KR101658811B1 - Apparatus and method for uplink scheduling in wireless communication system - Google Patents

Abstract

The present invention relates to an apparatus and a method for reducing an overhead according to a silence interval in a wireless communication system providing a Voice of IP (VoIP) service. A method for reducing an overhead according to a silence period includes the steps of determining at least one terminal to provide a VoIP service during a next time interval, and determining a current time interval for the at least one terminal and a silence interval And allocating a resource amount for a VoIP service in a next time interval to at least one terminal in a next time interval in which the next time interval is not set as a silence interval, The amount of resources for the VoIP service in the interval is determined based on whether or not the current time interval is set as the silence interval.

Description

[0001] APPARATUS AND METHOD FOR UPLINK SCHEDULING IN WIRELESS COMMUNICATION SYSTEM [0002]

The present invention relates to an apparatus and method for providing a Voice of IP (VoIP) service in a wireless communication system, and more particularly, to an apparatus and method for reducing an overhead according to a silence interval in a wireless communication system providing a VoIP service.

In the case of providing VoIP service, the exponentially distributed ON-OFF system is described in the Bell Syst Journal of Science and Technology, September 1969 (PTBrady. "A method for generating ON-OFF speech patterns in two way conversations, Bell (T _ON section) for transmitting / receiving VoIP packets and a silence section (T _OFF section) for not transmitting / receiving VoIP packets according to the above-mentioned method (Syst. Technology Journal, vol.48, pp.2445-2472, sept., 1969) exist.

The base station allocates resources for the terminal to transmit and receive VoIP packets during the VoIP service interval. However, the terminal providing the VoIP service only transmits and receives the VoIP packet during the T _ON period substantially during the VoIP service period. Therefore, the resource allocated to the silence interval (T _OFF interval) included in the VoIP service interval is wasted.

Accordingly, it is an object of the present invention to provide an apparatus and method for reducing waste of resources according to a silence period in a wireless communication system that provides a Voice of IP (VoIP) service.

It is another object of the present invention to provide an apparatus and method for scheduling uplink resources by utilizing resources of a silence interval in a wireless communication system providing VoIP service.

It is another object of the present invention to provide an apparatus and a method for reducing resource waste according to a silence period of a terminal in a base station providing a VoIP service.

It is still another object of the present invention to provide an apparatus and method for scheduling uplink resources using resources of a silent interval of a terminal in a base station providing a VoIP service.

It is still another object of the present invention to provide an apparatus and method for allocating a minimum resource to a silence period of a terminal in a base station providing a VoIP service.

It is still another object of the present invention to provide an apparatus and method for transmitting silent interval information in a terminal providing a VoIP service.

According to a first aspect of the present invention, there is provided a method for allocating resources in a base station of a wireless communication system providing a Voice of IP (VoIP) service, the method comprising: The method comprising the steps of: determining at least one terminal; confirming a current time interval and a silence period setting information of a next time interval for the at least one terminal; checking whether a next time interval of the at least one terminal is set as a silence interval And allocating a resource amount for a VoIP service of a next time interval to at least one UE based on whether or not the current time interval is set as a silence period .
According to a second aspect of the present invention, an apparatus for allocating resources in a base station of a wireless communication system for providing a VoIP service includes: a receiver for receiving a signal; at least one terminal for providing a VoIP service during a next time interval; A control unit for checking silence interval setting information of a current time interval and a next time interval for the at least one terminal, and a control unit for notifying at least one of the at least one terminal that the next time interval is not set as a silence interval, And a resource allocation unit for allocating a resource amount for a VoIP service in a time interval. The amount of resources for the VoIP service in the next time interval is determined based on whether or not the current time interval is set as a silence interval .

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According to a third aspect of the present invention, there is provided a method for transmitting silence interval setting information in a terminal of a wireless communication system providing a VoIP service, comprising: checking whether a VoIP connection with a serving base station is activated during a next time interval; Checking a silent interval setting information of a current time interval and a next time interval when a VoIP connection with a serving base station is activated during a time interval, and setting silent interval setting information of a current time interval and a next time interval to the serving BS And transmitting the data.

According to a fourth aspect of the present invention, there is provided an apparatus for transmitting silence interval setting information in a terminal of a wireless communication system providing a VoIP service, the apparatus comprising: A control unit for checking silence interval setting information of a next time interval, and a transmitter for transmitting silence interval setting information of the current time interval and a next time interval to the serving base station.

As described above, by allocating the minimum resources to the terminals providing the VoIP service during the silence period in the base station of the wireless communication system providing the VoIP service, it is possible to increase the number of users to provide the VoIP service, There is an advantage to increase.

1 is a diagram illustrating a procedure for allocating resources using resources of a silence period in a base station providing a VoIP service according to an embodiment of the present invention;
2 is a diagram illustrating a procedure for transmitting silence interval information in a terminal providing a VoIP service according to an embodiment of the present invention;
3 is a block diagram of a base station in a wireless communication system according to the present invention.
4 is a block diagram of a terminal in a wireless communication system according to the present invention.
5 is a graph showing a performance change graph according to an embodiment of the present invention, and Fig.
6 is a graph showing a performance change graph according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, a technique for utilizing resources of a silent interval in a wireless communication system providing a Voice of IP (VoIP) service will be described.

In the case of providing a VoIP service, an exponentially distributed ON-OFF system includes a period (T _{ON period} ) for transmitting / receiving a VoIP packet substantially substantially during a VoIP service period and a silence period (T _OFF interval) for not transmitting / receiving a VoIP packet exist. That is, in order to increase the bandwidth efficiency of the network, the wireless communication system providing the VoIP service sets a silence interval (T _OFF interval) in which the VoIP packet is not transmitted or received according to the characteristics of the voice call. For example, the ON-OFF system sets 1 /? As a mean on-time in a section for transmitting / receiving a VoIP packet (T _ON section) and 1 / μ as a silence section. Here _,? Represents the frequency band during the T _ON period, and μ represents the frequency band during the T _OFF period. That is, the ON-OFF system uses the frequency band of λ during the T _ON period and uses the frequency band of μ during the T _OFF period.

The base station allocates the minimum resources to the mobile station during the silence interval as shown in FIG. 1 to reduce the overhead due to resources of the silence period. When providing a VoIP service, the base station allocates a fixed resource to a terminal that provides a VoIP service. At this time, as shown in FIG. 1, the BS can minimize resources allocated to the MS in the silence interval, thereby reducing resource waste due to the silence interval.

FIG. 1 illustrates a procedure for allocating resources using resources of a silence interval in a base station providing a VoIP service according to an embodiment of the present invention.

Referring to FIG. 1, in step 101, the BS determines the terminals to provide a VoIP service during a next time interval through scheduling. That is, the BS determines the terminals to activate the VoIP connection for the next time interval.

After determining the terminals to provide the VoIP service for the next time interval, the base station proceeds to step 103 and transmits the scheduling information to the terminals providing the VoIP service. For example, the BS informs the UEs to decide to provide a VoIP service during the next time interval, whether the VoIP connection is active for the next time interval. At this time, the base station informs whether or not the VoIP connection is active by using the bit of whether or not the MAC header is a Generic MAC Header. For example, the base station may inform the terminals of the activation of the VoIP connection using a new message indicating whether the VoIP connection is active or not.

Thereafter, the BS proceeds to step 105 and checks whether a signal is received from the terminals located in the service area.

If a signal is received from the terminals, the base station proceeds to step 107 and checks the silence interval setting information of the terminal for the current time interval and the next time interval in the signal. For example, the BS checks the silence interval setting information for each MS through the silence interval setting field of the MAC header. In another example, the base station checks silence interval setting information for each terminal through a silence interval control message provided from the terminal.

Thereafter, the BS proceeds to step 109 and determines whether there is a UE whose next time interval is set to the silence period (T _OFF ) among the MSs receiving the signal.

If there is a terminal for which the next time interval is set as the silence interval, the BS proceeds to step 121 and does not allocate resources for the VoIP service of the next time interval to the UE set as the next interval.

On the other hand, if the next time interval the terminal is present is set to T _ON intervals, confirm that the BS goes to the next time interval the current window size of the terminal is set to T _ON period is present, the terminal is set to the silent section 111 step do.

If the current window size in the 111 phase terminal exists is set to T _ON interval, the base station resources for the VoIP service at the next time interval for the terminal wherein the current time interval is set to T _ON period proceeds to 115. Step Max.

In step 111, if there is a terminal for which the current time interval is set as the silent interval, the BS proceeds to step 113 and determines that the current time interval is the minimum resource that can be allocated for the VoIP service to the UE set as the silence interval Decide whether to allocate. For example, the BS compares half the resources allocated to the UE set as the silence period with the minimum resources that can be allocated for the VoIP service.

