JP2004320388A - Packet exchange, method of waiting paging response for the same, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a packet exchange capable of providing an appropriate waiting time of a paging response. <P>SOLUTION: A packet exchange 1 for a mobile communication system receives a packet call incoming opportunity to a mobile apparatus 4. The packet exchange 1 for mobile communication system decides the quality of a service (QoS) of a received incoming packet call and decides a waiting time for a response of a paging message to the mobile apparatus 4 and the number of times of retransmitting the paging messages in the case that there is no paging response. Thus, it is possible to set the waiting time for the response of the paging message and the number of times of retransmitting the paging message suitable to the quality of the service. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a packet switch and a paging response waiting method and program thereof, and more particularly to a packet switch for a mobile communication system and a paging response waiting method and program thereof.
[0002]
[Prior art]
Conventional paging processing will be described with reference to FIG. FIG. 15 is a configuration diagram of an example of a conventional mobile communication system. Referring to FIG. 1, an example of a conventional mobile communication system includes a mobile communication system packet switch 100, a base station controller 2 (2-1 to 2-m; m is a positive integer), and a base station 3 ( 3-1 to 3-j; j is a positive integer) and the mobile device 4. Each base station 3 Manages the mobile devices 4 in the service area 10 (10-1 to 10-j).
[0003]
Referring to FIG. 1, in the mobile communication system, when the mobile station 4 is located in the service area 10-1 of the packet switch 100 for the mobile communication system, when a packet call termination trigger for the mobile station 4 occurs, the mobile communication The system packet switch 100 requests the subordinate base station controller 2 to send a paging message to call the mobile station 4.
[0004]
Similarly, the base station controller 2 requests the subordinate base stations 3 to transmit a paging message, and each base station 3 transmits a paging message to the service area 10.
[0005]
When the mobile device 4 is located at a place where radio waves from the base station 3-1 can be received, the mobile device 4 returns a paging response message to the packet switch 100. However, when the mobile device 4 is located in a place such as an underground mall where radio waves from the base station 2-1 cannot be received, a response message to the paging message is not returned.
[0006]
On the other hand, the packet switch 100 is a mobile station for the paging message. 4 The paging message is repeatedly transmitted several times if there is no response, but if there is no response from the mobile station 4, the incoming call processing is stopped. This is not a technique known in the literature.
[0007]
Regarding packet calls, although there are packet calls of various communication quality QoS (Quality of Service), the waiting time and the number of retransmissions are uniform for all packet calls.
[0008]
Further, as another example of this kind of conventional technology, a technique of retransmitting a call signal a predetermined number of times when a timeout occurs after a predetermined time from the start of a timer (see Patent Document 1), and a technique until a preset time elapses or There is disclosed a technique of repeating a call notification signal a set number of times (see Patent Document 2).
[0009]
[Patent Document 1]
JP-A-10-013331 (FIG. 2)
[0010]
[Patent Document 2]
Patent No. 324,080 (FIG. 4)
[0011]
[Problems to be solved by the invention]
However, the conventional paging response waiting process has the following problems.
[0012]
The first problem is that although there are various QoS packet calls, and there is a case where the waiting time until the response to the paging may be relatively long in some cases, the waiting time and the number of retransmissions are conventionally considered. Is uniformly set, even if a QoS packet call may have a long waiting time, the incoming call processing is stopped due to the situation that the mobile station 4 has been in a tunnel or the like for a very short time and has not been able to receive a paging message. That is, it may fail.
[0013]
The second problem is that, despite the presence of various QoS packet calls, some of which require a short waiting time for a response to paging, the waiting time and the number of retransmissions are conventionally one. Therefore, it may be necessary to keep waiting for a response to the paging message for an extra time.
[0014]
Therefore, an object of the present invention is to provide a packet switch capable of providing an appropriate paging response waiting time, a paging response waiting method thereof, and a program.
[0015]
[Means for Solving the Problems]
In order to solve the above problem, a packet switch according to the present invention is a packet switch in a mobile communication system, and when the switch transmits a paging message and calls a mobile station, an event that triggers the transmission of the paging message. Call control means for controlling the response waiting time from the mobile station to the paging message and the number of retransmissions of the paging message when there is no response to the paging message, based on the result of the determination. I do.
