JP5355357B2 - Base station apparatus, radio terminal apparatus, and call session maintaining method - Google Patents

Description

  The present invention relates to a base station device, a wireless terminal device, and a call session maintenance method.

  As a call control protocol for causing an IP network to function as a relay exchange, SIP (Session Initiation Protocol), MGCP (Media Gateway Control Protocol), MEGACO (Media Gateway Control Protocol), and the like are known.

  For example, in SIP (Session Initiation Protocol), at the start of communication, the calling terminal transmits an INVITE message to the called terminal via the SIP server (call control server). Upon receiving the INVITE message from the calling terminal, the called terminal returns a Ringing message and an OK message to the calling terminal via the SIP server. Thereby, a SIP session (call session) is established between the calling terminal and the called terminal (for example, refer to Patent Document 1). The SIP session established between the calling terminal and the called terminal is disconnected when one of the calling terminal and the called terminal transmits a BYE message to the other.

  The SIP session may be disconnected by the SIP server. That is, the SIP server has a timer for measuring the disconnection timing for each SIP session. When this timer reaches 0, a BYE message is transmitted from the SIP server to the called terminal, and the SIP session is disconnected. On the other hand, the calling terminal tries to maintain the SIP session used for communication by transmitting a re-INVITE message for returning the SIP session timer to the initial value to the SIP server at a cycle shorter than the initial value. To do. As a result, only SIP sessions that are not used for communication are preferably released.

  Patent Document 2 discloses a mobile radio communication apparatus that prevents the communication link with the base station from being disconnected due to the elapse of the holding time and improves the throughput.

Japanese Patent Laying-Open No. 2008-103952 (paragraphs 0004 to 0008, FIG. 8, etc.) JP-A-11-331933

  However, in a wireless communication system that employs SIP as a call control protocol, the wireless connection between the wireless terminal and the base station may be temporarily lost, so the re-INVITE message transmitted from the wireless terminal is lost. The SIP server may not be reached. For this reason, the SIP session timer of the SIP server becomes 0 at an unintended timing, and the SIP session may be disconnected even during communication.

  Such a problem can also occur in a wireless communication system that employs a call control protocol similar to SIP.

  The present invention has been made in view of the above-described conventional problems, and provides a base station device, a wireless terminal device, and a call session maintenance method that can prevent a call session from being disconnected due to a wireless connection state. With the goal.

  In order to solve the above-described problem, the base station apparatus according to the present invention returns the timer to an initial value for a call control server having a timer for measuring a disconnection timing of a call session established with a partner apparatus. A base station device that performs wireless communication with a wireless terminal device that transmits a timer initialization request at a cycle shorter than the initial value, and monitors a wireless connection state between the wireless terminal device and the base station device An alternative transmission unit that transmits the timer initialization request to the call control server instead of the wireless terminal device when the wireless connection state monitored by the monitoring unit becomes a predetermined state; It is characterized by including.

  According to the present invention, when the wireless connection state between the wireless terminal device and the base station device is in a predetermined state (for example, when the wireless connection is disconnected, when the wireless connection is restored after the disconnection, the wireless connection When the frequency of disconnection exceeds the predetermined frequency, or when the wireless communication quality falls below a predetermined level, the timer initialization request is transmitted in advance from the base station apparatus to the call control server. Therefore, even if the timer initialization request periodically transmitted from the wireless terminal device is lost due to the wireless connection state between the wireless terminal device and the base station device, the wireless terminal device and the counterpart device The call session established between the two can be prevented from being disconnected.

  In one aspect of the present invention, the alternative transmission means sends the timer initialization request to the call control when the wireless connection between the wireless terminal device and the base station device is recovered from a disconnected state for a predetermined time or longer. Send to server.

  According to this aspect, even if the timer initialization request periodically transmitted from the wireless terminal device is lost due to the disconnection of the wireless connection between the wireless terminal device and the base station device, the wireless terminal device Disconnection of the call session established between the device and the partner device. In addition, when the wireless connection between the wireless terminal device and the base station device is disconnected due to a power failure of the wireless terminal device, the call session is unnecessarily maintained even if the wireless connection is not recovered from the disconnected state. It can also be prevented.

