WO2020171280A1 - 이동 통신 시스템에서의 무선 자원 할당 방법 - Google Patents
이동 통신 시스템에서의 무선 자원 할당 방법 Download PDFInfo
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- 238000000034 method Methods 0.000 title claims abstract description 99
- 238000013468 resource allocation Methods 0.000 title claims abstract description 60
- 238000010295 mobile communication Methods 0.000 title description 32
- 230000005540 biological transmission Effects 0.000 claims abstract description 94
- 238000010586 diagram Methods 0.000 description 8
- 238000004891 communication Methods 0.000 description 7
- 230000000737 periodic effect Effects 0.000 description 6
- 238000005516 engineering process Methods 0.000 description 4
- 102100036848 C-C motif chemokine 20 Human genes 0.000 description 3
- 101000713099 Homo sapiens C-C motif chemokine 20 Proteins 0.000 description 3
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/16—Central resource management; Negotiation of resources or communication parameters, e.g. negotiating bandwidth or QoS [Quality of Service]
- H04W28/26—Resource reservation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/02—Selection of wireless resources by user or terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/08—Non-scheduled access, e.g. ALOHA
Definitions
- the present invention relates to a radio resource allocation method in a mobile communication system.
- Sidelink is an LTE standard that enables direct communication between two LTE terminals without going through a base station, and shares and uses resources of the LTE uplink.
- sidelinks first appeared in 3GPP Release 12 under the names of Device-to-Device (D2D) and Proximity-based service (ProSe).
- D2D Device-to-Device
- ProSe Proximity-based service
- V2X Vehicle-to-Everything
- V2I Vehicle-to-Everything
- V2P Reference 1
- the eNB performs scheduling for transmission of each node. That is, in Mode 3, the node can operate only in a situation in which communication with the base station is possible (Cellular Coverage).
- the node can operate even in a situation where communication with the base station is impossible.
- each node broadcasts a message based on information sensed by each node.
- a semi-persistent scheduling (SPS) technique is used as a scheduling method for resource allocation.
- SPS Semi-Persistent Scheduling
- SPS is a resource allocation technique for reducing the overhead of a control channel of an application requiring continuous radio resource allocation, such as VoLTE (Voice over LTE).
- VoLTE Voice over LTE
- the SPS is also used for resource allocation in the sidelink mode operation.
- vehicle user equipment continuously senses the radio channel and maintains the information.
- the user equipment using the SPS technique has information on the previous 1000 subframes, and this is called a sensing window.
- 1 is an explanatory diagram of a resource selection method (reference 2) in the SPS technique.
- the user equipment using the SPS scheme selects the next radio resource, it selects candidates based on the information of the sensing window in a preset selection window and selects one subframe resource from among them. .
- a message is transmitted by repeating a corresponding number of random count numbers in a certain range.
- FIG. 2 shows a flowchart of a method of selecting a candidate group of resources to be used on a selection window in the SPS technique (reference 3).
- the method of selecting a candidate group of resources to be used on the selection window in the SPS scheme is to set a selection window (S1), and the user equipment continuously monitors the RSSI value (S2), and first An initial threshold value is selected according to the priority (S3), S A is initialized to the entire resource of the selection window, and S B is initialized to an empty state (Empty Set) (S4).
- the method of selecting a candidate group of resources to be used on the selection window in the SPS scheme is to remove the candidate resource from S A if the sensing window for the portion corresponding to the resource on the selection window is not monitored (S5), If the RSSI value of the candidate resources remaining after step S5 is greater than the threshold value, it is determined that they are in use and the corresponding resource is removed from the candidate resource (S6).
- the method of selecting a candidate group of resources to be used on the selection window in the SPS scheme is to check whether the remaining candidate resources after step S6 are more than 20% of the total number of resources on the selection window (S7), and if more than 20%. If the RSSI values corresponding to the sensing window of the resources of S A are averaged, the smallest resources are selected as S B as 20% of the total number of resources (S8). If it is less than 20%, the threshold value is increased by 3dB (S9), and the process below step S4 is repeated.
- a message is transmitted in the form of a packet periodically according to the resource counter (RC) value.
- the RC value is randomly determined according to the packet transmission period (Resource Reservation Interval, RRI) (Ref. 4).
- the RC when the RRI is 100 ms or more, the RC is selected in the range of 5 to 15. Each time a packet is transmitted, the RC value decreases by one. In addition, when the RC value becomes 0, each user equipment determines whether to use the previous radio resource again or select a new radio resource with a certain probability (P RK ; resource keep).
- FIG. 3A is a flowchart of a method for allocating resources by user equipment in a conventional SPS scheme.
