JPH08172671A - Mobile station calling method - Google Patents

Abstract

PURPOSE: To provide the calling system in which a mobile station is called at an optimum period taking power consumption of the mobile station into account. CONSTITUTION: A hyper frame 101 is comprised of at least one super frame 102 or over, a base station calculates a group number of a mobile station by a predetermined procedure, and a super frame to be called in a hyper frame is decided based on the group number. When a call is received at the mobile station, a call signal is sent by using a call channel in the super frame. The mobile station calculates the group number of its own station by the same procedure as the base station and decides a super frame in a hyper frame to receive the call based on the group number and monitors the call channel of the decided super frame while the mobile station is in the standby state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system for making a call to a mobile station which is not communicating by using a call channel.

[0002]

2. Description of the Related Art As an example of this type of mobile communication system, there is a PDC system whose commercial service is currently started in Japan. In this PDC system, a calling channel is provided for each superframe. When a paging request is issued to the mobile station, the base station uses the paging channel in the superframe at the earliest timing after the paging occurs and transmits a paging signal.

[0003]

As described above, in the conventional mobile communication system, since the signal for calling is transmitted by using the superframe at an arbitrary timing,
A mobile station that is not communicating must monitor the paging channel at all superframe timings so as not to miss this paging. Then, in order to receive the paging channel for each superframe, the receiver of the mobile station must be activated at intervals of the superframe period. It consumes power. Therefore, in particular, in a battery-powered mobile terminal or the like having a relatively small power supply capacity, this power consumption causes a problem that the usable time for communication becomes short.

An object of the present invention is to provide a calling system capable of calling at an optimum cycle in consideration of power consumption of a mobile station.

[0005]

The invention according to claim 1 is
A TDMA mobile communication system in which a plurality of mobile stations exist in a service area, and the mobile stations and the base station communicate using a time-division and framed radio channel, and a predetermined number of plural frames In a mobile station calling method in which a superframe is configured as a repeating cycle, and a calling channel for a mobile station is set for each superframe, a hyperframe is configured with at least one or more of the superframes as a repeating cycle, The base station notifies the mobile station of information regarding the hyperframe period, calculates a group number of the mobile station according to a predetermined procedure, and calculates a plurality of super frames in the hyperframe according to the calculated group number. If a superframe to be called is determined from the frames and a call to the mobile station occurs, this The paging signal is transmitted using the paging channel of the specified superframe, the mobile station receives the information about the hyperframe period notified from the base station, and the group number of the mobile station is the same as that of the base station. Of the plurality of superframes in the hyperframe, the superframe waiting for a call is determined by the calculated group number, and the call channel of the determined superframe is monitored while communication is not performed. The gist is a mobile station calling method characterized by the following.

According to the invention of claim 2, there are a plurality of mobile stations in the service area, and the mobile stations and the base station communicate with each other using time-division and framed radio channels.
In the mobile station paging method, which is a DMA mobile communication system, wherein a super frame is configured with a predetermined number of plural frames as a repeating cycle, and a paging channel of the mobile station is set for each super frame. A hyperframe is configured by using at least one of the frames as a repeating period, and the base station, for each mobile station,
Identification information indicating whether the mobile station is a mobile station of a type that monitors a paging channel for each superframe or a mobile station of a type that monitors for each hyperframe is stored in advance, and a. For a call to a mobile station that monitors a call channel for each hyperframe, the base station notifies the mobile station of information regarding the hyperframe period, and calculates the group number of the mobile station according to a predetermined procedure. , A superframe to be called from among a plurality of superframes in the hyperframe is determined by the calculated group number, and when a call to the mobile station is generated, a calling channel of the determined superframe Is used to send a paging signal, the mobile station receives information about the hyperframe period notified from the base station, calculates the group number of its own station by the same procedure as the base station, and is calculated. The group number determines the superframe waiting for a call among the plurality of superframes in the hyperframe, While not performing signal performed by monitoring the paging channel superframe with the determined, b. For a call to a mobile station that monitors a paging channel for each superframe, the base station sends a paging signal using a paging channel of an arbitrary superframe, and while the mobile station is not communicating, A gist of a mobile station calling method is that it is performed by monitoring a calling channel of the superframe.

