KR100983884B1 - Paging advertisement message broadcasting method and base station supporting the method - Google Patents

Abstract

Paging advertisement message broadcasting method according to an aspect of the present invention that can broadcast a plurality of paging advertisement message within one paging segment length according to the number of terminals to be paged (a) a paging cycle (paging cycle), the paging offset ( Setting paging information including a paging offset, and a paging interval length; (b) generating and transmitting a deregistration command message (DREG-CMD) including the paging information to the terminal; And (c) broadcasting one or more paging advertisement messages (MOB-PAG-ADV) during one paging segment length according to the number of terminals to be paged.

Paging, advertising, broadcasting, messaging,

Description

Method for Broadcasting Paging Advertisement Message and Base Station for Supporting That Method}

The present invention relates to a mobile communication system, and more particularly, to broadcasting a paging advertisement message in a mobile communication system.

In a wireless communication system, a mobile station may minimize power consumption by operating in an idle mode when there is no traffic to transmit and receive for a predetermined time. During idle mode, the UE does not need to perform a handoff procedure when moving between base stations included in the same paging zone, and thus the UE does not need to transmit uplink information for the handoff procedure. The consumption will be reduced.

The terminal may request to switch to the idle mode by transmitting a deregistration request message (DREG-REQ) to the base station to enter the idle mode, the base station has its own paging group ID (Paging Group ID), the paging cycle (Paging Cycle) Paging information including paging offset, paging interval length, and the like, is included in the deregistration command (DREG-CMD) message and transmitted to allow the terminal to enter idle mode. At this time, the terminal and the base station operates a timer for updating the position of the terminal in the idle mode.

On the other hand, during the idle mode, the terminal whether to maintain the idle mode or terminate the idle mode through the reception of the paging advertisement message (MOB-PAG-ADV) delivered in the form of broadcast from the base station at every paging period with the base station or It is possible to determine whether to perform the location update procedure.

When downlink traffic to be delivered to the terminal in the idle mode is generated, the base station may cause the terminal to exit the idle mode through a paging advertisement message, and when the uplink traffic that the terminal in the idle mode should transmit The terminal can exit the idle mode at any time. On the other hand, if the terminal in the idle mode does not receive the paging advertisement message at a predetermined time due to loss of synchronization, the terminal should end the idle mode.

As such, when a base station broadcasts a paging advertisement message for maintaining, terminating, or performing an idle mode state of a terminal or performing a location update procedure of the terminal, conventionally, the number of terminals to be paged may be included in one paging advertisement message. If there are more than the number of terminals, the base station broadcasts the paging advertisement message for the number of terminals that can be sent in the first paging period, and waits until the next paging period for the remaining terminals to broadcast the paging advertisement message. The method of transmitting the paging advertisement message according to the related art will be described in detail with reference to FIG. 1.

As shown in FIG. 1, when the number X of terminals that can be sent in one paging advertisement message is 100, and the number Y of terminals to be paged per paging offset within one paging period is 110, First, the first paging advertisement message 100 for as many as 100 terminals are broadcast. Thereafter, after waiting for the next paging period, when the next paging period is reached, the second paging advertisement message 110 for as many as 10 Y-X terminals is broadcasted.

When the paging advertisement message is transmitted according to the prior art, there is a problem that the response time of the terminal that expects paging becomes longer as the number of terminals to be paged increases.

The present invention provides a paging advertisement message broadcasting method capable of broadcasting a plurality of paging advertisement messages within one paging segment length according to the number of terminals to be paged, and a base station supporting the method.

Paging advertisement message broadcasting method according to an aspect of the present invention for achieving the above object (a) Paging including a paging cycle (Paging Cycle), Paging Offset (Paging Offset), and Paging Interval Length (Paging Interval Length) Setting information; (b) generating and transmitting a deregistration command message (DREG-CMD) including the paging information to the terminal; And (c) broadcasting one or more paging advertisement messages (MOB-PAG-ADV) during one paging segment length according to the number of terminals to be paged.

In this case, in the step (a), the paging segment length is characterized by consisting of two to five frames starting from the paging offset in the paging period, in the step (c), the one or more paging Each advertisement message may be included and broadcast for each frame constituting the paging segment length.

In one embodiment, the step (c), (c1) if the number of terminals to be paged is larger than the reference number of terminals that can be broadcasted through one paging advertisement message, paging for as many terminals as the reference number Broadcast the advertisement message by including the first frame constituting the corresponding paging segment length; (c2) increasing the number of frames; (c3) determining whether the corresponding paging segment length has elapsed; And (c4) if the corresponding paging segment length has not elapsed, repeating steps (c1) to (c3) until the number of terminals to be paged is smaller than the reference number, and then the number of terminals to be paged. If less than the reference number is characterized in that it comprises the step of including a paging advertisement message for the number of terminals as the number of the terminal to be paged in the next frame constituting the paging interval length.

In this case, the above-described paging advertisement message broadcasting method (c5) when the paging segment length has elapsed, until the number of terminals to be paged in the next paging segment length becomes smaller than the reference number (c1) to ( repeating step c3), and if the number of terminals to be paged is smaller than the reference number, a paging advertisement message for the terminals of the number of terminals to be paged is included in a frame constituting the next paging segment length. The method may further include broadcasting.

Meanwhile, the number of terminals to be paged is the number of terminals to be paged for each paging offset within the paging period, and the paging advertisement message includes a MAC address hash value of each terminal to be paged. It is characterized by.

The paging advertisement message broadcasting method may further include receiving a deregistration request message (DREG-REQ) for entering the idle mode from the terminal.

According to another aspect of the present invention, there is provided a paging advertisement message broadcasting method comprising the steps of: (a) acquiring the number of terminals to be paged for each paging offset within one paging period; (b) when the number of terminals to be paged is larger than a reference number of terminals broadcastable through one paging advertisement message, paging to be broadcast within a corresponding paging segment length using the number of terminals to be paged and the reference number Calculating a broadcast frequency of a broadcast message; And (c) sequentially broadcasting each paging broadcast message to be broadcast within the corresponding paging segment length in each frame constituting the corresponding paging segment length.

A base station supporting a paging advertisement message broadcasting method according to another aspect of the present invention for achieving the above object generates a deregistration command message (DREG-CMD) and a paging advertisement message (MOB_ADV-PAG) including paging information. A control plane; Frames to be transmitted to the terminal are included by including the deregistration command message and the paging advertisement message in a frame, and at least one paging advertisement message (MOB-PAG) for one paging interval length according to the number of terminals to be paged. A scheduler for including the paging advertisement messages in the frames for broadcast; And a transmitter for transmitting the frames configured by the scheduler to the terminal.

As described above, according to the present invention, since a plurality of paging advertisement messages can be broadcast within one paging segment length, even if the number of terminals to be paged is increased, there is no need to wait until the next paging period, thereby increasing the response time of the terminal. It's faster.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the base station 200 supporting the paging advertisement message broadcasting method according to an embodiment of the present invention includes a receiver 210, an antenna 220, a band signal processor 230, and an interface 240. , A transmitter 250, a control plane 260, and a scheduler 270.

In the reception path, the receiver 210 receives one or more radio signals transmitted by each terminal through the antenna 220 and converts the signal into a baseband signal. For example, the receiver 210 removes and amplifies noise from radio signals for data reception by the base station, down-converts the amplified signal to a baseband signal, and digitizes the down-converted baseband signal.

In particular, the receiver 210 according to the present invention may receive a frame including a deregistration request message (DREG_REQ) transmitted from each terminal to enter the idle mode. In this case, the deregistration request message may include paging period information requested by the terminal.

The band signal processor 230 performs demodulation, decoding, and error correction processes by extracting information or data bits from the digitized signal. The received information is transmitted to the adjacent wired / wireless network via the interface 240 or transmitted to other terminals serviced by the base station through a transmission path to be described later.

