JPS63176026A - Mobile radio communication system - Google Patents

Abstract

PURPOSE:To decrease time sending a notice signal to a mobile radio equipment by arranging a timer counting the period of the notice signal to the mobile radio equipment and resetting the timer simultaneously in the mobile radio equipment in the radio zone in the end timing of the notice signal. CONSTITUTION:A control section 55 starts the reception of the notice signal based on the time of a notice signal reception management timer 59 to reset a notice signal reception managing timer 59 and an intermittent reception managing timer 58 after the notice signal is actually received. The intermittent reception managing timer 58 manages the intermission reception period of the mobile radio equipment 5 synchronously with the intermittent reception managing timer 4A. In the timing when the mobile radio equipment 5 receives the notice signal, it is quickened to a degree to allow the error of the intermittent reception managing timers 4A, 58 to the time expected for the radio base station 4 to send actually the notice signal. Thus, the transmission time of the notice signal is shortened, the traffic capacity of the control channel is decreased and the processed call processing capacity is increased.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention is applied to a mobile radio communication system in which a service area is constituted by a plurality of radio zones.

In particular, it relates to location registration of mobile radios.

[Conventional technology]

In mobile radio communication systems, it is necessary to register which radio zone of a radio base station a mobile radio belongs to in the mobile radio and a line control device that accommodates the radio base station. In conventional mobile radio communication systems, each radio base station intermittently transmits a broadcast signal containing its own station number on the same radio channel. A mobile radio device intermittently turns on and off its receiver while in standby mode, and when it receives a broadcast signal, it receives the number of the radio base station to which it belongs (base station number).
and sends information including this number and its own mobile device number to the line control device via the wireless base station. At this time, the line control device stores, corresponding to each mobile radio device, the number of a radio base station for communicating with that mobile radio device.

FIG. 7 is a time chart showing the relationship between broadcast signal transmission and intermittent reception cycle in a conventional mobile radio communication system.

fal indicates the transmission timing of the broadcast signal by the radio base station, and fb) indicates the intermittent reception cycle of the mobile radio. When the wireless base station is not transmitting a broadcast signal, it is transmitting other call processing control signals.

[Problem that the invention seeks to solve]

As shown in Figure 7, in the conventional mobile radio communication system,
Each mobile radio device performs intermittent reception asynchronously, and the radio base station does not manage the intermittent reception cycle of the mobile radio devices under its control. For this reason, the radio base station does not know when a mobile radio is in a receiving state, and must continuously send out broadcast signals over an intermittent reception period so that the mobile radio can receive them reliably. For this reason, it takes a long time to send out a notification signal, a short time to send out call processing control, and the control channel is used inefficiently.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, shorten the time it takes to send a notification signal to a mobile radio, and provide a mobile radio communication system that uses control channels with high efficiency.

[Means for solving problems]

In the mobile radio communication system of the first aspect of the present invention, radio base stations are arranged in each of a plurality of radio zones, these radio base stations are managed by a line control device, and the radio base stations are arranged at different timings. A notification signal is periodically sent to mobile radio devices within the radio zone, and the mobile radio device determines which radio base station's wireless zone it is in when it receives the notification signal from the radio base station that sent the notification signal. In a mobile radio communication system that notifies the line control device through a station, the mobile radio is equipped with a timer that measures the period of the notification signal, and this timer is activated within one wireless zone at the end timing of each notification signal. The present invention is characterized in that all mobile radio devices are reset all at once.

In addition to the method of the first invention, a mobile radio communication system according to a second invention of the present invention is such that, when the mobile radio device cannot receive the notification signal at the timing measured by the timer, the mobile radio communication system continues to receive the notification signal at the timing measured by the timer. The wireless base station is characterized in that it receives broadcast signals from other wireless base stations.

[For production]

In the mobile radio communication system of the present invention, the intermittent reception period of mobile devices under the control of a radio base station is precisely synchronized by resetting the timers all at once using a broadcast signal. As a result, the notification signal can be transmitted at a limited and short timing when the mobile radio is in the receiving state. Therefore, there is no need to repeatedly transmit broadcast signals to the mobile radios under its control.

If the mobile radio device does not receive the broadcast signal even after the timing measured by the timer has elapsed, the mobile radio device determines that it has left the wireless zone of the previous wireless base station, and transfers to the new wireless base station. Receive broadcast signals from.

〔Example〕

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

An exchange 2 is connected to the fixed ML via a wired line 10. The exchange 2 has a line control device (
RCU) 3 is connected, and a wired telephone 6 is further connected. A plurality of wireless base stations 4 are connected to the line control device 3 via a wired line 12 .

The radio base station 4 can be connected to any of the mobile radio devices 5 via a radio line 13.

Fixed network 1 is public telecommunications network (PS).
TN) or on-site work.

The exchange 2 is a local exchange (
LS) or a private branch exchange (PABX) that accommodates only subscribers within the enterprise. The transmission line 1) is a subscriber transmission line or a local transmission line from the exchange to the subscriber.