The invention according to claim 3 provides the mobile station calling method according to claim 2, characterized in that the identification information is registered from the mobile station to the base station.

According to the invention of claim 4, a plurality of mobile stations are present in the service area, and the mobile stations and the base station communicate with each other using a time-division and framed radio channel.
In the mobile station paging method, which is a DMA mobile communication system, wherein a super frame is configured with a predetermined number of plural frames as a repeating cycle, and a paging channel of the mobile station is set for each super frame, The station
Information relating to the calling cycle of each mobile station is stored in advance, a hyperframe having a length corresponding to the calling cycle is configured by at least one or more superframes, and the group number of the mobile station is determined by a predetermined procedure. Calculate,
A superframe to be called from among a plurality of superframes in the hyperframe is determined by the calculated group number, and when a call to the mobile station occurs, a channel for calling the determined superframe is set. The mobile station transmits a paging signal using the mobile station, stores the information about the paging cycle of the own station in advance, calculates the group number of the own station by the same procedure as the base station, and calculates the group number by the calculated group number. A mobile station calling method is characterized in that a superframe waiting for a call is determined from a plurality of superframes in a hyperframe, and a call channel of the determined superframe is monitored while communication is not performed. .

The invention according to claim 5 is characterized in that the mobile station calling method according to claim 4 is characterized in that the information on the calling cycle is registered from the mobile station to the base station.

[0010]

According to the first aspect of the present invention, since the call is made in the hyper frame period longer than the super frame period, each mobile station may monitor the paging channel in accordance with this long period.

According to the second aspect of the invention, the calling is performed for each mobile station at either the superframe period or the hyperframe period.

According to the third aspect of the present invention, it is possible to select which of the superframe period and the hyperframe period is used for calling by registering from the mobile station to the base station.

According to the invention of claim 4, it is possible to make a call at an arbitrary cycle for each mobile station.

According to the invention of claim 5, the calling cycle can be selected by registration from each mobile station to the base station.

[0015]

Embodiments of the present invention will be described below with reference to the drawings. <First Embodiment> FIG. 1 shows an example of the structure of a frame of a radio channel transmitted from a base station to a mobile station in this embodiment. In FIG. 1, 101 is a hyper frame and 102 is a super frame. In this figure, an example in which the hyperframe 101 is composed of two superframes 102, 102 is shown. Reference numerals 103 to 107 denote paging channels set for each superframe 102.

FIG. 2 shows an example of the system configuration in this embodiment. In FIG. 2, 201 is a mobile communication system that covers a wireless zone, and 202 is a system 201.
The wireless zone 203 covers mobile stations existing in the wireless zone 202.

FIG. 3 is a diagram showing a configuration example of the system 201 in FIG. In FIG. 3, 301 is the mobile station 2
Information storage means for storing information of 03, 203, ..., 302 is a communication means for notifying and calling the hyperframe period information to the mobile stations 203, 203 ,.
Reference numeral 04 is a modulation / demodulation means for communicating with a mobile station via a wireless channel, and 303 is a system control means for performing control for determining a hyperframe to be called based on the mobile station information stored in the information storage means 301. Is shown.

FIG. 4 is a diagram showing the configuration of the mobile station 203 in FIG. 2, where 401 is an information storage means for storing mobile station information, 402 is a communication means for communicating with the system, and 404 is a system. A modulation / demodulation means 403 for communicating via a wireless channel, 403 determines a superframe for receiving a call based on the hyperframe period information notified from the base station and the mobile station information stored in the information storage means 401. The control means which controls is shown.