[0016]
Also, the paging response waiting method according to the present invention is a paging response waiting method of a packet switch in a mobile communication system, wherein the method includes the steps of, when sending a paging message and calling a mobile station, sending the paging message. And a call control step of controlling the number of retransmissions of the paging message when there is no response to the paging message and a response waiting time from the mobile station for the paging message based on the determination result. It is characterized by including.
[0017]
Further, a program according to the present invention is a program for causing a computer to execute a method of waiting for a paging response of a packet switch in a mobile communication system, wherein the program transmits a paging message and calls the paging message when calling the mobile device. And determining a response waiting time from the mobile station for the paging message and the number of retransmissions of the paging message when there is no response to the paging message based on the determination result. And a call control step.
[0018]
That is, a feature of the present invention is that, when a paging message is sent to a mobile station in a packet switch for a mobile communication system, the mobile station responds to the paging message based on an event that triggered the sending of the paging message. And the number of retransmissions of the paging message when there is no response to the paging message.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a configuration diagram of a preferred embodiment of a mobile communication system including a packet switch according to the present invention. Referring to FIG. 1, a mobile communication system according to the present invention includes a packet switch 1 for a mobile communication system, a base station controller 2 (2-1 to 2-m; m is a positive integer), and a base station 3 (3 -1 to 3-j; j is a positive integer) and the mobile device 4. Each base station 3 manages the mobile station 4 in the service area 10 (10-1 to 10-j). The difference from the conventional mobile communication system shown in FIG. 15 lies only in the configuration of the packet switch for the mobile communication system. Therefore, only the number assigned to the packet switch for the mobile communication system is changed to 1, and the other components are changed. The same numbers as those shown in FIG.
[0020]
The packet switch 1 receives a packet call termination trigger (termination event) for the mobile station 4. The packet switch 1 determines the communication quality (QoS) of the received incoming packet call, and determines the paging message response waiting time for the mobile station 4 and the number of retransmissions of the paging message when there is no paging response.
[0021]
The packet switch 1 sends a request for sending a paging message to the base station controller 2. The packet switch 1 keeps waiting for the determined waiting time for the paging response from the mobile device 4.
[0022]
The base station controller 2 sends a request for sending a paging message to the base station 3. The base station 3 sends a paging message to the service area 10.
[0023]
If the mobile station 4 is located in the service area 10-1, for example, and can receive the paging message, the mobile station 4 sends a response message to the paging message to the packet switch via the base station 3-1 and the base station controller 2-1. Send to 1.
[0024]
When a response message to the paging arrives at the packet switch 1, a signal path from the packet switch 1 to the mobile station 4 is established, and various messages are exchanged on this signal path. 4 are also established, and a packet call occurs.
[0025]
If the mobile station 4 cannot receive the message from the base station 3-1, no paging response message is returned to the packet switch 1, so that the paging response waiting time in the packet switch 1 expires, and Attempt to retransmit the paging message for the determined number of times.
[0026]
In this way, in the packet switch 1 according to the present invention, the time to wait for a response message to the paging message and the number of retransmissions of the paging message are determined according to the communication quality (QoS) of the packet call for which the incoming call processing has been activated. Therefore, it is possible to obtain the optimum response message waiting time and the number of times of retransmission of the paging message for each packet call, thereby shortening the unnecessary paging response waiting time and increasing the probability of successfully performing the incoming call operation.
[0027]
【Example】
(First embodiment)
FIG. 2 is a diagram showing an example of the internal configuration of the packet switch 1 for a mobile communication system according to the present invention. Referring to FIG. 1, a packet switch 1 for a mobile communication system includes a call controller 21, a message transceiver 22 with a base station controller 2, a message transceiver 23 with a higher-level switch (not shown), a database 24, And a memory 25.
[0028]
The call control unit 21 controls transmission, reception and disconnection of a packet call. The message transmission / reception unit 23 with the upper-layer switch transfers the message received from the upper-layer switch to the call controller 21 and, when receiving a message transmission request from the call controller 21 to the upper-layer switch, transmits the message to the upper-layer switch.
[0029]
The message transmitting / receiving unit 22 with the base station controller 2 transfers the message received from the base station controller 2 to the call controller 21 and receives a message transmission request from the call controller 21 to the base station controller 2. In this case, the message is transmitted to the base station controller 2.