If half of the resources allocated to the terminal in step 113 is larger than the minimum resource that can be allocated for the VoIP service, the base station recognizes that the terminal does not need to allocate the minimum resource for the VoIP service. Accordingly, the BS proceeds to step 117 and allocates half of the resources allocated to the UE set as the silent interval to the UE as resources for the VoIP service during the next time interval.

Meanwhile, if half of the resources allocated to the terminal in step 113 is less than or equal to the minimum resource that can be allocated for the VoIP service, the base station recognizes that the minimum resource for the VoIP service is allocated to the terminal. Accordingly, the BS proceeds to step 119 and allocates a minimum resource that can be allocated for the VoIP service as a resource for the VoIP service for the next time interval.

Thereafter, the base station terminates the present algorithm.

As described above, the BS allocates resources for the VoIP service in the next time interval of the UE considering the current time interval provided from the UE and the silence interval setting information of the next time interval. Accordingly, the UE transmits the silence interval setting information of the current time interval and the next time interval to the BS as shown in FIG.

FIG. 2 illustrates a procedure for transmitting silent interval information in a terminal providing a VoIP service according to an embodiment of the present invention.

Referring to FIG. 2, in step 201, the UE determines whether a VoIP connection with the serving BS is activated. That is, the UE determines whether it is selected as a terminal for providing a VoIP service according to the scheduling of the serving BS. For example, the UE checks whether a VoIP connection is active in a MAC header provided from a serving BS. For example, the UE may check whether a VoIP connection is active in a control message provided from the serving BS.

If the VoIP connection is not active, the terminal terminates the algorithm.

Meanwhile, if the VoIP connection is activated, the terminal proceeds to step 203 and checks the silence period setting information of the current time interval for providing the VoIP service. That is, the UE determines whether the current time interval is a T _ON interval or a silent interval (T _OFF interval).

Thereafter, the MS proceeds to step 205 and checks whether the VoIP connection of the next time interval is activated. For example, the UE checks whether a VoIP connection is active for a next time interval through a MAC header provided from a serving BS. For example, the UE can check whether the VoIP connection is active for the next time interval through the control message provided from the serving BS.

If the VoIP connection of the next time interval is inactivated, the terminal terminates the algorithm.

On the other hand, if the VoIP connection of the next time interval is activated, the terminal proceeds to step 207 and checks the silence period setting information of the next time interval. That is, the UE determines whether the next time interval is a T _ON interval or a silent interval (T _OFF interval).

After confirming whether or not to set a silent interval for the next time interval, the terminal proceeds to step 209 and transmits the silence interval setting information of the current time interval and the next time interval to the serving BS. For example, the UE transmits the silence period setting information of the current time interval and the next time interval to the serving BS using the spare bits of the MAC header. In another example, the UE may transmit silence interval setting information of a current time interval and a next time interval to a serving BS using a silence interval control message.

Thereafter, the terminal ends the algorithm.

In the above-described embodiment, the UE confirms the silence interval setting information of the current time interval, and then confirms whether the VoIP connection is active for the next time interval.

In another embodiment, when the VoIP connection of the next time interval is activated, the UE may check the current interval time and the silence period setting information of the next time interval.

Hereinafter, a configuration of a base station for allocating a minimum resource to a terminal during a silence period will be described.

3 illustrates a block diagram of a base station in a wireless communication system according to the present invention.

3, the base station includes a duplexer 300, a receiver 310, a controller 320, and a transmitter 330.

The duplexer 300 transmits the transmission signal provided from the transmission apparatus 330 through the antenna according to the duplexing scheme and provides the reception apparatus 310 with a reception signal from the antenna.

The receiving apparatus 310 includes a receiver 311 and a message processing unit 313.

The receiver 311 converts the high frequency signal received from the duplexer 300 into a baseband signal and processes the baseband signal. For example, the receiver 311 includes an RF processor and a demodulator. Here, the RF processor converts a high frequency signal received from the duplexer 300 into a baseband signal and outputs the baseband signal. The demodulator demodulates and decodes the baseband signal provided from the RF processor.

The message processor 313 extracts a control signal from the signal received from the receiver 311 and transmits the extracted control signal to the controller 320. [ For example, the message processor 313 extracts the silent interval setting information of the terminal during the current time interval and the next time interval, and transmits the extracted silent interval setting information to the controller 320. [

The controller 320 controls the overall operation of the base station and selects a terminal for providing a VoIP service through scheduling. For example, the control unit 320 selects a terminal to provide a VoIP service during a next time interval through scheduling. At this time, the controller 320 transmits the scheduling information to the selected UEs through scheduling.