Next, the operation of this embodiment will be described. The system 201 notifies all mobile stations in the service area 202 that the hyperframe cycle is 2 superframes, by using the broadcast information generally used in mobile communication in advance.

The mobile station 203 determines the group number of its own group based on the stored information of the mobile station by a predetermined procedure, and intermittently receives only the corresponding call channel in the hyperframe. . Here, the predetermined procedure can be realized by determining the machine number of the mobile station by using the remainder obtained by dividing the machine number of the mobile station by the number of superframes forming the hyperframe. Specifically, in the example of FIG. 1, since two superframes form a hyperframe, a mobile station with an odd machine number has 10 paging channels.
The mobile stations that receive only 3, 105, 107, ... And have an even machine number are preset to receive only the paging channels 104, 106 ,.

In the system 201, when calling a mobile station, a calling channel to be called is determined in the same procedure as that of the mobile station, and the mobile station is called by the corresponding calling channel. Specifically, for example, when an incoming call request to the mobile station 203 with an odd machine number occurs before the call channel 105 is sent after the call channel 103 is sent, the mobile station is used by using the call channel 105. The operation of calling 203 is performed.

<Second Embodiment> In the above-described embodiment, since calls are made in the hyperframe cycle for all mobile stations, the cycle for monitoring the calls is longer than in the conventional case, and power consumption is reduced. can do.

By extending the call monitoring period in this way, the call delay increases for all mobile stations. However, it can be said that it is not necessary to reduce the power consumption for a vehicle-mounted terminal or the like, which has a large battery capacity and is not significantly affected by the power consumption accompanying the monitoring of the call channel, even if the communication quality is sacrificed.

Therefore, in the present embodiment, in consideration of the case where there is a mixture of mobile stations having no limitation in power supply capacity and an inability to tolerate a call delay, a mobile station of a type that waits for each mobile station in a superframe cycle is used. The system 201 is divided into a mobile station of a type that waits in a hyperframe cycle.
Stores the type information indicating to which type each mobile station belongs. Then, depending on the type of each mobile station, it is selected whether to make a call for each superframe or to make a call at a hyperframe cycle. The mobile station making a call for each superframe makes a call using the paging channel in the superframe as described in the section of the prior art, and the mobile station making a call in a hyperframe period has the above-mentioned description. The method described in the first embodiment is applied.

<Third Embodiment> In this embodiment, in addition to the second embodiment, the type information is further registered from the mobile station as needed. By doing so, it is possible to change the calling method when the same mobile station is driven by an external power source and when it is driven by a battery, and it is possible to realize control suitable for the power source mode used.

<Fourth Embodiment> In the first embodiment described above, an example in which the hyperframe period is set in common to all mobile stations by notifying it with broadcast information has been shown. If the hyperframe cycle is managed in advance for each station, the calling cycle can be changed for each mobile station. Generally, the battery capacity varies depending on the type of battery used for each mobile station, but the above method enables control according to the battery capacity of the mobile station.

<Fifth Embodiment> Furthermore, in the fourth embodiment, the mobile station which has started to use performs control to register the hyperframe period from the mobile station to the network when the remaining battery capacity becomes low. In this case, since control can be performed according to the remaining battery capacity, control more suitable for the type of power source used can be realized.

[0028]

As described above, according to the present invention,
There is an effect that the call can be made at an optimum cycle suitable for the battery capacity of the mobile station.

[Brief description of drawings]

FIG. 1 is a diagram showing a frame structure of a radio channel transmitted from a base station in each embodiment of the present invention.

FIG. 2 is a diagram showing a configuration of a system to which the present invention is applied.

FIG. 3 is a diagram showing a configuration example of a network system in the first embodiment of the present invention.

FIG. 4 is a diagram showing a configuration example of a mobile station in the embodiment. 101 ... Hyperframe, 102 ... Superframe, 103-107 ... Calling channel.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Miya ▲ Saki ▼ Ryochi NTT 10-2, Toranomon, Minato-ku, Tokyo NTT Mobile Communication Network Co., Ltd.

