JPH04123534A - Mobile equipment - Google Patents

Abstract

PURPOSE:To ensure the compatibility even with a mobile body communication system of any frequency band and modulation/demodulation system by unifying interfaces between a mobile set section and a telephone set and combining a mobile set section corresponding to each mobile body communication system and a controller being its management section. CONSTITUTION:A controller 14 managing 1st and 2nd mobile set sections 10,12 is provided among a telephone set 16 and the 1st and 2nd mobile set sections 10,12 corresponding to each radio transmission system. Then the controller 14 sends an active signal to one of the 1st and 2nd mobile set sections 10,12 and simultaneously sends an idle signal to the other mobile set section. Then the radio transmission system of a connection destination is changed over to apply registration and connection between the mobile body communication systems of the radio transmission system in which the frequency band and the modulation/demodulation system or the like are different from each other. Thus, the radio line connection is attained to an integrated mobile body communication system having the radio transmission system in which the radio frequency band and the radio line connection control protocol differ from each other.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a mobile device, and particularly to a mobile device that is compatible with an integrated mobile communication system that includes a plurality of different wireless transmission methods and wireless line connection control protocols. .

[Conventional technology]

FIG. 6 shows the configuration of a conventional mobile device, and a description will be given of a mobile device capable of wireless connection to two systems with the same radio frequency band and modulation/demodulation method but different wireless connection control protocols.

The wireless transmitter/receiver 60 is compatible with both wireless transmission methods and wireless line connection control protocols.

The control unit 62 is also compatible with both systems, and manages a control program module 64 compatible with a wireless transmission system to ensure compatibility, a control program module 66 compatible with a wireless line connection control protocol system, and both modules. It is composed of a common module 68.

Telephone 74 is connected to control section 62 . Baseband portion 70 provides level adjustment and protocol conversion to and from telephone 74. The system registration switch 72 is a switch for switching the migration destination system.

Next, the operation of the conventional mobile device will be explained. Mobile communication systems usually require system registration with either a mobile device or base station equipment before use.

Therefore, if a user moves from the service area of the system currently registered to the service area of another system,
Turn on the system registration switch on the destination system side.

The common module 68 of the control unit 62 that has detected the movement of the system registration switch instructs the control program module 66 to switch the system due to the switching of the switch, and registers it in the destination system using the protocol of the destination system.

[Invention or problem to be solved]

However, conventional mobile devices are effective only in systems using wireless transmission methods that have the same radio frequency band and wireless line connection control protocol, and cannot be used with multiple different wireless transmission methods.

The present invention has been made in view of the above points, and an object of the present invention is to provide a mobile device capable of connecting to a wireless line in an integrated mobile communication system that has different wireless frequency bands and wireless line connection control protocols and different wireless transmission methods. do.

[Means to solve the problem]

FIG. 1 shows the basic configuration of the present invention. In an integrated mobile communication system that has multiple wireless transmission methods with different radio frequency bands and wireless line connection control protocols, and centrally manages mobile devices, one of the multiple wireless transmission methods A first mobile device section 10 is provided with a wireless line and has a function of transitioning to a state in which it can accept outgoing and incoming calls in response to an active signal from the outside, and a function to stop outgoing and incoming calls in response to an idle signal from the outside. and one or more second mobile units that establish a wireless line using a wireless transmission system different from the first mobile unit 10 and have the same functions as the first mobile unit 10. 12, based on manual operation or radio line quality information, transmitting an active signal to one of the first and second mobile terminal sections, and transmitting an idle signal to the other mobile terminal section; A controller 14 is provided between the first and second mobile units and the telephone 16 to control the first and second mobile units.

[Effect]

The present invention provides a first mobile unit lO corresponding to each wireless transmission method.
A controller 14 for managing these mobile units is provided between the second mobile unit 12 and the telephone 16, and the controller 14 controls one of the first mobile unit 10 and the second mobile unit 12. sends an active signal to the mobile device section of the mobile device section, and at the same time sends an idle signal to the other mobile device sections,
By switching the wireless transmission method of the connection destination, registration and connection can be performed between mobile communication systems with different wireless transmission methods such as different frequency bands and modulation/demodulation methods.

〔Example〕

FIG. 2 shows a configuration example of an integrated mobile communication system to which the mobile device of the present invention is applied. This figure explains the configuration of an integrated mobile communication system that integrates terrestrial mobile communication systems that apply mobile devices and satellite-based mobile communication systems at the exchange level, and centrally manages mobile devices. . The integrated mobile communication system includes a public communication network 22, a common signal network 24, a switching center T-MSC26 for terrestrial mobile communication systems, a radio base station T-MB328 for terrestrial mobile communication systems, and a terrestrial mobile communication system. Radio transmitting/receiving device T-TRx30° Satellite-based mobile communication system switching center 5-M5C32° Satellite-based mobile communication system wireless base station S-MB S34, Satellite-based mobile communication system wireless transmitting/receiving device 5-TRx36, It is composed of a satellite 38, a mobile aircraft 40, etc. Various information about the mobile device 40, including the service area of the mobile device 40, is managed by the home switching center (home memory station). exchanges information about the mobile device 40 with the home memory station of the mobile device 40 via the common line signal network 24, and manages the mobile device 40 at the home memory station.