  Further, according to one aspect of the present invention, there is further included means for enabling the alternative transmission unit in response to establishment of the call session and invalidating the alternative transmission unit in response to termination of the call session.

  The alternative transmission means may limit the alternative transmission of the timer initialization request when the processing load of the base station apparatus is a predetermined value or more. The alternative transmission unit may limit the alternative transmission of the timer initialization request when the frequency of the alternative transmission of the timer initialization request is equal to or higher than a predetermined frequency. By so doing, it is possible to suppress an increase in the processing load of the base station apparatus due to excessive alternative transmission of timer initialization requests.

  The wireless terminal device according to the present invention performs the wireless communication with the base station device and sets the timer to an initial value for a call control server having a timer for measuring a disconnection timing of a call session established with the counterpart device. A wireless terminal device that transmits a timer initialization request for returning to the base station device at a cycle shorter than the initial value via the base station device, and monitors a wireless connection state between the wireless terminal device and the base station device And a preliminary transmission means for further transmitting the timer initialization request to the call control server when a wireless connection state monitored by the monitoring means reaches a predetermined state. To do.

  According to the present invention, when the wireless connection state between the wireless terminal device and the base station device becomes a predetermined state, a timer initialization request is transmitted from the wireless terminal device to the call control server in advance. Therefore, even if the timer initialization request periodically transmitted from the wireless terminal device is lost due to the wireless connection state between the wireless terminal device and the base station device, the wireless terminal device and the counterpart device The call session established between the two can be prevented from being disconnected.

  Also, in one aspect of the present invention, the preliminary transmission means sends the timer initialization request to the call control when the wireless connection between the base station device and the wireless terminal device is recovered from a disconnected state for a predetermined time or longer. Send to server.

  According to this aspect, even if the timer initialization request periodically transmitted from the wireless terminal device is lost due to the disconnection of the wireless connection between the wireless terminal device and the base station device, the wireless terminal device Disconnection of the call session established between the device and the partner device. In addition, when the wireless connection between the wireless terminal device and the base station device is disconnected due to a power failure of the wireless terminal device, the call session is unnecessarily maintained even if the wireless connection is not recovered from the disconnected state. It can also be prevented.

  Further, according to an aspect of the present invention, there is further included means for enabling the backup transmission unit in response to establishment of the call session and disabling the backup transmission unit in response to termination of the call session.

  In each of the above aspects, the call control server may be a SIP server, and the call session may be a SIP session.

  Also, the call session maintenance method according to the present invention provides a timer initialization request for returning the timer to an initial value to a call control server having a timer for measuring the disconnection timing of a call session established with a partner device. A call session maintaining method in a wireless communication system, including: a wireless terminal device that transmits a signal at a cycle shorter than the initial value; and a base station device that performs wireless communication with the wireless terminal device, wherein the wireless terminal device and the base Monitoring a wireless connection state with a station device, and transmitting the timer initialization request to the call control server when the monitored wireless connection state becomes a predetermined state. It is characterized by that.

1 is a configuration diagram of a radio communication system according to a first embodiment of the present invention. It is a sequence diagram which shows the establishment process and completion | finish process of a SIP session which concern on 1st Embodiment of this invention. It is a functional block diagram of the base station which concerns on 1st Embodiment of this invention. It is a flowchart which shows the re-INVITE alternative transmission process of the base station which concerns on 1st Embodiment of this invention. It is a functional block diagram of the radio | wireless terminal which concerns on 2nd Embodiment of this invention.

[First Embodiment]
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a configuration diagram of a radio communication system 10 according to the first embodiment of the present invention. As shown in the figure, the wireless communication system 10 includes a wireless terminal 12 (wireless terminal device), a base station 14 that performs wireless communication with the wireless terminal 12, a SIP server 16, a partner terminal 18 (partner device), A local IP network 20 to which the base station 14 and the SIP server 16 are connected, a local IP network 22 to which the partner terminal 18 is connected, and a core IP network 24 that connects the local IP network 20 and the local IP network 22. Consists of including.

  The SIP server 16 is a known SIP server having functions such as a SIP proxy, a SIP redirect server, and a SIP registrar.