Figure 2 shows broadcast signal transmission from radio base station 4 and mobile radio Ja5.
The time chart with the reception is shown. (al indicates the notification signal reception timing from the radio base station 4, (bl is the mobile radio device 5 existing within the radio zone of this radio base station 4)
-1 to 5-n show the timing of broadcast signal reception on/off. The mobile radio devices 5-1 to 5-n are connected to this radio base station 4.
As long as the broadcast signal is under the control of , the broadcast signal can be received even if the broadcast signal is only one frame.

Next, the configurations of the line control device 3, radio base station 4, and mobile radio device 5 will be explained.

FIG. 3 shows a block diagram of the line control device 3. As shown in FIG.

The matrix switch 31 is connected to the fixed network 1 via a plurality of office line interfaces 32 and to each radio base station 3 via a radio base station interface 33.

A dial signal transmission trunk 34 is further connected to the matrix isochi 31. Matrix switch 31, station line interface 32, wireless base station interface 33
And the dial signal sending trunk 34 is connected to the control section 35. Furthermore, the control unit 35 includes a program memory 3
6. A position information management table 37 and a notification signal transmission management timer 38 are connected.

The matrix switch 31 performs line switching between the transmission line 1 ) connected to the exchange 2 and the wired line 12 connected to the wireless base station 4 . The office line interface 32 detects an incoming signal (168Z) and opens and closes a DC loop with the exchange 2. The wireless base station interface 33 is
Control signals are exchanged with the wireless base station 4. The dial signal sending trunk 35 sends a DTMF format dial signal to the exchange 2. The control unit 35 controls the exchange of control signals with the wireless base station 4 and the opening/closing of a DC loop with respect to the exchange 2 according to the program in the program memory 36 . The location information management table 37 stores and manages the wireless base station 4 closest to each mobile wireless device 5. The broadcast signal transmission management timer 38 manages the timing at which each wireless base station 4 is instructed to transmit a broadcast signal.

FIG. 4 is a block diagram of the wireless base station 4. As shown in FIG.

The voice line between the radio base station 4 and the line control device 3 includes a line relay 41 for opening and closing the line and a two-wire/four-wire conversion circuit 4.
2 to a wireless transceiver 43. The radio transceiver 43 includes two antennas 44, one for transmission and one for reception. A control line between the radio base station 4 and the line control device 3 is connected to a control unit 46 via a control signal transmitter/receiver 45. However, in FIG. 4, the voice line and the control line are shown by the same line. The control unit 46 is connected to the line relay 41 and the wireless transceiver 43. Furthermore, a mobile device number memory 47, a local number memory 48, a program memory 49, and an intermittent reception management timer 48 are connected to the control section 46.

The mobile number memory 47 is constituted by a random access memory and stores the mobile number during call processing.

The own station number memory 48 is composed of a read-only memory and stores the base station number assigned in advance to the own station.

The program memory 49 consists of read-only memory,
Store the control program.

The intermittent reception management timer 4A is for regulating the transmission timing of the broadcast signal, and the control unit 46 transmits one frame of the broadcast signal when the timer value to the intermittent reception management timer 4 reaches a predetermined value. and reset this timer value. Here, the transmission timing of the broadcast signal of each radio base station 4 is set in advance in the intermittent reception management timer 4A.

FIG. 5 shows a block diagram of the mobile radio device 5. As shown in FIG.

The mobile radio device 5 has two antennas 51, one for transmitting and one for receiving.
These antennas 51 are connected to a wireless transceiver 52. The wireless transceiver 52 includes a receiver 53 and a transmitter 54
and is connected to the control section 55. A dial key 56 and a hook switch 57 are connected to the control unit 55 . Furthermore, the control unit 55 is connected to an intermittent reception management timer 58, a notification signal reception management timer 59, an own machine number memo IJ5A, a base station number memory 5B, and a program memory 5C.

The mobile device number memory 5A is constituted by a read-only memory and stores the own mobile device number assigned in advance. The base station number memory 5B is a random access memory, and stores the radio base station number of the radio base station 4 closest to the mobile radio device 5.

The control unit 55 starts receiving the notification signal based on the timer value of the notification signal reception management timer 59, and after actually receiving the notification signal, starts the reception of the notification signal reception management timer 59.
and resets the intermittent reception management timer 58. The intermittent reception management timer 58 is synchronized with the intermittent reception management timer 4A of the radio base station 4 and manages the intermittent reception cycle of the mobile radio device 5. Here, the timing at which the mobile radio device 5 enters the state of receiving the broadcast signal allows for an error of the intermittent reception management timers 4A and 58 with respect to the expected time when the radio base station 4 actually transmits the broadcast signal. Do it as quickly as possible.

Further, when the notification signal cannot be received, the control unit 55 maintains the reception state of the notification signal, selects a new wireless base station 4, and transmits the line control bag W3 via this wireless base station 4.
Sends an automatic location registration signal to

FIG. 6 shows a control sequence for automatic location registration of a mobile radio.

