JP2994530B2 - Satellite / land integrated mobile communication system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated satellite / land mobile communication system comprising a satellite mobile communication system and a cellular land mobile communication system.

[0002]

2. Description of the Related Art The service area of a cellular base station in a cellular land mobile communication system has a radius of several hundred meters to several tens of kilometers around the cellular base station. for that reason,
It is difficult to cover a wide area with only cellular base stations from the viewpoints of the required number of cellular base stations, the installation cost, and the development of networks associated with the installation of cellular base stations. Is limited to large cities with a large number of users. Therefore, it is difficult to set an area with a small number of users as a service area, such as a local small city, a mountain area, a remote island, and the like. The satellite mobile communication system has a very large service area, ranging from hundreds to thousands of kilometers due to the wide coverage of satellite beams from communication satellites (hereinafter simply referred to as satellites), but it is difficult to reuse frequency resources. is there.

[0003]

As described above, in the conventional satellite / land integrated mobile communication system, a terminal located outside the service area of the cellular land mobile communication system accesses the satellite mobile communication system. . Therefore, this conventional satellite /
In the terrestrial integrated mobile communication system, a dual mode terminal located within the cellular terrestrial mobile communication system service area does not access the satellite mobile communication system. Therefore, if the dual mode terminal cannot use the cellular land mobile communication system radio line or land line due to congestion of the cellular radio line or land line or other reasons, there is a satellite radio line accessible by the dual mode terminal. However, there is a disadvantage that a call loss occurs.

[0004] The service area of the satellite mobile communication system used here is usually constituted by a plurality of spot beams from the viewpoints of suppressing transmission power, miniaturizing the terminal, and effectively using the frequency. However, in the conventional satellite / land integrated mobile communication system, a dual mode terminal located outside the service area of the cellular base station accesses the spot beam, and a dual mode terminal located within the service area of the cellular base station is accessed by the cellular. It will access the base station. Therefore, in the conventional integrated satellite / terrestrial mobile communication system, call loss occurs due to a shortage of frequency resources of the cellular land mobile communication system in an area where the number of users is large and communication traffic is concentrated. Is not utilized. Therefore, there is a drawback that a call loss occurs despite the existence of the frequency resources of the satellite mobile communication system.

[0005] Also, when a user can perform international communication at a lower cost by using a satellite mobile communication system than by using a dual-mode terminal to perform international communication via a cellular land mobile communication system, the user can use a cellular phone. Since international communication is performed via the land mobile communication system, there is a disadvantage that the cost burden on the user increases.

According to the present invention, in order to improve the above-mentioned drawbacks, a dual mode terminal is used to connect a cellular radio line or a land line of a cellular land mobile communication system, such as at the time of channel congestion of a cellular land mobile communication system or at the time of terminal transmission restriction. By diverting the call to the satellite radio line when it is not available, even if the dual mode terminal is located within the cellular land mobile communication system service area, the dual mode terminal can access the satellite mobile communication system. An object of the present invention is to provide an integrated satellite / land mobile communication system capable of reducing a call loss and reducing a user's cost burden by making it possible.

[0007]

In order to achieve this object, an integrated satellite / land mobile communication system according to the present invention comprises a gateway for interconnecting a cellular land mobile communication system network and a satellite mobile communication system network. The satellite mobile communication system periodically notifies the cellular land mobile communication system of the usage status of the satellite radio line, and the cellular land mobile communication system receiving the notification notifies the user when the cellular radio line or the land line is congested. Using the broadcast channel of the cellular base station, broadcasts the available satellite radio line number information to the dual-mode terminal, and receives the information, and the dual-mode terminal uses the available satellite radio line via the satellite mobile communication system. It is configured so that communication can be performed.

[0008]

The present invention relates to an integrated satellite / land mobile communication system for integrating a cellular land mobile communication system and a satellite mobile communication system. According to the present invention, the dual mode terminal accesses the satellite mobile communication system when the cellular land mobile communication system radio line or land line is congested. Therefore, a radio access procedure at the time of calling and receiving of a dual mode terminal located in the service area of the cellular land mobile communication system is important . In this case, according to the present invention, when the wireless line or the land line of the cellular land mobile communication system is congested, the dual mode terminal performs the communication by bypassing to the free satellite wireless line notified from the cellular base station.

[0009]

Embodiment 1 FIG. 1 shows a network configuration of an integrated satellite / land communication system according to the present invention. Reference numeral 1 denotes a satellite, 2 denotes a terrestrial earth station for managing a satellite radio line, 3 denotes an interconnecting gateway, 4 denotes a cellular base station, 5 denotes a dual mode terminal, and 6 denotes a service area of the cellular base station. A satellite mobile communication system composed of a satellite 1 and a plurality of land earth stations 2 and a cellular land mobile communication system composed of a plurality of cellular base stations 4 are:
They are connected to each other via a network connection gateway 3.

FIG. 2 shows a flow of processing of a wireless access procedure of the dual mode terminal 5. FIG. 2A shows a procedure that is periodically executed for the bypass communication of the dual mode terminal 5. The land earth station 2 periodically notifies the cellular base station 4 of the vacant satellite radio line number via the network connection gateway 3. The cellular base station 4 periodically determines whether or not congestion has occurred in the cellular radio line and the land line. When the occurrence of congestion on the cellular radio line or the land line is confirmed, the cellular base station 4 notifies the dual mode terminal 5 of the available satellite radio line number.

FIG. 2B shows a procedure for calling the dual mode terminal 5 when congestion occurs. The dual mode terminal 5 that has received the notification of the available satellite radio line number from the cellular base station 4 makes a call by accessing the available satellite radio line and performs communication via the satellite radio line.

FIG. 2C shows a procedure for receiving a call from the dual mode terminal 5 when congestion occurs. Dual mode terminal 5 located within service area 6 of cellular base station 4
Waits for and receives an incoming call transmitted from the cellular base station 4. The dual mode terminal 5 that has received the incoming call transmitted from the cellular base station 4 receives an incoming call via the satellite radio line by accessing an available satellite radio line.

FIG. 2D shows a procedure when the cellular radio line or land line recovers from the congestion state. The cellular base station 4 transmits an instruction to stop the bypass communication to the dual mode terminal 5.

A dual mode terminal located outside the service area 6 of the cellular base station 4 accesses only the satellite mobile communication system. The dual mode terminal 5 accesses the land earth station 2 via the satellite 1 when making a call, and waits for and receives an incoming call transmitted from the land earth station 2 via the satellite 1 when waiting for an incoming call.

[0015]

Embodiment 2 FIG. 3 shows a configuration example of a dual mode terminal according to the present invention. This figure is based on the premise that different speech coding systems and different wireless transmission systems are used between the cellular land mobile communication system and the satellite mobile communication system. 11-3
Numeral 0 is a functional block constituting a dual mode terminal. Numerals 11 to 19 are dual mode terminal functions used for communication with a cellular base station of a cellular land mobile communication system. 11 is an antenna, 12 is a duplexer, 13 is an LNA, 14 is an HPA, 15 is a modulator, 16 is a demodulator,
17 is a synthesizer, 18 is a speech decoder, and 19 is a speech encoder. Reference numerals 20 to 28 denote dual mode terminal functions used for communication with satellites of the satellite mobile communication system.
20 is an antenna, 21 is a duplexer, 22 is an LNA,
23 is an HPA, 24 is a modulator, 25 is a demodulator, 26 is a synthesizer, 27 is a speech decoder, and 28 is a speech encoder. 29 and 30 are dual mode terminals commonly used for both communication between a cellular base station of a cellular land mobile communication system and a dual mode terminal and communication between a satellite and a dual mode terminal of a satellite mobile communication system. Function. 29 is a central processing unit, which is a radio management, mobility management, and call management function required for a mobile terminal of the cellular land mobile communication system, and a radio management, mobility management, and call management function required for a mobile terminal of the satellite mobile communication system. And software for executing an access destination switching function between the cellular land mobile communication system and the satellite mobile communication system. 30
Is a man-machine interface, which is directly operated / used by a user, such as a numeric keypad, a keyboard, a handset, and an information display. The man-machine interface 30 is commonly used for both communication between the cellular base station of the cellular land mobile communication system and the dual mode terminal and communication between the satellite and the dual mode terminal of the satellite mobile communication system. You.

