JP2734222B2 - Mobile communication system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is applied to a mobile communication system of a radio transmission system.

[0002]

2. Description of the Related Art Conventionally, in a mobile communication system, a single channel is provided for each base station, or a different control channel and a plurality of communication channels are provided for each base station.

[0003]

However, in such a conventional mobile communication system, when a single channel is provided for each base station, a call loss occurs when calls are concentrated in an area of one base station. This has the disadvantage that the channels are wasted in other base stations.

When a base station is provided with a different control channel and a plurality of communication channels, the number of communication channels for each base station is adjusted to the peak of a call generated in the area of the base station. As a whole, many channels are required, and there is a disadvantage that the use efficiency is deteriorated. In particular, wireless systems where traffic is usually low and traffic is concentrated only in emergency situations,
For example, in a public mobile radio system such as a disaster prevention radio, there is little normal traffic, so if a control channel and a plurality of communication channels having different radio frequencies are fixedly assigned to each base station, the usage rate of the control channel decreases, and the radio frequency becomes lower. Use efficiency is extremely poor.

SUMMARY OF THE INVENTION The present invention solves the above-mentioned drawbacks.
It is an object of the present invention to provide a mobile communication system capable of improving the use efficiency of a control channel and a communication channel.

[0006]

According to the mobile communication system of the present invention, a plurality of base stations using one control channel and a plurality of communication channels, one control station connected to the plurality of base stations, said plurality of base stations located within the area of a communicable mobile station in the one control channel and a plurality of communication channels, said transmitting and receiving means of each base station is divided in the control channel to the mobile station Means for transmitting an idle signal in sequence to the assigned system time slot, wherein the transmitting and receiving means of the mobile station selects a base station having a strong electric field strength based on the electric field strength of the idle signal from each of the base stations, and Means for transmitting a registration signal to the control channel in synchronization with the control channel.
Includes means for returning the registration completion signal to the assignment was system time slot, the transmitting and receiving means of the mobile station means for transmitting a call signal to the control channel in synchronization with the idle signal of the base station that the registration hints, the transmitting and receiving means of each base station a response signal to a communication channel is vacant in the entire base station on the basis of the calling signal commissioning, the system time slots allocated for the control channel includes means for returning said transmitting and receiving means of the mobile station includes means to move to the raised raised communication channel from the control channel based on the response signal, the upper Symbol assignment <br/> temple system time The number of slots is different for each base station within the repetition period.

Further, the present invention, the number of system time slots of the split devoted control channel to each base station is preferably corresponding to the number of mobile stations registered in each base station.

Further, according to the present invention, a plurality of communication channels can be commonly used by the plurality of base stations.

[0009]

[Action] by each base station system time slot assigned with a different number of the repetition period of the control channel for transmitting various control signals to the mobile station.

Further, the number of system time slots hit assigned to each base station is preferably corresponding to the number of mobile stations registered in each base station.

Further, it is desirable that a plurality of communication channels are commonly used by the plurality of base stations.

As described above, the use efficiency of the control channel and the communication channel can be improved.

[0013]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of a mobile communication system according to an embodiment of the present invention. FIG. 2 is a block diagram of a control station and a base station of the mobile communication system according to the present invention. FIG. 3 is a block diagram of a mobile station of the mobile communication system according to the present invention. 1 to 3
In the mobile communication system, a plurality of base stations 20 that utilizes one control channel and a plurality of communication channels _A to 20 _C
If, as has been the control station 10 connected via a connecting line 60 to the plurality of base stations 20 _A to 20 _C, the area of the plurality of base stations 20 _A to 20 _C
Mobile stations 40 ₁ to 40 ₃ arranged within 30 _A to 30 _C and capable of communicating with one control channel and a plurality of communication channels, and each base station 20 _{A to} 20 _C is provided with a mobile station 40 ₁ to 40 ₃ A control channel transmitting / receiving unit 22 for transmitting and receiving various control signals, a first communication channel transmitting / receiving unit 23 to an Nth communication channel transmitting / receiving unit 24, an antenna sharing unit
25, an antenna 26 and a control unit 21 for controlling the control channel transmitting / receiving unit 22 and the first communication channel transmitting / receiving unit 23 to the Nth communication channel transmitting / receiving unit 24, and the control station 10 controls each control unit 21 switch unit 12 to be connected to the logic unit 11, with each base station 20 _a to 20 _C and the telephone 70 under the control of the logic unit 11
Wherein the door, the mobile station 40 ₁ to 40 _3, antenna 41 as transmitting and receiving means for transmitting and receiving to and from the base station 20 _A to 20 _C, antenna duplexer 42, transmitter 43, receiver 44, a handset 46 and It includes a signal processor 45 which is connected to the handset 46 controls the transmitter 43 and the receiver 44, receiving means of each base station 20 _a to 20 _C are preassigned control channel to the mobile station 40 ₁ to 40 ₃ comprises means for transmitting an idle signal sequentially to the system time slots, the mobile station 40 ₁ to 40 ₃ of the transmitting and receiving means strong base station 20 of the electric field strength based on the field strength of the idle signal from each base station 20 _a to 20 _C select includes means for transmitting a registration signal through the synchronization with the control channel to the idle signal, transmitting and receiving means of each base station 20 _a to 20 _C are pre-assigned system time of the control channel based on the registration signal Register to slot Comprises means for returning a completion signal, the mobile station 40 ₁ to 40 ₃ of the transmitting and receiving means registered base stations 20 _A to 20 pre-assigned system time slots to the calling signal _C sync to a control channel to an idle signal comprises means for transmitting, each base station 20 _a to 20
_C transceiver means rising one communication channel is vacant on the basis of a calling signal, comprising means for returning a response signal to the pre-assigned system time slots of the control channel, the mobile station 40 ₁ to 40 ₃ The transmitting / receiving means includes means for shifting from the control channel to the established communication channel based on the response signal.

