JPH0728441B2 - Mobile communication switching system - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a mobile communication switching system, and particularly to transmission / reception on a control channel of a mobile terminal having a time-division multiplexed control channel and information channel. The present invention relates to a mobile communication switching system for transmitting a user information frame via a wireless line shared by a plurality of subscribers.

[Conventional technology]

In a conventional ISDN (Integrated Services Digtal Network) switching system, as shown in FIG. 4, a subscriber terminal 1 is an exchange through a subscriber line terminating device 2, a subscriber line 3, and a subscriber line terminal station device 4. It was connected to 5. By standardizing the interface 6 (hereinafter referred to as I interface) between the terminal 1 and the subscriber line terminating device 2, various terminals can be easily connected. On the other hand, subscriber line 3
Even in the mobile communication switching system that is configured by a wireless line, there is an advantage that the portability of the terminal is improved and a variety of services can be realized by adopting the same terminal interface. In the I interface,
As shown in FIG. 5, channels 61 and 6 for transferring user information are provided.
2 and a channel 63 for controlling between the terminal and the exchange. The control channel 63 is mainly used to transfer call control information, but is also configured to transfer packet-format user information. That is, the control channel
The information in 63 has a variable length frame structure surrounded by a synchronization flag 631, the terminal is identified by the address field 632, the call control information / user packet information is identified by the call control information / user packet information identification field 633. Can be identified.

[Problems to be solved by the invention]

In the conventional technology configured to individually allocate the control channel (63) for each terminal as described above, the call control information (600) generally disappears after the communication between the user terminals is started, so If the information (601) is not transferred, the control channel (63) has no information to be sent, but it is occupied by one terminal, resulting in a low usage rate. In the case of mobile communication using an expensive wireless line, the use efficiency of the control wireless channel becomes a particular problem, and an efficient configuration of this control wireless channel is strongly desired.

In view of the above-mentioned conventional need, an object of the present invention is to provide a mobile communication exchange that efficiently configures a control channel and improves the use efficiency of the control channel when the I interface is applied to a wireless subscriber line. To provide a method.

[Means for solving problems]

In order to solve the above problems, the present invention provides a mobile terminal (1) using a time division multiplexed information channel (61, 62) and control channel (63) via a wireless line (10). Radio subscribers (61R, 62R) and first control radio channel (63R), which are accommodated in (5) and are assigned to subscribers by using the radio link (10), and a plurality of subscribers A mobile communication switching system that is used by being divided into a second control radio channel (64R) shared by a mobile terminal (1) and a mobile radio station device (700) that accommodates the mobile terminal (1). Means (81) for receiving the information frame of the information channel (61, 62) and the information frame of the control channel (63) from the header, and identifying the header for each information frame of the control channel (63). The information frame is a frame for the first control channel (call control Information)
(600) and a second control channel frame (user information) (601), a first separating means (82), an information frame from the information channel (61, 62) and the first frame. First multiplexing means (83) for multiplexing the control channel frame (600), and information frames of the multiplexed information channels (61, 62) from the first multiplexing means (83) A frame for the first control channel (600),
And a frame for the second control channel (601)
Respectively, the information frame of the information wireless channel,
A means (92) for transmitting to the wireless line (10) as an information frame of the first control wireless channel and an information frame of the second control wireless channel, and multiplexed from the wireless line (10) Receiving means for receiving the information frame of the information wireless channel (61R, 62R), the information frame of the first control wireless channel (63R), and the information frame of the second control wireless channel (64R) (9
4) and the received multiplexed radio channel for information (61
R, 62R) information frame and the first control radio channel (63R) information frame are separated as an information channel (61, 62) and a first control channel frame (600). (85), and of the information frames received from the second control wireless channel (64R), only the information frame addressed to itself is extracted as the second control channel frame (601), and this is extracted as the second control channel frame (601). Second multiplexing means (86) for multiplexing the first control channel frame (600) separated from the separation means (85) and outputting it as a control channel (63); A fourth channel for multiplexing the information channels (61, 62) from the separating means (85) and the control channel (63) from the second multiplexing means (86) for transmission to the mobile terminal (1). Multiplexing means (8
8) and are characterized by having.

[Action]

In the present invention, when the I interface is applied to the wireless line, the control wireless channel is separated into the first control wireless channel that is individually attached to each subscriber and the second control wireless channel that is shared by a plurality of subscribers. However, by using the first control radio channel for the call control information between the terminal and the network and using the second control radio channel for the packet-type user information, the use efficiency of the control radio channel is significantly increased. Can be improved.

〔Example〕

An embodiment of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a configuration diagram of a mobile communication switching system to which the present invention is applied.

In FIG. 2, reference numeral 1 denotes a digital terminal (subscriber terminal), which is a mobile radio station device 700 including a interface line 7, a subscriber line terminating device 8 and a mobile radio transmitting / receiving device 9, a radio line 10, a radio base station 11, It is connected to the exchange 5 via the subscriber line terminal device 4.