The resource allocation unit 321 allocates a minimum resource for the VoIP service to the terminal during the silence interval according to the scheduling information of the controller 320 and the silence period information of the terminal. For example, the resource allocation unit 321 checks the current time interval of the terminal provided through the controller 320 and the silence period setting information of the next time interval. At this time, when the next time interval of the UE is set as the silence period, the resource allocation unit 321 does not allocate resources for the VoIP service of the next time interval to the UE. On the other hand, if there is a UE with a current time interval set to a T _ON interval among the UEs with the next time interval set to the T _ON interval, the resource allocation unit 321 allocates the current time interval to the _ON- And allocates the resources for the VoIP service of the next time interval to the maximum.

If there is a terminal for which the current time interval is set to the silence interval among the UEs with the next time interval set to the T _ON period, the resource allocation unit 321 allocates the current time interval to the terminal set as the silence interval, Decide if you want to allocate the smallest resources that can be allocated for. At this time, if half of the resources allocated to the terminal is larger than the minimum resources that can be allocated for the VoIP service, the resource allocation unit 321 recognizes that the minimum resources for the VoIP service are not allocated to the terminal. Accordingly, the resource allocation unit 321 allocates half of the resources allocated to the UE set as the silent interval as the resources for the VoIP service for the next time interval with respect to the UE. On the other hand, if half of the resources allocated to the terminal is less than or equal to the minimum resources that can be allocated for the VoIP service, the resource allocation unit 321 recognizes that the minimum resources for the VoIP service are allocated to the terminal. Accordingly, the resource allocation unit 321 allocates a minimum resource that can be allocated for the VoIP service as a resource for the VoIP service for the next time interval.

The transmitter 330 converts data or a control signal to be transmitted to a terminal into a high frequency signal. For example, the transmission apparatus 330 includes a modulation unit and an RF processing unit. Here, the modulator hatches and modulates data or control signals to be transmitted to the terminal and outputs the data or control signal. The RF processor converts a code and a modulated signal received from the modulator into a high frequency signal and outputs the converted high frequency signal.

In the above-described configuration, the controller 320 may perform the function of the resource allocator 322. [ In the present invention, these are separately configured to distinguish the respective functions. Accordingly, in the case of actual implementation, all of them can be processed by the control unit 320, and only a part of them can be processed by the control unit 320.

The following description explains a configuration of a terminal for transmitting a current time interval and a VoIP connection active status of a next time interval to the serving base station.

FIG. 4 is a block diagram for transmitting silence interval information in a terminal of a wireless communication system according to the present invention.

4, the terminal includes a duplexer 400, a receiver 410, a controller 420, and a transmitter 430.

The duplexer 400 transmits a transmission signal provided from the transmission apparatus 430 through an antenna according to a duplexing scheme and provides a reception signal from the antenna to the reception apparatus 410.

The receiving device 410 converts the high frequency signal received from the duplexer 300 into a baseband signal and processes the baseband signal. For example, the receiver 410 includes an RF processor and a demodulator. Here, the RF processor converts a high frequency signal received from the duplexer 400 into a baseband signal and outputs the baseband signal. The demodulator demodulates and decodes the baseband signal provided from the RF processor.

The controller 420 controls the overall operation of the terminal.

When the VoIP connection of the next time interval with the serving base station is activated, the controller 420 controls to transmit the silent interval information of the current time interval and the next time interval to the serving base station.

The transmitter 430 includes a message generator 431 and a transmitter 433.

The message generator 431 generates a control message including silence interval information according to the control of the controller 420. [ For example, the message generator 431 adds the silence interval information of the current time interval and the next time interval to the bit whether or not the MAC header is included. For example, the message generator 431 may generate a silence interval control message including silence interval information of a current time interval and a next time interval.

The transmitter 433 converts the data for transmission to the base station or the control signal generated by the message generator 431 into a high frequency signal. For example, the transmitter 433 includes a modulator and an RF processor. Here, the modulator hatches and modulates data or control signals to be transmitted to the base station, and outputs the data or control signals. The RF processor converts a code and a modulated signal received from the modulator into a high frequency signal and outputs the converted high frequency signal.

In case of providing VoIP service, the base station can determine the maximum number of users that can provide VoIP service using Equation (1) below.

Here, the N _{M _ Algorithm} is the number of maximum possible receiving users at the base station, the R _TC represents the total uplink capacity (Total Uplink capacity), the T _VC denotes a speech codec frame and the T _MF is MAC denotes a frame, wherein T _ON is substantially denote intervals for transmitting and receiving a VoIP packet, the T _OFF indicates a range that does not transmit and receive the VoIP packet, the R _ON denotes a band resources required for T _ON interval, the R _OFF indicates the bandwidth resources required in the T _OFF interval.

The base station can allocate the resource of the silence interval (T _OFF interval) to the minimum as shown in FIG.

5 shows a graph of performance change according to an embodiment of the present invention.

As shown in FIG. 5, the BS gradually reduces resources for the VoIP service according to the current time interval of the UE and the silence period setting information for the next time interval. Accordingly, the BS allocates the resources so that the resources of the MS are set as the minimum resources for providing the VoIP service during the silence period.

As described above, when the resource of the silence interval (T _OFF interval) is set as the minimum resource for VoIP service, the base station can determine the maximum number of users that can provide VoIP service using Equation (2) have.

Wherein _{T M} denotes a voice codec frame, T _MF denotes a MAC frame, and T T _ON denotes a voice codec frame, T M denotes a MAC frame, T N denotes a maximum number of users allowed in a base station, R _TC denotes a total uplink capacity, T _VC denotes a voice codec frame, Represents a period during which VoIP packets are substantially transmitted and received, and T _OFF represents a period during which VoIP packets are not transmitted and received, and R _VP represents a required bandwidth resource.

Accordingly, when the resources of the silent interval are allocated as the minimum resources for the VoIP service, the base station provides the VoIP service with about 1.5 times as many users as the base station which does not control the resource of the silence interval, As a result, the overall transmission rate can be increased.

FIG. 6 shows a performance change graph according to another embodiment of the present invention.

6, The UGS 600, the rtPS 610 and the ertPS 620 show a scheduling method that does not utilize the resources of the silence interval, and the present invention 630 shows a scheduling method that utilizes resources of the silent interval.

As shown in the figure, the scheduling method 630 utilizing the resources of the silence period uses a resource of the silence interval rather than the scheduling methods 600, 610, and 620 that do not utilize resources of the silence period, The overall transmission rate can be increased.

In the case of performing uplink scheduling using resources of the silence period as described above, the access delay of the UE can be expressed as Equation (3).

는 T_ON구간에서 본 발명에 따른 VoIP 서비스를 제공하는 사용자의 수가 N_UGS보다 클 확률을 나타낸다.The T _{M _ eertPS} denotes an access delay of the UE that occurs when scheduling uplink by utilizing the resources of the silence period, the T _UGS denotes the access delay of the terminal to occur when using the UGS scheduling scheme, the N _UGS is Indicates the maximum number of users who can provide a VoIP service when using the UGS scheduling scheme,

Indicates the probability that the number of users providing the VoIP service according to the present invention is greater than N _UGS in the T _{ON period} .

When uplink scheduling is performed using the resources of the silent interval as in Equation (3), the delay of the uplink scheduling and the delay of the UE are similar to each other when the uplink scheduling is performed without using resources of the silence interval.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

320: control unit 321: resource allocation unit

Claims (24)

A method for allocating resources in a base station of a wireless communication system providing a Voice of IP (VoIP)
Determining one or more terminals to provide a VoIP service during a next time interval;
Checking silent interval setting information of a current time interval and a next time interval for the one or more terminals;
Allocating a resource amount for a VoIP service of a next time interval to at least one terminal of the one or more terminals whose next time interval is not set as a silence interval,
The amount of resources for the VoIP service in the next time interval is determined based on whether the current time interval is set as a silence interval,
The process of confirming the silent interval setting information includes:
And checking silent interval setting information of a current time interval and a next time interval for each terminal using a control message received from the one or more terminals.
The method according to claim 1,
The process of confirming the silent interval setting information includes:
And checking silent interval setting information of a current time interval and a next time interval of each MS included in a MAC header of a signal received from the one or more MSs.
delete The method according to claim 1,
And allocating a resource amount for the VoIP service of the next time interval to the at least one terminal,
Determining whether to allocate a minimum resource to be allocated for the VoIP service to the at least one terminal;
And allocating a resource amount of a next time interval for the at least one terminal to a value greater than a minimum resource amount when the current time interval is set to a silence period for the at least one terminal . ≪ / RTI >
5. The method of claim 4,
And allocating a minimum resource for a VoIP service as a resource of a next time interval for the at least one terminal when it is determined to allocate a minimum resource.
5. The method of claim 4,
The process of determining whether to allocate the minimum resource comprises:
Comparing a half of resources allocated to the terminal during a current time interval with a minimum resource allocable for a VoIP service;
And allocating a minimum resource to the terminal if half of the resource is less than or equal to the minimum resource.
The method according to claim 1,
And allocating a maximum resource for the VoIP service as a resource of a next time interval to the at least one terminal when the current time interval is not set as the silence interval for the at least one terminal Way.
The method according to claim 1,
Further comprising the step of not allocating resources for the next time interval to the at least one terminal.
The method according to claim 1,
And transmitting information on the allocated resource amount to the at least one terminal.
An apparatus for allocating resources in a base station of a wireless communication system providing a Voice of IP (VoIP)
A receiver for receiving a signal,
A controller for determining one or more terminals to provide a VoIP service for a next time interval and checking silent interval setting information of a current time interval and a next time interval for the one or more terminals;
And allocating a resource amount for a VoIP service of a next time interval to at least one terminal of the one or more terminals whose next time interval is not set as a silence interval,
The amount of resources for the VoIP service in the next time interval is determined based on whether the current time interval is set as a silence interval,
Wherein the control unit checks the current time interval and the silence interval setting information of the next time interval for each terminal using the control message received from the one or more terminals through the receiver.
11. The method of claim 10,
Wherein the control unit checks the current time interval and the silence interval setting information of the next time interval for each terminal included in the MAC header of the signal received from one or more terminals through the receiver, Device.
delete 11. The method of claim 10,
Wherein the resource allocation unit determines to allocate the minimum resource to the at least one terminal when half of the resources allocated to the terminal during the current time interval is less than or equal to the minimum resource that can be allocated for the VoIP service, .
14. The method of claim 13,
Wherein the resource allocation unit determines that the minimum resource is not allocated to the at least one terminal and if the current time interval is set as a silence period for the at least one terminal, To a minimum amount of resources.
14. The method of claim 13,
Wherein the resource allocation unit allocates a minimum resource for the VoIP service to the at least one terminal when the next time interval is not set to the silence interval and the current time interval is set to the silence interval, And allocates the resource as a resource of a next time interval to the terminal.
11. The method of claim 10,
Wherein the resource allocator allocates a maximum resource for a VoIP service to a resource of a next time interval for the at least one terminal in which a current time interval and a next time interval are not set as a silence interval, And allocates the data.
11. The method of claim 10,
Wherein the resource allocation unit does not allocate resources for a next time interval to the at least one terminal set as a silence period of the next time interval among at least one terminal to provide the VoIP service.
11. The method of claim 10,
And a transmitter for transmitting the resource allocation information of the resource allocation unit to at least one terminal.
A method for transmitting silence interval setting information in a terminal of a wireless communication system providing a Voice of IP (VoIP)
Checking whether a VoIP connection with a serving base station is active during a next time interval;
Confirming silence interval setting information of a current time interval and a next time interval when a VoIP connection with a serving base station is activated during a next time interval;
And transmitting the silent interval setting information of the current time interval and the next time interval to the serving base station,
The amount of resources of the next time interval is determined based on whether or not the current time interval is set as a silence interval,
The process of transmitting to the serving base station,
And transmitting silent interval setting information of the current time interval and a next time interval to the serving BS using a silence period control message.
20. The method of claim 19,
The process of transmitting to the serving base station,
And transmitting the silent interval setting information of the current time interval and the next time interval to the serving BS using a MAC header.
delete An apparatus for transmitting silence interval setting information in a terminal of a wireless communication system providing a Voice of IP (VoIP)
A controller for checking silent interval setting information of a current time interval and a next time interval when a VoIP connection with a serving base station is activated during a next time interval;
And a transmitter for transmitting silence interval setting information of the current time interval and a next time interval to the serving base station,
Wherein the resource amount of the next time interval is determined based on whether or not the current time interval is set as a silence interval,
Wherein the transmitting unit transmits silence interval setting information of the current time interval and a next time interval to the serving BS using a silence interval control message.
23. The method of claim 22,
Wherein the transmitting unit transmits the silence interval setting information of the current time interval and the next time interval to the serving BS using a MAC header (Generic MAC Header).
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