FIG. 3 shows a diagram illustrating a first embodiment of the present invention. This figure shows the configuration of a mobile device that can be connected to a wireless line for both terrestrial mobile communication systems and satellite mobile communication systems. The mobile device section of this mobile device includes two mobile device sections, a ground-based mobile device section 42 and a satellite-based mobile device section 60. First, the terrestrial mobile unit 42 includes a transmitting unit 44, a receiving unit 46, a control unit 48 that controls the connection of the wireless line of the mobile unit 42, and controls the reception of control signals from the telephone 78, and the mobile unit 42.
an interface unit 50 that adjusts the level of the traffic line and converts the protocol of the control line, and a level measurement unit 52 that measures the reception level of the wireless line corresponding to the mobile device unit 42.
, a copier 54 that digitizes and decodes the audio signals of the mobile unit 42, a transmitter/receiver duplexer 56, an antenna 58, and the like.

Next, the satellite mobile device section 60 has the same configuration as the terrestrial mobile device section 42 described above, and controls the transmission section 62, the reception section 64, the wireless line connection of the mobile device section 60, and the control from the telephone 78. A control unit 66 that performs signal reception control, etc., and a mobile device unit 6
an interface section 68 that adjusts the level of the traffic line of 0 and converts the protocol of the control line; a mobile device section 60;
Level measurement unit 7 that measures the reception level of a compatible wireless line
0, a copier 72 that digitizes and decodes the audio signal of the mobile unit 60, a transmitter/receiver duplexer 74, an antenna 76, and the like.

The controller 80 also includes a mobile device section 42 compatible with terrestrial mobile communication systems, and a mobile device section 6 compatible with satellite mobile communication systems.
0 and the telephone 78, it controls the mobile unit section 42 compatible with the terrestrial mobile communication system and the mobile unit unit 60 compatible with the satellite mobile communication system, and also switches the traffic line (speech line). This controller 80 is composed of a control section 82 and a switch section 84.

The interface connecting the mobile device unit 42 compatible with the terrestrial mobile communication system, the mobile unit 60 compatible with the satellite mobile communication system, the telephone 78, and the controller 80 is the uplink line of the communication line shown by the solid line in FIG. It consists of a downlink line, an uplink data line indicated by dotted lines in the figure, a downlink data line, a telephone 78, and the like.

In order to make the mobile device compatible with the ground mobile communication system, an active signal is sent to the controller 80 or the ground mobile device section 42 via the interface, and
An idle signal is sent to the satellite mobile unit 60.

Further, the switch 84 of the controller 80 is set to connect the telephone line of the terrestrial mobile unit 42 to the telephone line of the telephone 78.

The terrestrial mobile unit 42 that has received the active signal sends a location registration signal to the terrestrial base station 86.
By confirming the completion of system registration by receiving a location registration response signal from the mobile station, the system transitions to a state where it can accept outgoing and incoming calls.

At this time, the satellite-based mobile unit 60 that has received the idle command signal stops the operation of receiving and receiving calls, and shifts to an idle state.

FIG. 4 shows the control sequence of the switching operation in the first embodiment of the present invention. The figure shows wireless line quality information (reception level)
This example shows the operation when the mobile device switches to the satellite-based mobile communication system due to the deterioration of the radio link condition in the terrestrial-based mobile communication system after the mobile device has been operating in the terrestrial-based mobile communication system. This is a control sequence.

The ground mobile device section 42 periodically sends the reception level information from the antenna received by the reception section 46 to the controller 80 via the control section 4B and the interface section 50 (
SIO).

If the control unit 82 of the controller 80 determines that the received level information sent from the satellite mobile device unit 60 is below the specified level as a result of measurement by the signal/bell measuring unit 72, (Sll), The controller 80 is the mobile unit 6
0 (S12).

The mobile device unit 60 that received the line quality request signal is connected to the receiving unit 64
is turned on, the reception level is measured, and reception level information is sent to the controller 80 (S13).

If the controller 80 determines that the received level information from the satellite mobile unit 6o exceeds a predetermined level,
Sends an idle signal to the ground mobile unit 42 (
S14) and transmits an active signal to the satellite mobile unit 60 (515), and switches the switch 84 of the controller 80 (S16) to transfer the telephone line from the terrestrial mobile unit 42 to the satellite mobile unit 60. Switch.

