JP2013219755A - System and method for economizing battery of mvoip terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system and a method for economizing the battery of an mVoIP terminal.SOLUTION: In order to register an mVoIP telephone program, an mVoIP terminal 13 transmits a location registration request signal to a VoIP exchanger 10, and the VoIP exchanger 10 transmits the location registration results to the mVoIP terminal 13. Upon receiving the location registration results, the mVoIP terminal 13 notifies a mobile keeper 14 of keep-alive on, and switches to telephone activation mode state. If there is no incoming call, outgoing call of an IP telephone 12 or a general subscriber, or no input confirmation signal of the user of an mVoIP terminal 13 for a predetermined time, in the telephone activation mode state, the mVoIP terminal 13 requests location registration release for the VoIP exchanger 10. After requesting location registration release, the mVoIP terminal 13 notifies the mobile keeper of keep-alive off, and switches to telephone non-activation mode.

Description

  The present invention relates to a battery saving system and a battery saving method of an mVoIP terminal, and more particularly, when an VoIP terminal makes a phone call in order to prevent a phenomenon that the battery is excessively consumed when the VoIP terminal is used. Activating / deactivating means, and at the time of VoIP terminal arrival, in the case of a bridge subscriber or a single subscriber, the wireless VoIP terminal is always activated by the existing periodic location registration through the activating / deactivating means. The present invention relates to a battery saving system and a battery saving method of an mVoIP terminal that saves a battery by driving only during an outgoing and incoming call activation mode time.

  G. 723.1A, G.R. Current enhanced voice codecs such as 729B and 3GPP adaptive multirate (AMR) prevent voice packets from being transmitted during the silence period to eliminate wasted bandwidth. Silence suppression can be used. Statistically, the silence period accounts for approximately 60% of the total duration of a VoIP (Voice over Internet Protocol) call. Accordingly, if the mVoIP terminal, which is a mobile station (MS), can sleep during such a period, it can save more energy. However, the existing power saving class (PSC) II used for VoIP service does not take into account the silence period of VoIP traffic, and the mS does not receive voice packets but periodically during the silence period. Wake up.

  A method for saving the battery of a general wireless VoIP terminal will be described. In order to make a call with mVoIP, the VoIP switch 10, the Ethernet switch 11, the IP telephone 12, the mVoIP terminal 13, and the mobile keeper 14 operate.

  With the above configuration, as shown in FIG. 1, the application of the current VoIP terminal 13 is operating normally or periodically registers its location at a period set by the VoIP switch 10 even in the background mode. However, at this time, the battery consumption is greatly increased depending on the location registration result. In addition, as shown in FIG. 2, the mobile keeper 14 can provide and receive services only after performing location registration S2 and S3 in the cycle set in the VoIP exchange 10, and battery consumption due to location registration occurs. There is a problem to do.

  The procedure according to another embodiment of the battery saving method of the wireless VoIP terminal will be described. In order to make a call by mVoIP, the VoIP switch 10, the L2 switch 11, the IP telephone 12, and the mVoIP terminal 13 are used. Works.

  With the above configuration, as shown in FIG. 3, the application of the current mVoIP terminal 13 is operating normally or is periodically registered in the period set in the L2 switch 11 even in the background mode (S10, S11). At this time, the battery is very consumed due to the location registration results (S12, S13).

  Accordingly, in the technical field to which the present invention belongs, there is a demand for technical development to prevent excessive battery consumption when using an VoIP terminal due to wakeup.

  The present invention has been devised to solve the above-described problems. When a call is made by an mVoIP terminal, activation / deactivation means, and when a call is received by an mVoIP terminal, a bridge subscriber or a single subscriber is provided. In this case, through the activation / deactivation means, the wireless VoIP terminal saves battery by driving only during the time of the outgoing and incoming call activation modes, rather than the always-on activation method by the existing periodic location registration. An object of the present invention is to provide a battery saving system and a battery saving method for an mVoIP terminal.

  In order to achieve the above object, according to a feature of the present invention, there is provided a battery saving method for an VoIP terminal in which an IP phone, an VoIP terminal, a mobile keeper, an APNS / C2DM, and a VoIP switch are configured in conjunction with each other through an Ethernet switch. A first step of sending a location registration request (Register) signal to the VoIP switch and registering the location registration result (200 ok) to the mVoIP terminal in order to register the mVoIP phone program (driving application) of the mVoIP terminal; In response to the location registration result, the mVoIP terminal sends a keep alive on message to the mobile keeper and switches to the telephone activation mode state; and the mVoIP terminal is in the telephone activation mode state for the set time. IP If there is no incoming call, outgoing call or input confirmation signal of the VoIP terminal user at the mobile station or general subscriber, the third stage requesting the VoIP switch to cancel the registration (DEREGISTER); After requesting (DEREGISTER), a fourth step of notifying the mobile keeper of keep alive off (KeePAlive Off) and switching to the telephone deactivation mode is provided.