[0030]
The database unit 24 stores information necessary for the call control unit 21 to perform the call control, and is called from the call control unit 21 as needed, and provides the requested information to the call control unit 21. I do.
[0031]
The memory 25 stores a program for causing a computer to execute a paging response waiting method described later.
[0032]
For a packet call controlled by the call control unit 21, a plurality of communication qualities (QoS) are defined in advance, and the packet call is generated to match the communication quality.
[0033]
As an example of GPRS / UMTS (General Packet Radio Service / Universal Mobile Telecommunication System), the following communication qualities are defined in advance.
[0034]
(1) Background (Background)
This is communication quality in which the degree of loss and delay time of communication packets are not guaranteed at all. It is suitable for applications such as reception of electronic mail (e-mail).
[0035]
(2) Interactive
This is a communication quality that is not suitable for use in applications where the degree of loss of communication packets is smaller than that in the background and the delay time is stricter than the background, but is also strict in the delay time. It is suitable for applications such as Web reference.
[0036]
(3) Streaming
This is a communication quality in which a more severe condition is defined for the degree of loss and the delay time of the communication packet than for the interactive. Suitable for applications such as video distribution.
[0037]
(4) Conversational
This is a communication quality in which a stricter condition is defined for the delay time than for streaming. It is suitable for communication that requires extremely strict real-time performance such as voice conversation in packet communication.
[0038]
The definition in the packet mobile communication system called GPRS / UMTS has been described in detail as the configuration of the embodiment.
[0039]
Next, the configuration of a packet call will be described. FIG. 3 is a configuration diagram of an example of a packet call. Referring to the figure, the packet call 31 includes communication quality (QoS) information.
[0040]
Next, the configuration of the database 24 will be described. FIG. 4 is a configuration diagram of an example of the database 24. Referring to FIG. 3, the database 24 stores four types of communication qualities, the response waiting time and the number of retransmissions for each of them.
[0041]
That is, when the communication quality is in the background, the response waiting time is set to T1 (seconds, hereinafter omitted), and the number of retransmissions is set to N1 (times, hereinafter omitted). Is N2, the response wait time is set to T3 for streaming, the number of retransmissions is set to N3, and for conversational, the response wait time is set to T4 and the number of retransmissions is set to N4. As an example, values that satisfy the response waiting time T1>T2>T3> T4 and the number of retransmissions N1>N2>N3> N4 are set.
[0042]
The condition for the magnitude of this value is not limited to this, and can be set arbitrarily. In addition, although four types of communication qualities have been described, the present invention is not limited to these, and other communication qualities may be used.
[0043]
Next, the operation of the call control unit 21 of FIG. 2 will be described using the flowcharts shown in FIGS. 5 and 6 are flowcharts S1 showing the operation of the packet switch according to the present invention. Referring to FIG. 5, when the packet call control unit 21 in the initial state (S1) receives a packet call incoming event from the upper-layer exchange (S2), the communication requested by the packet call that activates the incoming call processing is performed. It is determined what the quality QoS is (S3).
[0044]
Then, the packet call control unit 21 reads out and determines the paging response waiting time and the number of times of paging retransmission from the database 24 attached to the call control unit 21 based on the communication quality QoS required for the packet call for activating the incoming call operation. (S4-1 to S4-4).
[0045]
That is, if the communication quality QoS of the packet call is in the background (S4-1), the packet call control unit 21 reads out the paging response waiting time T1 and the number of paging retransmissions N1 from the database 24, and if the communication quality QoS is interactive, (S4-2), the paging response waiting time T2 and the number of paging retransmissions N2 from the database 24. If the communication quality QoS is streaming (S4-3), the paging response waiting time T3 and the number of paging retransmissions N3 from the database 24, the communication quality. If the QoS is conversational (S4-4), the paging response waiting time T4 and the number of paging retransmissions N4 are read from the database 24, respectively.
[0046]
After determining the response waiting time and the number of retransmissions N, the packet call control unit 21 sends out a paging message (S5). After transmitting the paging message, the state transits to a paging response waiting state (S6), and waits for a response to the paging message.
[0047]
Next, referring to FIG. 6, in a paging response waiting state (S6), when a response message to the paging is received from mobile device 4 (S7), packet call control unit 21 continues the packet call termination process (S8). A packet call is generated, and the state becomes a packet communication state (S9).
