JPH06141365A - Mobile communication equipment and intermittent receiver - Google Patents

Abstract

(57) [Abstract] [Purpose] A mobile station performs intermittent reception of a period and a phase determined by an assigned type and a group of incoming calls, and a base station transmits the incoming call information at a slot at that timing. The intermittent reception cycle can be optimized for each incoming control area or base station. [Structure] The base station 3 notifies the mobile station 4 existing in the wireless zone of the base station 3 of the repetition period of the incoming information transmission slot in the base station, and the mobile station 4 notifies the mobile station 4 of the notification and its own station. The intermittent reception cycle is variably set according to the assigned type.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention is used in mobile telephones and other mobile communications. In particular, it relates to incoming control of mobile communication. INDUSTRIAL APPLICABILITY The present invention is suitable for use in a selective call receiving device as well as a telephone device.

[0002]

2. Description of the Related Art There is already known a mobile communication device in which a mobile station is provided with a type and a base station transmits incoming call information in a slot having an intermittent reception cycle set corresponding to the type of the mobile station. In such a mobile communication device, the incoming call information for the mobile station from the network side is transmitted through the paging-type incoming call control channel from one or more base stations included in the incoming call control area where the mobile station should exist. It The mobile station receives the incoming call control channel during standby, receives incoming call information from the network side, and performs incoming call control.

In such a configuration, the mobile station does not wait for an incoming call in a constant reception state, but waits for intermittent reception. Intermittent reception divides the mobile station and the incoming call control channel into a plurality of groups, and the mobile station receives all the channels by receiving only the incoming call control channel group to which the incoming call information of its own group according to the type is transmitted. This is a method that can shorten the reception time as compared with the case and realize power saving.
In the standby time, the reception operation time T _B due to the intermittent reception with respect to the total operation time T _A when all channels are received
Is defined as an intermittent ratio and is represented by T _B / T _A.

FIG. 8 shows the relationship between the signal configuration of the incoming control channel in the conventional mobile communication apparatus and the reception timing according to the type of mobile station. In FIG. 8, (a) shows the signal configuration of the control channel transmitted by the base station, and (b) to (d) show the operation timings of mobile stations of different types.

The base station repeatedly transmits a super frame composed of a plurality of slots for transmitting incoming information.
In the example shown in FIG. 8, the individual superframes F1 to F4 are
Is composed of slots "0" to "8". Slot “0” is for transmitting common information,
Slots "1" to "8" are for transmitting the incoming call information to the mobile stations of the first incoming call group to the eighth incoming call group, respectively. The mobile station not only receives different slots depending on its incoming call group, but also has a different intermittent reception cycle for each type and a different superframe reception cycle. FIGS. 8B to 8C show the operation timings of the three types of mobile stations belonging to the third incoming call group. The type “1” is a mobile station that requests a short connection delay, the type “2” is a mobile station that requests the shortest connection delay after the type “1”, and the type “3” is the shortest after the type “2”. A mobile station that requests connection delay.

When incoming information for a specific mobile station arrives at the base station from the network, the base station sets a specific intermittent reception cycle corresponding to the type and incoming group from the type and incoming group to which the mobile station belongs. The slot for transmitting the incoming call information that is set to be known is known, and the incoming call information is transmitted in the slot. The mobile station receives the incoming call information at a different intermittent reception cycle for each type and at a different timing for each incoming call group.

In such a configuration, when the location registration area is small, the frequency of location registration by the mobile station is high and the power consumption for that purpose increases, so the intermittent ratio is increased and the power consumption is reduced accordingly. Is good. In addition, under conditions of low traffic, the location registration frequency can be reduced by enlarging the location registration area, the power consumption of the mobile station can be reduced, and even if the intermittent ratio is reduced, there is no problem in terms of power consumption. Moreover, since there are many unused slots for incoming call information transmission, there is no problem even if the intermittent ratio is reduced.

[0008]

However, in the conventional mobile communication device, the intermittent reception cycle is constant in any incoming control area and is determined by the maximum traffic and connection delay in the incoming control area. For this reason, it is not necessarily optimum in each area, and power consumption and incoming call connection time are deteriorated.

An object of the present invention is to solve the above problems and to provide a mobile communication device which consumes less power and can shorten the incoming and outgoing connection time as much as possible.

[0010]

A first aspect of the present invention is a mobile communication device, which comprises a plurality of base stations respectively arranged in a plurality of incoming call control areas and an incoming call control area in which it exists. The mobile station is provided with a plurality of mobile stations that perform location registration with the base station and are connected to the base station via a wireless line.The mobile stations are provided with a type indicating the intermittent reception cycle and a phase of the intermittent reception. Mobile communication including means for transmitting the incoming information from the network in the incoming information transmission slot of the period and phase corresponding to the type and incoming group of the mobile station to be called, respectively. In the device, the repetition period of the incoming information transmission slot transmitted by the base station is set separately for each base station or each incoming control area, and each base station The mobile station includes means for notifying the mobile station existing in the radio zone of the base station of the repetition period of the signal information transmitting slot, and each mobile station is provided with the notification from the means for notifying and the type assigned to the own station. It is characterized by including means for variably setting the intermittent reception cycle.

It is desirable to further comprise means for setting the repetition cycle of the incoming information transmission slot transmitted by the base station differently depending on time. This means may be provided in the base station, or may be provided in a higher-level control station on the network side.

At least a part of the plurality of mobile stations includes means for variably setting the intermittent reception cycle of its own station, and means for notifying the set intermittent reception cycle to the base station of the existing wireless zone, The base station can include means for changing the allocation of the incoming information transmission slot to the mobile station according to the notification from the means for notifying the base station of the mobile station.

A second aspect of the present invention is an intermittent receiving device used as a mobile station in the above mobile communication device, wherein a radio signal from a base station is transmitted at a cycle and phase corresponding to the type and incoming call group assigned to itself. In a discontinuous reception device that intermittently receives, the base station receives a notification of the repetition period of the incoming information transmission slot, and the discontinuous reception period is variable based on the content of the notification and the type assigned to the own station. It is characterized by having a means for setting. It is preferable to further include means for changing the type of the own station and notifying it to the base station.

[0014]

The period of the incoming information transmission slot is changed for each different base station or incoming control area, depending on time. The mobile station changes its discontinuous reception cycle depending on which radio base station or incoming control area it is in. When the incoming information for a specific mobile station arrives from the network side, the base station obtains a slot for incoming information transmission corresponding to the type and incoming group to which the mobile station belongs in the slot cycle set for that base station, and Send incoming information in slots.

[0015]

1 is a block diagram showing a mobile communication apparatus according to an embodiment of the present invention, and FIGS. 2 and 3 are block diagram showing main parts of a base station and a mobile station, respectively.

The mobile communication device of the present invention comprises a plurality of base stations 3 arranged in a plurality of incoming control areas, respectively.
A plurality of mobile stations 4 (only one is shown in the figure) connected to the base station 3 via a wireless line by performing location registration in the base station 3 in the incoming call control area where the user exists The mobile station 4 is assigned a type indicating the intermittent reception cycle and an incoming call group indicating the intermittent reception phase.

The base station 3 is for transmitting incoming information of a period and phase corresponding to the type and incoming group of the mobile station 4 to which the incoming information from the network coming via the exchange 1 and the control station 2 should be called. As means for transmitting by slot, an incoming buffer 31, a selective reading circuit 32, a memory 33, a superframe generating circuit 34 and a control channel transmitting circuit 35 are provided. Also, a common information generation unit 36 that outputs common information to the broadcast channel of the superframe,
A control channel receiving circuit 37 for receiving position registration and other control signals from the mobile station 4, a signal separating circuit 38 for separating incoming information for the mobile station 4 from the network and control information for the own station, and separated control information. And a control unit 39 that controls each unit in the base station 3 according to the control information from the mobile station 4 received by the control channel reception circuit 37.

Incoming call information from the network to the mobile station is stored in the incoming call buffer 31. The memory 33 stores, for each mobile station 4 whose location is registered in the base station 3, its type and incoming call group, or the position of a corresponding incoming call information transmission slot. The superframe generation circuit 34 selectively reads out the incoming information that can be inserted into the incoming information transmitting slot.
Output to. The superframe generation circuit 34 inserts the common information from the common information generation unit 36 into the common information transmission slot and inserts the incoming information from the selective reading circuit 32 into the slot corresponding to the incoming group to form a superframe. . The control channel transmission circuit 35 continuously transmits this superframe to the wireless section.

The position registration and other control information from the mobile station 4 is received by the control channel reception circuit 37, and the control unit 3
9 controls its own station based on the information when necessary, and the higher-level control station 2 for information such as location registration.
Transfer to.

The feature of the base station 3 in this embodiment is that the repetition cycle of the incoming information transmission slot transmitted by the base station 3 is set individually for each base station 3 or each incoming control area, and is common. The information generating unit 36 is configured to generate information for notifying the mobile station 4 existing in the wireless zone of the base station 3 of the repetition period of the incoming information transmission slot in the base station 3. .

Although the repetition cycle of the incoming information transmission slot can be fixed, in this embodiment, the control section 39 controls the contents stored in the memory 33 and the superframe generation circuit 34 to variably set it. To do. At this time, the control unit 39 also changes the content of the information generated by the common information generation unit 36. The control unit 39 can also change the repetition period of the incoming information transmission slot according to the control information from the control station 2, for example, in time.
It is also possible to change the repetition cycle for the mobile station 4 according to a request from the mobile station 4. In this case, the control unit 3
It is desirable for 9 to notify the mobile station 4 that the allocation of the incoming information transmission slot has been changed.

The mobile station 4 includes a transmission / reception circuit 41, a control unit 42 for controlling each part of the mobile station 4 and a position registration and other control signal transmission to the base station 3, and the mobile station 4.
And a memory 43 in which the type and the incoming call group assigned to are recorded.

Here, the feature of the mobile station 4 in the present embodiment is that the intermittent reception cycle is variably set based on the notification from the base station 3 and the type of the own station stored in the memory 43. This is because the intermittent reception variable control circuit 44 is provided.

The mobile station 4 performs position registration when the power is turned on and when a new incoming call control area is entered due to cell transfer. After that, the broadcast channel is received from the base station 3 and the slot to be received is recognized. Therefore, the mobile station 4, depending on which incoming control area the location is registered,
Different discontinuous reception can be performed. The control unit 42 also includes means for variably setting the intermittent reception cycle of its own station, and means for notifying the set intermittent reception cycle to the base station of the existing wireless zone.

FIG. 4 shows an example of the structure of a super frame transmitted by the base station 3. The superframe includes a plurality of slots, and each slot constitutes a control channel. The first slot "0" of the superframe is a slot for transmitting common information and is also called a broadcast channel. Subsequent slots “1”, “2” ... Are slots for transmitting incoming call information to the corresponding incoming call group. Slot "0"
That is, in the broadcast channel, the maximum number of superframes and its structure, the maximum number of incoming slots, and other necessary information are transmitted. The maximum number of superframes refers to the number of superframes required to transmit incoming information to all incoming groups. The maximum number of incoming slots is the maximum number of slots for transmitting incoming information included in the number of superframes represented by the maximum number of superframes. The mobile station 4 calculates the slot timing to be received by the mobile station based on the contents of the broadcast channel, and performs intermittent reception.

FIG. 5 shows an arrangement example of the incoming control channel and the operation of the mobile station for it. In this figure, (a) shows the maximum number of superframes = 2 and the maximum number of incoming slots = 16.
The arrangement of the incoming control channel at the time of is shown, and (b) shows the operation of one mobile station for it. Also, (c) is the maximum number of superframes = 1/2, the maximum number of incoming slots =
4 shows the arrangement of the incoming control channel in the case of No. 4, and FIG. The type of this mobile station is "1".

In FIG. 5 (a), since the maximum number of superframes = 2, considering four superframes F11 to F14, two superframes F11 and F12 form one set, and also superframes F13 and F14 form one set. Make up a set. The first superframe F of each group
11, F13 are composed of a common information transmitting slot "0" and slots "1" to "8" for calling the first to eighth incoming call groups. The second superframes F12 and F14 are composed of slots "9" to "16" for calling the 9th to 16th incoming call groups in addition to the common information transmission slot "0".

On the other hand, the maximum number of superframes = 1 /
In the case of 2, as shown in FIG. 5C, slots "1" to "4" for the first to fourth incoming call groups are repeated twice in each superframe F21, F22, ....

Mobile stations of type "1" and incoming call group "3" are shown in FIG.
When the location is registered in the incoming control area of the channel setting as shown in (a), the slots to be received are the slot "0" of each superframe F11 to F14 and the slot of the first superframe F11, F13. It is "3". On the other hand, in the case of the channel setting as shown in FIG. 5C, the slots to be received by the same mobile station are the slots “0” and “3” of the individual superframes F21, F22 ,. Three slots are received for each superframe.

In the two examples, since the maximum number of incoming slots is different, the number of incoming groups is also different. For example, the lower two bits of the mobile station number are used to divide the incoming group into four, and the lower three bits are used. You can use it to divide it into eight.

As described above, in the incoming call control area where the maximum number of superframes is large, if the number of mobile stations that can register the location is the same for each incoming call group, the number of mobile stations that can register the location can be increased. On the other hand, in the incoming call control area where the maximum number of superframes is small, the number of mobile stations that can be registered is small, but the time required for incoming connection is shortened. Therefore, for example, if the configuration of the incoming control channel is changed depending on the traffic, the maximum number of superframes is increased in a place where the traffic is heavy, that is, the repetition period of the incoming information transmission slot is lengthened to accommodate a large number of mobile stations. As a result, it is possible to prevent power consumption because it is not necessary to divide the incoming control area into smaller areas and the probability that the mobile station performs the location registration due to the cell transfer and the frequency of transmission and reception in the location registration operation are reduced. Further, in a place where the traffic is light, the maximum number of superframes can be reduced to shorten the time required for incoming connection.