[0014] It is a feature of the present invention here is assigned time slots is that it is different from the number of cycle is repeated for each base station 20 _A to 20 _C.

Further, the number of system time slots of the split devoted control channel to each base station 20 _A to 20 _C each base station
Corresponds to the number of mobile stations 40 that are registered in the 20 _A to 20 _C.

Furthermore, a plurality of communication channels the base station 20 _A
It is used in common by ~20 _C.

In FIG. 2, a logic unit 11 of the control station 10 is connected to a transmission / reception unit of each base station 20 via a control unit 21 and a switch unit 12 of each base station 20 via a communication line 60. Various controls of the mobile station 40 are performed through the various controls 20 and the base station 20. The control channel transmitting / receiving unit 22 is arranged in each base station 20 and has the same frequency channel. Similarly, the first communication channel transmission / reception unit 23 and the Nth communication channel transmission / reception unit 24 are arranged in each base station 20 and have the same frequency channel for each channel. The control unit 21 controls each transmission / reception unit according to an instruction from the logic unit 11 and sends monitoring information from each transmission / reception unit to the logic unit 11. The antenna common unit 25 is for sharing the antenna 26 with a plurality of transmitting / receiving units. The switch unit 12 forms a communication line between the mobile station 40 and the telephone 70 via the transmission / reception unit of the base station 20 or the mobile station 40 and another mobile station via another transmission / reception unit.
Configure a communication line with 40.

In FIG. 3, the antenna 41 is an antenna common unit 42.
Are connected to the transmission unit 43 and the reception unit 44. The transmitting unit 43 and the receiving unit 44 are of a synthesizer type, and are set to a required frequency channel by a signal processing unit 45 through a channel specifying line 51. The handset 46 is connected to the transmission unit 43 via a signal processing unit 45 via a modulation signal line 47 and to the reception unit 44 via a demodulation signal line 48. In addition, the signal processing unit 45 starts up the transmission unit 43 via the transmission activation line 49 as necessary, and monitors the input voltage of the reception unit 44 via the electric field information line 50.

The operation of the mobile communication system having such a configuration will be described. FIG. 4 is a diagram showing the allocation of a system time slot of a control channel to each base station of the mobile communication system according to the present invention. FIG. 5 is a time chart of each signal when the mobile station of the mobile communication system of the present invention is registered. FIG. 6 is a time chart of each signal when a mobile station of the mobile communication system according to the present invention makes a call.

A system time slot 301 is virtually created by operation setting as a mobile communication system. The base station 20 _A from the control channel transceiver unit 22, and transmits the combined base station 20 _A downstream signal 302 in accordance with an instruction from the control unit 21 to the system time slot 301. This allows mobile station 40 ₁ uplink slot
303 made virtually, the mobile station 40 ₁ performs select appropriate ones of the slots in the case of transmitting a signal.

Similarly, base station _20B and base station _20c respectively receive base station _20B downlink signal 304 and base station _20c downlink signal.
Send 306. As a result, mobile station 40 ₂ uplink slot 30
5 and the mobile station 40 ₃ up slot 307 occurs virtually.

[0022] In FIG. 4, relatively more mobile stations to the base station 20 _A is registered, the base station 20 _A base station 20 _B
And many system time slot from the base station 20 _c is assigned. That is, when the operation is set, the system
The registration operation of the mobile station 40 Temu time slot assigned to those not
However, registration of the mobile station 40
The base station 20 _A with a large number of recordings is controlled by the higher-level control station 10 etc.
Many system time slots are allocated.