In the transmission path, the interface 240 receives voice, data, or control information from a control station or a wireless network, and the band signal processor 230 encodes voice, data, or control information and outputs the encoded signal to the transmitter 250. do. The transmitter 250 modulates the encoded voice, data, or control information into a carrier signal having a desired transmission frequency or frequencies, amplifies the modulated carrier signal to a level suitable for transmission, and propagates to the air through the antenna 220. do.

The control plane 260 generates a deregistration command message DREG-CMD or page advertisement message MOB-PAG-ADV including paging information. As shown in FIG. 2, the paging information setting unit 262 is generated. ) And a message generator 264.

First, the paging information setting unit 262 generates paging information of the terminals requesting entry into the idle mode. The paging information set by the paging information setting unit 262 corresponds to one of the TLV (Type, Length, Value) encoded fields included in the deregistration command message to be described later. As shown in FIG. The information may include a paging cycle, a paging offset, a paging group ID, and a paging interval length.

Here, the paging period is a parameter determined by referring to a paging cycle request requested by the terminal, and the paging offset can be used to page a specific terminal using the frame number (Number of Frame) and the paging period of the base station This parameter is used to determine the viewpoint.

In addition, the paging group ID is a parameter given according to the position of each terminal, and indicates the current position information of each terminal, and the paging segment length indicates the maximum frame interval of the paging listening interval in the paging period. Each terminal is used to calculate a frame listening interval.

The paging segment length may be composed of 1 to 5 frames. The paging information setting unit 262 according to the present invention may broadcast one or more paging advertisement messages within one paging segment length as described below. To this end, the paging segment length is composed of two or more frames and five or less frames.

Referring back to FIG. 2, the message generator 264 generates a deregistration command message and a paging advertisement message and provides it to the scheduler 270 which will be described later. Here, the deregistration command message is for allowing the terminal requesting entry into the idle mode in response to the deregistration request message transmitted through the interface 240 to allow the idle mode entry, and has a message structure as shown in FIG. 4.

In FIG. 4, the Management Message Type field is a field for distinguishing Medium Access Control (MAC) management messages defined in IEEE 802.16, and an Action Code field is registered. This field indicates the purpose of the release command message. In addition, the TLV encoded parameters field includes a plurality of TLV encoded fields. As described above, paging information set by the paging information setting unit 262 is recorded in one of these TLV encoded fields.

Meanwhile, the paging advertisement message is a message for informing the terminal in the idle mode whether to keep the idle mode, terminate the idle mode, or perform a location update procedure. The message structure shown in FIG. Have As shown in FIG. 5, the message generator 264 may use a MAC address hash having a length of 24 bits as an identifier for identifying terminals to be paged.

The terminal in the idle mode that receives the paging advertisement message generated by the message generator 264 determines whether the paging group is changed through a paging group ID parameter setting value included in the paging advertisement message. The idle mode is checked in the paging group by using the MAC address hash, which is an identifier of a terminal included in the UE.

Referring back to FIG. 2, the scheduler 270 controls the operation of the reception path and the transmission path. In detail, the scheduler 270 configures a frame to be transmitted to each terminal by allocating data to be transmitted to each terminal in a transmission path in the form of a burst. In this case, the scheduler 270 according to the present invention is a control plane 260. The frame to be transmitted to each terminal is configured by including the deregistration command message and the paging advertisement message generated by the message generating unit 264 of the.

In particular, when the scheduler 270 according to the present invention includes a paging advertisement message in a frame, the scheduler 270 includes a plurality of frames such that one or more paging advertisement messages can be transmitted within one paging segment length according to the number of terminals to be paged. A paging broadcast message is included in each frame within the paging interval length.

That is, when the number of terminals to be paged is greater than the number of terminals that can be transmitted in one paging advertisement message, the scheduler 270 according to the present invention does not wait until the next paging period, but within one paging segment length. A frame transmission is scheduled so that one or more paging advertisement messages can be continuously broadcast. Hereinafter, this scheduling algorithm will be described in more detail.

