physical channel used by the subject mobile station radio access network apparatus, characterized in that to determine. The radio access network device according to claim 1:
The radio access network apparatus, wherein the size of the call signal is transmitted as a part of the signaling control channel. The radio access network device according to claim 1 or 2,
A call signal transmission channel correspondence generating means for generating a correspondence between the physical channel for transmitting the paging signal and the call signal identifier,
Channel correspondence notifying means for notifying the channel correspondence generated by the channel correspondence generating means;
The wireless access network device further comprising: A mobile station that sets up a shared data channel and a signaling control channel and communicates with a radio access network device:
In the intermittent reception timing, the signaling control channel, detects and determines whether include call signal identifier for identifying a call signal which the mobile station is transmitted in the physical channel used, call signal identifier detection means;
Mobile station group identifier detecting means for detecting, from the part of the signaling control channel, an identifier of a mobile station group to which the own station belongs when detecting the call signal identifier;
In the mobile station group identifier detecting means, when the mobile station group identifier to which the own station belongs is detected, the mobile station group identifier is assigned to the mobile station so that the call signal can be received on the physical channel from a part of the signaling control channel. Radio resource allocation information detecting means for detecting radio resource allocation information indicating the determined radio resource;
Call signal receiving means for receiving a call signal for the mobile station using the radio resource indicated by the radio resource allocation information;
A mobile station comprising: In the mobile station according to claim 5:
Paging signal size detecting means for receiving a paging signal size as part of the signaling control channel;
A mobile station comprising: In a mobile station according to claim 5 or 6:
Call signal physical channel calculation means for calculating the physical channel for transmitting the call signal received by the local station based on a predetermined relational expression ;
Said call and signal identifier, channel relationship receiving means for receiving the correspondence between the physical channel from the broadcast information to transmit the call signal,
At least one of
Call signal selection means for selecting a call signal identifier received by the own station based on a calculation result of the physical channel transmitting the call signal or a reception result of the channel correspondence relationship;
A mobile station further comprising: A mobile communication system in which a shared data channel and a signaling control channel are set and communicated between a mobile station and a radio access network device:
The radio access network device is:
When performing a call one or more mobile stations, wherein one each mobile station belongs or more mobile station group identifier transmitting means for transmitting the identifier of the mobile station group as part of the signaling control channel;
As part of the signaling control channel, a call signal identifier for identifying a call signal transmitted on a physical channel is transmitted to cause each mobile station to determine the presence or absence of a call signal identifier corresponding to the physical channel used by the mobile station. Call signal identifier transmission means;
As part of the signaling control channel, when there is a call signal identifier corresponding to a physical channel used by each mobile station, and when there is a group identifier of a mobile station group to which each mobile station belongs, Resource allocation information transmitting means for transmitting radio resource allocation information indicating radio resources allocated to each mobile station so that the call signal can be received on a physical channel ;
With
The mobile station
In the intermittent reception timing, the signaling control channel, the call signal identifier whether the determined detection included indicating the call signal transmitted to itself by the physical channel, a call signal identifier detection means;
Mobile station group identifier detecting means for detecting, from the part of the signaling control channel, an identifier of a mobile station group to which the own station belongs when detecting the call signal identifier;
When the mobile station group identifier detecting means detects the mobile station group identifier to which the mobile station belongs, the mobile station group identifier is assigned to the mobile station to receive the call signal on the physical channel from a part of the signaling control channel. Radio resource allocation information detection means for detecting the radio resource allocation information indicating a radio resource ;
Call signal receiving means for receiving the radio resource indicated by the radio resource allocation information;
A mobile communication system comprising: In a mobile communication system, associating a physical channel that transmits a call signal to a mobile station with a call signal identifier that identifies the call signal transmitted on the physical channel;
In the mobile station, receiving the intermittently signaling control channel,
A step the signaling control channel, to determine whether they have the call signal identifier corresponding to a physical channel for transmitting a call signal to the mobile station,
If the signaling control channel does not have the paging signal identifier, the mobile station does not perform subsequent processing. If the signaling control channel has the paging signal identifier, the mobile station to which the mobile station belongs to the signaling control channel Determining whether a station group identifier is included;
When the mobile station group identifier to which the mobile station belongs is included, the mobile station uses the radio resource specified by the signaling control channel to receive the call signal on the physical channel ;
A call control signal transmission method comprising:

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