Claims (5)

[Claims] 1. A TDMA mobile communication system in which a plurality of mobile stations are present in a service area, and the mobile stations and the base station communicate using a time-divided and framed radio channel, which is predetermined. In a mobile station calling method in which a superframe is configured with a plurality of multiple frames as a repeating cycle, and a paging channel of a mobile station is set for each superframe, at least one of the superframes is used as a repeating cycle. Configuring a frame, the base station notifies the mobile station of information about the hyperframe period, calculates a group number of the mobile station by a predetermined procedure, the hyperframe by the calculated group number A superframe to be called out of a plurality of superframes in the In this case, the paging signal is transmitted using the paging channel of the determined superframe, the mobile station receives the information on the hyperframe period notified from the base station, and outputs the group number of its own station. The same procedure as that of the base station is used for calculation, and the superframe waiting for a call among the plurality of superframes in the hyperframe is determined by the calculated group number, and while the communication is not performed, the determined superframe A mobile station calling method characterized by monitoring a calling channel. 2. A TDMA mobile communication system in which a plurality of mobile stations are present in a service area, and the mobile stations and the base station communicate by using a time-division and framed radio channel, which is predetermined. In a mobile station calling method in which a superframe is configured with a plurality of multiple frames as a repeating cycle, and a paging channel of a mobile station is set for each superframe, at least one of the superframes is used as a repeating cycle. The base station constitutes a frame, and for each mobile station, the base station is a mobile station of a type in which the mobile station monitors a paging channel for each superframe, or a mobile station of a type for monitoring for each hyperframe. Identification information indicating whether or not is stored in advance, and a. For a call to a mobile station that monitors a call channel for each hyperframe, the base station notifies the mobile station of information regarding the hyperframe period, and calculates the group number of the mobile station according to a predetermined procedure. , A superframe to be called from among a plurality of superframes in the hyperframe is determined by the calculated group number, and when a call is made to the mobile station, the calling channel of the determined superframe , The mobile station receives the information about the hyperframe period notified from the base station, calculates the group number of its own station by the same procedure as the base station, and calculates According to the group number, a superframe waiting for a call is determined from among a plurality of superframes in the hyperframe. And, while not communicating performed by monitoring the paging channel superframe with the determined, b. For a call to a mobile station that monitors a paging channel for each superframe, the base station sends a paging signal using a paging channel of an arbitrary superframe, and while the mobile station is not communicating, A mobile station calling method, which is performed by monitoring a calling channel of the superframe. 3. The mobile station calling method according to claim 2, wherein the identification information is registered from the mobile station to the base station. 4. A TDMA mobile communication system in which a plurality of mobile stations are present in a service area, and the mobile stations and the base station communicate by using a time-division and framed radio channel, which is predetermined. In a mobile station calling method in which a superframe is configured with a plurality of multiple frames as a repeating cycle, and a paging channel of the mobile station is set for each superframe, the base station relates to the calling cycle of each mobile station in advance. Information is stored, a hyperframe having a length corresponding to the calling cycle is configured by at least one or more superframes, the group number of the mobile station is calculated by a predetermined procedure, and the calculated A superframe to be called is determined from a plurality of superframes in the hyperframe by a group number, and a call to the mobile station is made. When a call occurs, the paging signal is sent using the paging channel of the determined superframe, the mobile station stores in advance information regarding the paging cycle of the own station, and the group number of the own station is stored in the base station. It is calculated by the same procedure as the station, and the superframe waiting for a call is determined from the plurality of superframes in the hyperframe by the calculated group number, and for the call of the determined superframe while communication is not performed. A mobile station calling method characterized by monitoring a channel. 5. The information relating to the calling cycle is registered from the mobile station to the base station.
Described mobile station calling method.