JP4884919B2 - Circuit switching control method and communication terminal during packet communication - Google Patents

Description

  The present invention relates to a radio base station for a communication terminal (PS) during multi-packet communication using all slots between a TDMA (Time Division Multiplex Access) type radio base station (CS) and a communication terminal (PS). This is related to disconnection of a slot in use when there is an incoming call notification by circuit switching from (CS).

  Referring to FIG. 5A to FIG. 5C and FIG. 6, the circuit switching from the wireless base station (CS) to the communication terminal (for example, PHS terminal) (PS) is performed during the conventional multi-packet communication. A method for blocking a slot in a PHS terminal (PS) when there is an incoming call notification will be described.

5A to 5C and FIG. 6 show the TDMA frame configuration of the conventional PHS communication system and the state of slot disconnection and circuit switching incoming in multi-packet communication.
A TDMA frame in the PHS communication system has four slots, slots 1, 2, 3, and 4, as a unit, and a plurality of slots 1 to 4 are continuous.
The PHS communication system is composed of a plurality of radio base stations (CS) and a plurality of PHS terminals (PS), and the PHS terminal (PS) is a plurality of slots (4) between the radio base stations (CS). Multi-packet communication is performed using all of the slots.
FIG. 5A shows the status of each slot and TDMA frame during multi-packet communication. From this figure, it can be seen that multi-packet communication is executed using all slots.

FIG. 5B shows a case where there is an incoming call notification from the radio base station (CS) to the PHS terminal (PS) in the state shown in FIG.
FIG. 5-2 shows that an incoming call notification is received from the radio base station (CS) during multi-packet communication, but there is no empty slot for confirming the contents. The single packet communication is continued while leaving the best slot (slot 3), and the remaining three slots (slots 1, 2, and 4) are disconnected to increase empty slots.

FIG. 5C illustrates a state in which the line exchange has been received by cutting the slots in use in FIG.
In FIG. 5C, since slots other than slot 3 are cut to be empty slots, line switching can be received in slot 1, which is an empty slot, and analog transmission / reception such as voice calls can be performed.

  In FIG. 5C, when a voice call based on circuit switching is performed using the slot 1, the slot 3 during packet communication is disconnected and the voice call is performed in the slot 1 as shown in FIG. (In the PHS communication system, packet communication and voice communication by circuit switching cannot be performed at the same time even if the slot to be used is different, so packet communication is disconnected when making a voice call.)

As communication in the PHS communication system, the following document (see Patent Document 1) is known as a document related to packet communication.
In the above-mentioned document, “a data communication terminal capable of transmitting and receiving data, a PHS portable terminal that wirelessly transmits data from the data communication terminal and transmits the wirelessly received data to the data communication terminal, the PHS portable terminal and the ISDN A PHS data communication system including a base station that wirelessly relays data to and from the network, wherein the PHS mobile terminal notifies the base station of the total amount of transmission data transmitted from the data communication terminal The PHS data communication system, wherein the base station has means for selecting a communication channel of the ISDN network according to the total amount of the transmission data notified from the PHS mobile terminal. Item 1) is described.

JP 2000-21755 A

During multi-packet communication using all slots between a conventional PHS communication base station (CS) and a PHS terminal (PS), the line from the base station (CS) to the PHS terminal (PS) As described in FIGS. 4-1 to 4-4 and the description thereof, the disconnection of the slot in use when there is an incoming call notification due to exchange is performed in the communication state among the slots being used in multi-packet communication. This is a system in which single packet communication is continued while leaving better slots, and the remaining three slots are disconnected on the PHS terminal (PS) side, and the base station cannot recognize which slot has been disconnected.
Therefore, if the slot left by the PHS terminal (PS) is designated as the circuit switching slot by the radio base station (CS) as the circuit switching slot from the radio base station (CS), the circuit switching is received by the PHS. There was a problem that it would be impossible.

  The problem (object) of the present invention is that, during multi-packet communication using all slots between a radio base station (CS) and a communication terminal (PS), the radio base station (CS) for the communication terminal (PS) When the incoming call notification is received due to the circuit switching of the slot, the slot that is currently in use is disconnected by using the past slot allocation history at the location where the communication terminal (PS) currently exists, so that The purpose is to increase the circuit-switched incoming rate by lowering the possibility of the designation of circuit-switched incoming from the base station.

In order to solve the above problems, the circuit switching control method during packet communication according to the present invention provides the communication terminal for the communication terminal during multi-packet communication using all slots between a radio base station and a communication terminal in the TDMA scheme. A circuit switching control method during packet communication that disconnects a slot in use when there is an incoming call notification from a wireless base station by circuit switching,
Using the past slot allocation history data, the slot that is least likely to be assigned the incoming notification is left for packet communication, the other slots are disconnected, and the disconnected slot is used as a circuit-switched incoming notification. It is characterized by using.
Circuit switching control method during packet communication. (Claim 1)