[0048]
On the other hand, if the paging response waiting time has elapsed in the paging response waiting state (S6) (S10), it is determined whether the number of retransmissions of the paging message exceeds the previously determined number of paging retransmissions (S11).
[0049]
If the number of retransmissions of the paging message does not exceed the previously determined number of paging retransmissions (Yes in S11), the packet call control unit 21 retransmits the paging message (S12) and returns to the paging response waiting state. Transition is made (S13).
[0050]
On the other hand, if the number of paging retransmissions exceeds the previously determined number of retransmissions (No in S11), the incoming call processing is stopped (S14), and the process returns to the initial state (S15).
[0051]
In the GPRS / UMTS packet mobile communication system, there are cases where a paging message is transmitted in addition to packet call termination. As another embodiment of the present invention, the basic configuration is the same as that described above, but a case where a paging message is sent out other than when a packet call arrives will be described below.
[0052]
(Second embodiment)
There is a state where a packet call has already occurred and a signal path and a communication path between the packet switch and the mobile station have not been established. For example, referring to FIG. 1, a signal path and a communication path from the packet switch 1 for the mobile communication system to the mobile station 4 via the base station controller 2-1 and the base station 3-1 are established, and a packet call is established. After the occurrence, for example, a timer or the like (not shown) may be activated to prevent the signal path and the communication path from the packet switch 1 to the mobile station 4 from being established. However, in this case, the occurrence state of the packet call is maintained. Therefore, the packet switch 1 holds control information on the packet call.
[0053]
In this state, when a packet for the mobile unit 4 is transmitted from the upper-level switch, the packet switch 1 sends a paging message, calls the mobile unit 4, and establishes a signal path between the mobile unit 4 and the switch 1. The communication path between the mobile unit 4 and the exchange 1 is established by exchanging various messages.
[0054]
At this time, the number of retransmissions of the paging message and the response waiting time are determined based on the communication quality QoS set in the packet call that has already occurred (S3 in FIG. 5) (S4-1 to S4- in FIG. 5). 4).
[0055]
(Third embodiment)
Further, as another embodiment, a packet for the mobile station 4 is transmitted to the packet switch 1 in a situation where a packet call has already occurred and a signal path and a communication path have not been established between the mobile station 4 and the packet switch 1. There are cases where the packet is an IP (Internet Protocol) packet.
[0056]
FIG. 7 is a configuration diagram of an example of an IP packet. Referring to FIG. 3, the header 42 of the IP packet 41 includes priority information 43 indicating the priority of the packet transfer.
[0057]
FIG. 8 is a configuration diagram of another example of the database 24. Referring to FIG. 3, the database 24 stores information in which priority levels 1 to k (k is a positive integer) are associated with response waiting times T11 to Tk and retransmission times N11 to Nk.
[0058]
FIG. 9 is a flowchart showing the operation of the third embodiment. This figure is obtained by replacing S2, S3 and S4 in the flowchart of FIG. 5 with S21, S22 and S23.
[0059]
The packet call control unit 21 of the packet switch 1 determines whether the transmitted packet is an IP packet (S21). If the packet is an IP packet (YES in S21), the header of the IP packet is determined. The priority is determined based on the priority information 43 in 42 (S22), and the response waiting time of the paging message and the number of retransmissions are determined with reference to the database 24 (S23).
[0060]
For example, when the priority is set to "high" (for example, priority 1) (23-1), the response waiting time is set to be short (for example, T11) and the number of retransmissions is set to be small (for example, N11). Is set to "low" (for example, priority 3) (S23-3), a long response waiting time (for example, T13) and a large number of retransmissions (for example, N13) are set (S23-3). However, the relationship among the priority, the response waiting time, and the number of retransmissions is not limited to this, and the setting is arbitrary. It should be noted that if NO in step S21, a separate process is performed. However, since the process is not related to the present invention, the description is omitted.
[0061]
(Fourth embodiment)
Further, as another embodiment, a packet to the mobile station 4 is transmitted in a situation where a packet call has already occurred and a signal path and a communication path have not been established between the mobile station 4 and the packet switch 1, and the packet is transmitted to the IP. The third embodiment is the same as the third embodiment up to the point where the packet is a packet. However, when a message of an upper protocol is included in the IP packet, that is, when a message of another protocol exists in an upper layer of the IP protocol layer, the packet is The exchange 1 determines what the upper layer protocol is, and determines the number of retransmissions of the paging message and the response waiting time.
