JPH0575528A - Incoming control system and its mobile station for mobile object communication system - Google Patents

Abstract

PURPOSE:To enable a user to select the waitable time or the incoming connection delay time of a desired mobile station. CONSTITUTION:A mobile station device of a mobile station 40 transmits a mode setting change signal to a base station 41. The station 41 informs a control, station 43 of the received mode setting change signal and updates the contents of a home memory 46. An exchange station 45 applies the incoming signal including the mode which is updated based on the contents of the memory 46 to the station 43 after reception of the incoming signal. The station 41 receives the incoming signal including the updated mode from the station 43 and transmits the signal to the station 40 after changing the transmitting interval of the slot including the incoming information on the incoming control channel. The station 40 receives the incoming signal based on the changed mode.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used for mobile station incoming control of a mobile communication system for mobile communication. The present invention relates to a battery saving operation of a mobile station. The present invention relates to changing an intermittent ratio for battery saving. INDUSTRIAL APPLICABILITY The present invention can be applied to a mobile station equipped with a transmitter / receiver or a mobile station equipped with only a receiver (selective call receiver).

[0002]

2. Description of the Related Art FIG. 4 is a diagram showing a frame format of a signal of an incoming control channel of an incoming call control system of a conventional mobile communication system and a receiving operation timing of a mobile station.

The base station transmits incoming call information to a plurality of mobile stations through a slotted paging-type incoming call control channel (PCH). The mobile station receives the incoming call control channel during standby and knows whether there is an incoming call. At this time, the mobile station performs the intermittent reception of the incoming control channel for the purpose of saving the battery by reducing the power consumption. Discontinuous reception is a method in which mobile stations are divided into groups, the base station transmits incoming call information to the incoming call control channel in slots for each group, and the mobile station receives only the slots in which the incoming call information of its own group is transmitted. is there.

The ratio T _B / T _A of the reception operation time T _B of the intermittent reception system to the reception operation time T _A of the continuous reception system is called an intermittent ratio.

In FIG. 4, reference numerals 50 ₁ to 50 ₈ indicate incoming call information for groups ₁ to ₈ . As shown in FIG. 4, the incoming control channel is slotted, and incoming information of eight groups is repeatedly transmitted. The mobile station is in the receiving state only in the slot in which the information of the group to which the mobile station belongs is transmitted. 5 in FIG.
The reception intermittent timing of the mobile stations belonging to the group is shown, and the intermittence ratio is 1/8. As a result, the intermittent reception method has a shorter reception operation time and lower power consumption than the continuous reception method.

The intermittence ratio greatly affects the incoming call connection delay and power consumption of the mobile station, and the incoming call connection delay and power consumption are in a trade-off relationship. The smaller the intermittent ratio, the lower the power consumption and the longer the standby time of the mobile station, but the longer the incoming connection delay. Conversely, as the intermittent ratio increases, the power consumption increases and the standby time becomes shorter, but the incoming connection delay becomes shorter.

[0007] Here, among the users, there are a mixture of a user who attaches importance to prolonging the standby time rather than a delay of incoming connection and a user who attaches importance to immediate incoming connection rather than prolonging the standby time. it is conceivable that. Also, it may be considered that one user sometimes attaches importance to prolonging the standby time and places importance on immediacy of incoming connection.

[0008]

However, in such an incoming call control system and a mobile station of the conventional mobile communication system, since the intermittent ratio is fixed, the user who attaches importance to prolonging the standby time. It is not possible to provide a satisfactory service to both the user and the user who attach importance to immediate incoming connection at the same time, and attach importance to prolonging the standby time to one user. However, there is a drawback in that it is not possible to provide a service that satisfies both the situation and the case where importance is placed on the immediacy of the incoming connection.

The present invention solves the above-mentioned drawbacks, and provides a call control method and a mobile station of a mobile communication system in which a user can select a standby time or a call connection delay time of a mobile station desired by the user. To aim.

[0010]

A first aspect of the present invention is a control system, which comprises one or more base stations arranged in a paging area under the control of a control station connected to a switching center, and the base station. One or more mobile stations that communicate with the mobile stations, the mobile stations being grouped, and the base station via the grouped slots of a paging-type incoming control channel based on an incoming signal from the control station. Means for transmitting incoming call information to the mobile station, and the mobile station includes means for intermittently receiving the incoming call control channel in synchronization with a slot containing the incoming call information of its own group. In the method, the base station includes means for changing a transmission interval of a slot containing the incoming information, and means for controlling the changing means.