  The wireless terminal 12 and the partner terminal 18 are SIP terminals corresponding to the SIP server 16 and are assigned IP addresses. The SIP session established between the wireless terminal 12 and the partner terminal 18 is managed by the SIP server 16. In order to prevent the SIP session that is not used for communication from being unnecessarily maintained, the SIP server 16 has a timer for measuring the disconnection timing for each SIP session, and this timer has become zero. The SIP session is disconnected at the timing.

  FIG. 2 is a sequence diagram showing SIP session establishment processing and termination processing in the wireless communication system 10. Here, a case where the wireless terminal 12 calls the counterpart terminal 18 will be described. As shown in the figure, the wireless terminal 12 first transmits an INVITE message to the partner terminal 18 via the base station 14 and the SIP server 16 (S100 to S104). The partner terminal 18 that has received the INVITE message from the wireless terminal 12 returns a Ringing message and an OK message to the wireless terminal 12 via the SIP server 16 and the base station 14 (S106 to S116). Thereby, a SIP session is started between the wireless terminal 12 and the counterpart terminal 18.

  When the SIP session is started, the wireless terminal 12 returns the timer of the SIP session to an initial value (for example, 30 minutes) so that the SIP session is maintained until the communication with the partner terminal 18 ends. The re-INVITE message is transmitted to the SIP server 16 via the base station 14 at a cycle shorter than the initial value (for example, at an interval of 10 minutes).

  In the present embodiment, the base station 14 has a function of transmitting a re-INVITE message instead of the wireless terminal 12 (hereinafter referred to as “re-INVITE alternative transmission function”). This re-INVITE alternative transmission function is enabled (ON) in response to establishment of the SIP session, that is, after the base station 14 transfers the OK message returned from the partner terminal 18 via the SIP server 16 to the wireless terminal 12. (S118).

  When the re-INVITE alternative transmission function of the base station 14 is enabled, when the wireless connection state between the wireless terminal 12 and the base station 14 becomes a predetermined state due to deterioration of the wireless state, the base station 14 A re-INVITE message is transmitted to the SIP server 16. Specifically, when the wireless connection between the wireless terminal 12 and the base station 14 is disconnected (S120) and then recovered from the disconnected state (S122), the disconnection period may be equal to or longer than a predetermined time (specified value). For example, the base station 14 transmits a re-INVITE message to the SIP server 16 instead of the wireless terminal 12 (S124).

  Thereby, even if the re-INVITE message periodically transmitted from the wireless terminal 12 is lost due to the wireless connection state between the wireless terminal 12 and the base station 14, the wireless terminal 12 and the counterpart terminal 18 Can be prevented from being disconnected by the SIP server 16. In addition, when the wireless connection between the wireless terminal 12 and the base station 14 is disconnected due to power-off of the wireless terminal 12, the SIP session is unnecessarily maintained even though the wireless connection is not recovered from the disconnected state. Can also be prevented.

  When the partner terminal 18 ends the communication with the wireless terminal 12, the partner terminal 18 transmits a BYE message to the wireless terminal 12 via the SIP server 16 and the base station 14 (S126 to S130). The wireless terminal 12 that has received the BYE message from the partner terminal 18 returns an OK message to the partner terminal 18 via the base station 14 and the SIP server 16 (S134 to S138). Thereby, the SIP session established between the wireless terminal 12 and the counterpart terminal 18 is terminated. Note that the re-INVITE alternative transmission function of the base station 14 is disabled in accordance with the end of the SIP session, that is, after the base station 14 transfers the BYE message transmitted from the partner terminal 18 via the SIP server 16 to the wireless terminal 12. (OFF) (S132).

  Below, the structure with which the base station 14 is provided in order to implement | achieve the said process is demonstrated. FIG. 3 is a functional block diagram of the base station 14. As shown in the figure, the base station 14 includes an antenna 30, a wireless communication unit 32, a wired communication unit 34, and a control unit 36 (wireless connection state monitoring unit 38, re-INVITE transmission control unit 40, alternative transmission instruction unit 42). , An alternative transmission enabling unit 44).

  The antenna 30 receives a radio signal and outputs the received radio signal to the radio communication unit 32. In addition, the antenna 30 transmits a wireless signal supplied from the wireless communication unit 32 to the wireless terminal 12.

  The wireless communication unit 32 includes a low noise amplifier, a power amplifier, a frequency converter, a band pass filter, an A / D converter, a D / A converter, a demodulation circuit, and a modulation circuit. The wireless communication unit 32 performs amplification, down-conversion, A / D conversion, digital demodulation, and the like on the wireless signal input from the antenna 30 and outputs the received data (IP packet) obtained to the control unit 36. Further, the wireless communication unit 32 performs digital modulation, D / A conversion, up-conversion, amplification, and the like on transmission data (IP packet) input from the control unit 36 and supplies the obtained wireless signal to the antenna 30. .

  The wired communication unit 34 includes, for example, an IP network interface device. The wired communication unit 34 sends an IP packet (INVITE message, re-INVITE message, BYE message, communication data, etc.) input from the control unit 36 to a destination (SIP server) corresponding to the destination IP address included in the IP packet. 16 and the other terminal 18) via the local IP network 20. The wired communication unit 34 also sends IP packets (INVITE message, BYE message, communication data, etc.) received from other devices (SIP server 16, partner terminal 18, etc.) via the local IP network 20 to the control unit 36. Output.

  The control unit 36 includes a CPU (Central Processing Unit) and a program for controlling the operation of the CPU, for example, and controls each unit of the base station 14. In particular, the control unit 36 functionally includes a wireless connection state monitoring unit 38, a re-INVITE transmission control unit 40, an alternative transmission instruction unit 42, and an alternative transmission enabling unit 44. Processing related to the SIP session established between the two is performed.

  The wireless connection state monitoring unit 38 monitors the wireless connection state between the wireless terminal 12 and the base station 14. The wireless connection state monitoring unit 38 determines whether the wireless terminal 12 and the base station are based on whether the wireless signal from the wireless terminal 12 is continuously received in a state where the wireless resources for the wireless terminal 12 are secured. A wireless connection state with the station 14 is identified. For example, if data from the wireless terminal 12 is continuously input from the wireless communication unit 32 to the control unit 36, the wireless connection between the wireless terminal 12 and the base station 14 is maintained (during wireless stream connection). ) And the data from the wireless terminal 12 is not input from the wireless communication unit 32 to the control unit 36, the wireless connection between the wireless terminal 12 and the base station 14 is in a disconnected state (the wireless stream is being disconnected) ). The wireless connection state between the wireless terminal 12 and the base station 14 may be identified by a method different from the above method.

  The re-INVITE transmission control unit 40 creates a re-INVITE message addressed to the SIP server 16 so that the re-INVITE message is transmitted to the SIP server 16 at the timing instructed by the alternative transmission instruction unit 42, and the wired communication unit 34.

  The alternative transmission instruction unit 42 sends a re-INVITE message to the re-INVITE transmission control unit 40 instead of the wireless terminal 12 when the wireless connection state monitored by the wireless connection state monitoring unit 38 becomes a predetermined state. To send. Specifically, when the wireless connection between the wireless terminal 12 and the base station 14 is recovered from a disconnected state for a predetermined time or longer, an alternative transmission of the re-INVITE message is instructed. Note that the transmission timing of the re-INVITE message may be determined based on conditions different from the above conditions (conditions related to a change in the wireless connection state).

  Further, the alternative transmission instruction unit 42 substitutes for the re-INVITE message when the processing load of the base station 14 (CPU occupancy, the number of wireless terminals 12 connected to the base station 14, etc.) is equal to or greater than a predetermined value. Transmission may be restricted. For example, when a limited number of radio resources are shared by a plurality of radio terminals 12, stream open processing and close processing frequently occur, so the processing load on the base station 14 tends to increase. Considering such a case, if the alternative transmission instructing unit 42 instructs alternative transmission of the re-INVITE message only when the processing load of the base station 14 is less than the predetermined value, the re-INVITE message The increase in processing load of the base station 14 due to excessive alternative transmission can be suppressed.

  Further, the alternative transmission instruction unit 42 may limit the alternative transmission of the re-INVITE message when the frequency of the alternative transmission of the re-INVITE message is equal to or higher than a predetermined frequency. For example, the re-INVITE message alternative transmission interval (the time difference from the previous alternative transmission to the current alternative transmission) is half of the initial value of the SIP session timer (for example, 15 minutes, of course, only half of the initial value of the SIP session). If the alternative transmission instructing unit 42 instructs the alternative transmission of the re-INVITE message only in the case of exceeding (not limited), an increase in the processing load of the base station 14 due to excessive alternative transmission of the re-INVITE message is suppressed. can do.

  Of course, the alternative transmission instruction unit 42 performs the alternative transmission of the re-INVITE message when the processing load of the base station 14 is a predetermined value or more and the frequency of the alternative transmission of the re-INVITE message is the predetermined frequency or more. You may restrict.

  The alternative transmission validation unit 44 switches between valid / invalid of the re-INVITE alternative transmission function of the base station 14 at a predetermined timing. That is, the alternative transmission enabling unit 44 enables the alternative transmission function of the re-INVITE message by the re-INVITE transmission control unit 40 according to the establishment of the SIP session. On the other hand, the alternative transmission enabling unit 44 disables the alternative transmission function of the re-INVITE message by the re-INVITE transmission control unit 40 in accordance with the end of the SIP session. Note that the SIP session is also terminated when a connection in a layer below the SIP layer is disconnected (LCP timer timeout, A10 registration timer timeout, etc.).

  Here, the operation of the base station 14 will be described. FIG. 4 is a flowchart showing the re-INVITE alternative transmission process of the base station 14. Here, it is assumed that a SIP session is established between the wireless terminal 12 that performs wireless communication with the base station 14 and the counterpart terminal 18.

  As shown in the figure, the base station 14 for which the re-INVITE alternative transmission function is enabled monitors whether or not the wireless connection between the wireless terminal 12 and the base station 14 has been disconnected (S200: N). Here, when disconnection of the wireless connection is detected (S200: Y), the base station 14 starts a timer for measuring the disconnection time (S202), and the wireless connection between the wireless terminal 12 and the base station 14 is established. Starts monitoring whether or not has recovered from the disconnected state (S204: N).

  When the wireless connection between the wireless terminal 12 and the base station 14 is restored from the disconnected state (S204: Y), the base station 14 stops the timer for measuring the disconnection time (S206) and the disconnection measured by the timer It is determined whether or not the time is equal to or longer than a predetermined time (S208). Here, the base station 14 transmits a re-INVITE message to the SIP server 16 instead of the wireless terminal 12 only when the disconnection time is equal to or longer than the predetermined time (S208: Y) (S210).

  Thereafter, it is confirmed whether or not the re-INVITE alternative transmission function is valid (S212), and the processes after S200 are repeatedly executed until the re-INVITE alternative transmission function is invalidated.

  In addition, between S208 and S210, the base station 14 determines whether the processing load of the own station is a predetermined value and whether the frequency of the alternative transmission of the re-INVITE message is equal to or higher than the predetermined frequency. The process of S210 may be executed only when these two conditions are satisfied (when the processing load is equal to or greater than a predetermined value and the frequency of alternative transmission is equal to or greater than the predetermined frequency) (if not satisfied) (S210 is skipped).

  According to the embodiment described above, a re-INVITE message is transmitted from the base station 14 to the SIP server 16 in advance when the wireless connection state between the wireless terminal 12 and the base station 14 becomes a predetermined state. . For this reason, even if the re-INVITE message periodically transmitted from the wireless terminal 12 is lost due to the wireless connection state between the wireless terminal 12 and the base station 14, the wireless terminal 12 and the partner terminal 18 Can be prevented from being disconnected.

[Second Embodiment]
Hereinafter, a second embodiment of the present invention will be described with reference to the drawings. In addition, in order to avoid duplication description, the code | symbol same as the code | symbol used in 1st Embodiment (FIG. 1) shall be used here.

  In the first embodiment, when the wireless connection state between the wireless terminal 12 and the base station 14 becomes a predetermined state, the base station 14 sends a re-INVITE message to the SIP server 16 instead of the wireless terminal 12. The configuration to send was shown.

  In contrast, in the second embodiment, the wireless terminal 12 preliminarily transmits a re-INVITE message at a timing other than the timing at which the re-INVITE message is periodically transmitted to the SIP server 16 (hereinafter, “re -INVITE preliminary transmission function "). That is, in the present embodiment, when the wireless connection state between the wireless terminal 12 and the base station 14 becomes a predetermined state, not the base station 14 but the wireless terminal 12 itself sends a re-INVITE message in advance to the SIP server. 16 to send.

  FIG. 5 is a functional block diagram of the wireless terminal 12. As shown in the figure, the radio terminal 12 includes an antenna 50, a radio communication unit 52, and a control unit 56 (a radio connection state monitoring unit 58, a re-INVITE transmission control unit 60, a spare transmission instruction unit 62, a spare transmission validation. Part 64).

  The antenna 50 receives a radio signal and outputs the received radio signal to the radio communication unit 52. Further, the antenna 50 transmits a radio signal supplied from the radio communication unit 52 to the base station 14.

  The wireless communication unit 52 includes a low noise amplifier, a power amplifier, a frequency converter, a band pass filter, an A / D converter, a D / A converter, a demodulation circuit, and a modulation circuit. The wireless communication unit 52 performs amplification, down-conversion, A / D conversion, digital demodulation, and the like on the wireless signal input from the antenna 50 and outputs the received data (IP packet) obtained to the control unit 56. Further, the wireless communication unit 52 performs digital modulation, D / A conversion, up-conversion, amplification, and the like on transmission data (IP packet) input from the control unit 56 and supplies the obtained wireless signal to the antenna 50. .

  The control unit 56 includes, for example, a CPU and a program that controls the operation of the CPU, and controls each unit of the wireless terminal 12. In particular, the control unit 56 functionally includes a wireless connection state monitoring unit 58, a re-INVITE transmission control unit 60, a standby transmission instruction unit 62, and a standby transmission enabling unit 64. Processing related to the SIP session established between the two is performed.

  The wireless connection state monitoring unit 58 monitors the wireless connection state between the wireless terminal 12 and the base station 14. The wireless connection state monitoring unit 58 determines whether the wireless terminal 12 and the base station are based on whether or not the wireless signal from the base station 14 is continuously received in a state where the wireless resources for the wireless terminal 12 are secured. A wireless connection state with the station 14 is identified. For example, if data from the base station 14 is continuously input from the wireless communication unit 52 to the control unit 56, the wireless connection between the wireless terminal 12 and the base station 14 is maintained (wireless stream connected). ) And the data from the base station 14 is not input from the wireless communication unit 52 to the control unit 56, the wireless connection between the wireless terminal 12 and the base station 14 is in a disconnected state (the wireless stream is being disconnected) ). The wireless connection state between the wireless terminal 12 and the base station 14 may be identified by a method different from the above method.

  The re-INVITE transmission control unit 60 transmits the re-INVITE message to the SIP server 16 at a cycle (for example, every 10 minutes) shorter than the initial value (for example, 30 minutes) of the SIP session timer of the SIP server 16. A re-INVITE message addressed to the SIP server 16 is created and output to the wireless communication unit 52.

  Further, the re-INVITE transmission control unit 60 creates a re-INVITE message addressed to the SIP server 16 so that the re-INVITE message is transmitted to the SIP server 16 at the timing instructed by the standby transmission instruction unit 62, and the wireless The data is output to the communication unit 52.

  The preliminary transmission instruction unit 62 instructs the re-INVITE transmission control unit 60 to transmit a re-INVITE message when the wireless connection state monitored by the wireless connection state monitoring unit 58 becomes a predetermined state. . Specifically, when the wireless connection between the wireless terminal 12 and the base station 14 is recovered from a disconnected state for a predetermined time or longer, preliminary transmission of a re-INVITE message is instructed. Note that the transmission timing of the re-INVITE message may be determined based on conditions different from the above conditions.

  The preliminary transmission enabling unit 64 switches between valid / invalid of the re-INVITE preliminary transmission function of the wireless terminal 12 at a predetermined timing. That is, the preliminary transmission enabling unit 64 enables the preliminary transmission function of the re-INVITE message by the re-INVITE transmission control unit 60 according to the establishment of the SIP session. On the other hand, the preliminary transmission enabling unit 64 disables the preliminary transmission function of the re-INVITE message by the re-INVITE transmission control unit 60 in accordance with the end of the SIP session.