[0062]
FIG. 10 is a configuration diagram of another example of the database 24. Referring to FIG. 3, the database 24 stores information in which upper protocols P1 to Pu (u is a positive integer) of IP packets are associated with response waiting times T21 to Tu and retransmission times N21 to Nu. Referring to the figure, for example, a response waiting time T21 and the number of retransmissions N21 are set for the upper layer protocol P1, and a response waiting time T22 and the number of retransmissions N22 are set for the upper layer protocol P2.
[0063]
FIG. 11 is a flowchart showing the operation of the fourth embodiment. This figure is obtained by replacing S2, S3 and S4 in the flowchart of FIG. 5 with S31 to S34.
[0064]
When the transmitted packet is an IP packet (YES in S31), the packet call control unit 21 of the packet switch 1 determines whether or not a message of a higher-order protocol exists (S32). If it is present (YES in S32), it refers to the database 24 and determines the response waiting time of the paging message and the number of retransmissions according to the upper layer protocol (S34). If NO in steps S31 and S32, a separate process is performed. However, since the process is not related to the present invention, the description is omitted.
[0065]
(Fifth embodiment)
Further, as another embodiment, when a packet call has been generated and a packet to the mobile station 4 is transmitted in a state where a signal path and a communication path are not established between the mobile station 4 and the packet switch 1, The fourth embodiment is the same as the fourth embodiment up to the point where the packet is an IP packet. However, when a message of a plurality of protocols is included in the IP packet, that is, a plurality of If another message exists, the type of the higher-level application or the content of the message of the application is analyzed to determine the number of retransmissions of the paging message and the response waiting time.
[0066]
FIG. 12 is a flowchart showing the operation of the fifth embodiment. This figure is obtained by replacing S2, S3 and S4 in the flowchart of FIG. 5 with S41 to S44.
[0067]
The packet call controller 21 of the packet switch 1 determines whether or not the transmitted packet is an IP packet (S41). If the packet is an IP packet (YES in S41), a plurality of packets are transmitted to the upper layer. It is determined whether a message exists (S42). When there are a plurality of messages (Yes in S42), the contents of the messages are determined (S43), and the response waiting time and the retransmission count of the paging message corresponding to the message are determined with reference to the database 24. (S44). The configuration of the database 24 is such that the protocol column shown in FIG. 10 is replaced with a message column. If NO in steps S41 and S42, a separate process is performed. However, since the process is not related to the present invention, the description is omitted.
[0068]
(Sixth embodiment)
Further, as another embodiment, in a situation where a packet call has already occurred and a signal path and a communication path have not been established between the mobile station 4 and the packet switch 1, the packet switch 1 At times other than when a packet is transmitted, a paging message may be transmitted to the mobile device 4 to establish a communication path between the mobile device 4 and the exchange 1.
[0069]
For example, a paging message is transmitted by receiving a signal for requesting to disconnect the established packet call of the mobile station 4 from the upper-level switch, and a communication path between the mobile station 4 and the packet switch 1 is established. , Perform packet call disconnection processing.
[0070]
In such a case, the response waiting time of the paging message and the number of retransmissions are determined depending on the reason for transmitting the paging message.
[0071]
FIG. 13 is a flowchart showing the operation of the sixth embodiment. This figure is obtained by replacing S2, S3 and S4 in the flowchart of FIG. 5 with S51 and S52.
[0072]
The packet call control unit 21 of the packet switch 1 determines whether or not the transmitted packet is a packet disconnection request (S51). If the packet is a disconnection request (YES in S51), the database 24 is referred to. Then, the response waiting time of the paging message corresponding to the disconnection request and the number of retransmissions are determined (S52). Note that the configuration of the database 24 is such that the protocol column shown in FIG. 10 is replaced with a trigger column other than the packet transmission. Note that if NO in step S51, a separate process is performed, but the process is not related to the present invention, and a description thereof will be omitted.
[0073]
(Seventh embodiment)
In another embodiment, the packet switch 1 transmits a paging message in order to transmit some message to the mobile station 4 in a state where no packet call has occurred, and the packet switch 1 transmits a paging message between the mobile station 4 and the packet switch 1. May be established.