First, the scheduler 270 determines whether the number of terminals to be paged is greater than the reference number of terminals that can be broadcast through one paging advertisement message. As a result of determination, when the number of terminals to be paged is larger, the scheduler 270 may have as many terminals as the reference number until the number of terminals to be paged is smaller than the reference number within a range in which the length of the corresponding paging segment does not pass. Include one or more paging advertisement messages for each in successive frames that make up the paging segment length.

Then, when the number of remaining terminals to be paged is smaller than the reference number, the paging advertisement message for the remaining terminals to be paged is included in the next frame within the corresponding paging segment length.

On the other hand, in including the paging advertisement message in the frame constituting the paging segment length, when the length of the paging segment elapses, the scheduler 270 writes the paging advertisement message in a continuous frame constituting the next paging segment length Each will be included.

The scheduling algorithm of the scheduler 270 will be described by way of example.

First, the paging segment length is composed of two frames, the number of terminals to be paged (X) generated for each paging offset within a specific paging period is 210, and the reference number (Y) of terminals that can be transmitted in one paging advertisement message. Is assumed to be 100. In this case, since the number (X) of terminals to be paged for each paging offset within a specific paging period is larger than the reference number (Y) of the terminals that can be transmitted in one paging advertisement message, the scheduler 270 has a corresponding paging segment length. Includes a paging advertisement message for as many as 100 terminals, that is, a reference number in the first frame of the two frames constituting the.

Next, the scheduler 270 determines whether the paging segment length has elapsed after increasing the frame number. In this example, since the paging segment length is composed of two frames, it is determined that the paging segment length has not elapsed. Accordingly, the scheduler 270 again includes paging advertisement messages for up to 100 terminals in the second frame constituting the corresponding paging segment length.

Next, since the corresponding paging segment length elapses when the scheduler 270 increases the frame number, the scheduler 270 waits until the next paging cycle, and when the next paging cycle is included, the scheduler 270 is included in the next paging cycle. The number of terminals to be paged remaining in the first frame constituting the paging segment length, that is, includes paging advertisement messages for as many as 10 terminals.

As described above, the frame configured by the scheduler 270 is propagated to each terminal through the interface 240, the band signal processor 230, the transmitter 250, and the antenna 220.

Meanwhile, in the modified embodiment, the scheduler 270 calculates the broadcasting frequency of the paging advertisement message in advance by considering the number of terminals to be paged and the reference number of terminals that can be transmitted through one paging advertisement message, and thus the corresponding paging segment length. Each frame constituting the may be included in the corresponding advertising messages sequentially.

In this case, the number of broadcasts of the paging advertisement message may be determined as a value obtained by adding 1 to the quotient of dividing the number of terminals to be paged by the reference number. If the number of terminals to be paged is an integer multiple of the reference number, the number of broadcasts of the paging advertisement message may be determined as the quotient of the number of terminals to be paged divided by the reference number. The advertising message will be broadcast once more.

For example, in the above-described example, the paging segment length is composed of two frames, and the number of terminals to be paged (X) generated for each paging offset in a specific paging period is 210, and the number of terminals that can be transmitted in one paging advertisement message is shown. Since the reference number Y is 100, the number of broadcasts of the paging advertisement message can be determined three times.

Accordingly, the scheduler 270 includes the paging advertisement message to be broadcasted first in the first frame constituting the paging segment length, and the second paging advertisement message to be broadcasted in the second frame constituting the paging segment length. The paging advertisement message to be broadcasted to the third time is included in the first frame constituting the next paging segment length because the paging segment length has elapsed.

Hereinafter, a paging advertisement message broadcasting method according to an embodiment of the present invention will be described in detail with reference to FIG. 6.

As shown, when the base station receives a deregistration request message from the terminal that wants to enter the idle mode (S600), after setting the paging information including the paging period, paging offset, paging group identifier, and paging interval length In operation S610, the set paging information is included in the deregistration command message and transmitted to the terminal (S620), thereby allowing entry into the idle mode state.