  According to the embodiment described above, a re-INVITE message is transmitted from the wireless terminal 12 to the SIP server 16 in advance when the wireless connection state between the wireless terminal 12 and the base station 14 becomes a predetermined state. . For this reason, even if the re-INVITE message periodically transmitted from the wireless terminal 12 is lost due to the wireless connection state between the wireless terminal 12 and the base station 14, the wireless terminal 12 and the partner terminal 18 Can be prevented from being disconnected.

  In addition, this invention is not limited to the said embodiment (1st Embodiment and 2nd Embodiment), A various deformation | transformation implementation is possible.

  For example, in the above embodiment, an example in which the present invention is applied to a wireless communication system that employs SIP as a call control protocol has been described. However, the present invention is widely applicable to a wireless communication system that employs a call control protocol similar to SIP. Can be applied.

  10 wireless communication system, 12 wireless terminal, 14 base station, 16 SIP server, 18 partner terminal, 20, 22 local IP network, 24 core IP network, 30, 50 antenna, 32, 52 wireless communication unit, 34 wired communication unit, 36, 56 control unit, 38, 58 wireless connection state monitoring unit, 40, 60 re-INVITE transmission control unit, 42 alternative transmission instruction unit, 44 alternative transmission validation unit, 62 spare transmission instruction unit, 64 spare transmission validation unit .

Claims (9)

A wireless terminal that transmits a timer initialization request for returning the timer to an initial value to a call control server having a timer for measuring the disconnection timing of a call session established with a partner device at a cycle shorter than the initial value A base station device that performs wireless communication with the device,
Monitoring means for monitoring a wireless connection state between the wireless terminal device and the base station device;
If the wireless connection state monitored by the monitoring means becomes a predetermined state, instead of the wireless terminal device, and an alternative transmission means for transmitting the timer initialization request to the call control server,
Only including,
The alternative transmission means transmits the timer initialization request to the call control server when the wireless connection between the wireless terminal device and the base station device is recovered from a disconnected state of a predetermined time or more.
The base station apparatus according to claim and this. The base station apparatus according to claim 1 ,
Further comprising means for enabling the alternative transmission means in response to establishment of the call session and disabling the alternative transmission means in response to termination of the call session;
A base station apparatus. In the base station apparatus according to claim 1 or 2 ,
The call control server is a SIP server;
The call session is a SIP session;
A base station apparatus. In the base station apparatus in any one of Claim 1 to 3 ,
The alternative transmission means limits the alternative transmission of the timer initialization request when the processing load of the base station apparatus is a predetermined value or more.
A base station apparatus. In the base station apparatus in any one of Claim 1 to 4 ,
The alternative transmission means restricts the alternative transmission of the timer initialization request when the frequency of the alternative transmission of the timer initialization request is equal to or higher than a predetermined frequency.
A base station apparatus. A timer initialization request for returning the timer to an initial value is sent to a call control server having a timer for performing a radio communication with a base station apparatus and measuring a disconnection timing of a call session established with a partner apparatus. A wireless terminal device that transmits via the base station device in a cycle shorter than a value,
Monitoring means for monitoring a wireless connection state between the wireless terminal device and the base station device;
If the wireless connection state monitored by the monitoring means becomes a predetermined state, and a standby transmission unit further transmits the timer initialization request to the call control server,
Only including,
The preliminary transmission means transmits the timer initialization request to the call control server when the wireless connection between the base station apparatus and the wireless terminal apparatus is recovered from a disconnected state of a predetermined time or more.
Wireless terminal device comprising a call. The wireless terminal device according to claim 6 ,
Further comprising means for enabling the preliminary transmission means in response to establishment of the call session and disabling the preliminary transmission means in response to termination of the call session;
A wireless terminal device. The wireless terminal device according to claim 6 or 7 ,
The call control server is a SIP server;
The call session is a SIP session;
A wireless terminal device. A wireless terminal that transmits a timer initialization request for returning the timer to an initial value to a call control server having a timer for measuring the disconnection timing of a call session established with a partner device at a cycle shorter than the initial value A call session maintenance method in a wireless communication system including a device and a base station device that performs wireless communication with the wireless terminal device,
Monitoring a wireless connection state between the wireless terminal device and the base station device;
If the wireless connection state where the monitored is restored from the cut state of the predetermined time or more, and transmitting the timer initialization request to the call control server,
A call session maintaining method comprising:

Images