In the following description, the mobile radio transceiver 9 and the radio base station 11 will be described.
Consider a state in which a wireless channel (a channel occupied by a specific mobile wireless transceiver 9 and a channel shared by a plurality of mobile wireless transceivers) has already been allocated during the period. In this state, the terminal 1 is equivalent to the case where the terminal 1 is connected to the exchange 5 by the I interface by the normal subscriber cable and is communicating.

FIG. 1 shows a mobile radio station apparatus 700 showing an embodiment of the present invention.
It is a figure which shows an example of a structure of the subscriber line terminator 8 and the mobile radio transmitter / receiver 9 which comprise. This shows details of the devices 8, 9 of the system of FIG.

A signal received from the terminal via the upstream interface line 71 is separated by a separation circuit (DMUX) 81 into an information channel (hereinafter referred to as B channel) and a control channel (hereinafter referred to as D channel). The D channel is also a frame separation circuit
Based on the call control information / user packet information identification field 633 by 82, the call control information and the packet format user information are separated, and the call control information is multiplexed with the B channel again by the multiplexing circuit (MUX) 83 to the mobile radio transceiver 9. The signal is transmitted and transmitted to the channel of frequency F ₁ via the modulator 91 and the transmitter 92. On the other hand, the user information separated by the frame separation circuit 82 is added with the identification number of the mobile radio transmitter / receiver 9 under the instruction of the control circuit 84, and then the plurality of subscribers pass through the modulator 93 and the transmitter 92. It is transmitted on the shared frequency F ₂ channel. Here, in order to make the configuration of the wireless line in the present invention easier to understand, it is shown in FIG. As shown in the figure, in the present invention, the channel of frequency F1 is an individually assigned channel, and the channel of frequency F2 is a common channel for a plurality of subscribers. The individually assigned F1 channels are further time division multiplexed,
It is divided into an information radio channel (61R) and a first control radio channel (63R), and the first control radio channel (6R
In 3R), call control information (630R) is frame-multiplexed.
Also, the F2 channel (second control radio channel 64R), which is a common channel for subscribers, is commonly used by a plurality of mobile terminals, and thus the user information frame (640R) from each mobile terminal is multiplexed. .

On the other hand, the signal received on the channel of frequency F ₃ is
After being received by 94, it is demodulated by the demodulator 95 and separated by the separation circuit (DMUX) 85 into the B channel and the D channel.
The channel signal is transferred to the frame multiplexing circuit 86. The signal received on the channel of frequency F ₄ is received by the receiver 94 and then demodulated by the demodulator 96 to be separated by the frame separation circuit 87.
Transferred to. Under the instruction of the control circuit 84, the frame separation circuit 87 extracts only the signal addressed to itself based on the transceiver number and transfers it to the frame multiplexing circuit 86. Frame multiplexing circuit
At 86, the frame signals from the separation circuit 85 and the frame separation circuit 87 are frame-multiplexed and then transferred to the multiplexing circuit 88.
The multiplexing circuit 88 multiplexes the signals from the demultiplexing circuit 85 and the frame multiplexing circuit 86 as B channel and D channel information and sends them to the downlink interface line 72.

FIG. 3 is a diagram showing an example of the configuration of the radio base station 11 in the embodiment of the present invention. This shows details of the radio base station 11 of the system of FIG.

The B and D channel signals received from the subscriber line terminal device 4 are separated into a B channel signal and a D channel signal by a separation circuit 111. The D channel signal is further separated into call control information and user information by the frame demultiplexing circuit 112 based on the call control information / user packet information identification field 633, and the call control information is again multiplexed with the B channel signal by the multiplexing circuit (MUX) 113. It is transmitted to the channel of frequency F ₃ via the modulator 114 and the transmitter 115. Frame separation circuit
The user information frame separated in 112 is given an identification number of the mobile radio transmitting / receiving apparatus to be received under the instruction of the control circuit 116, and then the frame multiplexing circuit 117 combines the frames with other mobile radio receiving apparatuses. Frame multiplexing. The frame-multiplexed signals to the plurality of mobile radio transceivers are transmitted through the modulator 118 and the transmitter 115 on the channel of frequency F ₄ .

The B channel signal and call control information from the mobile radio transceiver 9 received on the channel of frequency F ₁ are received by the receiver 119, demodulated by the demodulator 120, and separated by the separation circuit (DMUX) 121 by the B channel. Signals and call control signals are separated.

The user information frame received on the channel of frequency F ₂ is received by the receiver 119, demodulated by the demodulator 122, and the frame separation circuit 123 identifies the number of the mobile radio transmitting / receiving device under the control of the control circuit 116. After the frame is multiplexed with the call control information in the frame multiplexing circuit 124, the multiplexing circuit (MU
X) 125 is multiplexed as a B channel signal and a D channel signal and sent to the subscriber line terminal device 4.

