JPH07226973A - Mobile communication system - Google Patents

Abstract

PURPOSE:To relax a traffic of a control channel by setting permission or inhibition for mode changeover for each zone so as to suppress mode switching more than a required number of times at a dead area or an edge of a service area. CONSTITUTION:A zone forming a ground mode service area 11 is divided into a zone where a changeover from the ground mode into the satellite mode is allowed but a changeover from the satellite mode into the ground mode is inhibited and a zone where a changeover from the ground mode into the satellite mode is inhibited but a changeover from the satellite mode into the ground mode is allowed. That is, a ground mode base station 8 informs the mode and the permission or inhibition with other mobile communication mode to a mobile equipment resident in a concerned zone for each zone forming the mode service zone and a ground/satellite dual mode mobile equipment 9 controls the mode changeover according to the notice.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention is used in a mobile communication system in which a plurality of mobile communication modes are integrated. In particular, the present invention relates to a technique for selecting one of a plurality of mobile communication modes for communication.

[0002]

2. Description of the Related Art A mobile communication system that integrates and operates a plurality of mobile communication modes has been conventionally proposed, for example, 80
It is known that the 0 MHz cellular system, the 1.5 GHz cellular system and the mobile satellite communication system are integrated. As an example of such a technology, a terrestrial mobile communication mode (hereinafter simply referred to as “terrestrial mode”) for performing communication by terrestrial cellular terrestrial waves and a satellite communication mode (hereinafter simply referred to as “satellite mode”) for performing communication via a communication satellite. , And a selection algorithm between the modes have been proposed. In the following, the mode selection between the ground mode and the satellite mode will be described as an example.

In the mobile communication system in which the terrestrial mode and the satellite mode are integrated, when the mobile device moves between the terrestrial mode service area and the satellite mode service area,
A mode switch between ground mode and satellite mode is required. In order to realize this mode switching, it is necessary to detect the inside and outside of the ground mode service area. To detect the out-of-service area, the mobile device measures the reception level of the radio wave from the ground mode radio base station and calculates the average value for a certain period of time, and the average value determines the level that defines the edge of the service area for a certain period of time. It continued depending on whether or not it fell below. In order to detect the service area, the mobile device calculates two average values of the reception level of the radio waves from the ground mode radio base station for a long time and a short time. It was carried out depending on whether or not it exceeded the prescribed level.

However, the decrease in level may also occur due to other factors. In mobile communication, in general, depending on the propagation status between a base station and a mobile device, the level may fall below the level that defines the edge of the terrestrial mode service area even within the service area. For example, the reception level may be deteriorated due to the shadow of a building. Such areas are called dead areas. The mobile device in the dead zone determines that it has moved out of the ground mode service area due to the deterioration of the reception level and switches to the satellite mode. Such dead areas are local, so if the mobile moves from that location, the reception level will recover,
The mobile device determines that it has returned to the ground mode service area and switches to the ground mode.

The same occurs at the edge of the service area in the ground mode. That is, in such a place, the reception level of the terrestrial mode may fluctuate near the level that defines the edge of the service area of the terrestrial mode due to the effect of fading. In such a case, even if it is judged that it is out of the service area of the ground mode, it is judged that it has entered the service area in a short time thereafter, and the switching between the ground mode and the satellite mode is repeated within a short time. I will end up.

In a mobile device capable of switching a plurality of mobile communication modes, it is necessary to access the position registration memory using the control channel of the mode to be switched and rewrite the contents every time the mode is switched. Therefore, if the modes are frequently switched, it is necessary to frequently register the location in a short time. Such a phenomenon is called “fluttering of mode switching”. Such a phenomenon is one of the causes of oppressing the traffic of the control channel.

As one method of suppressing location registration traffic, a method is known in which the latest location registration information is stored and location registration is not performed when returning to the same location registration area as before exiting the service area. There is. In addition, in the prior patent application by the inventors of the present application, Japanese Patent Application No. 5-46864, since the satellite mode is switched to the ground mode, the reception level exceeds the out-of-range determination level and the reception level for a longer time. It has been shown that the average value of is higher than the level determined by the hysteresis for suppressing the flutter from the out-of-range determination level in combination with.

[0008]

SUMMARY OF THE INVENTION An object of the present invention is to provide a mobile communication system capable of suppressing location registration traffic by a method different from the conventional method.