Next, the number of terminals to be paged is determined according to the paging offset in the paging period promised with the terminal (S630), and the number of terminals to be paged is compared with a reference number of terminals that can be transmitted in one paging advertisement message. (S640). As a result of the comparison, when the number of terminals to be paged is larger, a paging advertisement message for the terminal as many as the reference number is included in a frame constituting the corresponding paging segment length and transmitted to the terminal (S650).

If the number of terminals to be paged is smaller in S640, a paging advertisement message for as many terminals as the number of terminals to be paged is included in a frame constituting a corresponding paging segment length and transmitted to the terminal (S660).

On the other hand, after step S650, after increasing the frame number (S670), it is determined whether the corresponding paging segment length has elapsed (S680). As a result of determination, when the paging segment length does not increase, S630 to S680 are repeatedly performed. When the paging segment length increases, the apparatus waits until the next paging offset (S690) and again performs S630 to S670.

The above-described paging advertisement message broadcasting method will be described in more detail with reference to the example illustrated in FIG. 7.

In the example of FIG. 7, the paging segment length is composed of two frames, and the number of terminals to be paged (X) generated at the paging offset in the first paging period 700 is 110, which can be transmitted as one paging advertisement message. It is assumed that the reference number Y of the terminal is 100. In this case, since the number (X) of terminals to be paged is larger than the reference number (Y), the first frame of the two frames constituting the first paging segment length 720 is the reference number, that is, 100 The first paging advertisement message 730 for the terminal is included and broadcasted.

Next, even if the frame number is increased, the first paging segment length 720 does not pass, and since the number of remaining terminals to be paged is 10, a second paging advertisement message 740 for 10 terminals is generated. One paging segment length 720 is included in the second frame constituting the broadcast to the terminal.

In FIG. 7, the third paging advertisement message 750 broadcast within the second paging segment length 745 indicates a paging advertisement message that is broadcast for the location update procedure of the terminal even when there is no terminal to page.

As described above, the present invention can reduce the response time of the terminal because a plurality of paging advertisement messages can be broadcast within one paging segment length.

The above-described paging advertisement message broadcasting method may be implemented in the form of a program that can be executed using various computer means. In this case, a program for performing the paging advertisement message broadcasting method may be a hard disk, a CD-ROM, a DVD, a ROM ( ROM), a RAM, or a flash memory, such as a computer readable recording medium.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, it is to be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

1 is a diagram illustrating a broadcast method of a paging advertisement message according to the prior art.

2 is a schematic block diagram of a base station supporting a method for transmitting a paging advertisement message according to an embodiment of the present invention.

3 shows a TLV of paging information.

4 illustrates the structure of a deregistration command message.

5 illustrates the structure of a paging advertisement message.

6 is a flowchart showing a method of transmitting a paging advertisement message according to an embodiment of the present invention.

7 is a diagram illustrating a method of transmitting a paging advertisement message according to an embodiment of the present invention.

Claims (20)