- FIG. 3B shows a table describing the operation in each step of FIG. 3A. That is, FIG. 3B shows the contents to be described inside each step of FIG. 3A.
- C1, C2 Physical resources are required to transmit a message.
- the physical resource means a subframe in the time domain and a subchannel in the frequency domain.
- a physical resource for message transmission is determined through sensing, and a message is periodically transmitted through the determined resource a number of times based on a resource counter (RC).
- RC resource counter
- periodic message transmission in units of (RC+1) times will be expressed in terms of “streak”.
- T1, T2 the resource to transmit the message within the [n+T1, n+T2] subframe interval is determined. Should be. This section is called the selection window.
- N subCH The maximum value of the subchannel index, which is a frequency domain resource among physical resources.
- the user equipment determines the subchannel to transmit the message within [1, N subch ].
- the user equipment determines the resource again after transmitting the message as many times as the total number of times based on the RC value through the determined resource. . Whether to select a new resource or to use the existing resource as it is, is determined based on the probability, and the probability of using the existing resource as it is is p rk .
- step S102 variables necessary for message transmission are initialized.
- Variables initialized in step S102 are as follows.
- txSubCH This is a subchannel (frequency domain resource) to be used when transmitting a message.
- txSubframe A subframe value in which a message is to be transmitted, and is newly set for the next periodic transmission after one time message transmission ends.
- -Subframe Current subframe value (Current Subframe Index). Each 1 msec increases by 1 within [0, 10239] in a wrap-around manner.
- the current subframe value (Current Subframe Index) is the same as the transmission subframe (txSubframe) value to be transmitted. Then (S103), a message is transmitted through a predetermined transmission subchannel (txSubCH) (S105). In addition, if the current subframe index is different from the transmission subframe to which the message is to be transmitted, the user equipment enters a listening state and performs channel sensing (S111). ).
- step S105 the RC value is initialized and updated for transmission of the next streak message (S106).
- step S106 After step S106 is completed, a random number between '0' and '1' is generated, and the generated random number is compared with a preset probability value (S108), and as a result of the comparison in step S108, when the generated random number is less than a preset probability value, If the radio resource of the next step is set equal to the current radio resource (S109), and as a result of the comparison in step S108, the generated random number is equal to or greater than a preset probability value, a new radio resource of the next step is selected and set (S110). .
- S108 preset probability value
- FIG. 4 is a diagram illustrating a situation in which a collision may occur in a conventional SPS algorithm.
- Node B decides to transmit the next message in n'instead of subframe n B +RRI.
- the present invention is an invention aimed at solving the technical problems as described above, and provides a radio resource allocation method in a mobile communication system capable of avoiding collisions in radio resource selection of a plurality of user equipment. There is a purpose.
- the radio resource allocation method by the user equipment of the present invention includes the steps of: (a1) broadcasting a message as many times as the total number of times based on a preset current step counter value by using a current step radio resource; And (b1) reserving information on the radio resource of the next step; wherein the radio resource includes a transmission subframe value, which is information of a subframe for transmitting a message, and a transmission subchannel value, which is information of a subchannel, It characterized in that it comprises a.
- the radio resource allocation method of the present invention includes (c1) the radio resource information reserved in step (b1) when the radio resource reserved in step (b1) is available after the step (a1) is completed. It is preferable to further include a step of selecting the radio resource information of the next step when the radio resource information is used as the radio resource information of the step, and the radio resource reserved in the step (b1) is not available.
- the broadcasting using the radio resource of the current step is performed the entire number of times. It is characterized in that it is carried out before.
- the information on the radio resource of the next step reserved in step (b1) is included in the message broadcasted in step (a1) after the reservation in step (b1) and is broadcast. do.
- the radio resource allocation method of the present invention when the subframe value of the current stage preset is the same as the transmission subframe value, broadcasting a message using the radio resource of the current stage in the step (a1) desirable.
- the radio resource allocation method of the present invention includes: (d1) updating the transmission subframe value of the current stage during the broadcasting of a message using the radio resource of the current stage in the step (a1), after at least some broadcasting. Step to do; And (e1) updating the subframe value of the current stage.
- the broadcasting of the message in step (a1) may be performed using a transmission subchannel corresponding to the transmission subchannel value as a starting subchannel and as many as a preset number of channels.
- the radio resource allocation method by the user equipment of the present invention will be described from another viewpoint as follows.
- the radio resource allocation method by the user equipment of the present invention includes: (a2) a radio resource of the current stage as many as a part of the total number of broadcasts of a message by the radio resource of the current stage based on a preset current stage counter value. Broadcasting a message by; Including, wherein the radio resource includes a transmission subframe value, which is information of a subframe for transmitting the message, and a transmission subchannel value, which is information of a subchannel. do.