The satellite-based mobile device section 60 transmits a location registration signal to the satellite-based base station 88 (S I 7), and the satellite-based base station 88 transmits a location registration response signal to the satellite-based mobile device section 60 (SI 7).
18).

Next, a second embodiment of the present invention will be described. In the mobile device of this embodiment, one mobile device section and a controller are housed in one housing to constitute a basic mobile device, and other mobile device sections are housed in one housing to form an individual mobile device. It is possible to construct a removable mobile device in which an individual mobile device can be attached to and detached from a basic mobile device. In this removable mobile device, by connecting a telephone to the individual mobile device that has been removed from the basic mobile device, the individual mobile device operates as a single mobile device.

FIG. 5 shows the configuration of a detachable moving machine according to a second embodiment of the present invention. In the figure, an individual mobile device 102 is an individual mobile device in which the ground system mobile device section 42 of FIG. 3 is housed in one housing. The basic mobile unit 100 is an integrated unit of the satellite mobile unit 60 and the controller 80 shown in FIG. The individual mobile device 102 has a coaxial switch 11 for switching between an external antenna 124 and an external antenna 124.
6. Connector 120 for external antenna connection, connector 122 for connection to basic mobile device 100 or telephone 154, transmitter 104, receiver 106, duplexer 118
, a control section 114, a level measurement section 112, a control signal control section 108, and an interface section 110.

The basic mobile device 100 includes an external antenna 146 for the individual mobile device 102, a connector 152 that can be connected to the connector 20,
Connector 150 combinable with connector 122, telephone 1
Connector 156 for connection with 54, handset and numeric keypad 1
38. Telephone 154 as individual mobile device 102 or basic mobile device 100i:.

Connector 140, transmitter 126, receiver 128 to be connected
, a control signal control section 130, an interface section 132, a control section 136, a level measurement section 134, a switch section 142 of the controller section, a control section 144 of the controller section, and a duplexer 158.

By attaching the individual mobile device 102 to the basic mobile device 100 and connecting the telephone 154 to the basic mobile device 1 (10) by combining the connector 140 on the telephone 154 side and the connector 156 on the basic mobile device 100 side, the individual mobile device The antenna 124 of 102 is an external antenna 146 of the basic mobile device 100.
Switch to .

As a result, the telephone line shown by the solid line in FIG. 5 of the individual mobile station 102 is connected to the switch 142 in the basic mobile station 100. In the figure, the data line indicated by the dotted line is the control unit 144.
connected to.

As a result, a plurality of mobile communication systems making up the integrated mobile communication system can be connected to a wireless line.

Further, if the basic mobile device 100 and the individual mobile device 102 are removed and a telephone 154 is connected to each mobile device, each mobile device becomes a dedicated mobile device for each mobile communication system.

〔Effect of the invention〕

As described above, according to the present invention, by unifying the interface between the mobile unit and the telephone, and by combining the mobile unit compatible with each mobile communication system and the controller that is the management unit, any frequency band or modulation/demodulation system can be used. Since compatibility can be ensured with other mobile communication systems, calls can be easily made using each mobile communication system without using separate mobile devices.

[Brief explanation of the drawing]

FIG. 1 is a diagram illustrating the basic configuration of the present invention; FIG. 2 is a diagram illustrating a configuration example of an integrated mobile communication system to which a mobile device of the present invention is applied; FIG. 3 is a diagram illustrating a first embodiment; FIG. 4 is a control sequence of the switching operation in the first embodiment, FIG. 5 is a configuration diagram of a detachable mobile device according to a second embodiment of the present invention, and FIG. 6 is a configuration diagram of a conventional mobile device. DESCRIPTION OF SYMBOLS 10... First mobile device part, 12... Second mobile device part, 14... Controller, 16... Telephone, 42...
...Ground mobile device department, 60...Satellite mobile device department, 50
．． 68...Interface, 52.72...Level measurement unit, 0...Controller, 2...Controller control unit, 4...Controller switch, 6...Terrestrial base station, 8... Satellite base station.

Claims (1)

[Claims] In an integrated mobile communication system that has a plurality of wireless transmission methods with different radio frequency bands and wireless line connection control protocols and centrally manages mobile devices, one of the plurality of wireless transmission methods is provided. A wireless line is provided for one wireless transmission method, and it has the function of transitioning to a state where it can accept outgoing and incoming calls by an active signal from the outside, and the function of stopping outgoing and incoming calls by an idle signal from the outside. a first mobile unit, and one or more second mobile units that establish a wireless line with a different wireless transmission method from the first mobile unit, and have the same function as the first mobile unit. and sends an active signal to one of the first and second mobile units based on manual operation or radio channel quality, and sends an idle signal to the other mobile unit. A mobile device comprising a controller that transmits a signal and controls the first and second mobile device sections between the first and second mobile device sections and the telephone. .