[0074]
For example, in the case of deleting information on the mobile station 4 held inside the packet switch 1, a paging message is transmitted, a communication path between the mobile station 4 and the packet switch 1 is established, and the mobile station 4 is deleted. Is notified from the packet switch 1 to the mobile device 4 to delete the information.
[0075]
In such a case, the response waiting time of the paging message and the number of retransmissions are determined depending on the reason for transmitting the paging message.
[0076]
FIG. 14 is a flowchart showing the operation of the seventh embodiment. This figure is obtained by replacing S2, S3 and S4 in the flowchart of FIG. 5 with S61 and S62.
[0077]
The packet call control unit 21 of the packet switch 1 responds to the deletion of the information on the mobile device 4 with reference to the database 24 when the opportunity to delete the information on the mobile device 4 held in the packet switch 1 occurs (S61). The response waiting time and the number of retransmissions of the paging message to be transmitted are determined (S62). Note that the configuration of the database 24 is such that the protocol column shown in FIG. 10 is replaced with a trigger column other than the packet transmission.
[0078]
As described above, in these embodiments, since the packet switch 1 analyzes the event that triggered the transmission of the paging message and determines the response waiting time and the number of retransmissions of the paging message, the paging process succeeds depending on the situation. This has the effect of increasing the probability of performing the paging process or stopping the paging process without spending unnecessary time in the paging response waiting time.
[0079]
(Eighth embodiment)
Next, a program for causing a computer to execute the paging response waiting method according to the present invention will be described. Referring to FIG. 2, the call control unit 21 of the packet switch 1 is connected to a memory 25. The memory 25 stores a program for causing a computer to execute the paging response waiting method shown in the flowcharts of FIGS. 5, 6, 9, and 11 to 14.
[0080]
The call control unit 21 of the packet switch 1 reads the program from the memory 25 and controls the message transmitting / receiving units 22 and 23 according to the program. Since the contents of the control have already been described, the description is omitted here. In addition, it is also possible to comprise so that a program may be contained in the call control part 21.
[0081]
【The invention's effect】
As described above, according to the present invention, when a paging message is transmitted and a mobile station is called, an event that triggers the transmission of the paging message is determined, and based on the determination result, a movement to the paging message is performed. Since it includes a call control means, a call control step, and a program for controlling the response waiting time from the mobile device and the number of retransmissions of the paging message when there is no response to the paging message, it is possible to provide an appropriate paging response waiting time. It becomes.
[0082]
That is, the first effect is that the paging response waiting time and the appropriate number of paging retransmissions are determined by judging the QoS of the packet call for which the termination processing has been activated, so that the time required for the termination processing is relatively long. For a packet call that does not matter, by increasing the response waiting time and increasing the number of retransmissions, the possibility of successful incoming call processing can be increased.
[0083]
The second effect is that the paging response waiting time and the appropriate number of paging retransmissions are determined by judging the QoS of the packet call for which the termination processing has been started, so that the termination processing is not completed in a relatively short time. For calls that must not be made, the response waiting time is reduced and the number of retransmissions is reduced, so that in the case where there is no response to the paging message from the mobile station and the call cannot be received, the incoming call processing is stopped without waiting for unnecessary time. Is to be done.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a preferred embodiment of a mobile communication system including a packet switch according to the present invention.
FIG. 2 is a diagram showing an example of an internal configuration of a packet switch 1 for a mobile communication system according to the present invention.
FIG. 3 is a configuration diagram of an example of a packet call.
FIG. 4 is a configuration diagram of an example of a database 24;
FIG. 5 is a flowchart showing the operation of the packet switch according to the present invention.
FIG. 6 is a flowchart showing the operation of the packet switch according to the present invention.
FIG. 7 is a configuration diagram of an example of an IP packet.
FIG. 8 is a configuration diagram of another example of the database 24.
FIG. 9 is a configuration diagram of another example of the database 24.
FIG. 10 is a configuration diagram of another example of the database 24.
FIG. 11 is a flowchart showing the operation of the fourth embodiment.
FIG. 12 is a flowchart showing the operation of the fifth embodiment.
FIG. 13 is a flowchart showing the operation of the sixth embodiment.