[0023] FIG. 5 shows an example of registration of the mobile station 40 _2. Mobile station 40 ₂ receives the downlink signal transmitted periodically by the control channel from each base station 20 _A to 20 _C, to determine the highest base station of the electric field strength. This is the mobile station 40 ₂ when the base station 20 _B is the electric field strength is highest.

[0024] transmits a registration signal 102 to the synchronous mobile station 40 ₂ receives an idle signal 101 to be transmitted on the control channel of the base station 20 _B thereto. The base station 20 _B transmits a registration completion signal 103 in system time slot allocated to the own station returns to the idle signal 101 at the next timing.

[0025] Next will be described with reference to FIG examples of calling operation of the mobile station 40 _2. Mobile station 40 ₂ is assumed to be registered in the base station 20 _B. Mobile station 20 _B transmits a call signal 112 to measure the timing of the above as well as the idle signal 101.
The base station 20 _B raises the communication channel M and notifies the mobile station 40 ₂ to the communication channel M (M = 1 to N) for the vacant throughout the base station in response signal 113 stand. Mobile station 40 ₂ the response signal 113 transitions from the control channel to the communication channel M.

[0026]

As described above, the present invention can improve the use efficiency of the control channel and the communication channel in a mobile radio system in which traffic is normally low and traffic is concentrated in an emergency. Even if traffic concentrates on a certain base station in an emergency, there is an excellent effect that resources can be concentrated and dealt with there.

[Brief description of the drawings]

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

FIG. 2 is a block diagram of a control station and a base station of the mobile communication system according to the present invention.

FIG. 3 is a block diagram of a mobile station of the mobile communication system according to the present invention.

FIG. 4 is a diagram showing allocation of a system time slot of a control channel to each base station in the mobile communication system according to the present invention.

FIG. 5 is a time chart of each signal at the time of registration of a mobile station of the mobile communication system according to the present invention.

FIG. 6 is a time chart of each signal when a mobile station of the mobile communication system according to the present invention makes a call.

[Explanation of symbols]

10 Control station 11 Logic section 12 Switch section 20 _A , 20 _B , 20 _C base station 21 Control section 22 Control channel transceiver section 23 First communication channel transceiver section 24 Nth communication channel transceiver section 25, 42 Antenna antenna common section 26, 41 Antenna 30 _A , 30 _B , 30 _C area 40 ₁ , 40 ₂ , 40 ₃ Mobile station 43 Transmitter 44 Receiver 45 Signal processor 46 Handset 47 Modulation signal line 48 Demodulation signal line 49 Transmission start line 50 Electric field information Line 51 Channel designation line 60 Connection line 70 Telephone 101 Idle signal 102 Registration signal 103 Registration completion signal 112 Calling signal 113 Response signal 301 System time slot 302 Base station 20 _A downlink signal 303 Mobile station 40 ₁ Up slot 304 Base station 20 _B Downlink signal 305 Mobile station 40 ₂ Up slot 306 Base station 20 _C Down signal 307 Mobile station 40 ₃ Up slot

Claims (3)

(57) [Claims] 1. A plurality of base stations using one control channel and a plurality of communication channels; one control station connected to the plurality of base stations; and a plurality of base stations arranged in an area of the plurality of base stations. and a communication-enabled mobile station in a control channel and a plurality of communication channels, said transmitting and receiving means of each base station transmits an idle signal sequentially to the system time slot assigned for said control channel to said mobile station Transmitting / receiving means of the mobile station selects a base station having a strong electric field strength based on the electric field strength of the idle signal from each of the base stations, and transmits a registration signal to the control channel in synchronization with the idle signal. includes means for, the registration completion signal to the transceiver means allocation was system time slots of the control channel based on said registration signal of each base station The transmitting / receiving means of the mobile station includes means for transmitting a calling signal to the control channel in synchronization with the idle signal of the registered base station, and the transmitting / receiving means of each base station includes the calling means Launch one of the available communication channels in the entire base station based on the signal,
Includes means for sending back a response signal to the assignment was system time slots of the control channel, the receiving means of the mobile station means moves to the raised raised communication channel from the control channel based on said response signal wherein, the mobile communication system, wherein the upper Symbol assignment was system time slots are different numbers in the repetition period for each base station. Wherein said number of system time slots of the split devoted control channel to each base station is the mobile communication system according to claim 1, wherein corresponding to the number of mobile stations registered <br/> to each base station. 3. The mobile communication system according to claim 1, wherein a plurality of communication channels are shared by said plurality of base stations.