[0009]

According to a first aspect of the present invention, a radio base station provided corresponding to a plurality of mobile communication modes having mutually overlapping service areas and different radio interfaces, and a plurality of mobile communication stations are provided. A mobile device that selects any one of the modes and communicates with a radio base station of the mode, the mobile device is a reception level measuring unit that measures a reception level of at least one mode of a plurality of mobile communication modes, In a mobile communication system including a mode switching unit that switches the mobile communication mode based on the measurement result of the reception level measuring unit, at least one mode of the wireless base station, for each zone constituting the service zone of the mode , Informs mobiles in the zone whether to allow or disallow mode switching between that mode and other mobile communication modes. Including means, the mobile station a mobile communication system, characterized in that it comprises means for controlling the mode switching means in accordance with the notification from the means for notifying is provided.

The plurality of mobile communication modes include a terrestrial mobile communication mode in which communication is performed by terrestrial waves and a satellite communication mode in which communication is performed via satellite. The service area in the terrestrial mobile communication mode is divided into a plurality of zones for reception. The level measuring means includes means for measuring the reception level of the terrestrial mobile communication mode, and the mode switching means uses satellite communication when the reception level of the terrestrial mobile communication mode is low and zone switching to the peripheral zone is impossible. The zone around the service area of the plurality of zones includes a means for selecting a mode,
It is set to a zone where switching from the ground mobile communication mode to the satellite communication mode is allowed, but the reverse switching is not allowed, and the zone inside the peripheral zone is not switched from the satellite communication mode to the ground mobile communication mode. It is advisable to set a zone that is allowed, but not vice versa.

According to a second aspect of the present invention, a reception level measuring means for measuring a reception level in at least one of a plurality of mobile communication modes having different radio interfaces, and a measurement result of the reception level measuring means are used. In a mobile device provided with a mode switching means for switching mobile communication modes, mode switching is performed according to a notification of permission or non-permission of switching of mobile communication modes from a radio base station in at least one of a plurality of mobile communication modes. There is provided a mobile device comprising means for controlling the means.

[0012]

With respect to the zones constituting the service area of at least one mode, permission or non-permission of switching between the mode and other mobile communication modes is set for each zone. This will be described by taking the case of switching between the ground mode and the satellite mode as an example.

When switching between the terrestrial mode and the satellite mode, the zone of the radio base station forming the service area of the terrestrial mode is permitted to be switched from the terrestrial mode to the satellite mode, but is switched from the satellite mode to the terrestrial mode. Are not allowed and zones where switching from satellite mode to terrestrial mode is allowed but switching from terrestrial mode to satellite mode is not allowed. In the radio base station of each zone, a signal area for transmitting information indicating whether mode switching is permitted or not is provided in the broadcast information, and the mobile stations in the zone are notified. On mobiles,
From the contents of the signal area, it is detected what mode the current location can transit.

Within the zone of the radio base station permitting the switching from the terrestrial mode to the satellite mode, the reception level of the terrestrial mode is lower than the level defining the service area of the terrestrial mode, and the zone switching to the peripheral zone is impossible. In this case, the mobile device determines that it has moved out of the service area of the ground mode and selects the satellite mode. If the ground level reception level falls below the level that defines the ground mode service area within the zone of the wireless base station that does not allow switching from the ground mode to the satellite mode, and it is not possible to switch to the peripheral zone , The mobile device determines that it has entered the dead zone, and continues to select the ground mode.

When the mobile station selecting the satellite mode enters the terrestrial mode service area and the terrestrial mode reception level exceeds the level defining the terrestrial mode service area, it is located at the edge of the service area. In the zone of the radio base station that does not allow switching from the satellite mode to the terrestrial mode, flutter of mode switching may occur, and therefore the mobile station continues to select the satellite mode. After that, if you move to the zone of the radio base station that permits switching from satellite mode to terrestrial mode, and the terrestrial mode reception level in that zone exceeds the level that defines the terrestrial mode service area, select the terrestrial mode. To do.

Permission of mode switching between the ground and satellite in each radio base station zone of the terrestrial mode in the mobile device,
The non-permission is identified by the mode selection permission information in the control channel transmitted from the base station.

Conventionally, since the switching between the terrestrial mode and the satellite mode is determined by the reception level of the propagation from the terrestrial mode base station in the mobile unit, the zones of the radio base stations constituting the terrestrial mode service area are distinguished. Without
It was possible to switch between ground mode and satellite mode in any zone. On the other hand, the present invention is different in that the zones of the radio base station capable of mode switching from the ground mode to the satellite mode and mode switching from the satellite mode to the ground mode are limited.

[0018]

1 is a block diagram showing a mobile communication system according to an embodiment of the present invention. Here, the selection operation between the ground mode and the satellite mode will be described as an example.

This embodiment is provided with a satellite mode base station 4 and a terrestrial mote base station 8 corresponding to a satellite mode and a terrestrial mode, respectively, which have service areas overlapping with each other and have different radio interfaces, and select the satellite mode or the terrestrial mode. The terrestrial / satellite dual mode mobile unit 9 is provided as a mobile unit that communicates with the radio base station in that mode. The terrestrial mode service area, that is, the terrestrial mode service area 11 is divided into a plurality of zones (radio base station zones), and the terrestrial mode base station 8 is arranged in each zone. However, in the figure, only one ground mode base station 8 is shown. The satellite mode service area, that is, the satellite mode service area 10 is set so as to include the terrestrial mode service area 11, and communication between the satellite mode base station 4 and the terrestrial / satellite dual mode mobile station 9 is performed via the communication satellite 5. Is done. The satellite mode base station 4 is connected to the mobile communication network 2 via the satellite mode switch 3, and the terrestrial mode base station 8 is connected to the mobile communication network 2 via the terrestrial mode switch 7 to connect the terrestrial mode mobile device and the satellite mode. Enables communication with other mobile devices. The mobile communication network 2 is connected to the general telephone network 1 and enables communication with terminals of the general telephone network 1. A position registration memory 6 for position registration is connected to the satellite mode switch 3 and the terrestrial mode switch 7.

The terrestrial / satellite dual mode mobile unit 9 can measure the reception level in the terrestrial mode and can switch the mobile communication mode based on the measurement result. Specifically, when the measured reception level exceeds or falls below a predetermined threshold for a predetermined period of time, it is determined that switching to another communication mode is appropriate. By measuring the reception level of the terrestrial mode, basically, the terrestrial mode can be selected in the terrestrial mode service area 11 and the satellite mode can be selected outside the area.

The feature of this embodiment is that the zone forming the terrestrial mode service area 11 permits switching from the terrestrial mode to the satellite mode but does not permit switching from the satellite mode to the terrestrial mode. The zone is divided into a zone where switching from satellite mode to terrestrial mode is permitted but switching from terrestrial mode to satellite mode is not permitted. That is, the terrestrial mode base station 8 notifies, for each zone constituting the service zone of the mode, permission or disapproval of mode switching between the mode and other mobile communication modes to the mobile devices in the zone. The terrestrial / satellite dual mode mobile station 9 controls mode switching according to the notification.

FIG. 2 shows an example of the signal configuration of the broadcast information transmitted by the terrestrial mode base station 8. In the wireless frame, in addition to the conventional broadcast information for identifying the wireless zone, information indicating permission or non-permission of mode switching is inserted.

FIG. 3 shows a terrestrial / satellite dual mode mobile unit 9.
3 is a block diagram showing a configuration example of FIG. This terrestrial / satellite dual mode mobile unit 9 has two radio systems, a terrestrial mode system and a satellite mode system, and is capable of communicating in either mode by a mode switching control circuit.

That is, as the terrestrial mode system, a terrestrial radio control circuit 31, a terrestrial voice coder 32 for coding a transmission voice, a terrestrial transmitter 33 for modulating and amplifying the coded signal, The transmission / reception duplexer 34, the terrestrial transmission / reception antenna 35, a terrestrial receiver 36 that receives and amplifies and demodulates a signal from a base station, and a terrestrial voice decoder 37 that decodes the received signal into voice. Similarly, as a satellite mode system, a satellite radio control circuit 41, a satellite voice encoder 42, a satellite transmitter 43, a transmission / reception duplexer 44,
A satellite transmitting / receiving antenna 45, a satellite receiver 46, and a satellite voice decoder 47 are provided.

As a shared circuit, the handset 21
A control signal changeover switch 22, a transmission voice changeover switch 23, a reception voice changeover switch 24,
And a mode switching control circuit 25.

4 and 5 are views showing the flow of control for mode switching, and FIG. 4 shows the mode switching control circuit 2
5, the mode switching from the satellite mode to the terrestrial mode, FIG. 5 shows the flow of control of the mode switching control circuit 25 for zone switching in the terrestrial mode and the terrestrial radio control circuit 31 for mode switching from the terrestrial mode to the satellite mode. .