The past slot allocation history data is data stored in the slot allocation history storage unit of the communication terminal, and the slot allocation history data includes an allocation of each slot for each radio base station and for each time zone. The number of times is included. (Claim 2)
In addition, when the slot left for packet communication is designated as a slot for incoming notification of circuit switching from the radio base station, the allocation is changed from the remaining slot to another slot, and the remaining slot is left. The slot is disconnected and used for incoming notification of circuit switching. (Claim 3)
Further, when changing the allocation from the remaining slot to another slot, the past slot allocation history data is used to reduce the possibility that the incoming call notification is most likely to be allocated next to the slot. The slot is allocated for packet communication. (Claim 4)

  Further, the communication terminal of the present invention is a communication terminal that performs multi-packet communication in the TDMA system, and the communication terminal includes a slot allocation storage unit that stores past slot allocation history data and a communication state monitoring unit, When a circuit switching incoming signal is received from a radio base station during multi-packet communication, the communication state monitoring unit acquires the slot allocation history data from a slot allocation history storage unit, and receives the circuit switching incoming signal. It is characterized in that an instruction to disconnect other slots is output while leaving a slot with the lowest possibility of being assigned a notification for packet communication. (Claim 5)

Further, when the slot left for packet communication is designated as a slot for incoming notification of circuit switching from the radio base station, the communication state monitoring unit allocates another slot from the remaining slot. An instruction to change and disconnect the remaining slot is output. (Claim 6)
In addition, when changing the assignment from the remaining slot to another slot, the slot having the lowest possibility next to the slot having the lowest possibility that the incoming call notification is assigned is assigned for packet communication. . (Claim 7)

  8. The circuit switching control method and communication terminal during packet communication according to claim 1, wherein the communication is performed during multi-packet communication using all slots between the radio base station (CS) and the communication terminal (PS). When the incoming call notification from the radio base station (CS) is received from the radio base station (CS) to the terminal (PS), the past slot allocation history at the position where the communication terminal (PS) currently exists is disconnected. By using it, it is possible to increase the circuit switching incoming rate by reducing the possibility that the circuit switching incoming call from the base station will be designated in the slot left upon disconnection.

  1-1, 1-2, 2-1 and 2-2, a wireless base for a communication terminal (for example, PHS terminal) (PS) during multi-packet communication in the embodiment of the present invention A method for blocking a slot in a PHS terminal (PS) when there is an incoming call notification from the station (CS) by circuit switching will be described.

FIGS. 1-1 and 1-2 show the TDMA frame configuration of the PHS communication system in the embodiment of the present invention and the state of slot disconnection and circuit switching incoming in multi-packet communication.
A TDMA frame in the PHS communication system has four slots, slots 1, 2, 3, and 4, as a unit, and a plurality of slots 1 to 4 are continuous.
The PHS communication system is composed of a plurality of radio base stations (CS) and a plurality of PHS terminals (PS), and the PHS terminal (PS) is connected to the radio base station (CS) with a plurality of slots (four). Multi-packet communication is performed using all of the slots.

  FIG. 1-1 shows the status of each slot and TDMA frame during multi-packet communication, and it can be seen from this figure that multi-packet communication is being executed using all slots. (This state is the same as in the conventional case (FIG. 3-1).)

FIG. 1-2 shows a case where there is an incoming call notification from the radio base station (CS) to the PHS terminal (PS) in the state of FIG.
In FIG. 1-2, since an incoming notification is received from the radio base station (CS) during multi-packet communication, there is no empty slot for confirming the contents. Based on the slot allocation history data stored in association with the radio base station (CS), the slot history allocated in the telephone call is left with a slot that is unlikely to be allocated (slot 3 in the figure), and the others. Slots 1, 2, and 4 are cut.
The slot allocation history data is the number of times each slot is allocated for each radio base station unit and for each time slot.

An example of the slot allocation history data (slot allocation history information table) is shown in FIG.
In the example of FIG. 3, the number of allocations of slots 1 to 4 of the base stations 1 to n is recorded for each time zone 0 to 23.

  In the present invention, among the slots in use in FIG. 1-2, the other slots 1, 2, and 4 are disconnected while leaving a slot (slot 3 in the figure) that is unlikely to receive an incoming call notification. The possibility that the circuit switching can be received can be increased as compared with the conventional case where the circuit switching is simply selected according to the communication state.

  In the present invention, as described above, the slots that are not likely to be assigned an incoming notification are cut out of the slots in use, and the other slots are disconnected. Although the rate increases, the correspondence in the present invention is shown in the case where the slot (in this case, slot 3) is designated as the slot in which the circuit switching incoming call from the radio base station (CS) still remains. This will be described with reference to FIG. 1 and FIG.

  In FIG. 2-1, the slot (slot 3 in the figure) left by the PHS terminal (PS) is designated as the circuit switching slot by the radio base station (CS) as the circuit switching slot. Shows the case.

When the state shown in FIG. 2A occurs, in the present invention, as shown in FIG. 2B, the assignment is changed to the slot 1 having the lowest possibility next to the slot to which the incoming call notification is most unlikely to be assigned. In slot 3, an incoming circuit switching call is received from the radio base station (CS).
In this state, when the user of the PHS terminal (PS) makes a call by circuit switching, the slot 1 for packet communication can be disconnected and the call can be made in the slot 3 as in FIG.
Further, packet communication in slot 1 can be continued when a telephone call is not made by circuit switching.