  The battery saving system and the battery saving method of the mVoIP terminal according to the embodiment of the present invention have an effect of preventing the phenomenon that the battery is excessively consumed when using the VoIP terminal.

  According to an embodiment of the present invention, a battery saving system and a battery saving method for an mVoIP terminal include a bridge subscriber or a single subscription when an VoIP terminal makes a call, an activation / deactivation means, and an VoIP terminal receives an incoming call. In the case of a user, through the activation / deactivation means, the wireless VoIP terminal saves battery by driving only during the activation mode time of outgoing and incoming calls rather than the always-on activation method by the existing periodic location registration. It is possible to dramatically reduce the battery consumption of the wireless terminal.

4 is a diagram for explaining battery consumption of an VoIP terminal according to the prior art for comparison with a battery saving method of an VoIP terminal according to an embodiment of the present invention. 4 is a diagram for explaining battery consumption of an VoIP terminal according to the prior art for comparison with a battery saving method of an VoIP terminal according to an embodiment of the present invention. 4 is a diagram for explaining battery consumption of an VoIP terminal according to the prior art for comparison with a battery saving method of an VoIP terminal according to another embodiment of the present invention. 1 is a diagram illustrating a configuration of a battery saving system of an VoIP terminal according to an embodiment of the present invention. 5 is a flowchart illustrating a procedure for registering an incoming VoIP subscriber in a battery saving method for an VoIP terminal according to an embodiment of the present invention. 5 is a flowchart illustrating a location registration procedure of a bridge called subscriber when a call to a calling subscriber is requested in the battery saving method of the mVoIP terminal according to the embodiment of the present invention. 6 is a flowchart illustrating a location registration procedure for a single terminating subscriber when a calling subscriber call is requested in the battery saving method of the mVoIP terminal according to an embodiment of the present invention. 3 is a flowchart illustrating a call saving method in a battery saving method of an VoIP terminal according to an embodiment of the present invention. 4 is a diagram illustrating a configuration of a battery saving system of an VoIP terminal according to another embodiment of the present invention. 7 is a flowchart illustrating a procedure for registering an incoming VoIP subscriber in a method for saving battery of an VoIP terminal according to another embodiment of the present invention. 5 is a flowchart illustrating a location registration procedure of a called subscriber when a calling subscriber requests a call in a battery saving method of an mVoIP terminal according to another embodiment of the present invention. 6 is a flowchart illustrating a call saving method in a battery saving method of an mVoIP terminal according to another embodiment of the present invention.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, when it is determined that there is a possibility that a specific description of a known function or configuration related to the present invention may unnecessarily obscure the gist of the present invention, a detailed description thereof will be omitted.

  As used herein, when one component “transmits” data or signals to another component, the component can transmit the data or signal directly to the other component, at least It means that data or signals can be transmitted to other components through one or other components.

  FIG. 4 is a diagram illustrating a battery saving system of an mVoIP terminal according to an embodiment of the present invention. Referring to FIG. 1, the VoIP terminal battery saving system includes a VoIP switch 10, an Ethernet switch 11, an IP telephone 12, an mVoIP terminal 13, a mobile keeper 14 (Mobile Keeper), an APNS / C2DM 15, and a PSTN network 16.

  More specifically, the IP telephone 12, the VoIP terminal 13, the mobile keeper 14, and the VoIP exchange 10 are linked with each other through the Ethernet switch 11.

  The VoIP exchange 10 is a broad concept including a soft switch, a host IP-BX, a hybrid IP-PBX, and a proxy. The Ethernet switch 11 provides a router function of layer 3 by a switching method recognized by layer 2.

  When a location registration request (Register) signal is received, the VoIP exchange 10 sends a location registration result (200 ok) to the mVoIP terminal 13 to register the mVoIP application of the mVoIP terminal 13. , VoIP terminal 13 sends a keep-alive message to mobile keeper 14. Thereafter, the mVoIP terminal 13 is switched to the telephone activation state. If a call origination or an incoming call or a user's input is not confirmed for a predetermined time, a location registration release (DEREGISTER) signal is sent to the VoIP switch 10, and a keep alive off signal by location release is sent to the mobile keeper 14, Switch to phone inactive state.