In the above explanation, the procedure until the radio channel is assigned to a specific mobile radio transmitter / receiver is not particularly mentioned, but it is easy to use the method already proposed (for example, Kuwahara “Car Phone” The Institute of Electronics and Communication Engineers, Showa 60). Is feasible. Moreover, although the contention control in the wireless channel shared by a plurality of subscribers was not particularly mentioned, various already proposed methods, for example, the slotted Aloha method (literature: L.Kieinrock and SSLam, “Packet-switching
in a slotted satellite channel "in Proc. AFIPS Con
f., vol.42, 1973.) is applicable and does not pose a problem in realizing the present invention.

〔The invention's effect〕

As described above, according to the present invention, when a wireless line is used as a subscriber line, call control information having a low signal density is transmitted using a control channel that is attached to a subscriber, and packetized user information is transmitted. Since the transmission is performed using the control channel shared by multiple subscribers, the concatenated control channel can be slowed to the extent that the allowable connection delay time is satisfied, and the packet format information from the user can be used. Can be carried on a common line only when requested, so that the entire control channel can be used efficiently and mobile communication can be realized economically.

[Brief description of drawings]

1 is a block diagram of a subscriber line terminating device and a mobile radio transmitter / receiver showing an embodiment of the present invention, FIG. 2 is a block diagram of a mobile communication switching system to which the present invention is applied, and FIG. 3 is a block diagram of the present invention. FIG. 4 is a configuration diagram of a radio base station in the embodiment, FIG. 4 is a configuration diagram of a conventional ISDN switching system, FIG. 5 is a diagram showing a channel configuration example in an I interface, and FIG. It is a figure for explaining. 1: terminal, 2: subscriber line terminal device, 3: subscriber line, 4: subscriber line terminal device, 5: switchboard, 6: terminal-network interface, 7: interface line, 700: mobile radio station device, 8: subscriber line terminating device, 9: mobile radio transmitter / receiver device, 10: radio circuit, 11: radio base station, 61, 62: information channel, 63: control channel, 63
1: Sync flag, 632: Address field, 633: Call control information / user packet information identification field, 634: Transmission error detection field, 71: Uplink interface line, 72: Downlink interface line, 81,85,111,121: Separation circuit (DMUX) ,
82,87,112,123: Frame separation circuit, 83,88,113,125: Multiplex circuit (MUX), 84: Control circuit, 86,117,124: Frame multiplex circuit, 91,93,114,118: Modulator, 92,115: Transmitter, 94,119:
Receiver, 95, 96, 120, 122: demodulator, 116: control circuit.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location H04Q 7/28 7/30 7/38 7304-5K H04B 7/26 109 M

Claims (1)

[Claims] 1. Time division multiplexed information channels (61, 6)
Mobile terminal (1) using 2) and control channel (63)
Radio channels (61R, 62R) and a first control radio for accommodating and using the wireless line (10) for subscribers for each call by accommodating the wireless line (10) in the exchange (5) through the wireless line (10). A mobile communication switching system that uses a channel (63R) and a second control radio channel (64R) shared by a plurality of subscribers separately, and a mobile radio station device (1) that accommodates a mobile terminal (1). A means (81) for receiving an information frame of the information channel (61, 62) and an information frame of the control channel (63) from the mobile terminal (1) within the mobile terminal (700), and an information frame of the control channel (63). The header is identified for each, and the information frame is used as the first control channel frame (call control information) according to the result.
(600) and a second control channel frame (user information) (601), a first separating means (82), an information frame from the information channel (61, 62) and the first frame. First multiplexing means (83) for multiplexing the control channel frame (600), and information frames of the multiplexed information channels (61, 62) from the first multiplexing means (83) A frame for the first control channel (600),
And a frame for the second control channel (601)
Respectively, the information frame of the information wireless channel,
A means (92) for transmitting to the wireless line (10) as an information frame of the first control wireless channel and an information frame of the second control wireless channel, and multiplexed from the wireless line (10) Receiving means for receiving the information frame of the information wireless channel (61R, 62R), the information frame of the first control wireless channel (63R), and the information frame of the second control wireless channel (64R) (9
4) and the received multiplexed radio channel for information (61
R, 62R) information frame and the first control radio channel (63R) information frame are separated as an information channel (61, 62) and a first control channel frame (600). (85), and of the information frames received from the second control wireless channel (64R), only the information frame addressed to itself is extracted as the second control channel frame (601), and this is extracted as the second control channel frame (601). Second multiplexing means (86) for multiplexing the first control channel frame (600) separated from the separation means (85) and outputting it as a control channel (63); A fourth channel for multiplexing the information channels (61, 62) from the separating means (85) and the control channel (63) from the second multiplexing means (86) for transmission to the mobile terminal (1). Multiplexing means (8
8) A mobile communication switching system having: