JPH10108262A - Mobile communication equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow equipment to make accurate communication of both ground system cellular communication and mobile satellite communication and to enable switching the system during a speech. SOLUTION: A means that switch both of ground system cellular communication or mobile satellite communication is provided with a control section 9 that measures a reception level and outputs an instruction to switch the ground system cellular communication or the mobile satellite communication based on the measured reception level and with a base band section 5 that switchs the ground system cellular communication or the mobile satellite communication according to the instruction from the control section.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication device, and more particularly to a mobile communication device for selecting and communicating with any one of communication systems including terrestrial cellular communication and mobile satellite communication. Belong to.

[0002]

2. Description of the Related Art Upstream cellular communication has been widely used, and mobile satellite communication using satellites has been considered outside the terrestrial cellular communication area. Therefore, when considering communication in both terrestrial cellular communication and mobile satellite communication, in the area of terrestrial cellular communication, intense fading occurs due to the movement of the mobile in mobile communication, so the demodulation method The communication is performed using the delay detection method. Outside the area of terrestrial cellular communication, mobile satellite communication using satellites is performed, but the bit error rate (Bi
t Error Rate), which is a synchronous detection method having excellent characteristics.

As a configuration of a mobile communication device, for example, Japanese Unexamined Patent Application Publication No. Hei 6-260990 integrates a plurality of mobile communication modes having different radio interfaces such as a terrestrial mobile communication network and a satellite mobile communication network. A mobile device of an integrated mobile communication system that suppresses the number of communication mode switching so as not to be frequent is disclosed.

In this mobile station, as shown in FIG. 7, a band set 41, a control signal changeover switch 42, a reception sound changeover switch 43, a reception sound changeover switch 44, and a mode changeover control circuit 45 are provided as common circuits. And

The terrestrial mode system includes a terrestrial radio control circuit 46, a terrestrial audio encoder 47, a terrestrial transmitter 49, a terrestrial transmission / reception antenna 52, a transmission / reception duplexer 51, a terrestrial receiver 50, and a terrestrial audio decoder. The container 48 is provided.

Similarly, as a satellite mode system, a satellite radio control circuit 57, a satellite speech encoder 54, a satellite transceiver 5
6, a satellite transmitting / receiving antenna 59, a duplexer 58, a satellite receiver 55, and a satellite audio decoder 53.

As a prior art, Japanese Patent Application Laid-Open No. 6-276
Japanese Patent Publication No. 145 discloses a mobile satellite communication terminal that can use a terrestrial cellular even in a place where a user is away from a vehicle, as a vehicle-mounted mobile terminal that can share a mobile communication using a satellite and a terrestrial cellular.

This mobile satellite communication terminal has a function of switching between a voice signal and a control signal in a portable telephone used for terrestrial cellular. When using a satellite, the display, operation keys, microphone, and speaker of the mobile phone are switched so that they can be connected to the satellite transceiver. When using terrestrial cellular, the satellite transceiver can be connected to the cellular transceiver built in the mobile phone. The portable telephone can be separated from the satellite transceiver and used away from the vehicle.

In the case of performing satellite communication, portability is not excellent because a satellite communication transceiver fixed to a mobile body (such as a vehicle) is used.

[0010]

According to the above-mentioned conventional technology, when performing communication for both terrestrial cellular communication and mobile satellite communication, it is necessary to select a system according to each system.
A radio unit, a baseband unit, a control unit, and a CODEC unit must be provided, and the device configuration becomes large-scale.

The switching between the terrestrial cellular communication and the mobile satellite communication is performed by an audio circuit, and the basis for switching is when the reception level of the terrestrial cellular communication is reduced (when the terrestrial cellular communication is out of the service area). ), Because they have access to mobile satellite communications,
Switching from terrestrial cellular communication to mobile satellite communication during a call is not possible.