  If the mVoIP application of the VoIP terminal 13 is not registered, the VoIP exchange 10 sends a signal (INVITE) that the call has been received from the IP telephone 12 to the mobile keeper 14, and the VoIP terminal 10 through the APNS / C2DM 15. The VoIP terminal 13 is woken up by sending a push message to 13.

  The VoIP exchange 10 functions to send a signal (INVITE) that the call has been received to the VoIP subscriber to the VoIP terminal 13 so that the call is normally performed.

  On the other hand, the VoIP exchange 10 transmits a packet including the information of the mVoIP terminal 13 from the IP telephone 12 to the VoIP exchange 10, and if the state of the VoIP terminal 13 is an unregistered (Not Regi) state, an incoming call request is made. It performs the function of sending a packet (invite) to the mobile keeper 14.

  In addition, if the mVoIP application of the mVoIP terminal 13 is registered, the VoIP exchange 10 sets a communication path between the caller of the IP telephone 12 and the receiver of the mVoIP terminal 13 so that the call is normally performed. To be

  The IP phone (IP Phone) 12 is a concept including a soft phone (Soft Phone).

  The mVoIP terminal 13 is also called EnSoP. When the VoIP terminal 13 transmits a location registration request signal to the VoIP switch 10 and receives an authentication OK notification from the VoIP switch 10, an OK message is obtained as a result of the location registration (REGISTER) request from the VoIP switch 10 through the Ethernet switch 11. When the call is received, the mobile keeper 14 is notified of the keep alive, and after switching to the telephone activation mode, if no call, incoming call, or user input is confirmed for a predetermined time, the VoIP switch 10 is located. A deregistration (DEREGISTER) signal is sent, and a keep alive off signal for canceling location registration is sent to the mobile keeper 14 to switch to the telephone deactivation mode.

  On the other hand, when the mVoIP terminal 13 is a bridge called subscriber, the VoIP exchange 10 sends an incoming call request (INVITE) signal to the mobile keeper according to the incoming call request of the IP telephone 12, and the mobile keeper 14 activates the mVoIP application. When the push message is transmitted to the mVoIP terminal 13 for the purpose, the VoIP terminal 13 makes an authentication request (Enroll Request), receives the authentication result (Enroll Response) from the mobile keeper 14, accepts the authentication result, When a registration request (REGISTER) message is sent to the VoIP switch 10 and an OK notification (200 OK) for registration is received from the VoIP switch 10, a keep alive message is sent to the mobile keeper 14 to enter the telephone activation mode. Switch.

  The mVoIP terminal 13 is a mVoIP terminal 13 that has received an incoming call request (invite), and normally communicates with the IP telephone 12 in response to a response to the VoIP switch 10.

  If the VoIP terminal 13 is a single terminating subscriber, the VoIP switch 10 makes an incoming call request (INVITE) to the mobile keeper 14 in response to an incoming call request (INVITE) signal in response to an incoming call request from the IP telephone 12. When a push message is transmitted by the mobile keeper 14 to activate the mVoIP application, an authentication request (Enroll Request) is made, and when an authentication result (Enroll Response) is received from the mobile keeper 14, a VoIP exchange is performed for the authentication result. When a location registration request (REGISTER) message is sent to the device 10 and an OK notification (200 OK) for registration is received from the VoIP switch 10, a keep alive message is sent to the mobile keeper 14 to switch to the telephone activation mode.

  The VoIP terminal 13 is a VoIP terminal 13 that has received an incoming call request (invite), and normally communicates with the IP telephone 12 in response to a response to the VoIP switch 10.

  The mobile keeper 14 is a server that performs phone authentication for the VoIP terminal 13. The mobile keeper 14 sends an automatic transfer (Call Forwarding) signal 302 (moved Temporary) to the VoIP switch 10 to switch the call. So that

  APNS / C2DM 15 is a concept that includes APNS and C2DM, APNS means an iPhone push service (Apple Push Notification Service), and C2DM means an Android push service (Cloud to Device messaging).

  FIG. 5 is a flowchart illustrating a registration procedure at the time of outgoing call of the mVoIP terminal in the battery saving method of the mVoIP terminal according to the embodiment of the present invention. The operation is described in detail with reference to FIGS. 4 and 5. The VoIP terminal 13 moves the telephone program (driving application), requests the VoIP exchange 10 for location registration (REGISTER), and results in an OK message ( (200 OK) is received from the VoIP switch 10, a keep alive on notification is sent to the mobile keeper 14.

  Thereafter, the mVoIP terminal 13 enters a telephone activation mode. If the incoming call / outgoing call or the input of the user of the VoIP terminal 13 is not confirmed by the IP telephone 12 or the general subscriber for a predetermined time in the telephone activation mode state, the VoIP exchange 10 is requested to cancel the location registration (DEREGISTER). Then, the mobile keeper 14 is notified of keep alive off and switched to the telephone deactivation mode.

  FIG. 6 is a flowchart illustrating a registration procedure for a bridge subscriber when a call is received at the mVoIP terminal in the battery saving method for the VoIP terminal according to the embodiment of the present invention. The operation will be described in detail with reference to FIG. 4 and FIG. 6. The VoIP exchange 10 that receives an incoming call request from the IP telephone 12 (including a general subscriber) confirms whether or not the incoming mVoIP terminal 13 is registered.

  If the location registration is normally registered depending on the location registration of the incoming VoIP terminal 13 of the VoIP switch 10, the incoming call is connected and the normal call processing procedure is performed. In response to the call request, an incoming call request (INVITE) signal of the VoIP switch 10 is sent to the mobile keeper 14, and the mobile keeper 14 confirms whether or not the mVoIP application 13 is activated in the mVoIP terminal 13. If a push message is sent to the VoIP terminal 13 and an authentication request (Enroll Request) is received from the mobile keeper 4 and an authentication result (Enroll Response) is received from the mobile keeper 4 and the authentication result is accepted, a request for location registration is sent to the VoIP switch 10. Send (REGISTER) message Upon receiving an OK notification (200 OK) for registration from the VoIP switch 10, a keep-alive message is sent to the mobile keeper 14 to switch to the telephone activation mode.

  In response to the keep alive on message of the VoIP terminal 13, the mobile keeper 14 sends an automatic call transfer request (3xx Redirection) to the VoIP exchange 10.

  When an automatic call transfer (3xx Redirection) signal is transmitted to the VoIP switch 10, the telephone number of the first calling terminal, the user name information, the telephone number of the last receiving terminal, and the relay node located in the VoIP network Attached information is copied and sent.

  On the other hand, if the incoming call / outgoing call or the input of the user of the mVoIP terminal 13 is not confirmed by the IP telephone 12 or the general subscriber in the telephone activation mode of the VoIP terminal 13 for a predetermined time, the VoIP switch 10 is located. Request deregistration (DEREGISTER), notify the mobile keeper 14 of keep alive off, and switch to the telephone deactivation mode.

  In the activation mode of the VoIP terminal 13, a call is normally made with the IP telephone 12 by setting the communication path of the VoIP exchange 10 in response to an incoming call request of the IP telephone 12.

  FIG. 7 is a flowchart illustrating a registration procedure in the case of being a single subscriber of an VoIP terminal in the battery saving method of the VoIP terminal according to an embodiment of the present invention. The operation will be described with reference to FIG. 4 and FIG. 7. The presence / absence of location registration of the VoIP switch 10 incoming mVoIP terminal 13 that has received an incoming call request from the IP telephone 12 (including a general subscriber) is confirmed.

  If the location registration is normally registered depending on the location registration of the incoming VoIP terminal 13 of the VoIP switch 10, the incoming call is connected and the normal call processing procedure is performed. In response to the call request, an incoming call request (INVITE) signal of the VoIP switch 10 is sent to the mobile keeper 14. The mobile keeper 14 sends a push message to the mVoIP terminal 13 to activate the VoIP application of the VoIP terminal 13. When the mVoIP terminal 13 receives an authentication result (Enroll Response) from the mobile keeper 14, it sends a location registration request (REGISTER) message to the VoIP exchange 10 in response to acceptance of the authentication result. , When an OK notification (200 OK) for registration is received from the VoIP switch 10, a keep-alive message is sent to the mobile keeper 14 to switch to the telephone activation mode.

  In response to the keep alive on message of the VoIP terminal 13, the mobile keeper 14 sends an automatic call transfer request (3xx Redirection) to the VoIP exchange 10.

  On the other hand, in the telephone activation mode of the mVoIP terminal 13, if an incoming call, an outgoing call or an input from the user of the VoIP terminal 13 is not confirmed by the IP telephone 12 or a general subscriber for a predetermined time, the VoIP exchange 10 A request for location registration cancellation (DEREGISTER) is made, the mobile keeper 14 is notified of keep alive off, and the mode is switched to the telephone deactivation mode.

  In the activation mode of the VoIP terminal 13, a normal call is made with the IP telephone 12 by setting the communication path of the VoIP exchange 10 in response to an incoming call request of the IP telephone 12.

  FIG. 8 is a flowchart illustrating a deactivation state of an mVoIP terminal in a method for saving the battery of the mVoIP terminal according to an embodiment of the present invention. 4 to 8, the mobile keeper 14 sends an automatic call transfer request (3xx Redirection) to the VoIP exchange 10 in response to the keep alive on message of the mVoIP terminal 13, and the mVoIP terminal 13, the IP telephone 12, Is activated, and a call path is set, whereby a call between the IP telephone 12 and the mVoIP terminal 13 is performed.

  Thereafter, when a call release request signal of the mVoIP terminal 13 is transmitted to the VoIP exchange 10, the VoIP exchange 10 sends an incoming subscriber call release signal to the IP telephone 12 through the Ethernet switch 11, and the set communication path is set. To release.

  After the call release procedure, a call origination / incoming phone call or user input confirmation procedure is performed for a predetermined time. If there is no information to be input, the mVoIP terminal 13 requests the VoIP exchange 10 to cancel the location registration through the Ethernet switch 11. Then, the mobile keeper 14 is notified of keep alive off, the registration state is terminated, and the telephone deactivation mode is entered.

  On the other hand, after the call release procedure, a call origination, incoming call or user input confirmation procedure is performed for a predetermined time, and if there is input information, normal call processing is performed.

  As in the above configuration, through the activation / deactivation means, the mVoIP terminal is configured not to be always activated by the existing periodic location registration but to be movable only during the outgoing and incoming phone activation mode times. As a result, consumption of the battery of the wireless terminal can be remarkably suppressed.

  FIG. 9 is a diagram illustrating a battery saving system of an mVoIP terminal according to another embodiment of the present invention. Referring to FIG. 9, the VoIP terminal battery saving system includes a VoIP switch 10, an L2 switch 11, an IP telephone 12, an mVoIP terminal 13, a mobile keeper 14 (Mobile Keeper), an APNS / C2DM 15, and a PSTN network 16.

  More specifically, the IP telephone 12, the mVoIP terminal 13, and the VoIP switch 10 are each linked to the L2 switch 11, and the L2 switch 11 is linked to the mobile keeper 14 through the IP network.

  The VoIP exchange 10 is a broad concept including a soft switch, a host IP-BX, a hybrid IP-PBX, and a proxy. The L2 switch (L2Switch) 11 is a two-layer switch and is also called a layer 2 switch.

  If the mVoIP application of the VoIP terminal 13 is unregistered, the VoIP exchange 10 sends a signal (INVITE) that the call has been received from the IP telephone 12 to the mobile keeper 14, and push message to the VoIP terminal 13 through the APNS / C2DM 15. To wake up the mVoIP terminal 13.

  The VoIP exchange 10 functions to send a signal (INVITE) that the call has been received to the VoIP subscriber to the VoIP terminal 13 so that the call is normally performed.

  On the other hand, if the state of the mVoIP terminal 13 is unregistered (Not Regi.) By the packet transmission including the information of the VoIP terminal 13 from the IP telephone 12 to the VoIP exchanger 10, the VoIP exchange 10 receives an incoming call request packet ( Invite) is sent to the mobile keeper (14).

  The IP phone (IP Phone) 12 is a concept including a soft phone (Soft Phone).

  The mVoIP terminal 13 is also called EnSoP. When the VoIP terminal 13 receives the authentication OK notification from the VoIP switch 10 in response to the authentication request (Enroll Request), the mobile terminal 13 receives the OK message as a result of the location registration (REGISTER) request from the VoIP switch 10 through the L2 switch 11. A function of notifying the keeper 14 of a keep alive is provided.

  On the other hand, when the mVoIP terminal 13 sends an authentication request (Enroll Request) to the mobile keeper 14 and receives an authentication result (Enroll Response) from the mobile keeper 14, the VoIP terminal 13 accepts the authentication result and sends a registration request (REGISTER) to the VoIP switch 10. ) When a message is sent and an OK notification (200 OK) for registration is received from the VoIP switch 10, a keep-alive message is sent to the mobile keeper 14.

  The mVoIP terminal 13 normally communicates with the IP telephone 12 in response to the response to the VoIP switch 10 at the mVoIP terminal 13 that has received the incoming call request (invite).

  The mobile keeper 14 is a server that performs phone authentication for the VoIP terminal 13. The mobile keeper 14 sends an automatic transfer (call diversion) signal 302 (moved Temporary) in the VoIP exchange (10) so that the call is diverted.

  The mobile keeper (14) functions to send a push message (PUSH INFO) to the mVoIP terminal 13 through the APNS / C2DM 15.

  The mobile keeper 14 functions to send a 302 moved Temporarily message to the VoIP exchange 10 so that call forwarding (Call Forwarding) is performed using the main number. As a result, the VoIP exchange 10 that has received the 302 moved Temporary message from the mobile keeper 14 retransmits the packet (invite) including the information of the IP telephone 12 to the mVoIP terminal 13 for the designated number of times until the response signal is received from the VoIP terminal 13. The function to send.

  APNS / C2DM15 is a concept that includes APNS and C2DM, where APNS is an iPhone push service (Apple Push Notification Service), and C2DM is an Android push service (Cloud to Device messaging).

  FIG. 10 is a flowchart showing a transmission state of the mVoIP terminal 13 in the battery saving method of the VoIP terminal according to the embodiment of the present invention. Referring to FIG. 10, the mVoIP terminal 13 moves a telephone program (driving application), and the mVoIP application requests a location registration (REGISTER) to the VoIP switch 10 through the L2 switch 11 (S11, S12). As a result, when an OK message (200 OK) is received from the VoIP switch 10, a keep alive on notification is sent to the mobile keeper (14) (S15).

  FIG. 11 is a flowchart showing an incoming state of the mVoIP terminal 13 in the battery saving method of the VoIP terminal according to another embodiment of the present invention. Referring to FIG. 11, the VoIP exchange 10 that has received an incoming call request from the IP telephone 12 (including a general subscriber) is connected to the mobile keeper 14 from the IP telephone 12 if the mVoIP application of the mVoIP terminal 13 is unregistered. By sending a signal (INVITE) that an incoming call has been received (S21, S22) (S23), a push message is sent to the mVoIP terminal 13 through the APNS / C2DM 15 to activate the mVoIP application (S30, S31).

  On the other hand, the mVoIP application that has received the push message makes an authentication request (Enroll Request) to the mobile keeper 14 (S32), and waits for an authentication result (Enroll Response) from the mobile keeper (14).

  When the VoIP terminal 13 receives the authentication OK notification from the mobile keeper 14, the VoIP application requests a location registration (REGISTER) to the VoIP switch 10 through the L2 switch 11 (S34, S35), and as a result, an OK message (200 OK) is sent to the L2 switch. When received through the switch 11, a keep-alive notification is sent to the mobile keeper 14 (S40), and the telephone is activated between the VoIP terminal 13 and the IP telephone 12 to set a speech path.

  FIG. 12 is a flowchart illustrating a call saving method in the battery saving method of the mVoIP terminal according to the embodiment of the present invention. Referring to FIGS. 11 to 12, when the mVoIP application receives an OK message (200 OK) for requesting location registration from the VoIP switch 10 through the L2 switch 11, the mVoIP application notifies the mobile keeper 14 of keep alive, After the telephone is activated with the IP telephone 12, a call path is set and a telephone call is made between the IP telephone 12 and the mVoIP terminal 13.

  Thereafter, when a call release request signal of the VoIP terminal 13 is transmitted to the VoIP exchange 10 (S41, S42), the VoIP exchange 10 sends an incoming subscriber call release signal (S43) to the IP telephone 12 through the L2 switch 11. To cancel the call path set.

  After the above call release procedure, a call origination / incoming call or user input confirmation procedure is performed for a predetermined time, and if there is no information to be input, the mVoIP terminal 13 requests the VoIP switch 10 to cancel the location registration through the L2 switch 11. (S45, 44), the mobile keeper 14 is notified of keep alive off and the registration state is terminated.

  By ending the location registration state, it is possible to save battery consumption required for location registration of the mVoIP terminal 13.

  On the other hand, after the call release procedure, a call origination, incoming call or user input confirmation procedure is performed for a predetermined time, and if there is input information, normal call processing is performed.

10: VoIP switch 11: L2 switch, Ethernet switch 12: IP phone 13: mVoIP terminal 14: Mobile keeper (Mobile Keeper)
15: APNS / C2DM
16: PSTN network 17: Analog phone 18: Fax phone

Claims (10)

