KR101560480B1 - Method for sending voice packet, and user device - Google Patents

Abstract

When the traffic is overloaded, the voice packet delivery method and the user terminal are started. Determining whether a message received from a base station in response to a call connection request includes a parameter for blocking wireless transmission of a voice packet when the wireless service network of the base station exceeds a preset range of traffic; Bypassing a parameter for blocking radio transmission of a voice packet and a data packet to a base station by bypassing a voice packet associated with the call if the message includes a parameter for blocking radio transmission of a voice packet; And transmitting the voice packet through the wireless service network of the connected base station.

Description

METHOD FOR SENDING VOICE PACKET, AND USER DEVICE,

A method for transmitting a voice packet when an overload is applied to a wireless service network of a base station, and a user terminal.

Voice over Internet Protocol (VoIP) is a technology that converts voice to a digital packet (the smallest unit of data transmission) and communicates over a network using an IP address.

Recent voice calls have evolved from the existing Circuit Switched (CS) to the LTE based on Packet Switched (PS). Accordingly, the base station frequently processes traffic and overloads by processing both data packets and voice packets. Also, as the traffic overload of the base station's wireless service network frequently occurs, the call failure rate of users is increasing. At present, telecommunication carriers are processing voice data in a uniform manner between general data and Voice over Long Term Evolution (VoLTE) voice calls.

A voice packet delivery method in which when a wireless service network of a base station is overloaded, a parameter for blocking wireless transmission of a voice packet and a data packet is bypassed for voice packets related to a call to increase the voice call success rate, .

In a voice packet delivery method according to an exemplary embodiment, when a wireless service network of a base station exceeds a predetermined range of traffic, a parameter for blocking wireless transmission of a voice packet to a message received from the base station in response to a call connection request is Judging whether or not it is included; Accessing a base station by bypassing a parameter for blocking radio transmission of a voice packet and a data packet to a voice packet associated with the call if the message includes a parameter for blocking wireless transmission of voice packets; And transmitting the voice packet through the wireless service network of the connected base station.

According to another embodiment of the present invention, in the voice packet transmission method, the connecting may establish a radio resource by accessing a base station through a radio resource control layer.

In the voice packet transmission method according to another embodiment, the connecting step may include a step of connecting the voice packet and the data packet using the access permission rate to the base station through the radio resource control layer included in the message received from the base station, Lt; / RTI > can be bypassed.

In the voice packet delivery method according to another embodiment, the connecting step may include: a connection permission rate to a base station through a radio resource control layer included in a message received from the base station, a radio resource control A parameter for blocking the wireless transmission of the voice packet and the data packet can be bypassed by comparing the access permission rate to the base station through the layer.

In another aspect of the present invention, there is provided a method for transmitting a voice packet according to another embodiment, the message including a parameter for blocking radio transmission of a voice packet, a parameter for blocking radio transmission of a voice packet and a data packet, A connection permission ratio, a voice packet transmission permission ratio, and a voice packet and a data packet transmission permission ratio.

In the voice packet delivery method according to another embodiment, the message may be set to a maximum allowable transmission rate of the voice packet, and the transmission permission rate of the voice packet and the data packet may be set to a minimum.

In a voice packet delivery method according to an exemplary embodiment, when a wireless service network of a base station exceeds a predetermined range of traffic, a voice packet related to a call is bypassed by a parameter blocking wireless transmission of a voice packet and a data packet ; Setting a radio resource for using the radio service network of the base station by bypassing a parameter for blocking radio transmission of the voice packet and the data packet; And delivering a voice packet according to the set radio resources.

In the method of transmitting a voice packet according to another embodiment, the determining step may include receiving a message related to whether or not a connection to the base station is permitted from a base station, and including a parameter for blocking wireless transmission of a voice packet in the received message It is possible to determine whether to bypass the parameter for blocking the radio transmission of the voice packet and the data packet.

In another aspect of the present invention, there is provided a method for transmitting a voice packet according to another embodiment of the present invention, wherein the step of determining comprises: determining, by using a connection permission rate to a base station through a radio resource control layer included in a message received from the base station, It is possible to determine whether or not to bypass the parameter for intercepting the wireless transmission of the wireless transmission.

In the voice packet delivery method according to another embodiment of the present invention, the determining step may include determining a connection permission rate to a base station through a radio resource control layer included in a message received from the base station, It is possible to determine whether to bypass the parameter for blocking the wireless transmission of the voice packet and the data packet by comparing the access permission rate to the base station through the layer.

In the voice packet delivery method according to another embodiment, the message may be set to a maximum allowable transmission rate of the voice packet, and the transmission permission rate of the voice packet and the data packet may be set to a minimum.

In a user terminal according to an exemplary embodiment, when a wireless service network of a base station exceeds a predetermined range of traffic, a parameter for blocking wireless transmission of a voice packet is included in a message received from the base station in response to a call connection request A judgment unit for judging whether or not there is an abnormality; A connection unit for bypassing a parameter for blocking wireless transmission of a voice packet and a data packet to a voice packet related to the call and connecting to the base station if the message includes a parameter for blocking wireless transmission of voice packets; And a delivery unit for delivering voice packets through the wireless service network of the connected base station.

In a user terminal according to another exemplary embodiment, the connection unit may block the wireless transmission of the voice packet and the data packet using a connection permission rate to the base station through the radio resource control layer included in the message received from the base station Can be bypassed.

In a user terminal according to an exemplary embodiment, when a wireless service network of a base station exceeds a preset range of traffic, a voice packet associated with a call is bypassed with a parameter for blocking wireless transmission of a voice packet and a data packet A judging unit for judging; A setting unit configured to set a radio resource for using the radio service network of the base station when a parameter for blocking radio transmission of the voice packet and the data packet is bypassed; And a delivery unit for delivering a voice packet according to the set radio resources.

In a user terminal according to another exemplary embodiment, the determination unit may block the wireless transmission of the voice packet and the data packet using the access permission rate to the base station through the radio resource control layer included in the message received from the base station Can be bypassed.

A voice packet delivery method in which when a wireless service network of a base station is overloaded, a parameter for blocking wireless transmission of a voice packet and a data packet is bypassed for voice packets related to a call to increase the voice call success rate, .

1 is a diagram illustrating a relationship between a user terminal performing call processing and a base station according to an embodiment of the present invention.
2 is a diagram illustrating a method of transmitting a voice packet by bypassing a parameter for blocking wireless transmission of a voice packet and a data packet according to an exemplary embodiment of the present invention.
3 is a diagram illustrating a method of transmitting a voice packet depending on whether a parameter is bypassed according to an embodiment.
FIG. 4 is a diagram illustrating a method of transmitting a voice packet according to whether a RRC (Radio Resource Control) barring parameter is bypassed according to an embodiment.
5 is a diagram illustrating a process of allocating radio resources between a user terminal and a base station for packet transmission through a radio service network according to an embodiment of the present invention.
6 is a diagram illustrating a process of setting an access blocking parameter using a message received from a base station according to an exemplary embodiment of the present invention.
FIG. 7 illustrates a process of bypassing an RRC barring parameter according to an exemplary embodiment of the present invention. Referring to FIG.
FIG. 8 is a diagram illustrating a user terminal performing a method of bypassing a parameter blocking wireless transmission of a voice packet and a data packet to deliver a voice packet according to an embodiment.
9 is a diagram illustrating a user terminal performing a method for delivering voice packets according to whether a parameter is bypassed according to an embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a relationship between a user terminal performing call processing and a base station according to an embodiment of the present invention.

Referring to FIG. 1, a user may receive a service through a wireless service network of the base station 101 using the user terminal 100. Here, the packet may include a voice packet and a data packet. The service may include all services that the user terminal 100 can receive through the wireless service network. The base station 101 may provide a service to the user terminal 100 through a wireless service network. That is, the base station 101 can transmit and receive voice packets and data packets to provide services to the user terminal 100. [

At this time, if the traffic is judged and exceeds the predetermined range, the base station 101 can control the transmission and reception of the voice packet and the data packet. In one example, the base station 101 may send a message to the user terminal 100 regarding whether to allow access to the base station. The user terminal 100 can establish a radio resource by accessing the base station 101 based on the access permission rate to the base station 101 included in the message. When the radio resource is set, the user terminal 100 can deliver the packet based on the set radio resources.

For example, according to the user's call request, the user terminal 100 may forward the call connection request to the base station 101. [ When receiving the call connection request, the base station 101 can determine the traffic of the wireless service network. Accordingly, when the traffic of the wireless service network exceeds a preset reference, the base station 101 can transmit a message including contents for blocking transmission / reception of data packets and voice packets to the user terminal 100. Then, the user terminal 100 can control the wireless transmission of the packet based on the message received from the base station 101.

For example, the user terminal 100 may block a wireless transmission of a packet by controlling a parameter for blocking wireless transmission of a packet based on a message received from the base station 101. Specifically, the user terminal 100 can control a parameter for blocking wireless transmission of a packet using a connection permission rate to a base station included in a message received from the base station. For example, the user terminal 100 may control a parameter for blocking wireless transmission of a voice packet using a transmission permission rate of a voice packet included in a message received from the base station. Also, the user terminal 100 can control the parameters for blocking the wireless transmission of the voice packet and the data packet by using the transmission permission rate of the voice packet and the data packet included in the message received from the base station.

The user terminal 100 may bypass parameters for blocking the radio transmission of the voice packet and the data packet for the voice packet associated with the call of the user terminal 100. [ For example, if the transmission permission rate of the voice packet is 95% for the message received from the base station and the transmission permission rate of the voice packet and the data packet is 0%, the user terminal 100 transmits the voice packet The transmission permission rate of the voice packet by the parameter for blocking the wireless transmission of the voice packet can be set to 95%. In addition, the user terminal 100 can set the transmission permission rate of the data packet to 0% by the parameter for blocking the wireless transmission of the voice packet and the data packet. Accordingly, the user terminal 100 can maintain the transmission permission rate for the voice packet at 95% while maintaining the transmission permission rate for the data packet at 0%.

2 is a diagram illustrating a method of transmitting a voice packet by bypassing a parameter for blocking wireless transmission of a voice packet and a data packet according to an exemplary embodiment of the present invention.

Referring to FIG. 2, a user can make a call request using the user terminal 200. Then, the user terminal 200 can forward the call to the base station.

If the wireless service network of the base station exceeds a preset range of traffic, the user terminal can determine whether the message received from the base station includes a parameter for blocking wireless transmission of voice packets in step 200 .

If the message contains a parameter for blocking the wireless transmission of voice packets, the user terminal 200 bypasses the parameters for blocking the wireless transmission of the voice packet and the data packet for the voice packet associated with the call, And can connect to the base station. Here, the parameter for blocking the radio transmission of the voice packet and the data packet may mean a parameter for interrupting the radio transmission of the voice packet and the data packet by blocking the setting of the radio resource by accessing the base station through the radio resource control layer

For example, a user terminal can bypass a parameter for blocking radio transmission of a voice packet and a data packet using a connection permission rate to a base station through a radio resource control layer included in a message received from the base station. In addition, for example, the user terminal compares the access permission rate to the base station through the radio resource control layer included in the message received from the base station and the access permission rate to the base station through the radio resource control layer calculated from the user terminal, It is possible to bypass parameters for blocking wireless transmission of packets and data packets.

That is, if the parameter blocking the radio transmission of the voice packet is not blocked by the parameter for blocking the radio transmission of the voice packet and the parameter for blocking the radio transmission of the voice packet and the data packet is bypassed, in step 202, And can transmit voice packets. Specifically, the user terminal can establish a radio resource by accessing a base station through a radio resource control layer. Then, the user terminal can transmit the voice packet to the base station based on the set radio resources.

Specifically, the user terminal can access the base station through the radio resource control layer and allocate radio resources. The radio resource control layer may refer to a Radio Resource Control (RRC) layer. The user terminal and the base station can connect and receive radio resources through the RRC layer, and then transmit and receive voice packets through the wireless service network.

For example, the base station may send a message to the user terminal. At this time, the message may include a transmission permission rate of a voice packet, a transmission permission rate of a voice packet and a data packet. At this time, the user terminal can control a parameter for blocking the wireless transmission of the voice packet by using the transmission permission rate of the voice packet. Also, the user terminal can control a parameter for blocking the radio transmission of the voice packet and the data packet by using the transmission permission rate of the voice packet and the data packet included in the message received from the base station.

For example, the base station can transmit a message to the user terminal with a maximum allowable transmission rate of the voice packet and a minimum allowable transmission rate of the voice packet and the data packet. Specifically, the base station can transmit a message to the user terminal in which the transmission permission rate of the voice packet is set to 95%, and the transmission permission rate of the voice packet and the data packet is set to 0%. Accordingly, the user terminal can change the transmission permission rate of the voice packet by the parameter for blocking the wireless transmission of the voice packet to 95%. In addition, the user terminal can change the transmission permission rate of the data packet by a parameter for blocking the radio transmission of the voice packet and the data packet to 0%. Accordingly, the user terminal can maintain the transmission permission rate for the voice packet at 95% while maintaining the transmission permission rate for the data packet at 0%.

3 is a diagram illustrating a method of transmitting a voice packet depending on whether a parameter is bypassed according to an embodiment.

Referring to FIG. 3, if the wireless service network of the base station exceeds a predetermined range of traffic, at step 300, the user terminal determines a parameter for blocking the wireless transmission of voice packets and data packets It is possible to judge whether or not the bypass is performed.

For example, the user terminal can determine whether a message received from the base station includes a parameter for blocking wireless transmission of a voice packet. If the parameter for blocking the wireless transmission of the voice packet is not included, the user terminal can block the wireless transmission of the voice packet and the data packet using the parameter for blocking the wireless transmission of the voice packet and the data packet.

If the message received from the base station includes a parameter for blocking the wireless transmission of voice packets, then in step 300, the user terminal determines, for the voice packet associated with the call, It is possible to judge whether or not it is bypassed. For example, the user terminal can bypass the parameters for blocking the radio transmission of the voice packet and the data packet using the access permission rate included in the message received from the base station. Alternatively, the user terminal can bypass the parameter for blocking the radio transmission of the voice packet and the data packet by comparing the access permission rate included in the message received from the base station with the access permission rate calculated from the user terminal.

If the parameter for blocking the wireless transmission of the voice packet and the data packet is bypassed, in step 301, the user terminal can set a wireless resource for using the wireless service network of the base station. For example, the radio resource control layer may refer to a Radio Resource Control (RRC) layer. That is, the user terminal and the base station can connect and receive radio resources through the RRC layer, and then transmit and receive voice packets through the wireless service network. Then, in step 302, the user terminal can deliver voice packets according to the set radio resources.

4 is a diagram illustrating a method of transmitting a voice packet according to whether an RRC barring parameter is bypassed according to an exemplary embodiment of the present invention.

Referring to FIG. 4, a user terminal can transmit a packet through a wireless service network of a base station. Here, the packet may include a voice packet and a data packet.

When the traffic of the wireless service network of the base station is overloaded, the user terminal can receive the message from the base station. At this time, the message may include connection permission information to the base station. For example, the message may include parameters for blocking radio transmission of voice packets, parameters for blocking radio transmission of voice packets and data packets, access permission rates for base stations through radio resource control layers, transmission permission rates for voice packets, And a transmission permission rate of the voice packet and the data packet.

Here, the parameter for blocking the wireless transmission of the voice packet may correspond to the IMS (IP Multimedia Subsystem) barring parameter, and the parameter for blocking the wireless transmission of the voice packet and the data packet may correspond to the RRC barring parameter. Specifically, the IMS barring parameter may mean a parameter for blocking access to the wireless service network of the base station for transmission of the VoIP voice packet. The parameter for blocking the radio transmission of the voice packet and the data packet means a parameter for blocking voice packet transmission by setting a radio resource by accessing the radio service network of the base station for transmission of the VoIP voice packet and the data packet can do.

4 (a), when the traffic of the base station's radio service network is overloaded, the user terminal can block the transmission of the VoIP voice packet to the base station using the IMS barring parameter based on the information included in the message. Also, the user terminal can block the transmission of VoIP voice packets and data packets to the base station using the RRC barring parameter based on the information included in the message. Accordingly, the user terminal can block the transmission of the VoIP voice packet using the IMS barring parameter and the RRC barring parameter.

Referring to FIG. 4 (b), the user terminal in the present invention can bypass the RRC barring parameter for a VoIP voice packet associated with a call. Thus, the user terminal can increase the transmission success rate for VoIP voice packets associated with the call.

5 is a diagram illustrating a process of setting up a radio resource between a user terminal and a base station for packet transmission through a radio service network according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the user terminal 100 can transmit a packet through the wireless service network of the base station 101. For example, the user terminal 100 may connect the base station 101 with a radio resource control layer for transmission of a packet. Accordingly, the user terminal 100 can communicate with the base station 101 and transmit a packet through the wireless service network by setting a radio resource for transmission of a packet.

For example, the radio resource control layer may refer to an RRC layer. Specifically, at step 500, the user terminal 100 may request the base station 101 to connect to the RRC layer. In step 501, the base station 101 may access the RRC layer to set up radio resources to the user terminal 100. In this case, Then, in step 502, the user terminal 100 may transmit a completion notification to the base station 101 for the radio resource setting. Accordingly, the user terminal 100 can transmit the packet to the base station 101 through the wireless service network based on the set radio resources.

FIG. 6 illustrates a process of bypassing an RRC barring parameter according to an exemplary embodiment of the present invention. Referring to FIG.

Referring to FIG. 6, a UE (User Equipment) may correspond to a user terminal, and an eNB may correspond to a base station. The UE may request a call connection to the eNB according to the call attempt. Then, the eNB can transmit a message including the connection permission information to the eNB to the UE based on the traffic situation of the wireless service network. At this time, the message may be transmitted in a format according to the communication protocol. For example, the message may be transmitted in the format of SIB2 (System Information Block 2).

For example, referring to FIG. 6, the SIB2 message may include 'rel.8 access barring p0%, rel.9 SSAC barring p95%'. Here, rel.8 access barring p0% may mean that the transmission permission rate for VoIP voice packet and data packet is 0% according to the RRC barring parameter. Also, rel.9 SSAC barring p95% can mean that the transmission permission rate of VoIP voice packet is 95% according to SSAC barring parameter. That is, the UE can block the transmission of the packet based on the SSAC barring parameter and the RRC barring parameter. At this time, the UE can bypass the RRC barring parameter to increase the transmission success probability for the voice packet.

For example, referring to FIG. 6, a user may request a VoLTE telephone call using the UE. Accordingly, the UE can bypass the RRC barring parameter for the VoIP voice packet related to the call using the content included in the message received from the eNB. Therefore, the UE bypasses the RRC barring parameter, so that the voice packet related to the call can be transmitted to the eNB according to the transmission permission rate (95%) of the VoIP voice packet.

That is, if the traffic of the eNB is overloaded, the UE may restrict the voice packet transmission associated with the call by the RRC barring parameter and the SSAC barring parameter. However, the present invention is capable of delivering voice packets associated with a call if the UE is not blocked by the SSAC barring parameter by bypassing the RRC barring parameter by itself.

FIG. 7 illustrates a process of bypassing an RRC barring parameter according to an exemplary embodiment of the present invention. Referring to FIG.

Referring to FIG. 7, in step 700, the user terminal may correspond to an idle state. At this time, in step 701, the user can attempt VoLTE call using the user terminal. Then, the user terminal can receive the SIB2 message from the base station. Here, the SIB message is a message configured in a format based on a communication protocol, and the SIB2 message may include information related to a connection between the user terminal and the base station. In one example, the information associated with the connection between the user terminal and the base station may include a barring parameter.

At step 702, the user terminal can verify the barring parameter information in the SIB2 message. Specifically, in step 703, the user terminal may determine whether the SSAC barring parameter is included in the SIB2 message. Here, the SSAC barring parameter may correspond to the IMS barring parameter.

If the SSAC barring parameter is not included, then in step 704, the user terminal may block the wireless transmission of voice and data packets using the RRC barring parameter. If the SSAC barring parameter is included, then in step 705, the user terminal may itself extract any value via the Rand function. Thus, at step 706, the user terminal may compare the extracted random value with the allowed rate included in the SIB2 message. For example, through the Rand function, an arbitrary value and an allowable rate included in the SIB2 message may be both greater than 0 and less than 1 (0 <arbitrary value through the Rand function, allowable rate included in the SIB2 message <1) .

Accordingly, in step 707, the user terminal can bypass the RRC barring parameter if the allowed rate contained in the SIB2 message is larger than the arbitrary value extracted from the user terminal. Accordingly, the base station and the user terminal can establish radio resources through the connection of the RRC layer and can transmit packets related to the VoLTE call. For example, the base station can transmit the SIB2 message to the user terminal with the voice packet transmission permission rate set to 95% and the voice packet and data packet transmission permission rate set to 0%. When the RRC barring parameter is bypassed for a voice packet, the user terminal can transmit a voice packet to the base station by setting a transmission permission rate of 95% by controlling parameters for blocking radio transmission of a voice packet and a data packet.

If the allowable rate included in the SIB2 message is smaller than the arbitrary value extracted from the user terminal in step 708, the user terminal can extract an arbitrary value through the Rand function. When an arbitrary value is extracted again through the Rand function, the user terminal can determine the waiting time for connection between the terminal and the base station. That is, in order to solve the traffic overload of the base station, the user terminal can wait without transmitting the packet for the determined waiting time.

In one example, the waiting time can be determined by Equation (1).

Here, Rand may be an arbitrary value extracted through the Rand function, and Barring Timer For MMTEL-Voice may mean a value input to the Barring Timer For MMTEL-Voice field in the SIB2 message.

If the waiting time (Ty) is determined, the user terminal can wait while waiting for the packet transmission for the determined waiting time (Ty). Accordingly, if the wait time has elapsed, the user terminal may attempt to make a VoLTE call again at step 710.

For example, when an overload occurs in the wireless service network of the base station, the base station can transmit the SIB2 message to the user terminal. At this time, the SIB2 message may include a Barring Timer For MMTEL-Voice parameter, an AC-barring For MO-data, and a Barring Timer For MMTEL-Voice. Here, the Barring Timer For MMTEL-Voice parameter may include SSAC barring parameter information.

Here, ac-barring For MO-data may include the RRC connection permission rate. For example, if p95 is entered in ac-barring For MO-data, the RRC connection acceptance rate may be 95%. The user terminal can compare the value extracted from the Rand function with the value input to ac-barring For MO-data and bypass the RRC barring parameter when the value input to ac-barring For MO-data is larger.

Here, Barring Timer For MMTEL-Voice may include SSAC barring parameters. For example, if there is no Barring Timer For MMTEL-Voice field in the SIB2 message, the user terminal can turn off the SSAC barring parameter. Then, the user terminal can turn on the RRC barring parameter. For example, if the SIB2 message has a Barring Timer For MMTEL-Voice field, the user terminal can turn on the SSAC barring parameter. Then, the user terminal can block the RRC connection using the RRC barring parameter. The user terminal compares the value extracted from the Rand function with the value input to the ac-barring For MO-data and can bypass the RRC barring parameter on when the value input to ac-barring For MO-data is larger .

8 is a diagram illustrating a user terminal performing a method of transmitting a voice packet by bypassing a parameter for blocking wireless transmission of a voice packet and a data packet according to an exemplary embodiment of the present invention.

Referring to FIG. 8, a user can make a call request using the user terminal 800. The user terminal 800 may then forward the call to the base station. Here, the user terminal 100 shown in FIG. 1 may correspond to the user terminal 800 shown in FIG.

If the wireless service network of the base station exceeds the preset range of traffic, the determination unit 801 can determine whether or not the message received from the base station includes a parameter for blocking wireless transmission of voice packets. Here, the message includes a parameter for blocking wireless transmission of voice packets, a parameter for blocking wireless transmission of voice packets and data packets, a connection permission rate to base stations through a radio resource control layer, a transmission permission rate of voice packets, And a transmission permission ratio of the data packet.

If the message includes a parameter for blocking the wireless transmission of voice packets, the connection unit 802 can connect to the base station by bypassing the parameters for blocking the wireless transmission of voice packets and data packets for voice packets associated with the call. For example, the connection unit 802 can bypass a parameter for blocking radio transmission of a voice packet and a data packet using a connection permission rate to a base station through a radio resource control layer included in a message received from the base station. Alternatively, the connection unit 802 may bypass the parameter for blocking the wireless transmission of the voice packet and the data packet by comparing the connection permission ratio included in the message received from the base station with the connection permission ratio calculated from the user terminal 800 have.

That is, when the parameter blocking the radio transmission of the voice packet and the data packet is bypassed by the parameter for blocking the radio transmission of the voice packet and the connection to the base station is not blocked, the delivery unit 803 transmits the voice packet to the base station . Here, the connection unit 802 can control whether or not to block the access to the base station by the parameter for blocking the wireless transmission of the voice packet and the data packet by using the parameter for blocking the wireless transmission of the voice packet and the data packet included in the message. For example, according to the message received from the base station, the user terminal 800 can set the transmission permission rate of the voice packet to 95% and the transmission permission rate of the voice packet and the data packet to 0%. At this time, the user terminal 800 can control a parameter for blocking the wireless transmission of the voice packet according to the voice packet transmission permission rate. In addition, the user terminal 800 can control parameters for blocking the wireless transmission of the voice packet and the data packet according to the voice packet and the data packet transmission permission rate. At this time, the user terminal 800 can transmit the voice packet to the base station according to the transmission permission rate of 95% by bypassing the parameter for blocking the wireless transmission of the voice packet and the data packet with respect to the voice packet related to the call.

At this time, the connection unit 802 can allocate radio resources by accessing the base station through the radio resource control layer. For example, the radio resource control layer may refer to a Radio Resource Control (RRC) layer. That is, after the connection unit 802 connects with the base station through the RRC layer to allocate radio resources, the delivery unit 803 can transmit voice packets through the radio service network.

9 is a diagram illustrating a user terminal performing a method for delivering voice packets according to whether a parameter is bypassed according to an embodiment.

9, when the wireless service network of the base station exceeds the predetermined range of traffic, the determination unit 901 determines that the voice packet related to the call is bypassed by a parameter for blocking the wireless transmission of the voice packet and the data packet Can be determined. For example, the user terminal may receive a message from the base station regarding whether to allow access to the base station. At this time, if the received message includes a parameter for blocking the wireless transmission of the voice packet, the user terminal can determine whether to bypass the parameter for blocking the wireless transmission of the voice packet and the data packet.

For example, if the parameter for blocking the wireless transmission of voice packets is not included, the user terminal 900 may block the wireless transmission of the voice packet and the data packet using parameters that block wireless transmission of the voice packet and the data packet .

For example, when a message received from a base station includes a parameter for blocking wireless transmission of a voice packet, the determination unit 901 determines whether or not the voice packet associated with the call includes a parameter for blocking wireless transmission of a voice packet and a data packet It is possible to judge whether or not it is bypassed. For example, the determination unit 901 may bypass a parameter for blocking radio transmission of a voice packet and a data packet by comparing a connection permission rate included in a message received from the base station with a connection permission rate calculated from the user terminal . Alternatively, the user terminal can bypass the parameter for blocking the radio transmission of the voice packet and the data packet by comparing the access permission rate included in the message received from the base station with the access permission rate calculated from the user terminal.

If the parameter for blocking the wireless transmission of the voice packet and the data packet is bypassed, the setting unit 902 can set a wireless resource for using the wireless service network of the base station. For example, the radio resource control layer may refer to a Radio Resource Control (RRC) layer. That is, the setting unit 902 and the base station can connect and receive radio resources through the RRC layer, and then transmit and receive voice packets through the wireless service network. Then, the delivery unit 903 can deliver voice packets according to the set radio resources.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI &gt; or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

100: user terminal
101: base station

Claims (15)

Attempting a VoLTE call;
Confirming whether a message received from a base station includes information on a first barring that blocks wireless transmission of a voice packet;
Bypassing a second barring for blocking radio transmission of a voice packet and a data packet when information on the first barring is included in the message,
/ RTI &gt; The method according to claim 1,
Wherein the permissible rate of the first barring is set to a maximum and the permissible rate of the second barring is set to a minimum. The method according to claim 1,
Wherein the step of transmitting the packet comprises:
If the message does not include information about the first barring, applying the second barring
Lt; / RTI &gt; The method according to claim 1,
Wherein the step of transmitting the packet comprises:
Calculating a random function value if the message includes information about a first barring;
Comparing the permissible rate of the first barring with the random function value;
Applying the first barring if the random function value is less than the allowance of the first barring, and bypassing the second barring to connect to the base station
Lt; / RTI &gt; The method according to claim 1,
The message comprises:
A parameter for blocking radio transmission of voice packets and data packets, a permission rate for access to base stations through a radio resource control layer, a transmission permission rate of voice packets, And a transmission permission ratio. delete delete delete delete delete delete A determination unit for determining whether a message received from the base station includes information on a first barring that blocks wireless transmission of a voice packet when a VoLTE call is attempted;
A connection unit for bypassing a second barring for blocking radio transmission of a voice packet and a data packet and connecting to a base station when information on the first barring is included in the message; And
A delivery unit for delivering a voice packet through a wireless service network of the connected base station;
Lt; / RTI &gt; 13. The method of claim 12,
Wherein the connecting portion comprises:
A comparison unit for calculating a random function value and comparing the allowance of the first barring with the random function value when the message includes information on the first barring;
Wherein the first barring is applied when the random function value is smaller than the allowance rate of the first barring,
Lt; / RTI &gt; delete delete

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