Further, when mobile satellite communication is performed outside the terrestrial cellular communication area, the mobile terminal moves into the area of the terrestrial cellular communication. It does not switch to system-based cellular communication, and it does not become ground-based cellular communication unless the call is terminated once. Therefore, it is impossible to switch from the mobile satellite communication to the terrestrial cellular communication during a call.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a mobile communication device capable of accurately performing both terrestrial cellular communication and mobile satellite communication and capable of switching systems during a call. It is in.

[0014]

According to the present invention, in a mobile communication system comprising terrestrial cellular communication and mobile satellite communication, the mobile communication is switched from the terrestrial cellular communication to the mobile satellite communication. Having means for switching from satellite communication to the terrestrial cellular communication,
A control unit that measures a reception level and outputs an instruction to switch between the terrestrial cellular communication and the mobile satellite communication based on the measured reception level; A mobile communication device is provided, comprising a baseband unit for switching between cellular communication and the mobile satellite communication, and capable of communicating with both the terrestrial cellular communication and the mobile satellite communication.

Further, according to the present invention, the means for switching from the terrestrial cellular communication to the mobile satellite communication starts to decrease the reception level of the terrestrial cellular communication when performing the terrestrial cellular communication. At this time, a mobile communication device is obtained in which the reception level of the mobile satellite communication is monitored, and the mobile communication system is switched to the mobile satellite communication when the reception level of the terrestrial cellular communication further decreases.

According to the present invention, the means for switching from the mobile satellite communication to the terrestrial cellular communication monitors the reception level of the terrestrial cellular communication periodically during the mobile satellite communication, When a reception level at which cellular communication can be performed stably is received, a mobile communication device characterized by switching to terrestrial cellular communication is obtained.

According to the present invention, there is provided a mobile communication apparatus characterized in that a delay detection circuit is selected as a demodulation circuit during the terrestrial cellular communication.

Further, according to the present invention, there is provided a mobile communication apparatus characterized in that a synchronous detection circuit is selected as a demodulation circuit during mobile satellite communication.

[0019]

In the mobile communication device according to the present invention, the baseband unit and the CODEC unit are shared by the terrestrial cellular communication and the mobile satellite communication, and the switching between the terrestrial cellular communication and the mobile satellite communication is performed by the baseband unit. Do it.

The radio section is provided with a radio device corresponding to each system to reduce the size of the device. This allows
Communication can be performed without interruption even if the communication is switched from terrestrial cellular communication to mobile satellite communication or from mobile satellite communication to terrestrial cellular communication.

[0021]

Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a mobile communication device according to the present invention.

Referring to FIG. 1, mobile communication device 10 includes:
As means for use in terrestrial cellular communication, an antenna 1 for terrestrial cellular communication and a radio unit 3 for terrestrial cellular communication, a transmission filter used in mobile satellite communication,
As means for performing digital demodulation, transmission data multiplexing, reception data demultiplexing, etc., mobile satellite communication antenna 2, mobile satellite communication radio section 4, baseband section 5, voice coding , COD for decryption
An EC unit 6, a speaker 7, and a microphone 8 are provided.

Further, the mobile communication device 10 has a control unit 9 for switching between terrestrial cellular communication and mobile satellite communication. The control section 9 measures the reception level of the terrestrial cellular communication with the terrestrial cellular radio section 3 of the reception signal received by the terrestrial cellular communication antenna 1. Also,
The reception level of the mobile satellite communication is measured by the mobile satellite communication radio unit 4 for the received signal received by the mobile satellite communication antenna 2. The control unit 9 outputs to the baseband unit 5 an instruction to switch between terrestrial cellular communication and mobile satellite communication based on the measured reception levels. The baseband unit 5 switches between terrestrial cellular communication and mobile satellite communication in accordance with an instruction from the control unit 9.

FIG. 2 is a block diagram showing one embodiment of the baseband unit 5 shown in FIG. The baseband unit 5 includes a delay detection circuit 30 for demodulating a signal from the terrestrial cellular communication radio 3 and demodulating a signal from the terrestrial cellular communication radio 3, and a mobile satellite communication radio 4.
A synchronous detection circuit 31 for demodulating a signal from a mobile station, and a switch 32 for switching received data between terrestrial cellular communication and mobile satellite communication.

The received data selected by the change-over switch 32 is input to a demultiplexing circuit (DEMUX) 33,
The data is passed to the ODEC unit 6, and the audio is decoded. The encoded data from the CODEC unit 6 is multiplexed (MUX) 36 and output to a waveform shaping filter (transmission filter) 35. Then, the changeover switch 34
Then, the switch between the terrestrial cellular communication and the mobile satellite communication is switched, and the switch is output to the terrestrial cellular communication radio unit 3 or the mobile satellite communication radio unit 4.

Next, the operation of the mobile communication device will be described with reference to FIG.
This will be described with reference to FIG. When the power of the mobile communication device 10 of the present invention is turned on, the control unit 9 monitors the level of the reception signal received by the terrestrial cellular communication antenna 1 and, if the level is equal to or higher than a certain reference level, the terrestrial cellular communication. It is determined to be within range.

The mobile communication device 10 instructs the baseband unit 5 to perform terrestrial cellular communication by the control unit 9, and starts terrestrial cellular communication. At this time, the mobile satellite communication radio unit 4 is powered off. When the mobile communication device 10 does not perform communication while in the power-on state, the intermittent reception mode is set. When the control unit 9 determines that the mobile communication terminal is out of the terrestrial cellular communication area, the mobile satellite communication antenna 2
Receives radio waves from satellites.

The mobile communication device 10 instructs the baseband unit 5 to perform mobile satellite communication from the control unit 9 and starts mobile satellite communication. At this time, the terrestrial cellular communication radio section 2 is powered off. When the mobile communication device 10 does not perform communication while in the power-on state, the intermittent reception mode is set.

Next, the operation of FIG. 1 will be described with reference to FIGS.
This will be described with reference to FIG. FIG. 3 shows a state in which the mobile communication device 10 moves from the area of the terrestrial cellular communication to the area outside the area of the terrestrial cellular communication in the direction of the arrow III during a call in the terrestrial cellular communication. FIG. 4 is a control flow when the mobile communication device 10 moves from the area of the terrestrial cellular communication to the outside of the area during the communication of the terrestrial cellular communication.

The mobile communication device 10 is in the radio zone 20 of the radio base station 21 and is communicating with the radio base station 21. At this time, the mobile communication device 10 is out of the area of the terrestrial cellular communication, and the reception level received by the antenna 1 for the terrestrial cellular communication starts to decrease and is soon out of the area of the terrestrial cellular communication (FIG. 4). Step S
1). The control unit 9 of the mobile communication device 10 instructs the mobile satellite communication antenna 2 and the mobile satellite communication radio unit 4 to start monitoring the reception level of the mobile satellite communication. The mobile satellite communication radio section 4 is powered on from the power off state and enters the intermittent reception mode (step S2 in FIG. 4).
When the mobile communication device 10 is out of the area of the terrestrial cellular communication (when the reception level is reduced and the mobile communication apparatus 10 is recognized as being out of the area) (FIG. 4)
In step S3), the mobile communication device 10
The communication with the wireless base station 21 is started via (step S4 in FIG. 4).

Next, the operation of FIG. 1 will be described with reference to FIGS.
This will be described with reference to FIG. FIG. 4 shows a case where the mobile communication device 10 is out of the area of the terrestrial cellular communication and moves in the direction of the arrow V of the terrestrial cellular communication and moves into the area during the communication of the mobile satellite communication. FIG. 6 is a control flow when the mobile communication device 10 is out of the area of the terrestrial cellular communication and moves to the area of the terrestrial cellular communication during the communication by the mobile satellite communication.

The mobile communication device 10 is moving outside the radio zone 20 of the radio base station 21 and is communicating with the radio base station via the communication satellite 22. At this time, the mobile communication device 1
The control unit 9 in 0 monitors the reception level of the terrestrial cellular communication from the terrestrial cellular communication antenna 1 to the terrestrial cellular communication radio unit 3 at a considerably long cycle (step S11 in FIG. 6). When the control unit 9 of the mobile communication device 10 determines that the level is such that terrestrial cellular communication is possible (when the reception level is stabilized) (step S12 in FIG. 6), the control unit 9 instructs to perform terrestrial cellular communication. The mobile communication device 10 starts terrestrial cellular communication with the radio base station 21 (step S13 in FIG. 6).

[0033]

As described above, the mobile communication device of the present invention monitors the reception level of mobile satellite communication when the reception level reaches a predetermined level, based on the reception level of terrestrial cellular communication. When the reception level becomes even lower, the mobile satellite communication is started. In mobile satellite communication, the reception level of terrestrial cellular communication is monitored at a certain long cycle, and when the level of terrestrial cellular communication becomes stable, terrestrial cellular communication is started.

Thus, the communication is not interrupted even if the mobile satellite communication is performed after the terrestrial cellular communication or the terrestrial cellular communication is performed after the mobile satellite communication is performed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing one embodiment of a mobile communication device according to the present invention.

FIG. 2 is a block diagram illustrating a configuration of a baseband unit according to the present embodiment.

FIG. 3 is a schematic diagram illustrating an operation concept of the present embodiment.

FIG. 4 is a diagram for explaining the operation of the present embodiment.

FIG. 5 is a schematic diagram illustrating an operation concept of the embodiment.

FIG. 6 is a diagram for explaining the operation of the present embodiment.

FIG. 7 is a block diagram showing a conventional mobile device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Terrestrial cellular communication antenna 2 Mobile satellite communication antenna 3 Terrestrial cellular communication radio unit 4 Mobile satellite communication radio unit 5 Baseband unit 6 CODEC unit 7 Speaker 8 Microphone 9 Control unit 10 Mobile communication device 20 Wireless zone 21 Wireless base station 22 Communication satellite 30 Delay detection circuit 31 Synchronous detection circuit 32 Switching switch 33 Demultiplexing circuit (DEMUX) 34 Switching switch 35 Waveform shaping filter (transmission filter) 36 Multiplexing circuit (MUX)

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[Procedure amendment]

[Submission date] June 10, 1997

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0001

[Correction method] Change

[Correction contents]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication device, and more particularly to a mobile communication device for selecting and communicating with any one of communication systems including terrestrial cellular communication and mobile satellite communication. Related .

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0002

[Correction method] Change

[Correction contents]

[0002]

2. Description of the Related Art Terrestrial cellular communication has been widely used, and mobile satellite communication using satellites is considered outside the terrestrial cellular communication area. Therefore, when considering communication in both terrestrial cellular communication and mobile satellite communication, in the area of terrestrial cellular communication, intense fading occurs due to the movement of the mobile in mobile communication, so the demodulation method The communication is performed using the delay detection method. Outside the area of terrestrial cellular communication, mobile satellite communication using satellites is performed, but the bit error rate (B
It uses a synchronous detection method having excellent characteristics (it Error Rate).

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0004

[Correction method] Change

[Correction contents]

In this mobile device, as shown in FIG. 7, as a common circuit, a band set 41, a control signal changeover switch 42, a transmission sound changeover switch 43, a reception sound changeover switch 44, and a mode changeover control circuit 45 are provided. And

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0022

[Correction method] Change

[Correction contents]

Referring to FIG. 1, mobile communication device 10 includes:
An antenna 1 for terrestrial cellular communication and a radio unit 3 for terrestrial cellular communication as means for use in terrestrial cellular communication, and an antenna 2 for mobile satellite communication as a means for use in mobile satellite communication. Common to terrestrial cellular communication and mobile sanitation communication with satellite communication radio unit 4
Transmission filter, digital demodulator, transmission data multiplexing
A baseband unit 5 for performing encoding and demultiplexing of received data, a CODEC unit 6 for encoding and decoding audio, a speaker 7 and a microphone 8.