When the mobile radio device 5 moves to the radio zone of another radio base station 4, even if the value of the broadcast signal reception management timer 59 reaches a predetermined value and the mobile radio device 5 enters the broadcast signal receiving state, it cannot receive the broadcast signal. At this time, the mobile radio device 5 continuously maintains the reception state of the radio transceiver 52 for a certain period of time and searches for the broadcast signal. The control unit 55 of the mobile radio device 5 selects an appropriate radio base station 4 from among the broadcast signals received within the certain period of time, for example, the radio base station with the highest broadcast signal reception level,
Via this radio base station, the radio base station number extracted from the broadcast signal and own machine number memory 5 are sent to the line control device 2.
The automatic location registration signal containing the mobile radio number read from 8 is sent.

The line control device 3 sends an automatic location registration completion signal containing the radio base station number and mobile radio device number included in the automatic location registration signal to the mobile radio device 5 via the radio base station 4. Furthermore, the line control device 3 updates the contents of the location information management table 37, and updates the radio base station number for the mobile radio to the new radio base station number.

When the mobile radio 5 receives the automatic location registration completion signal,
The contents of the base station number memory 5B are updated to the new wireless base station number.

〔Effect of the invention〕

As described above, the mobile radio communication device of the present invention uses broadcast signals to accurately synchronize the intermittent reception cycles of mobile radios under the control of a radio base station, and the radio base station manages the timing. As a result, the transmission time of the broadcast signal can be shortened, so the traffic capacity of the control channel can be reduced, and the call processing capacity that can be processed can be increased.

Furthermore, since the radio base station can determine the timing of the receiving state of the mobile radio when a call arrives at the mobile radio, the incoming call signal can be sent at that timing, and the time required to send the incoming call signal can be shortened. Therefore, there is an effect of increasing the call processing capacity that can be processed by the control channel.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a mobile radio communication device according to an embodiment of the present invention. FIG. 2 is a time chart of broadcast signal transmission by a wireless base station and reception by a mobile wireless device. FIG. 3 is a block diagram of the line control device. FIG. 4 is a block diagram of the wireless base station. FIG. 5 is a block diagram of a mobile radio device. FIG. 6 is a diagram showing a control sequence for automatic location registration of a mobile radio. FIG. 7 is a time chart showing the relationship between notification signal transmission and intermittent reception cycle in a conventional mobile radio communication system. DESCRIPTION OF SYMBOLS 1... Fixed network, 2... Exchange, 3... Line control device, 4... Wireless base station, 5... Mobile radio device, 6...
・Wired telephone, 10...Wired line, 1)...Transmission line, 12...Wired line, 13...Wireless line, 31...
- Matrix switch, 32... Office line interface, 33... Wireless base station interface, 34... Dial signal transmission trunk, 35... Control unit, 36...
- Program memory, 37... Position information management table, 38... Notification signal transmission management timer, 41... Line relay, 42... Two-wire four-wire conversion circuit, 43... Radio transmitter/receiver, 44 ... Antenna, 45... Control signal transmitter/receiver, 46... Control unit, 47... Mobile number memory, 48... Own number memory, 49... Program memory, 4A... Intermittent reception management timer, 51...
Antenna, 52... Radio transceiver, 53... Receiver, 54... Transmitter, 55... Control unit, 56... Dial key, 57... Funk switch, 58... Intermittent Reception management timer, 59... Announcement signal reception management timer, 5A... Self number memory, 5B... Base station number memory, 5C... Program memory. Patent applicant Nippon Telegraph and Telephone Corporation 7-5”% Agent Patent attorney Nao Takashi Ide Figure 1 Line control device Figure 3 Figure 4 Figure 5

Claims (2)

[Claims] (1) Wireless base stations are placed in each of multiple wireless zones, and these wireless base stations are managed by a line control device. and the mobile radio notifies the line control device of which radio base station's wireless zone it is in when it receives the broadcast signal, via the radio base station that transmitted the broadcast signal. In a mobile radio communication system, a timer is installed in the mobile radio equipment mentioned above to measure the cycle of the broadcast signal, and this timer is reset for all mobile radio equipment within one radio zone at the end timing of each broadcast signal. Characteristic mobile wireless communication system. (2) Wireless base stations are placed in each of multiple wireless zones, and these wireless base stations are managed by a line control device. and the mobile radio notifies the line control device of which radio base station's wireless zone it is in when it receives the broadcast signal, via the radio base station that transmitted the broadcast signal. In the mobile radio communication system, a timer that measures the period of the broadcast signal is placed in the mobile radio, and this timer is reset for all the mobile radios in one radio zone at the end of each broadcast signal, and the mobile radio is moved. A mobile radio communication system characterized in that when the radio device cannot receive the notification signal at the timing measured by the timer, the radio device continues to receive the notification signal and receives the notification signal from another wireless base station.