JP3292226B2 - Mobile communication method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication method that accommodates a mobile terminal that performs circuit switching communication with the same radio base station and a mobile terminal that performs packet communication.

[0002]

2. Description of the Related Art FIG. 4 shows an example of circuit switching and packet communication in a conventional mobile communication network. When performing circuit switching communication, the circuit switching control function 1 in the mobile communication control station 11
2. Under the control of the radio base station control function 13, the circuit switching mode radio channel 15 used in the radio base station 14 is selected, and the path in the circuit switching voice encoder 16 in the mobile communication control station 11 is , The path in the communication path switch 17 is set for circuit switching, and the selected circuit switching mode radio channel 15, the radio base station 14, the voice encoding device 16, and the movement through each path of the communication path switch 17 Circuit-switched communication between the circuit-switched communication mobile terminal 18 and the circuit-switched communication fixed terminal 19 can be performed via the communication network and, if necessary, the fixed network.

On the other hand, when performing packet communication, the packet switching mode radio channel 22 is used for the packet switching function 21 in the mobile communication control station 11 under the control of the circuit switching control function 12 and the radio base station control function 13. And stays in the radio channel 22 and passes through the mobile communication network and the fixed network using the path in the voice encoding device 16 set for packet communication and the path in the speech path switch 17 fixed for packet. Mobile terminal 2
3 and the packet exchange fixed terminal 24 can perform packet communication.

In the circuit switching mode, one radio channel is allocated to one call, and in the packet switching mode, one or more radio channels are used and handled as one channel. In both communications, since the radio channel used is fixed and the control function is independent, a new circuit-switched call is generated even if packet communication is not performed and the radio channel in packet-switched mode is free However, when there is no channel in the circuit switching mode, circuit switching communication is not possible at least on the radio until the channel in the circuit switching mode becomes empty.

[0005]

In the conventional mobile communication network, the management of the radio channel is performed dually by the base station control function 13 and the packet switching control function 21 of the exchange. The switching mode and the packet switching mode are fixedly prepared. If a circuit-switched call is newly generated when there is no packet-switched communication and there is no circuit-switched mode channel, the communication is not performed because the packet-switched mode wireless channel is not in use but the channel mode is different. Impossible. When a circuit-switched call is newly generated when packet communication is performed on a plurality of channels and there is no channel in the circuit-switched mode, one of the channels for packets is given to the circuit-switched call and the packet communication is performed. Is impossible to continue on the remaining channels. That is, there is a problem that the wireless channel cannot be used effectively.

[0006]

According to the present invention, a radio line management function for centrally managing the use status of both circuit switching communication and packet communication in a radio section in a mobile communication control station is provided. Communicates with the circuit switching control function, the packet switching control function, and the radio base station control function, and manages the use status of both the circuit switching communication and the packet communication that change with time in a wireless section. When a new call is made, if there is an available channel, it does not depend on the type of communication, and one communication (eg, packet communication)
Is changed to a channel for the other communication (for example, circuit-switched communication), the terminal is notified of the change in the state of the radio channel, and then the radio base station, the voice encoding device, The setting of the switch is changed so that the switch can be used as a communication channel corresponding to a newly generated call.

[0007]

FIG. 1A shows a part of an example of the configuration of a system to which an embodiment of the present invention is applied, and portions corresponding to those in FIG. 4 are denoted by the same reference numerals. In this embodiment, a wireless line management function 26 for centrally managing the circuit switched mode wireless channel and the packet switched mode wireless channel is provided.

[0008] When a circuit-switched call is newly generated, the circuit-switching control function 12 requests a line setting from the terminal 18 when the terminal originates and from the mobile communication network when the terminal arrives. afterwards,
As shown in FIG. 2, the circuit switching control function 12 requests the radio base station control function 13 to allocate a free wireless channel in the circuit switching mode. Here, when there is an idle circuit-switching mode wireless channel, line setting is performed by a conventional method. However, if the wireless base station control function 13 does not have an idle circuit switching mode wireless channel, the base station control function 13 further makes an inquiry to the wireless line management function 26 (issues a channel search request).

The wireless channel management function 26 searches for a wireless channel, and when a plurality of wireless channels are used in the packet switching mode, requests the packet switching control function 21 to change the packet switching mode channel. If only one radio channel is used in the packet switching mode, that is, if there is no radio channel to be changed to the circuit switching channel, the radio line management function 26 indicates to the radio base station control function 13 that all channels are being used. And the radio base station control function 13 makes a similar response to the circuit switching control function 12.

The packet switching control function 21 receiving the request to change the channel in the packet switching mode checks the packet transmission status by the packet switching mode channel, that is, whether or not the packet traffic is heavy and congested. It is determined whether packet transmission is possible even if one wireless channel is removed from the packet-switched mode channel. If not, a new packet-switched mode channel with one wireless channel removed is used in that zone. The change to the packet switching mode channel in the above is notified by the broadcast channel for packet communication, and after a predetermined time, the own setting is changed in accordance with the change, and the radio base station control function 13 is changed via the circuit switching control function 12 Pass the removed wireless channel as a free (used) channel. And, also the radio network management function 26
Is notified of the new channel change result. The radio base station control function 13 opens the previously blocked radio channel. Upon receiving the channel change notification, the packet communication terminal 23 changes the packet switching mode channel to be used after a certain period of time to the notified new one. The radio base station control function 13 causes the radio base station 14 to set the radio channel in the circuit switching mode, and at the same time, makes a channel assignment response to the channel assignment request from the previous circuit switching control function 12 . The circuit switching control function 12 changes the settings of the speech encoder 16 and the speech path switch 17 and changes the path to the mobile communication network or fixed network extended from the wireless channel. In this way, normal circuit-switched communication can be started. If the packet switching control function 21 has a large amount of packet traffic and cannot remove the wireless channel, it notifies the wireless circuit management function 26 of the fact, and the wireless circuit management function 26 displays the display indicating that all channels are in use as described above. Do so.

At the end of the circuit-switched communication, the radio line management function 26 notifies the radio base station control function 13 via the circuit-switching control function 12 of the vacancy of the channel associated with the end of the communication. The radio line management function 26 requests the radio base station control function 13 to block the radio channel, and notifies the packet switching control function 21 of the idle channel. The packet switching control function 21 notifies the change of the packet switching mode channel in the zone by the broadcast channel for packet communication, and changes its own setting according to the channel change. Circuit switching control function 12
Sets the speech encoder 16 and the speech path switch 17 to the packet switching mode. In order to make one packet exchange channel with a plurality of radio channels, high-speed transmission is performed by using the plurality of time-division time slots as the same channel, or time slots of a plurality of channels are connected to increase the packet length. Any of

In the above description, the radio line management function 26 is provided as an independent function, but it may be integrated with the circuit switching control function 12 or the radio base station control function 13. FIG.
B shows a configuration in a case where the radio line management function 26 is arranged so as to be included in the radio base station control function 13 side. When a new circuit-switched call is generated, the circuit-switching control function 12 requests the radio base station control function 13 to allocate a free radio channel. Here, when there is a free wireless channel in the circuit switching mode, the line is set in the same manner as in the related art. If the radio base station control function 13 does not have a circuit switching mode free radio channel but has a packet switching mode free radio channel, the packet switching control function 21
To change the packet switched mode channel. If there is no free radio channel in the radio base station control function 13, that is, if all radio channels in the zone are used in the circuit switching mode, a response indicating that all channels are in use is sent to the circuit switching control function 12. Do. If the packet switching mode radio channel has a vacancy, the packet switching control function 10 notifies the change of the packet switching mode channel in the zone by using the broadcast channel for packet communication when receiving the request, and after a certain period of time, changes its own channel. The setting is changed, and the wireless base station control function 13 is notified of the available channel through the circuit switching control function 12. The radio base station control function 13 opens the previously blocked radio channel. The radio base station control function 13 causes the radio base station 14 to set the radio channel in the circuit switching mode, and at the same time, makes a channel assignment response to the channel assignment request from the previous circuit switching control function 12. In this manner, normal circuit-switched communication can be started in the same manner as in the above embodiment.

At the end of the circuit-switched communication, the radio base station control function 13 blocks the radio channel with the end of the communication, and gives the packet switching control function 21 via the circuit-switching control function 12 the radio channel used for the circuit-switching mode. To the packet switching mode. Upon receiving this notification, the packet switching control function 21 notifies the change of the packet switching mode channel in the zone by using the packet communication broadcast channel, and changes its own setting in accordance with the channel change. The circuit switching control function 12 sets the speech encoder 16 and the speech path switch 17 to the packet switching mode.

In the above description, one radio channel is always left as a packet switching channel, but if there is a request for a circuit switching channel in a state where there is no packet communication, and all of them are blocked, the remaining packet Of 1
Wireless channels may also be used for circuit switching. Further, in the above description, when the wireless channel is diverted for circuit switching, the call is immediately returned to the packet switching when the call is over, but this is not always necessary. However, when returning immediately, packets can be transmitted at a higher speed.

If there is no room in the packet switching mode channel for the incoming request in the packet switching mode and there is a vacancy in the radio channel in the circuit switching mode, the vacant channel can be similarly used in the packet switching mode. In the above description, the radio channel may be any of frequency-division, time-division, and code-division.

[0016]

As described above, according to the present invention, when a circuit switching call is generated by providing a wireless management function for centrally managing the circuit switching mode radio channel and the packet switching mode radio channel. If there is no wireless channel in the circuit-switched mode, if there is a free wireless channel in the packet-switched mode, the mode is switched to the circuit-switched mode and used. By returning to the packet switching mode, compared to a case where a wireless channel is fixedly assigned to each of the circuit switching communication and the packet communication,
Efficient use of a finite radio channel becomes possible.

[Brief description of the drawings]

FIG. 1A is a block diagram showing a main part of a mobile communication system to which the method of the present invention is applied, and FIG. 1B is a block diagram showing another example.

FIG. 2 is a diagram showing a procedure in the embodiment of the present invention.

FIG. 3 is a diagram showing a procedure in another embodiment of the present invention.

FIG. 4 is a block diagram showing a part of a conventional mobile communication system.

────────────────────────────────────────────────── ─── Continuation of front page (56) References JP-A-6-284060 (JP, A) JP-A-2-158223 (JP, A) JP-A-1-274524 (JP, A) (58) Field (Int.Cl. ⁷ , DB name) H04Q ^7/ 00-7/38 H04B ⁷ /24-7/26

Claims (2)

(57) [Claims] 1. One radio channel is assigned to one call
Circuit-switched mode channels and one or more wireless channels per call
In a mobile communication method that enables circuit-switched communication and packet-switched communication using a packet-switched mode channel to which a channel is assigned , a line to be assigned when a new circuit-switched call connection request occurs If the replacement radio channel is not enough,
New Pake remove the part of the radio channel for packet exchange
Switch to the packet exchange mode channel, and remove the
By switching-switched radio channel to the radio channel for circuit switched mobile communication wherein the connecting assign the circuit-switched call to the circuit-switched call as described above occurred. 2. The circuit switched to the circuit-switched wireless channel is returned to the packet-switched wireless channel when the circuit-switched call is terminated after the connection of the circuit-switched call. Mobile communication method.