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0025

[Correction method] Change

[Correction contents]

The received data selected by the change-over switch 32 is input to a demultiplexing circuit (DEMUX) 33,
The data is passed to the ODEC unit 6, and the audio is decoded. The encoded data from the CODEC unit 6 is input to a multiplexing circuit (MUX) 36 and output to a waveform shaping filter (transmission filter) 35. Then, changeover switch 3
4, either terrestrial cellular communication or mobile satellite communication
The toggle, terrestrial-based cellular communication radio unit 3 or to output to the mobile satellite communication radio unit 4.

[Procedure amendment 6]

[Document name to be amended] Statement

[Correction target item name] Explanation of sign

[Correction method] Change

[Correction contents]

[Description of Signs] 1 Terrestrial cellular communication antenna 2 Mobile satellite communication antenna 3 Terrestrial cellular communication radio unit 4 Mobile satellite communication radio unit 5 Baseband unit 6 CODEC unit 7 Speaker 8 Microphone 9 Control unit 10 Mobile communication device 20 Wireless zone 21 Wireless base station 22 Communication hygiene 30 Delay detection circuit 31 Synchronous detection circuit 32 Switching switch 33 Demultiplexing circuit (DEMUX) 34 Switching switch 35 Waveform shaping filter (transmission filter) 36 Multiplexing circuit (MUX) 41 Band set 42 control signal changeover switch 43 transmission sound changeover switch 44 reception sound changeover switch 45 mode changeover control circuit 46 terrestrial radio control circuit 47 terrestrial sound encoder 48 terrestrial sound decoder 49 terrestrial transmitter 50 terrestrial reception Machines 51, 58 Communication duplexer 52 Terrestrial transmitting / receiving antenna 53 Sanitary audio decoder 54 Sanitary audio encoder 55 Sanitary receiver 56 Sanitary transmitter / receiver 57 Sanitary radio control circuit 59 Sanitary transmitting / receiving antenna

[Procedure amendment 7]

[Document name to be amended] Drawing

[Correction target item name] Fig. 1

[Correction method] Change

[Correction contents]

FIG.

Claims (5)

[Claims] 1. In a mobile communication system comprising terrestrial cellular communication and mobile satellite communication, switching from the terrestrial cellular communication to the mobile satellite communication and switching from the mobile satellite communication to the terrestrial cellular communication. A control unit that measures a reception level and outputs an instruction to switch between the terrestrial cellular communication and the mobile satellite communication based on the measured reception level; and A baseband unit for switching between the terrestrial cellular communication and the mobile satellite communication in accordance with an instruction, and enabling communication with both the terrestrial cellular communication and the mobile satellite communication. apparatus. 2. The mobile communication device according to claim 1, wherein said means for switching from said terrestrial cellular communication to said mobile satellite communication is a reception level of said terrestrial cellular communication when performing terrestrial cellular communication. The mobile communication device is characterized in that the mobile communication system starts monitoring the reception level of the mobile satellite communication when the communication level starts to decrease, and switches to the mobile satellite communication when the reception level of the terrestrial cellular communication further decreases. 3. The mobile communication device according to claim 1, wherein the means for switching from the mobile satellite communication to the terrestrial cellular communication periodically changes the reception level of the terrestrial cellular communication during the mobile satellite communication. A mobile communication device characterized by switching to terrestrial cellular communication when monitoring and receiving a reception level at which terrestrial cellular communication can be performed stably. 4. The mobile communication device according to claim 1, wherein a delay detection circuit is selected as a demodulation circuit during said terrestrial cellular communication. 5. The mobile communication device according to claim 1, wherein a synchronous detection circuit is selected as a demodulation circuit during mobile satellite communication.