In FIG. 3, functions 11 to 19 are the same as those of the dedicated terminal for the cellular land mobile communication system, and functions 20 to 28 are the same as those of the dedicated terminal for the satellite mobile communication system. is there. The dual-mode terminal interprets the dual-mode terminal detour communication instruction message received from the cellular base station by the cellular land mobile communication antenna 11 in the central processing unit 29, and transmits and receives signals for 20 to 28 satellite mobile communication systems when transmitting and receiving. The detour communication to the satellite mobile communication system is performed using the function of (1).

In the configuration example of the dual mode terminal shown in FIG. 3, only the central processing unit and the man-machine interface of the cellular land mobile communication system and the satellite mobile communication system are shared.
Other functions use functions dedicated to each mobile communication system. However, if a common voice coding method or a common wireless transmission method is adopted between the cellular land mobile communication system and the satellite mobile communication system, the functions of the common part can be shared. is there.

[0018]

As described above, according to the integrated satellite / terrestrial mobile communication system of the present invention, a terminal detours from a cellular land mobile communication system to a satellite mobile communication system according to the state of use of a cellular radio line or a land line. By performing the access, the call loss is improved and the effective use of the frequency resources is achieved.

[Brief description of the drawings]

FIG. 1 is a block diagram for explaining a network configuration of an integrated satellite / land communication system.

FIG. 2 is a diagram illustrating a dual mode terminal bypass communication procedure according to the present invention.

FIG. 3 is a block diagram illustrating a configuration example of a dual mode terminal according to the present invention.

[Explanation of symbols]

Reference Signs List 1 satellite 2 land earth station 3 network connection gateway 4 cellular base station 5 dual mode terminal 6 cellular base station service area 11 cellular land mobile communication system antenna 12 cellular land mobile communication system transmission / reception duplexer 13 cellular land mobile communication system LNA for cellular 14 HPA for cellular land mobile communication system 15 Demodulator for cellular land mobile communication system 16 Modulator for cellular land mobile communication system 17 Synthesizer for cellular land mobile communication system 18 Speech decoder for cellular land mobile communication system 19 Cellular land mobile Speech encoder for communication system 20 Antenna for satellite mobile communication system 21 Duplexer for satellite mobile communication system 22 LNA for satellite mobile communication system 23 HPA for satellite mobile communication system 24 Demodulator for satellite mobile communication system 25 For satellite mobile communication system Modulator 26 Synthesizer for satellite mobile communication system 27 For satellite mobile communication system Voice decoder 28 satellite mobile communications system for speech coder 29 cellular land mobile system / satellite mobile communications system serves the central processing unit 30 cellular land mobile system / satellite mobile communications system serves man-machine interface

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-60-37843 (JP, A) JP-A-2-19539 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) H04B 7/24-7/26 102 H04Q 7/00-7/38

Claims (1)

(57) [Claims] 1. A dual mode terminal comprising a plurality of land earth stations, a plurality of cellular base stations, a satellite, and a plurality of terminals, each terminal having a function capable of accessing both the cellular base station and the satellite. A satellite / terrestrial integration for performing communication from a cellular land mobile communication system between the terminal and the cellular base station or a satellite mobile communication system between the terminal and the land earth station via the satellite. met mobile communication system, a network and a satellite mobile of the cellular land mobile system
A gateway that interconnects communication networks
From the satellite mobile communication system to the cellular land mobile communication system.
Regularly notify the satellite system of the status of use of the satellite radio line.
The notified cellular land mobile communication system is a cellular land mobile communication system.
When the radio line or land line is congested, the cell
Free satellite radio line using the broadcast channel of the base station
Number information to the dual mode terminal,
The dual mode terminal receiving the
Communication via the satellite mobile communication system
An integrated satellite / terrestrial mobile communication system, characterized in that the mobile communication system is configured so as to be able to operate.