FIG. 14 is a flowchart showing the operation of the seventh embodiment.
FIG. 15 is a configuration diagram of an example of a conventional mobile communication system.
[Explanation of symbols]
1 Packet switch for mobile communication system
2 Base station controller
3 base stations
4 mobile equipment
5 Service Area
21 Call control unit
22 Message transmission / reception unit with base station controller
23 Message transmission / reception unit with higher-level exchange
24 Database
25 memory

Claims (33)

A packet switch in a mobile communication system,
When sending a paging message and calling a mobile station, an event that triggers the transmission of the paging message is determined.Based on the determination result, a response waiting time from the mobile station to the paging message and a response time to the paging message are determined. A packet switch comprising call control means for controlling the number of retransmissions of a paging message when there is no response. A database in which event information serving as a trigger for transmitting the paging message, the response waiting time information and the retransmission count information are stored in association with each other, and the call control unit refers to the database and waits for the response. 2. The packet switch according to claim 1, wherein a time and the number of retransmissions are controlled. 3. The packet switch according to claim 1, wherein the event that triggers the transmission of the paging message is that the call control unit in an initial state receives a packet call incoming event from an upper-layer switch. . The event that triggers the transmission of the paging message is that a packet call has already occurred, and the signal path and communication path between the packet switch and the mobile station have not been established. 3. The packet switch according to claim 1, wherein a packet is transmitted to the call control means. The event that triggers the transmission of the paging message is that a packet call has already occurred, and the signal path and communication path between the packet switch and the mobile station have not been established. 3. The packet switch according to claim 1, wherein a signal of a request for disconnecting the established packet call of the mobile station is received from the call control means. The event that triggers the transmission of the paging message is a case where information on the mobile device held inside the packet switch is deleted in a state where no packet call has occurred. 3. The packet switch according to 1 or 2. The call control means, upon receiving a packet call incoming event from the upper-layer switch, determines what the communication quality required in the packet call for activating this incoming processing is, 4. The packet switch according to claim 3, wherein the number of retransmissions is controlled. The call control means, upon receiving a packet from the upper-layer switch, determines whether the communication quality required by the packet call for activating the incoming call processing is something, and determines the response waiting time and the number of retransmissions. The packet switch according to claim 4, wherein the packet switch is controlled. When the call control unit receives a packet from the upper-layer exchange, if the packet is an IP packet, the call control unit refers to a priority designation in a header of the IP packet, and based on the priority of the packet, sets the response waiting time. The packet switch according to claim 4, wherein the number of retransmissions is determined. Upon receiving a packet from the upper-layer switch, the call controller refers to the upper-layer protocol of the IP packet if the packet is an IP packet and a message of the upper-layer protocol is included in the IP packet. The packet switch according to claim 4, wherein the response waiting time and the number of retransmissions are determined based on a protocol. Upon receiving a packet from the upper-layer exchange, the call control means may determine the type of the upper-level application or the content of the message of the application if the packet is an IP packet and a message of a plurality of protocols is included in the IP packet. 5. The packet switch according to claim 4, wherein the response waiting time and the number of retransmissions are determined based on a type of the upper application or a content of a message of the application. A method of waiting for a paging response of a packet switch in a mobile communication system, comprising:
When transmitting a paging message and calling a mobile station, a determining step of determining an event that triggers the transmission of the paging message, and, based on the determination result, a response waiting time from the mobile station to the paging message, and A call control step of controlling the number of retransmissions of the paging message when there is no response to the paging message. A database in which event information serving as a trigger for transmitting the paging message, the response waiting time information and the retransmission count information are stored in association with each other, and the call control step refers to the database and waits for the response. 13. The paging response waiting method according to claim 12, wherein a time and the number of retransmissions are controlled. 14. The page according to claim 12, wherein the event that triggers the transmission of the paging message is that the call control step in the initial state receives a packet call incoming event from an upper-layer switch. Jing response waiting method. The event that triggers the transmission of the paging message is that a packet call has already occurred, and the signal path and communication path between the packet switch and the mobile station have not been established. 14. The paging response waiting method according to claim 12, wherein a packet is transmitted to the call control step. The event that triggers the transmission of the paging message is that a packet call has already occurred, and the signal path and communication path between the packet switch and the mobile station have not been established. 