- the radio resource allocation method of the present invention includes: (b2) setting a next step count value for determining the total number of broadcasts of a message in the next step after completion of step (a2); (c2) reserving information on radio resources in the next step; And (d2) broadcasting the message using the radio resource of the current stage as many times as the remaining number of the total number of broadcasts of the message by the radio resource of the current stage.
- the step (c2) may include (c2-1) generating a random number between '0' and '1' and comparing the generated random number with a preset probability value; (c2-2) if the generated random number is less than a preset probability value as a result of the comparison in step (c2-1), setting the radio resource of the next step equal to the current radio resource; And (c2-3) when the generated random number is greater than or equal to a preset probability value as a result of the comparison in step (c2-1), newly selecting and setting a radio resource of the next step.
- the radio resource allocation method of the present invention includes the transmission of the current step after the broadcasting of the message in the step (a2) or after the broadcasting of at least some messages in the step (d2).
- the subframe value and the preset subframe value of the current stage are updated.
- the radio resource of the current stage is used in the steps (a2) and (d2). It is desirable to perform broadcasting.
- a transmission subchannel corresponding to the transmission subchannel value is used as a starting subchannel and a transmission subchannel equal to a preset number of channels is used. It characterized in that it is carried out.
- the radio resource allocation method of the present invention includes the radio resource information reserved in step (c2) when the radio resource reserved in step (c2) is available after the completion of step (d2). And reselecting the radio resource information of the next step when the radio resource is used as the radio resource information of and the radio resource reserved in the step (c2) is not available.
- step (c2) the information on the radio resource of the next step reserved in step (c2) is included in the message broadcasted in step (d2) and broadcast.
- radio resource allocation method in the mobile communication system of the present invention, collision in radio resource selection of a plurality of user equipments can be avoided.
- 1 is an explanatory diagram for a method of selecting a resource in an SPS scheme.
- FIG. 2 is a flowchart of a method of selecting a candidate group of resources to be used on a selection window in the SPS scheme.
- 3A is a flowchart of a method of allocating resources by user equipment in a conventional SPS technique.
- Fig. 3B is a table explaining the operation in each step of Fig. 3A.
- FIG. 4 is a diagram illustrating a situation in which a collision may occur in a conventional SPS algorithm.
- FIG. 5 is an explanatory diagram of a radio resource allocation method in a mobile communication system according to the present invention.
- 6A is a flowchart of a radio resource allocation method in a mobile communication system according to an exemplary embodiment of the present invention.
- 6B is a table explaining the operation in each step of FIG. 6A.
- the radio resource allocation method in a mobile communication system of the present invention is to solve a collision situation in radio resource selection of a plurality of user equipments by transmitting (reserving) information on a radio resource to be selected next by the user equipment.
- the radio resource allocation method in the mobile communication system of the present invention may be implemented in each user equipment.
- the radio resource allocation method in the mobile communication system of the present invention may be implemented in the form of a computer program executed by a processor of each user equipment.
- FIG. 5 is an explanatory diagram of a radio resource allocation method in a mobile communication system according to the present invention.
- the radio resource allocation method in the mobile communication system of the present invention attempts to resolve a collision situation by adding information on a radio resource to be selected next to SCI format 1 transmitted by a user equipment to a control channel.
- node A can avoid the collision by not selecting the subframe n 'B on the basis of information about the next scheduled node B.
- LA Lookahead
- look-ahead may be configured as follows.
- LA ⁇ c, L, n>
- n subframe value that is the time axis of the radio resource
- the above expression of the lookahead is similar to the expression method of the "Frequency resource location of initial transmission and retransmission" field indicating the location of a resource in SCI format 1 according to the current standard.
- the'reserved field' of SCI format 1 can be used for look-ahead.
- the radio resource allocation method in the mobile communication system of the present invention is performed in user equipment, and preferably includes the following main steps.
- Step S(A) By using the radio resource of the current step, a message is periodically broadcast for the total number of times based on a preset current step counter value.
- Step S(C) After the step S(A) is completed, if the radio resource reserved in step S(B) is available, the radio resource information reserved in step S(B) is used as the radio resource information in the next step. , If the radio resource reserved in step S(B) is not available, radio resource information of the next step is selected again.
- Step S(D) During the broadcasting of a message using the radio resource of the current step in step S(A), after at least some of the broadcasting, the transmission subframe value of the current step and the subframe value of the current step are updated. .