The present invention can also include means for accessing the control means via a wireless line and instructing the control means to change the transmission interval.

A second aspect of the present invention is a hardware configuration of a mobile station, which includes transmitting / receiving means for transmitting / receiving a radio frequency signal to / from a base station, and incoming information of its own group of incoming control channels from the base station. In a mobile station of a mobile communication system including a mobile station control circuit that performs control of intermittently receiving slots including the man-machine interface for designating an intermittent ratio for the mobile station control circuit, the mobile station The control circuit is characterized by including means for transmitting the change information of the intermittent ratio to the base station via the transmitting / receiving means based on the specified intermittent ratio.

[0013]

The base station can change the transmission interval of the slot containing the incoming information by controlling the control means. The user can access the control means via the wireless line and change the transmission interval of the slot containing the incoming call information.
It can also be changed via the telephone line.

As described above, the standby time or the incoming connection delay time of the mobile station desired by the user can be selected.

[0015]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of a mobile communication network of an incoming call control system of a mobile communication system according to an embodiment of the present invention. FIG. 2 is a block configuration diagram of a mobile station of the mobile communication system of the present invention.

In FIG. 1 and FIG. 2, the incoming call control system of the mobile communication system is a switching center 45 connected to a general telephone network or another mobile communication network, and a control station 43 connected to the switching center 45. A home memory 46 connected to the switching center 45 and the control station 43 and a paging area 44 under the control station 43, each of which covers the wireless cell 42.
The mobile station 40 includes the above-described base station 41 and one or more mobile stations 40 including mobile stations that communicate with the base station 41. The mobile stations 40 are grouped, and the base station 41 is based on an incoming signal from the control station 43. The mobile station 4 includes means for transmitting incoming call information through the grouped slots of the paging control incoming call control channel.
0 includes means for receiving intermittently in synchronization with the slot containing the incoming information of the own group of the outgoing incoming control channel.

The feature of the present invention is that the base station 41 includes means for changing the transmission interval of the slot containing the incoming information, and means for controlling the changing means is provided. It is characterized in that it is included in the switching center 45, the control center 43 and the home memory 46.

The mobile station 40 also includes means for accessing the control means via a wireless line and instructing the control means to change the transmission interval.

Further, the mobile station of the mobile communication system is
An antenna 11, a transmitter / receiver / divider 12, a transmitter 13 and a receiver 14 as transmitting / receiving means for transmitting / receiving a radio frequency signal to / from the base station 41, and a slot containing the incoming call information of its own group of the incoming call control channel from the base station 41 are intermittent. And a mobile station control circuit 15 for controlling the reception of the information. Here, the feature of the present invention is that the mobile station control circuit 15 is provided with a mode changeover switch 16 as a man-machine interface for designating the intermittent ratio, and the mobile station control circuit 15 transmits on the basis of the designated intermittent ratio. This is to include means for transmitting the change information of the intermittent ratio to the base station 41 via the unit 13.

An incoming call control method of the mobile communication system having such a configuration and an operation of the mobile station will be described. Figure 3
FIG. 3 is a diagram showing a frame format of a signal of an incoming control channel of an incoming call control system of a mobile communication system of the present invention and a reception operation timing of a mobile station.

In FIG. 1 and FIG. 2, the intermittent reception mode is the mode 1 (1/9) which emphasizes the immediacy of incoming connection.
And Mode 2 (1/18), which considers the immediacy of incoming connection and the extension of the standby time, and the Mode 3 (1/36), which emphasizes the extension of the standby time. It is divided into types.

A mobile station number for identifying the mobile station to be called is added to each mobile station 40, and the mobile station control circuit 1
5 stores this mobile station number. The grouping of mobile stations divided into groups 1 to 8 follows the following equation, where N is the mobile station number and G is the group number to which the mobile station belongs.

G = (Nmod8) +1. ． ． ． ． (1) However, mod: remainder calculation The mobile station 40 stores the group number according to the equation (1) in the mobile station control circuit 15.

The receiving slot of the incoming control channel during standby in each mode of the mobile station 40 will be described. FIG. 3 shows the reception operation timing in each mode of the mobile station 40 in which the frame format of the incoming control channel and the mobile station number are 32n + 4 (n = 1, 2, 3, ...). The incoming control channel is formed by repeating the hyperframe 30, and the hyperframe 30 is the first superframe 3
1 ₁ to the fourth super frame 31 ₄ . The first superframe 31 ₁ to the fourth superframe 31 ₄ are composed of 9 slots of superframe common information 33 _{1 to} 33 ₄ and incoming call information 32 _{1 to} 32 ₈ of groups _{1 to 8} . The superframe information 33 _to 333 _4, includes a super-frame number information, the mobile station 40 in the example, when the mode switching by receiving a superframe common information 33 _to 333 _4, the intermittent reception timing Establish.

When the mode changeover switch 16 of the mobile station 40 is designated to the mode 1 by the user, the mobile station 40 belongs to the group to which the mobile station 40 belongs in all the first superframes 31 ₁ to the fourth superframes 31 ₄ . Receive only the incoming information slot of. As a result, since one superframe is composed of 9 slots, the intermittent ratio in mode 1 is 1/9.

When the mode changeover switch 16 of the mobile station 40 is designated as mode 2 by the user, the receiving slot of the mobile station 40 is determined by the numerical value M ₂ derived by the following equation.

M ₂ = INT (N / 8) mod2. ． ． ． ． (2) However, INT (): rounding down calculation The mobile station 40 whose numerical value M ₂ is “0” receives the incoming information slot to which its own station in the first superframe 31 ₁ and the third superframe 31 ₃ belongs, The mobile station whose numerical value M ₂ is “1” receives the incoming information slot of the group to which the own station belongs in the second superframe 31 ₂ and the fourth superframe 31 ₄ . As a result, the intermittent ratio in mode 2 is 1 /
It will be 18.

When the mode changeover switch 16 of the mobile station 40 is designated as mode 3 by the user, the receiving slot of the mobile station 40 is determined by the numerical value M ₃ derived by the following equation.

M ₃ = INT (N / 8) mod4. ． ． ． ． ． (3) The mobile station 40 whose numerical value M ₃ is “0” receives only the incoming call information slot of the group to which the own station belongs in the first superframe 31 ₁ . Similarly numeric M ₃ is "1", "2", "3" a mobile station 40 is to receive only the incoming call information slot group own station belongs in the second superframe ₃₁₂ to fourth super frame, respectively .. As a result, the intermittent ratio in mode 3 becomes 1/36.

Each mobile station 40 stores the incoming information slot determined by the above method in the mobile station control circuit 15.
When the incoming signal arrives from the upper station, the base station 41 checks the mobile station number of the mobile station 40 to be called and the mode setting status, determines the slot received by the mobile station 40 according to the above method, A means for inserting incoming call information into the slot is provided.

Next, the mode setting change operation when the user changes the mode of the mobile station 40 will be described. At the time when the user changes the mode of the mobile station 40 with the mode change switch 16, the mobile station control circuit 15 of the mobile station 40 detects the mode change and the newly set mode, and changes the mode setting to the transmission unit 13. The signal is transmitted to the base station 41. This mode setting change signal includes the mobile station number of the own station and the mode identification number of the newly set mode.

The base station 41 which has received the mode setting change signal detects that the mode setting of the mobile station 40 has been changed from the mobile station number included in the mode setting identification number, and through the control station 43. By accessing the individual data of the mobile station 40 in the home memory 46, the mode setting information in this data is changed to the mode indicated by the mode identification number included in the mode setting change signal.

Upon confirming that the change of the mode setting information is completed in the home memory 46, the base station 41 transmits a mode setting change completion signal to the mobile station 40.
The mode setting change completion signal includes the mobile station number of the mobile station 40 and a code indicating the mode setting change completion.

When the mobile station 40 receives the mode setting change completion signal and determines that the mobile station number included in the signal is equal to the mobile station number of the mobile station 40, the home station 46 completes the mode setting change of the mobile station 40. Detect that you have done. The superframe which part is either in the superframe to be received incoming control channel in the new mode is stored in the mobile station control circuit 15 common information 33 _1-3
3 is determined by examining the super frame number _4, repeat the reception of only the incoming information part subsequent group own station belongs in the superframe at the hyperframe period and shifts to a new reception timing.

By the above-mentioned mode setting change procedure, the mobile station 40 changes the mode setting and shifts to the standby state in which the intermittent ratio is different.