In a method for conserving the battery of an mVoIP terminal in which an IP phone, an mVoIP terminal, a mobile keeper, an APNS / C2DM, and a VoIP exchange are respectively linked through an Ethernet switch,
a first step of sending a location registration request (Register) signal to the VoIP exchange and registering the location registration result (200 ok) to the mVoIP terminal in order to register the mVoIP phone program (driving application) of the VoIP terminal;
In response to the location registration result, the mVoIP terminal sends a keep alive on message to the mobile keeper and switches to the telephone activation mode state;
If the VoIP terminal is in the telephone activation mode and there is no incoming call, outgoing call, or input confirmation signal of the VoIP terminal user at the IP telephone or general subscriber for a set time, the VoIP exchange deregisters (DEREGISTER) ) Requesting the third stage;
The fourth step of switching to the telephone deactivation mode after requesting the VoIP switch to cancel the location registration (DEREGISTER) and informing the mobile keeper of the keep alive off, and saving the battery of the mVoIP terminal Method. In a method for conserving the battery of an mVoIP terminal in which an IP phone, an mVoIP terminal, a mobile keeper, an APNS / C2DM, and a VoIP exchange are respectively linked through an Ethernet switch,
A first step in which the VoIP exchange confirms whether the location of the VoIP terminal is registered according to the call request signal of the IP telephone, and if the location of the VoIP terminal is unregistered, a first step of sending an incoming call request signal (INVITE) to the mobile keeper;
The mobile keeper confirms whether or not the mVoIP terminal is in an activated state (wake-up) by an incoming call request signal of the VoIP exchange. If the mVoIP terminal is in an inactive state, the mobile keeper sends a push message to the mVoIP terminal. A second stage of sending and wake-up of the mVoIP terminal;
The mVoIP terminal transmits an authentication request (Enroll Request) to the mobile keeper in response to an activation request signal of the mobile keeper, receives an authentication result (Enroll Response), and sends a location registration request signal to the VoIP switch. Three stages;
a fourth stage of receiving a location registration result signal transmitted to the VoIP switch according to a location registration request signal of the VoIP terminal and notifying the mobile keeper of keep-alive on;
The mobile keeper receives a keep alive on signal as a result of location registration of the VoIP terminal, and sends an automatic call transfer request (3xx Redirection) signal to the VoIP exchange;
the mVoIP terminal sends a keep alive on message to the mobile keeper and switches to the telephone activation mode state;
If the VoIP terminal is in the telephone activation mode and there is no incoming call, outgoing call, or input confirmation signal of the VoIP terminal user at the IP telephone or general subscriber for a set time, the VoIP exchange deregisters (DEREGISTER) ) Requesting 7);
An eighth step of requesting the VoIP switch to cancel location registration (DEREGISTER), then notifying the mobile keeper of keep-alive off and switching to the telephone deactivation mode; and How to save. In a method for conserving the battery of an mVoIP terminal in which an IP phone, an mVoIP terminal, a mobile keeper, an APNS / C2DM, and a VoIP exchange are respectively linked through an Ethernet switch,
A first stage in which the VoIP exchange confirms whether or not the VoIP terminal is registered according to a call request signal of the IP telephone;
If the VoIP switch is in an unregistered location of the mVoIP terminal, the mobile keeper sends an incoming call request signal (INVITE), and the mobile keeper sends a push message to the mVoIP terminal to wake up the mVoIP terminal. When;
The mVoIP terminal transmits an authentication request (Enroll Request) to the mobile keeper by an incoming call request (invite) of the mobile keeper, receives an authentication result (Enroll Response), and sends a location registration request signal to the VoIP switch. Receiving a location registration result signal of the VoIP switch and sending a keep-alive on signal to the mobile keeper;
The mobile keeper receives a keep alive on signal as a result of the location registration of the VoIP terminal, and sends an automatic call transfer request (3xx Redirection) signal to the VoIP exchange;
The mVoIP terminal sends a keep alive on message to the mobile keeper, switches to the telephone activation mode state, and uses the incoming call, outgoing call or mVoIP terminal on the IP telephone or general subscriber for a set time in the telephone activation mode state. If there is no input confirmation signal from the user, the fifth step of requesting the VoIP exchange to cancel the location registration (DEREGISTER);
And a sixth step of notifying the mobile keeper of a keep alive off after requesting location registration cancellation (DEREGISTER) to the VoIP switch and switching to the telephone deactivation mode. How to save. The VoIP exchange transmits a signal (invite) that the call of the IP subscriber has been introduced to the mVoIP terminal by an automatic call transfer request (3xx Redirection) signal of the mobile keeper, and a hook-off signal of the mVoIP terminal. Setting the call path by:
When the VoIP terminal is released, the VoIP exchange makes an incoming subscriber call release request at the IP telephone, and the VoIP terminal is in the telephone activation mode for the set time for the incoming call, outgoing call or mVoIP at the IP telephone or the general subscriber. If there is no input confirmation signal from the user of the terminal, requesting the VoIP exchange to cancel location registration (DEREGISTER);
The method according to claim 2 or 3, further comprising: after requesting the VoIP switch for deregistration (DEREGISTER), notifying the mobile keeper of keep alive off and switching to the telephone deactivation mode. The battery saving method of the described mVoIP terminal. When the mobile keeper transmits a call transfer request (3xx Redirection) signal to the VoIP switch, the mobile phone number of the first calling terminal, the name information of the user, the telephone number of the last receiving terminal, and the relay located in the VoIP network 4. The method of claim 2, wherein the attached information for the node is copied and transmitted. a VoIP switch that wakes up the mVoIP terminal by sending a location registration signal through the L2 switch and sending a location registration result message to the mVoIP terminal through the L2 switch if the mVoIP application of the VoIP terminal is unregistered;
When an authentication OK notification is received from the VoIP switch by a registration request through the L2 switch, an OK message is received as a result of the location registration request from the VoIP switch through the L2 switch, a keep alive on notification is sent to the mobile keeper, and the telephone is activated Said mVoIP terminal to be
When an incoming call request signal is transmitted to the VoIP switch by the originating IP telephone, a push message is sent to the mVoIP terminal by the incoming call request, an authentication request (Enroll Request) of the mVoIP terminal is sent, and an authentication result is sent. The mobile keeper to which a keep-alive on notification is transmitted as a location registration result from the VoIP exchange in response to a location registration request of the terminal;
The VoIP switch according to claim 2 or 3, wherein the VoIP exchange sends a signal (INVITE) that a call has been accepted to an mVoIP subscriber to the VoIP terminal so that the call is normally performed. Terminal battery saving system. The VoIP exchange is
If an mVoIP application of the mVoIP terminal is unregistered at the time of an incoming call request of the VoIP terminal through the VoIP switch of the IP telephone (including a general subscriber), an incoming call is received from the IP telephone to the mobile keeper (14). 7. The mVoIP according to claim 6, wherein the mVoIP is configured to activate a mVoIP application by sending a push message to the mVoIP terminal through APNS / C2DM by sending a signal of being invaded (INVITE). Terminal battery saving system. The mobile keeper
A call release request signal is sent to the VoIP switch through the L2 switch to complete the call release with the incoming IP phone. After the call release procedure, the call is made for a predetermined time, the incoming call or the user input confirmation procedure is performed and input If there is no information to be received, the VoIP terminal requests the VoIP exchange to cancel the location registration through the L2 switch, receives the released location registration result by keeping alive off, ends the registration state, and ends the registration state. The battery saving system of the mVoIP terminal according to claim 6, configured to save battery consumption required for location registration of the VoIP terminal. The first step in which the VoIP switch sends a location registration signal through the L2 switch and sends a location registration result message to the mVoIP terminal through the L2 switch to wake up the mVoIP terminal if the mVoIP application of the mVoIP terminal is unregistered. When;
When the mVoIP terminal sends a location registration request signal through the L2 switch and receives an OK message through the L2 switch as a result of a location registration (REGISTER) request from the VoIP switch, it notifies the mobile keeper of keep alive on. The second stage;
A third step of sending an incoming call request signal to the mobile keeper in order to confirm the presence / absence of location registration of the mVoIP terminal in response to the incoming call request when the incoming call request signal is transmitted from the originating IP telephone;
The mobile keeper sends a push message for an authentication request of the mVoIP terminal according to an incoming call request signal of the VoIP switch, makes an authentication request (Enroll Request) of the VoIP terminal, and sends an authentication result;
The VoIP switch sends a location registration result to the mVoIP terminal according to the location registration request of the mVoIP terminal, and the mVoIP terminal sends a keep alive on notification to the mobile keeper as the location registration result, and performs a location registration procedure to activate the telephone. A fifth stage of converting to:
The VoIP switch sends a signal to the mVoIP terminal that the call has been received by the VoIP subscriber, so that the call can be made normally;
When the call is terminated, the mVoIP terminal requests the VoIP switch to release the call through the L2 switch, and after the call release procedure, performs a call, incoming phone call or user input confirmation procedure for a predetermined time, and is input If there is no information to be received, the seventh step of requesting the VoIP switch to cancel the location registration through the L2 switch, sending a keep-alive-off notification to the mobile keeper as the released location registration result, and terminating the location registration state. The battery saving method of the mVoIP terminal characterized by the above-mentioned. In the third stage,
If the mVoIP application of the mVoIP terminal is in an unregistered state due to an incoming call request of the originating IP phone, a signal (INVITE) indicating that the incoming call has been received from the IP phone is sent to the mobile keeper through the APNS / C2DM. The method of claim 9, further comprising activating the mVoIP application by sending a push message to the terminal.