A hardware configuration according to the embodiment of the present invention will be described with reference to FIG.
FIG. 4 is a diagram showing a hardware configuration of a communication terminal (for example, a PHS terminal) according to the present invention.
In FIG. 4, 1 is a communication control unit, 2 is a slot control unit, 3 is a communication state monitoring unit, 4 is a slot allocation history storage unit, and 5 is a communication data processing unit.

Next, the operation of FIG. 4 will be described.
Communication data is assigned to slots 1 to 4 at each timing of the TDMA frame by the communication control unit 1 and sent to each slot control unit 2.
The slot control unit 2 in each of the slots 1 to 4 sends the data sent from the communication control unit 1 to the communication data processing unit 5.
The slot allocation history storage unit 4 stores, as slot allocation history data, the number of times each slot has been allocated for each radio base station and for each time zone of past incoming calls.

When the communication control unit 1 receives an incoming signal for circuit switching from the radio base station (PS) during multi-packet communication using all of the slots 1 to 4, it notifies the communication state monitoring unit 3.
Receiving the notification, the communication state monitoring unit 3 accesses the slot allocation history storage unit 4 and acquires slot allocation history data.
From the acquired slot assignment history data, the communication state monitoring unit 3 leaves the slot with the lowest possibility of receiving an incoming call notification and cuts other slots.
The determination of finding a slot with the lowest possibility of receiving an incoming call notification is obtained as the slot allocation history data because the number of times of allocation of each slot for each radio base station unit and each time zone is obtained. It is made according to the time zone.
The communication control unit 1 uses the remaining slots (for example, slots 1, 2, 4) to perform circuit switching incoming.
If the assigned slot from the radio base station is the same as the remaining slot (for example, slot 3), the communication state monitoring unit 3 assigns to another slot that is unlikely to be assigned next. To free the assigned slot (eg, slot 3).

FIG. 5 is a diagram showing a TDMA frame configuration of the PHS communication system and a state of slot disconnection and circuit switching incoming in multi-packet communication according to the embodiment of the present invention. FIG. 4 is a diagram showing a state in which a voice call is made in slot 1 by cutting slot 3 during packet communication when executing a voice call by circuit switching in the same embodiment. It is a figure which shows an example of the slot allocation history data (slot allocation history information table) in the embodiment. It is a figure which shows the hardware constitutions in the same embodiment FIG. 10 is a diagram showing a TDMA frame configuration of a conventional PHS communication system and a state of slot disconnection and circuit switching incoming in multi-packet communication. FIG. 6 is a diagram showing a state in which a slot 3 during packet communication is disconnected and a voice call is performed in the slot 1 when performing a voice call by conventional circuit switching.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Communication control part 2 Slot control part 3 Communication state monitoring part 4 Slot allocation history storage part 5 Communication data processing part

Claims (7)

In multi-packet communication using all slots between a radio base station and a communication terminal in the TDMA system, if there is an incoming call notification from the radio base station to the communication terminal, the slot being used is disconnected. A circuit switching control method during packet communication,
Using past slot allocation history data, leaving the slot with the least likely allocation of the incoming notification for packet communication and disconnecting other slots;
Use the disconnected slot for circuit switched incoming notification,
A circuit switching control method during packet communication. The past slot allocation history data is data stored in a slot allocation history storage unit of the communication terminal,
2. The circuit switching control method during packet communication according to claim 1, wherein the slot allocation history data includes the number of times each slot is allocated for each radio base station and for each time slot. When the slot left for the packet communication is designated as a slot for incoming notification of circuit switching from the radio base station,
Change the allocation from the remaining slot to another slot, disconnect the remaining slot, and use it for incoming notification of circuit switching;
3. The circuit switching control method during packet communication according to claim 1, wherein the circuit switching control method is used during packet communication. When changing the allocation from the remaining slot to another slot, the past slot allocation history data is used to select the slot with the next least likely slot to which the incoming call notification is most unlikely to be allocated. 4. The circuit switching control method during packet communication according to claim 3, wherein the circuit switching control method is used for packet communication. A communication terminal that performs multi-packet communication in the TDMA system,
The communication terminal includes a slot allocation storage unit that stores past slot allocation history data and a communication state monitoring unit,
When a circuit switching incoming signal is received from a radio base station during multi-packet communication, the communication state monitoring unit acquires the slot allocation history data from a slot allocation history storage unit, and receives the circuit switching incoming signal. A communication terminal which outputs an instruction to disconnect other slots while leaving a slot to which notification is most unlikely to be allocated for packet communication. When the slot left for the packet communication is designated as a slot for incoming notification of circuit switching from the radio base station,
The communication state monitoring unit changes an assignment from the remaining slot to another slot, and outputs an instruction to disconnect the remaining slot;
The communication terminal according to claim 5. 2. When changing the assignment from the remaining slot to another slot, a slot having the second lowest possibility of being assigned to the incoming call notification is assigned for packet communication. 6. The communication terminal according to 6.

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