JP3044140B2 - Mobile communication device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used for automobile telephones and other mobile communications. In particular, it relates to incoming call control of mobile communication. INDUSTRIAL APPLICABILITY The present invention is suitable for use in a selective call receiving device in addition to a telephone device.

[0002]

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

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

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

[0005] The base station repeatedly transmits a superframe composed of a plurality of slots for transmitting incoming information.
In the example shown in FIG. 8, the individual superframes F1 to F4
Are constituted by slots “0” to “8”. Slot “0” is for transmitting common information,
Slots "1" to "8" are for transmitting incoming information to the mobile stations in the first to eighth incoming groups, respectively. The mobile station not only receives a different slot depending on its paging 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 three types of mobile stations belonging to the third incoming call group. The type “1” is a mobile station requesting a short connection delay, the type “2” is a mobile station requesting a short connection delay next to the type “1”, and the type “3” is short next to the type “2”. A mobile station that requires a connection delay.

When incoming information of 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 the incoming group from the type and the incoming group to which the mobile station belongs. It knows the slot for transmitting incoming information set to have it, and transmits the incoming information in that 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 mobile station frequently performs location registration and the power consumption for the location registration increases, so that the intermittent ratio is increased and the power consumption is reduced accordingly. Good. Also, under conditions of small 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 transmitting incoming information, 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 call control area, and is determined by the maximum traffic in the incoming call control area and the connection delay. For this reason, it is not always optimal in each area, and power consumption and incoming connection time are deteriorated.

[0009] It is an object of the present invention to solve such a problem and to provide a mobile communication device which consumes less power and can shorten the arrival and reception time as much as possible.

[0010]

Means for Solving the Problems] mobile communications device of the present invention
And a plurality of base stations, each of which is located at one or more in a plurality of incoming control areas, and a plurality of base stations which are registered in a base station in the incoming control area where the mobile station is located and connected to the base station via a radio line. Mobile stations, and each of the plurality of mobile stations is assigned a type indicating a cycle of intermittent reception and an incoming call group indicating a phase of intermittent reception, and the base station is
In a mobile communication device including means for transmitting incoming information from a network in an incoming information transmitting slot having a period and a phase corresponding to the type and incoming call group to which the mobile station to be called belongs, an incoming information transmitting slot transmitted by the base station Is set separately for each base station or each paging control area, and each base station notifies the repetition cycle of the paging information transmission slot in the base station to the mobile station existing in the radio zone of the base station. It comprises means for, each mobile station, seen including means for variably setting the cycle of the intermittent reception from the notification and type allocated to the own station from the means for the notification, at least some of the plurality of mobile stations
Means for variably setting the intermittent reception cycle of the own station;
Base station in the wireless zone where the intermittent reception cycle exists
Means for notifying the base station, the base station notifies the base station
Incoming call to the mobile station according to notification from the means
A means for changing the assignment of the information transmission slot .

It is preferable that the apparatus further comprises means for setting the repetition period of the slot for transmitting the incoming information transmitted by the base station differently with time. This means may be provided in the base station or in a higher control station on the network side.

[0012]

[0013]

[0014]

The cycle of the slot for transmitting incoming information is changed for each different base station or incoming control area, and sometimes depending on the time. The mobile station changes its intermittent reception cycle depending on which wireless base station or incoming call control area exists. When the base station receives incoming information for a particular mobile station from the network side, the base station obtains a slot for transmitting incoming information corresponding to the type and the incoming call group to which the mobile station belongs in the slot cycle set for the base station, and Send incoming information in the slot.

[0015]

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

The mobile communication device according to the present invention comprises: a plurality of base stations 3 each arranged at least one in a plurality of incoming call control areas;
A plurality of (only one is shown in the figure) mobile stations 4 which perform location registration with the base station 3 in the incoming call control area where the user is present and are connected to the base station 3 via a radio line. The mobile station 4 is assigned a type indicating a cycle of intermittent reception and a paging group indicating a phase of intermittent reception.