In any case, when the mode switching control circuit 25 receives the information indicating the permission or prohibition of the mode switching notified by the ground mode notification information, the mode switching control circuit 25 determines what mode switching is possible. . If the current mode is the satellite mode (even if the ground mode control signal is still received) and switching to the ground mode is permitted, the ground mode reception level is the first threshold value. When it exceeds the threshold value, the mode selection timer is started. When the reception level still exceeds the threshold value at the end of the operation, the satellite mode is switched to the ground mode. If the current mode is terrestrial mode and switching to satellite mode is allowed, the terrestrial mode reception level falls below the second threshold (which may be the same as the first threshold). Then, the mode selection timer is started, and when the reception level is still below the threshold value at the end of the operation, the ground mode is switched to the satellite mode. In other cases, the mode is not switched.

In order to explain the operation of this embodiment in more detail, first, the zone arrangement and the dead zone will be explained.

FIG. 6 shows an example of the structure of the radio base station zone which constitutes the terrestrial mode service area. In this figure, each zone is represented by a hexagonal area. The outermost zone 61 (shown by shading in the figure) of the service area (terrestrial mode service area) is a zone in which switching from the ground mode to the satellite mode is permitted, but switching from the satellite mode to the ground mode is not permitted. is there. A zone 62 inside the zone 61 is a zone which permits switching from the satellite mode to the ground mode but does not permit switching from the ground mode to the satellite mode.

FIG. 7 shows an example of a dead zone. On the side of the building 73 in the zone 72 of the terrestrial mode wireless base station 71 opposite to the wireless base station 71, the building 73 blocks radio waves from the wireless base station 71, and the reception level defines the service area. The dead zone 74 may be below the level that

FIG. 8 is a diagram showing the relationship between fluctuations in reception level and mode selection. In FIG. 8A, a terrestrial / satellite dual mode mobile unit (hereinafter simply referred to as “mobile unit”) passes through the dead zone of FIG. FIG. 6B shows the fluctuation of the reception level in the case of performing the mode selection, and FIG. 6B shows the mode selection in the case of switching between the ground mode and the satellite mode by using the conventional ground mode out-of-range determination algorithm. When the mobile device approaches the dead zone, the reception level decreases, and when the mobile station enters the dead zone, the reception level falls below the level defining the service area (time t ₁ ). The mobile device selecting the terrestrial mode determines that it has moved out of the service area at that time, switches to the satellite mode, and performs position registration using the satellite mode control channel. After that, the reception level is restored by the movement of the mobile device, and when the user goes out of the dead zone, the reception level exceeds the level defining the service area (time t ₂ ). The mobile device selecting the satellite mode determines that it has entered the service area at that time, switches to the ground mode, and performs position registration using the control channel of the ground mode.

On the other hand, in this embodiment, when there is a dead zone in the terrestrial mode radio base station zone, if the zone prohibits switching from the terrestrial mode to the satellite mode, the mobile unit is in the mode. Do not switch. Therefore, it is possible to reduce the traffic of the location registration due to the dead area.

FIG. 9 shows how the terrestrial / satellite dual mode mobile station moves in the zone structure shown in FIG.
0 indicates the relationship between the fluctuation of the reception level at that time and the operations of zone selection and mode switching. Here, the terrestrial satellite dual mode mobile unit 91 moves from outside the terrestrial mode service area through the zone 92 that does not allow switching from the satellite mode to the terrestrial mode and moves to the zone 93 that allows switching from the satellite mode to the terrestrial mode. I shall.
Zone 93 is adjacent to zones 94 and 95 which do not allow switching from satellite mode to terrestrial mode and zones 96, 97 and 98 which allow switching from satellite mode to terrestrial mode.

In FIG. 10, (a) shows the fluctuation of the reception level. When the terrestrial / satellite dual mode mobile unit 91 approaches the zone 92, the reception level of the zone 92 becomes high and exceeds the level defining the service area at a certain time T ₁ . Therefore, if there is fading, the reception level of the zone 92 falls below the level defining the service area at a certain time T ₂ , and exceeds the level defining the service area again at the subsequent time T ₃ . Terrestrial / satellite dual mode mobile station 91 passes through zone 92 to zone 93
The closer to, the higher the reception level of the zone 93,
At some point in time T ₄ , the level that defines the service area is exceeded. After that, due to fading, the reception level of the zone 93 falls below the level defining the service area again at a time point T ₅ , and at a subsequent time point T ₆ , the reception level exceeds the level defining the service area again. Time points T ₄ , T
₅ , terrestrial / satellite dual mode mobile station 91 at T ₆
The position of is a place where the zones 92 and 93 overlap each other, and the reception level of the zone 92 exceeds the level that defines the service area. As you enter the zone 93, you get closer to the end of the zone 92, and at some point T ₇ the zone 9
The reception level of 2 falls below the level that defines the service area. At this time T ₇ , since the terrestrial / satellite dual mode mobile unit 91 is in the zone 93, the zone 9
The reception level of 3 exceeds the level that defines the service area.

FIG. 10B shows zone selection in the terrestrial mode and mode switching between the terrestrial mode and the satellite mode when using the conventional terrestrial mode out-of-range determination algorithm. In this case, the mobile device determines that it entered zone 92 in the ground mode service area at time T ₁ ,
Communication mode from satellite mode to ground mode (Zone 92)
Switch to, and perform location registration using the control channel in terrestrial mode. At time T ₂ , it is determined that the vehicle has moved out of the service area of the ground mode, the ground mode (zone 92) is switched to the satellite mode, and position registration is performed using the satellite mode control channel. Determined to have entered the zone 92 of the service area of the terrestrial At time T ₃ mode, switching from the satellite mode to the terrestrial mode (zone 92), performs location registration with the control channel of the terrestrial mode. After that, the mobile station continues to operate in the ground mode (zone 9) while the reception level in zone 92 is above the level defining the service area.
Continue to select 2). At time T ₇ , the mobile device has two options of zone switching to the terrestrial mode zone 93 or mode switching to the satellite mode. However, in the terrestrial mode service area, the terrestrial mode is prioritized. Zone switching to the ground mode (zone 93) is performed, and position registration is performed using the ground mode control channel.

(C) shows the operation of zone selection and mode switching when the mode switching is restricted. The terrestrial / satellite dual-mode mobile unit 91 determines that it has entered the zone 92 in the terrestrial mode service area at time T ₁ , but since the zone 92 is prohibited from switching from the satellite mode to the terrestrial mode, the satellite continues. Select a mode. Passing through the zone 92, at time T ₄ , the terrestrial / satellite dual mode mobile station 91 determines that it has entered the zone 93, and the zone 93 permits switching from the satellite mode to the terrestrial mode. The mode is switched to the ground mode (zone 93), and position registration is performed using the ground mode control channel. At time T ₅ , the terrestrial / satellite dual mode mobile station 91 determines that it has left the terrestrial mode service area, but switching from the terrestrial mode to the satellite mode is prohibited in zone 93, and in this case,
Since the reception level of the zone 92 exceeds the level that defines the service area, the zone is switched to the terrestrial mode zone 92 and position registration is performed using the terrestrial mode control channel. At time T ₇ , the zone 92 is permitted to switch from the ground mode to the satellite mode, and the terrestrial / satellite dual mode mobile station 91 is switched to the ground mode zone 93 or to the satellite mode. There are two options. However, the ground / satellite dual mode mobile station 91 performs zone switching to the ground mode zone 93 under the condition that the ground mode is prioritized within the ground mode service area, and the position registration is performed using the ground mode control channel. To do.

[0037]

As described above, the mobile communication system of the present invention suppresses unnecessary mode switching at dead zones or at the edge of a service area by setting permission or non-permission of mode switching for each zone. And control channel traffic can be mitigated.

In particular, when the mode is switched between the terrestrial mode and the satellite mode, the service area of the terrestrial mode is allowed to be switched from the terrestrial mode to the satellite mode, but is not allowed to be switched from the satellite mode to the terrestrial mode. It is divided into zones and zones that allow switching from satellite mode to terrestrial mode but do not allow switching from terrestrial mode to satellite mode. As a result, in the zone where the switching from the ground mode to the satellite mode is not permitted, it is possible to reduce the mode switching due to the dead zone and the position registration traffic accompanying the mode switching.