Next, a method of controlling an incoming call to the mobile station 40 will be described. An incoming signal including the mobile station number of the destination mobile station 40 is transmitted from another mobile communication network or a general telephone network to the switching center 45.
When arriving at, the switching center 45 accesses the home memory 46, and from the individual data of this mobile station 40,
Of the general calling area of the mobile station 40
The mode setting information is checked, and an incoming signal added with the mode setting information is sent to the control station 43 under the paging area 44.

Upon receipt of this incoming signal, the control station 43 sends this incoming signal to all the base stations 41 under its control.

Each base station 41 receives the incoming mobile station 4 based on the mobile station number and the mode setting information of the incoming signal.
The incoming call information slot of the incoming call control channel of 0 is determined by the method described above, the incoming call information is inserted into the determined incoming call information slot, and the mobile station 40 of the own wireless cell 42 is notified by the wireless channel. The destination mobile station 40 can already receive the incoming call information slot of the same incoming call control channel and can receive this incoming call information. The mobile station 40, which has received the incoming call information, checks the mobile station number included in the information, and if it is the same as that of the own station, it knows that the incoming call is to the own station. After that, the destination mobile station 40 communicates point-to-point with the base station 41 having the existing wireless cell as a subordinate, and performs the incoming connection.

By the incoming call control method described above, the user can change the intermittence ratio and select the standby time or incoming call connection delay time of the desired mobile station from three types of modes.

In this embodiment, the frame format of the incoming control channel is the frame format shown in FIG. 3, but the number of groups in the hyperframe may not be eight.
Also, if the number of superframes in the hyperframe is increased, the number of types of modes that can be set by the user can be increased, and various intermittent ratios can be selected.

[0041]

As described above, the present invention has an excellent effect that the user can select the standby time or the incoming connection delay time of the mobile station desired. The user can select an intermittent ratio according to the traffic and can set a contract with different charges by selecting the intermittent ratio.

[Brief description of drawings]

FIG. 1 is a block configuration diagram of an incoming call control system of a mobile communication system according to an embodiment of the present invention.

FIG. 2 is a block configuration diagram of a mobile station of the mobile communication system of the present invention.

FIG. 3 is a diagram showing a frame format of a signal of an incoming control channel of an incoming call control system of a mobile communication system of the present invention and a reception operation timing of a mobile station.

FIG. 4 is a diagram showing a frame format of a signal of an incoming call control channel of an incoming call control system of a mobile communication system of a conventional example and a receiving operation timing of a mobile station.

[Explanation of symbols]

11 antenna 12 transmitter / receiver 13 transmitter 14 receiver 15 mobile station control circuit 16 mode selector switch 30 hyperframe 31 ₁ first superframe 31 ₂ second superframe 31 ₃ third superframe 31 ₄ fourth superframe 32 ₁ Up to 32 ₈ , 50 ₁ to 50 ₈ Incoming information 33 _{1 to} 33 ₄ Superframe common information 40 Mobile station 41 Base station 42 Wireless cell 43 Control station 44 General call area 45 Switching station 46 Home memory

Claims (3)

[Claims] 1. A mobile station comprising one or more base stations arranged in a paging area under the control station connected to a switching center, and one or more mobile stations communicating with the base station. Are grouped, the base station includes means for transmitting incoming information through the grouped slots of the paging-type incoming control channel based on an incoming signal from the control station, and the mobile station is In an incoming call control method for a mobile communication system including means for intermittently receiving in synchronization with a slot containing incoming call information of its own incoming call control channel, transmission of a slot containing the incoming call information to the base station An incoming call control system for a mobile communication system, comprising means for changing an interval and means for controlling the changing means. 2. The mobile communication system according to claim 1, wherein the mobile station includes means for accessing the control means via a wireless line and instructing the control means to change the transmission interval. Incoming call control method. 3. A transmitting / receiving means for transmitting / receiving a radio frequency signal to / from a base station, and a mobile station control circuit for controlling intermittently receiving a slot containing incoming information of its own group of an incoming control channel from the base station. In a mobile station of a mobile communication system comprising: a man-machine interface for designating an intermittent ratio with respect to the mobile station control circuit, the mobile station control circuit via the transmitting / receiving means based on the designated intermittent ratio. A mobile station of a mobile communication system, comprising means for transmitting the change information of the intermittent ratio to the base station.