- the radio resources in S(A) to S(D) preferably include a transmission subframe value, which is information of a subframe for transmitting a message, and a transmission subchannel value, which is information of a subchannel.
- step S(B) after broadcasting of the message using the radio resource of the current step in step S(A) is performed at least a part of times, broadcasting using the radio resource of the current step is performed as many times as the total number of times. It is characterized in that it is carried out before.
- the information on the radio resource of the next step reserved in step S(B) is included in the message broadcasted in step S(A) after the reservation in step S(B) and broadcasted.
- the radio resource allocation method of the present invention is characterized in that, in the case where the subframe value of the current stage set in advance is the same as the transmission subframe value, the message is broadcast using the radio resource of the current stage in the S(A) stage. To do.
- the broadcasting of the message in step S(A) is preferably performed using a transmission subchannel corresponding to a transmission subchannel value as a starting subchannel and as many as a preset number of channels.
- FIG. 6A is a flowchart of a radio resource allocation method in a mobile communication system according to an exemplary embodiment of the present invention.
- FIG. 6B shows a table describing the operation in each step of FIG. 6A. That is, FIG. 6B shows the contents to be described inside each step of FIG. 6A.
- the radio resource allocation method in a mobile communication system is when the power of a user equipment (UE) is turned on (S200), in step S201. Values of basic parameters for resource allocation are set in advance.
- UE user equipment
- C1, C2 Physical resources are required to transmit a message.
- the physical resource means a subframe in the time domain and a subchannel in the frequency domain.
- a physical resource for message transmission is determined through sensing, and a message is periodically transmitted through the determined resource a number of times based on a resource counter (RC).
- RC resource counter
- periodic message transmission in units of (RC+1) times will be expressed in terms of “streak”.
- T1, T2 the resource to transmit the message within the [n+T1, n+T2] subframe interval is determined. Should be. This section is called the selection window.
- N subCH The maximum value of the subchannel index, which is a frequency domain resource among physical resources.
- the user equipment determines the subchannel to transmit the message within [1, N subch ].
- the user equipment determines the resource again after transmitting the message for the total number of times based on the RC value through the determined resource, and at this time, it is possible to continue using the previously used resource unchanged. . Whether to select a new resource or to use the existing resource as it is, is determined based on the probability, and the probability of using the existing resource as it is is p rk .
- RC LA -Intermediate Step Counter Value:
- this look-ahead information is notified to nearby user equipments.
- L_txSubCH The number of subchannels used in message transmission. This value is determined by the system according to the size of the message packet and does not change while the algorithm is running.
- variables necessary for message transmission are initialized in step S202.
- Variables initialized in step S202 are as follows.
- txSubCH Subchannel (frequency domain resource) information to be used when transmitting a message.
- the transmission subchannel value means the value of the first subchannel among the number of consecutive channels (L_txSubCH) to transmit a packet.
- txSubframe A subframe value in which a message is to be transmitted, and is newly set for the next periodic transmission after one time message transmission ends.
- -Subframe Current subframe value (Current Subframe Index). Each 1 msec increases by 1 within [0, 10239] in a wrap-around manner.
- RC subchannel of the next streak message determined at the time of RC LA .
- the resource of the next streak is determined only by the sensing result, but in the present invention, the resource to be used in the next streak is determined by reflecting not only the sensing result but also lookahead information transmitted by other user equipments.
- step S204 is preferably performed using a transmission subchannel corresponding to a transmission subchannel (txSubCH) value as a starting subchannel and using transmission subchannels equal to the preset number of channels (L_txSubCH).
- the current step counter (RC) value is checked (S205), and the current step counter (RC) value is zero. If the value of 1, '0', is not reached, it is determined whether the current step counter RC value is the same as the intermediate step counter RC LA value (S210). However, it goes without saying that in step S205, various values as well as '0' may be used as the first value according to the setting.
- the next streak message For transmission, the next step counter (LARC) is updated (S211).
- step S210 If the current step counter (RC) value is not the same as the intermediate step counter (RC LA ) value, the process goes from step S210 to step S215.
- a random number generated by generating a random number between '0' and '1' is compared with a preset probability value (p rk ) (S212). , If the random number generated as a result of the comparison in step S212 is less than a preset probability value, the radio resource of the next step is set equal to the current radio resource (S213), and as a result of the comparison in step S212, the generated random number is greater than or equal to a preset probability value, The radio resource of the next step is newly selected and set (S214).
- the radio resource of the next step set in step S213 preferably includes a transmission subframe (LATxSubframe) value of the next step and a transmission subchannel (LATxSubCh) value of the next step.