Further, the zone around the service area of the terrestrial mode is allowed to switch from the terrestrial mode to the satellite mode, but the reverse switching is not permitted, and the zone inside thereof is switched from the satellite mode to the terrestrial mode. However, if the satellite mode service area enters the terrestrial mode service area, it will not be possible to switch from the satellite mode service area to the terrestrial mode service area even if the reception level of the zone deteriorates. It is possible to switch the zone to the ground mode zone and not to switch to the satellite mode. Therefore, the flutter of mode switching does not occur, and the position registration traffic accompanying the mode switching can be minimized.

[Brief description of drawings]

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

FIG. 2 is a diagram showing a signal configuration example of broadcast information transmitted by a ground mode base station.

FIG. 3 is a block diagram showing a configuration example of a terrestrial / satellite dual mode mobile device.

FIG. 4 is a diagram showing a control flow of mode switching from satellite mode to ground mode.

FIG. 5 is a diagram showing a control flow of zone switching in the ground mode and mode switching from the ground mode to the satellite mode.

FIG. 6 is a diagram showing a configuration example of a wireless base station zone which constitutes a terrestrial mode service area.

FIG. 7 is a diagram showing an example of a dead area.

FIG. 8 is a diagram showing a relationship between variations in reception level and mode selection.

9 is a diagram showing how the terrestrial / satellite dual mode mobile station moves in the zone configuration shown in FIG. 6;

FIG. 10 is a diagram showing a relationship between variations in reception level and operations of zone selection and mode switching.

[Explanation of symbols]

 1 General Telephone Network 2 Mobile Communication Network 3 Satellite Mode Switch 4 Satellite Mode Base Station 5 Communication Satellite 6 Location Registration Memory 7 Terrestrial Mode Switch 8 Terrestrial Mode Base Station 9 Terrestrial / Satellite Dual Mode Mobile Station 10 Satellite Mode Service Area 11 Terrestrial Mode Service Area 21 Handset 22 Control signal changeover switch 23 Transmission voice changeover switch 24 Reception voice changeover switch 25 Mode changeover control circuit 31 Terrestrial radio control circuit 32 Terrestrial voice encoder 33 Terrestrial transmitter 34 Transmitter / receiver 35 Terrestrial transmit / receive antenna 36 Terrestrial receiver 37 Terrestrial voice decoder 41 Satellite radio control circuit 42 Satellite voice encoder 43 Satellite transmitter 44 Transmitter / receiver 45 Satellite transmit / receive antenna 46 Satellite receiver 47 Satellite voice decoder

Claims (3)

[Claims] 1. A radio base station provided corresponding to each of a plurality of mobile communication modes whose service areas overlap with each other and have different radio interfaces, and a radio base station in any one of the plurality of mobile communication modes selected. A mobile device that communicates with a station, the mobile device is a reception level measuring unit that measures a reception level of at least one mode of the plurality of mobile communication modes, and based on a measurement result of the reception level measuring unit. In a mobile communication system that includes a mode switching unit that switches mobile communication modes, a wireless base station in at least one mode of the plurality of mobile communication modes, for each zone constituting a service zone of that mode, and the mode A method for notifying mobile stations in the zone whether or not to allow mode switching to / from other mobile communication modes. A mobile communication system comprising a step, wherein the mobile device includes means for controlling the mode switching means in accordance with a notification from the notification means. 2. The plurality of mobile communication modes include a ground mobile communication mode in which communication is performed by terrestrial waves and a satellite communication mode in which communication is performed via a satellite, and the service area of the ground mobile communication mode includes a plurality of zones. Divided, the reception level measuring means includes means for measuring the reception level of the terrestrial mobile communication mode, the mode switching means, the reception level of the terrestrial mobile communication mode is reduced, and zone switching to the peripheral zone In the case where it is impossible, the satellite communication mode is selected, and a zone around the service area of the plurality of zones is allowed to switch from the ground mobile communication mode to the satellite communication mode. The reverse switching is set in a zone that is not allowed, and the zone inside the peripheral zone is from the satellite communication mode The mobile communication system of the above mobile switching to the communication mode Permitted although according to claim 1, wherein the reverse switching was set to not allowed zone. 3. A reception level measuring means for measuring a reception level of at least one of a plurality of mobile communication modes having different radio interfaces, and a mode for switching the mobile communication mode based on a measurement result of the reception level measuring means. In a mobile device provided with a switching means, means for controlling the mode switching means in accordance with a notification of permission or non-permission of switching of the mobile communication mode from a wireless base station in at least one mode of the plurality of mobile communication modes. A mobile device characterized by being provided.