(a) setting paging information including a paging cycle, a paging offset, and a paging interval length; (b) generating and transmitting a deregistration command message (DREG-CMD) including the paging information to the terminal; And (c) broadcasting one or more paging advertisement messages (MOB-PAG-ADV) during one paging segment length according to the number of terminals to be paged. The method of claim 1, wherein in step (a), And the paging segment length is composed of two to five frames starting from the paging offset within the paging period. The method of claim 1, wherein in step (c), And each of the one or more paging advertisement messages is included and broadcast for each frame constituting the paging segment length. The method of claim 1, wherein step (c) comprises: (c1) If the number of terminals to be paged is larger than a reference number of terminals that can be broadcasted through one paging advertisement message, a paging advertisement message for the terminals corresponding to the reference number is included in the first frame constituting the corresponding paging segment length. To broadcast; (c2) increasing the number of frames; (c3) determining whether the corresponding paging segment length has elapsed; And (c4) If the corresponding paging segment length has not elapsed, the steps (c1) to (c3) are repeated until the number of terminals to be paged is smaller than the reference number, and then the number of terminals to be paged is increased. If the number is smaller than the reference number, paging advertisement message broadcasting method comprising the step of including the paging advertisement message for the terminal as the number of the terminal to be paged in the next frame constituting the paging interval length; . The method of claim 4, wherein (c5) If the paging segment length has elapsed, repeating the steps (c1) to (c3) until the number of terminals to be paged is less than the reference number within the next paging segment length, and the excess If the number of terminals to be paged is smaller than the reference number, the method further includes a step of broadcasting a paging advertisement message for the terminals corresponding to the number of terminals to be paged in a frame constituting the next paging segment length. A paging advertisement message broadcasting method. The method of claim 1, wherein the number of terminals to be paged is the number of terminals to be paged for each paging offset within the paging period. The method of claim 1, The paging advertisement message broadcasting method, characterized in that including the MAC address hash value of each terminal to be paging target. The method of claim 1, And receiving a deregistration request message (DREG-REQ) for entering the idle mode from the terminal. (a) acquiring the number of terminals to be paged for each paging offset in one paging period; (b) when the number of terminals to be paged is larger than a reference number of terminals broadcastable through one paging advertisement message, paging to be broadcast within a corresponding paging segment length using the number of terminals to be paged and the reference number Calculating a broadcast frequency of a broadcast message; And and (c) sequentially broadcasting each paging broadcast message to be broadcast within the corresponding paging segment length in each frame constituting the paging segment length. The method of claim 9, wherein in step (c), If the number of times of paging broadcast messages to be broadcast in the corresponding paging segment length is greater than the number of frames in the corresponding paging segment length, the extra paging broadcast message is included in a frame constituting the next paging segment length for paging. Advertising message broadcast method. 10. The method of claim 9, prior to step (a), Setting paging information including the paging cycle, the paging offset, and the paging interval length; And And including the paging information in the deregistration command message (DREG-CMD) and transmitting the paging information to the terminal. A control plane for generating a deregistration command message (DREG-CMD) and a paging advertisement message (MOB_ADV-PAG) including paging information; Frames to be transmitted to the terminal by including the deregistration command message and the paging advertisement message in a frame, but one or more paging advertisement message (MOB-PAG-) for one paging interval length according to the number of terminals to be paged A scheduler for including the paging advertisement messages in the frames so that an ADV) is broadcast; And And a transmitter configured to transmit the frames configured by the scheduler to the terminal. The method of claim 12, And the scheduler includes each of the one or more paging advertisement messages in each frame constituting a corresponding paging segment length. The method of claim 12, wherein the control plane, A paging information setting unit configured to set paging information including a paging cycle, a paging offset, and a paging segment length; And And a message generator for generating the deregistration command message and the paging advertisement message and providing the generated paging advertisement message to the scheduler. The method of claim 14, And the paging information setting unit configures the paging segment length into two to five frames starting from the paging offset within the paging period. The method of claim 14, The message generating unit generates the paging advertisement message by including the generated MAC address hash value of the terminal to be paged together. The method of claim 14, wherein the scheduler, When the number of terminals to be paged is larger than the reference number of terminals that can be broadcast through one paging advertisement message, when the number of terminals to be paged is smaller than the reference number within a range in which the length of the corresponding paging segment does not pass. To include one or more paging advertisement messages for the number of terminals as the number of terminals in the successive frames constituting the paging interval length, and if the number of terminals to be paged is smaller than the reference number, the number of terminals to be paged And a paging advertisement message for as many terminals as the next frame within the paging segment length. The method of claim 17, wherein the scheduler, When the length of the paging segment elapses, the base station, characterized in that each of the paging advertisement messages to include in a continuous frame constituting the next paging segment length. 15. The base station of claim 14, wherein the number of terminals to be paged is the number of terminals to be paged for each paging offset within the paging period. The method of claim 12, The base station further comprises a receiving unit for receiving a frame including a deregistration request message (DREG-REQ) for entering into the idle mode from the terminal.

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