14. The paging response waiting method according to claim 12, wherein a signal of a request for disconnecting an established packet call of the mobile station is received in the call control step. The event that triggers the transmission of the paging message is a case where information about the mobile device held inside the packet switch is deleted in a state where no packet call has occurred. 14. The paging response waiting method according to 12 or 13. The call control step, upon receiving a packet call incoming event from the upper-layer switch, determines what the communication quality required in the packet call to activate the incoming call processing, the response waiting time and the 15. The paging response waiting method according to claim 14, wherein the number of retransmissions is controlled. The call control step, upon receiving a packet from a higher-level exchange, determines whether the communication quality required by the packet call for activating this termination processing is something, and determines the response waiting time and the number of retransmissions. The method according to claim 15, wherein the method is controlled. The call control step, upon receiving a packet from the upper-layer switch, if the packet is an IP packet, refers to the priority designation in the header of the IP packet, and based on the priority of the packet, the response waiting time. The packet switch according to claim 15, wherein the number of retransmissions is determined. In the call control step, when a packet from an upper-layer exchange is received, if the packet is an IP packet and a message of an upper-level protocol is included in the IP packet, the upper-level protocol of the IP packet is referred to, and The paging response waiting method according to claim 15, wherein the response waiting time and the number of retransmissions are determined based on a protocol. In the call control step, when receiving a packet from the upper-layer exchange, if the packet is an IP packet and a message of a plurality of protocols is included in the IP packet, the type of the upper-level application or the content of the message of the application is determined. 16. The paging response waiting method according to claim 15, wherein the response waiting time and the number of retransmissions are determined based on a type of a higher application or a content of a message of the application. A program for causing a computer to execute a paging response waiting method of a packet switch in a mobile communication system, comprising:
When transmitting a paging message and calling a mobile station, a determining step of determining an event that triggers the transmission of the paging message, and, based on the determination result, a response waiting time from the mobile station to the paging message, and A call control step of controlling the number of retransmissions of the paging message when there is no response to the paging message. A database in which event information serving as a trigger for transmitting the paging message, the response waiting time information and the retransmission count information are stored in association with each other, and the call control step refers to the database and waits for the response. The program according to claim 23, wherein the program controls time and the number of retransmissions. 25. The program according to claim 23, wherein the event that triggers the transmission of the paging message is that the call control step in an initial state receives a packet call incoming event from a higher-order exchange. The event that triggers the transmission of the paging message is that a packet call has already occurred, and the signal path and communication path between the packet switch and the mobile station have not been established. 25. The program according to claim 23, wherein a packet is transmitted to the call control step. The event that triggers the transmission of the paging message is that a packet call has already occurred, and the signal path and communication path between the packet switch and the mobile station have not been established. 25. The program according to claim 23, wherein a signal of a request for disconnecting an established packet call of the mobile station is received for the call control step. The event that triggers the transmission of the paging message is a case where information on the mobile device held inside the packet switch is deleted in a state where no packet call has occurred. 23. The program according to 23 or 24. The call control step, upon receiving a packet call incoming event from the upper-layer switch, determines what the communication quality required in the packet call to activate the incoming call processing, the response waiting time and the 26. The program according to claim 25, wherein the number of retransmissions is controlled. The call control step, upon receiving a packet from a higher-level exchange, determines whether the communication quality required by the packet call for activating this termination processing is something, and determines the response waiting time and the number of retransmissions. The program according to claim 26, wherein the program is controlled. The call control step, upon receiving a packet from the upper-layer switch, if the packet is an IP packet, refers to the priority designation in the header of the IP packet, and based on the priority of the packet, the response waiting time. 27. The program according to claim 26, wherein the number of retransmissions is determined. In the call control step, when a packet from an upper-layer exchange is received, if the packet is an IP packet and a message of an upper-level protocol is included in the IP packet, the upper-level protocol of the IP packet is referred to, and 27. The program according to claim 26, wherein the response waiting time and the number of retransmissions are determined based on a protocol. In the call control step, when receiving a packet from the upper-layer exchange, if the packet is an IP packet and a message of a plurality of protocols is included in the IP packet, the type of the upper-level application or the content of the message of the application is determined. 27. The program according to claim 26, wherein the response waiting time and the number of retransmissions are determined based on a type of a higher application or a content of a message of the application.

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