The base station 3 transmits incoming information from the network arriving via the exchange 1 and the control station 2 to transmit incoming information of a period and a phase corresponding to the type and the incoming call group to which the mobile station 4 to be called belongs. As means for transmitting in a slot, there are provided an incoming buffer 31, a selective reading circuit 32, a memory 33, a superframe generating circuit 34, and a control channel transmitting circuit 35. A common information generating unit 36 that outputs common information to a broadcast channel of a superframe;
A control channel receiving circuit 37 for receiving a location 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 a control unit 39 that controls each unit in the base station 3 based on the control information from the mobile station 4 received by the control channel receiving circuit 37.

The incoming call buffer 31 stores incoming information from the network to the mobile station. The memory 33 stores, for each mobile station 4 whose position is registered in the base station 3, its type and paging group, or the position of the paging information transmission slot corresponding to the paging group and the paging group. Super-frame generating circuit 34 selectively reads out incoming information that can be inserted into the incoming information transmitting slot, and
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 readout circuit 32 into the slot corresponding to the incoming call group to form a superframe. . The control channel transmitting circuit 35 continuously transmits the superframe to the wireless section.

The location registration and other control information from the mobile station 4 are received by the control channel receiving circuit 37,
9 controls the own station based on the information when necessary, and controls the higher control station 2 for information such as location registration.
Transfer to

Here, the feature of the base station 3 in the present embodiment is that the repetition period of the slot for transmitting the paging information transmitted by the base station 3 is set separately for each base station 3 or paging control area. 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 setting of the repetition period of the slot for transmitting the incoming information can be fixed, in this embodiment, the control unit 39 variably sets the storage content of the memory 33 and the super-frame generating circuit 34. I 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, for example, temporally change the repetition period of the incoming information transmission slot by the control information from the control station 2,
The repetition period for the mobile station 4 can be changed by a request from the mobile station 4. In this case, the control unit 3
9 preferably notifies the mobile station 4 that the assignment 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 unit of the mobile station 4 and transmitting a position registration and other control signals to the base station 3, and a mobile station 4.
And a memory 43 in which the type and the incoming call group assigned to the group are recorded.

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

The mobile station 4 performs location registration when power is turned on and when a new incoming call control area is entered due to a cell change. Thereafter, a broadcast channel is received from the base station 3 to recognize a slot to be received. Therefore, the mobile station 4 depends on which incoming control area has registered the location.
Different intermittent reception can be performed. The control unit 42 also includes means for variably setting the intermittent reception cycle of the own station, and means for notifying the set intermittent reception cycle to the base station in the wireless zone where it is present.

FIG. 4 shows a configuration example of a superframe transmitted by the base station 3. The superframe includes a plurality of slots, and each slot forms a control channel. The first slot “0” of the superframe is a slot for transmitting common information, and is also called a broadcast channel. The subsequent slots “1”, “2”,... Are slots for transmitting incoming call information to the corresponding incoming call groups. Slot "0"
That is, on 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 necessary 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 example of the arrangement of the termination control channel and the operation of the mobile station corresponding thereto. In this figure, (a) shows the maximum number of superframes = 2 and the maximum number of incoming slots = 16.
(B) shows the operation of one mobile station corresponding thereto. (C) is the maximum number of superframes = 1/2, the maximum number of incoming slots =
4 shows the arrangement of the incoming call control channel, and (d) shows the same operation of the mobile station as (b). 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 are one set, and similarly, superframes F13 and F14 are one set. Make up a set. First superframe F of each group
11, F13 includes a slot "0" for transmitting the common information and slots "1" to "8" for calling the first to eighth incoming call groups. The second superframes F12 and F14 are configured by slots “9” to “16” for calling the ninth to sixteenth 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, the slots "1" to "4" for the first to fourth incoming call groups are repeated twice in each of the superframes F21, F22,.

FIG. 5 shows a mobile station of type "1" and reception group "3".
When the location is registered in the reception control area of the channel setting as shown in (a), the slots to be received include the slot “0” of each superframe F11 to F14 and the slots of the first superframes F11 and F13. "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 slots “0” and “3” of the respective superframes F21, F22. Three slots are received for each superframe.

In the two examples, the number of paging groups is also different because the maximum number of paging slots is different. For example, the paging group is divided into four using the lower two bits of the mobile station number and the lower three bits are used. It can be divided into eight using.

As described above, in the paging control area where the maximum number of superframes is large, if the number of mobile stations that can be registered in the individual paging groups is the same, the number of mobile stations that can be registered 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 whose position can be registered is reduced, but the time required for incoming connection is reduced. Therefore, for example, if the configuration of the termination control channel is changed depending on the traffic, the maximum number of superframes is increased where traffic is heavy, that is, the repetition period of the termination information transmission slot is increased to accommodate a large number of mobile stations. As a result, there is no need to divide the incoming call control area into smaller parts, and the probability that the mobile station performs location registration by switching cells is reduced, and the frequency of transmission / reception in the location registration operation is reduced, so that power consumption can be prevented. Further, where traffic is low, the maximum number of superframes can be reduced, and the time required for incoming connection can be reduced.

In the above description, an example has been described in which the mobile station variably sets the intermittent ratio based on the notification from the base station.
If the user of the mobile station wants to save power consumption without requesting an immediate connection, the user can change the intermittent ratio. Further, the user can select the type of the mobile station, and the mobile station can wait in a plurality of types. When the type is changed during the standby or when another type is additionally waited, the base station is notified of the change and the operation shifts to a new standby state operation in response to a command from the base station. FIG. 6 shows an example of notification contents transmitted from the mobile station to the base station when the type 1 and the type 2 are to be simultaneously awaited.

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

The mobile station A operates in a standard intermittent reception cycle according to the notification from the base station, and every other superframe F
21, F23,..., The slots “0” and “3” are received. That is, three slots are received every two 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,. 3 "only. That is, only three slots are received every four superframes.

[0035]

As described above, the mobile communication apparatus of the present invention flexibly changes the repetition period of the slot for transmitting incoming information, that is, the number of superframes transmitted by the base station, thereby expanding or reducing the position registration area. , The incoming connection time can be reduced. In addition, since the intermittent ratio can be changed or the type of mobile station can be changed at the user's will, serviceability can be improved.

[Brief description of the 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 diagram showing a main part of a mobile station.

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

FIG. 5 is a diagram showing an example of an arrangement of an incoming call control channel and an operation of the mobile station corresponding thereto.

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

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

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

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 switching station 2 control station 3 base station 4 mobile station 31 incoming buffer 32 selective readout circuit 33 memory 34 superframe generation circuit 35 control channel transmission circuit 36 common information generation unit 37 control channel reception circuit 38 signal separation circuit 39 control unit 41 transmission and reception Circuit 42 Control unit 43 Memory 44 Intermittent reception variable control circuit

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-3-268627 (JP, A) JP-A-4-302230 (JP, A) JP-A-3-1544437 (JP, A) JP-A-62-162 296632 (JP, A) JP-A-56-143736 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /06-7/38

Claims (1)

(57) [Claims] 1. One or more of each of a plurality of incoming call control areas
Multiple deployed base stations and their own incoming call control
Register the location with the base station in the rear
A plurality of mobile stations connected via a line, and each of the plurality of mobile stations has a type indicating a cycle of intermittent reception.
And a plurality of paging groups indicating the phase of intermittent reception are assigned.
The type of mobile station to which the information should be called and the
A transfer including a means for transmitting in a slot for transmitting phase arrival information.
In the mobile communication device, the reception information transmission slot transmitted by the plurality of base stations is
The repetition period consists of one or more superframes.
One cycle or one superframe
So that the system includes multiple repetition periods.
Separately set for each base station or each of the above-mentioned multiple incoming control areas
And each of the plurality of base stations receives an incoming call at that base station.
The repetition period of the information transmission slot is
Means for notifying mobile stations existing in the zone, wherein each of the plurality of mobile stations
From the notification and the type assigned to the own station, the intermittent reception cycle
Means for variably settingSee At least a part of the plurality of mobile stations performs intermittent reception of the own station.
Means for variably setting the cycle, and the set intermittent reception cycle
Means to notify the base station of the existing wireless zone
Including The plurality of base stations are provided by a means for notifying the base station.
For sending incoming information to the mobile station according to the notification
Includes means to change slot assignments It is characterized by
Mobile communication device.