In the above description, an example has been described in which the mobile station variably sets the intermittent ratio according to the notification from the base station.
If the user of the mobile station does not require an immediate connection and wants to save power consumption, the user can change the intermittent ratio. Also, the type of mobile station can be selected by the user, and it is also possible to wait for a plurality of other types. If the type is changed during standby, or if another type is also added to wait, the base station is notified of this and a new standby state operation is performed by a command from the base station. FIG. 6 shows an example of the notification contents transmitted from the mobile station to the base station in the case of simultaneously waiting for type 1 and type 2.

FIG. 7 shows an operation example of two mobile stations of the same type which are registered in the same incoming control area. (A) shows the arrangement of incoming control channels, and here shows an example in which the maximum number of superframes = 1/2. (B) and (c) are type "2"
An example of discontinuous reception operation of mobile stations A and B is shown. Mobile stations A and B
Both belong to the third incoming call group.

The mobile station A operates in the standard intermittent reception cycle according to the notification from the base station, and every other superframe F
, F23, ... Receive the slots “0” and “3”. That is, 3 slots are received for every 2 superframes. On the other hand, the mobile station B extends the intermittent reception cycle by registering with the base station, and in addition to the slot "0" of every other superframe F21, F23, ..., One slot of the superframe F21 ". Only 3 ”is received. That is, only 3 slots are received every 4 superframes.

[0035]

As described above, the mobile communication apparatus of the present invention flexibly changes the repetition period of the incoming information transmission slot, that is, the number of superframes transmitted by the base station, thereby expanding or reducing the location registration area. , Incoming connection time can be shortened. Moreover, the serviceability can be improved because the intermittent ratio or the type of mobile station can be changed according to the intention of the user.

[Brief description of drawings]

FIG. 1 is a block diagram showing a mobile communication device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a main part of a base station.

FIG. 3 is a block configuration diagram showing a main part of a mobile station.

FIG. 4 is a diagram showing a configuration example of a super frame transmitted by a base station.

FIG. 5 is a diagram showing an arrangement example of an incoming call control channel and an operation of a mobile station for it.

FIG. 6 is a diagram showing an example of notification contents transmitted from a mobile station to a base station when waiting for type 1 and type 2 simultaneously.

FIG. 7 is a diagram showing an operation example of two mobile stations of the same type whose position is registered in the same incoming call control area.

FIG. 8 is a diagram showing a relationship between a signal configuration of an incoming control channel and a reception timing according to a type of a mobile station in a conventional mobile communication device.

[Explanation of symbols]

 1 Switching Station 2 Control Station 3 Base Station 4 Mobile Station 31 Incoming Buffer 32 Selective Read Circuit 33 Memory 34 Super Frame Generation Circuit 35 Control Channel Transmission Circuit 36 Common Information Generation Section 37 Control Channel Reception Circuit 38 Signal Separation Circuit 39 Control Section 41 Transmission / Reception Circuit 42 Control Unit 43 Memory 44 Intermittent Reception Variable Control Circuit

Claims (4)

[Claims] 1. A plurality of base stations respectively arranged in a plurality of incoming call control areas, and a base station in the incoming call control area where the user is present are registered and connected to the base stations via a wireless line. And a plurality of mobile stations, each of which is assigned a type indicating a period of intermittent reception and an incoming call group indicating a phase of intermittent reception. A mobile communication device including means for transmitting incoming call information in a slot for incoming call information transmission having a cycle and phase corresponding to the type and incoming call group to which the mobile station to be called, in the incoming call information transmission slot transmitted by the plurality of base stations. The repetition cycle of is set separately for each of the plurality of base stations or each of the plurality of incoming call control areas, and each of the plurality of base stations receives an incoming call at that base station. It includes means for notifying the mobile station existing in the radio zone of the base station of the repetition period of the information transmission slot, and each of the plurality of mobile stations is notified from the notifying means and the type assigned to the own station. A mobile communication device comprising: means for variably setting the intermittent reception cycle. 2. The mobile communication device according to claim 1, further comprising means for setting the repetition cycle of the incoming information transmission slot transmitted by the plurality of base stations differently depending on time. 3. At least a part of the plurality of mobile stations,
It includes means for variably setting the intermittent reception cycle of its own station, and means for notifying the set intermittent reception cycle to the base station of the existing wireless zone, and the plurality of base stations notify this base station. 2. The mobile communication device according to claim 1, further comprising means for changing the allocation of the incoming information transmission slot to the mobile station according to the notification from the means. 4. An intermittent receiving device for intermittently receiving a radio signal from a base station at a cycle corresponding to a type assigned to the local station, receiving a notification of a repeating cycle of a slot for transmitting incoming information from the base station, An intermittent receiving device comprising means for variably setting the intermittent reception cycle based on the contents of the notification and the type assigned to the own station.