- LATxSubframe transmission subframe
- LATxSubCh transmission subchannel
- the radio resource allocation method in a mobile communication system after completion of step S213 or step S214, is updated by decreasing the current step counter (RC) value by one, and transmits the next message.
- the transmission subframe (txSubframe) is updated using a period (RRI) (S215).
- the current step counter (RC) value is checked (S205), and the current step counter (RC) value is zero.
- the current step counter (RC) value is updated to the next step counter (LARC) value.
- the radio resource allocation method in a mobile communication system uses look-ahead information to check whether the radio resource selected in step S213 or S214 is still useful (S207), and step S213.
- the transmission subframe (txSubframe) value of the current step and the transmission subchannel (txSubCH) value of the next step are selected in step S213 or S214, and the transmission subframe (LATxSubframe) value of the next step, and The transmission subchannel (LATxSubCh) value of the next step is updated (S208).
- the radio resource allocation method in a mobile communication system is to check whether the radio resource selected in step S213 or S214 is still useful (S207), and the radio resource selected in step S213 or S214. If this is not useful, the radio resource of the next step is newly selected and set (S209).
- the selection of the radio resource in step S209 is as described with reference to [Fig. 1] in [Technology behind the invention].
- a radio resource allocation method in a mobile communication system after step S208, step S209, or step S215, update the current subframe value (S216), S216 It is preferable to return to step S203 after step.
- a method of allocating radio resources in a mobile communication system according to an exemplary embodiment of the present invention of FIG. 6 is summarized as follows.
- Steps S203, S204, S205, S215, S216 Broadcasting of the message by the radio resource of the current step is performed as many times as a part of the total number of broadcasting of the message by the radio resource of the current step based on the preset current step counter value.
- the radio resource includes a transmission subframe value, which is information on a subframe for transmitting a message, and a transmission subchannel value, which is information on a subchannel.
- the transmission subchannel corresponding to the transmission subchannel value is used as the start subchannel, and transmission subchannels equal to the preset number of channels are selected. It is carried out using.
- the message is broadcast by the radio resource at the current stage for the remaining number of times.
- the transmission subchannel corresponding to the transmission subchannel value is used as the start subchannel, and transmission subchannels equal to the preset number of channels are selected. It is carried out using.
- Steps S212, S213, and S214 A random number between '0' and '1' is generated, and the generated random number is compared with a preset probability value. As a result of the comparison, when the generated random number is less than a preset probability value, the radio resource of the next step is set equal to the current radio resource. In addition, as a result of the comparison, when the generated random number is equal to or greater than a preset probability value, a radio resource of the next step is newly selected and set.
- Step S216 After the broadcast of the message is performed, the transmission subframe value of the current step and the preset subframe value of the current step are updated.
- the information on the reserved radio resource of the next stage is included in the message at the time of broadcasting the message by the radio resource of the current stage by the remaining number of the total number of broadcasting of the message by the radio resource of the current stage. It is preferred to be broadcast.
- the moment of selecting the radio resource in the next step is set as RC LA in order to make a decision before sending the information.
- the resource intended to be used by the user equipment is a usable resource, and if it is determined that no other user equipment is still being used for the resource, the resource Use. If, upon checking, it is determined that the corresponding resource is being used by other user equipment, the resource is selected again based on the sensed information at that time.
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Abstract
Description
RC | RRI(ms) |
[5, 15] | 100 이상 |
[10, 30] | 50 이상 100 미만 |
[25, 75] | 20 이상 50 미만 |
Claims (15)
- 사용자 장비에 의한 무선 자원 할당 방법에 있어서,(a1) 현재 단계의 무선 자원을 사용하여, 미리 설정된 현재 단계 카운터값에 기반한 전체 횟수 만큼 메시지를 브로드캐스팅하는 단계; 및(b1) 다음 단계의 무선 자원에 대한 정보를 예약하는 단계;를 포함하고,상기 무선 자원은,메시지를 전송하기 위한 서브프레임의 정보인 전송 서브프레임값 및 서브채널의 정보인 전송 서브채널값을 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제1항에 있어서,상기 무선 자원 할당 방법은,(c1) 상기 (a1) 단계가 완료된 후, 상기 (b1) 단계에서 예약된 무선 자원이 사용 가능한 경우 상기 (b1) 단계에서 예약된 무선 자원 정보를 다음 단계의 무선 자원 정보로 사용하고, 상기 (b1) 단계에서 예약된 무선 자원이 사용 가능하지 않은 경우 다음 단계의 무선 자원 정보를 다시 선택하는 단계;를 더 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제1항에 있어서,상기 (b1) 단계는,상기 (a1) 단계에서의 현재 단계의 무선 자원을 사용한 메시지의 브로드캐스팅이 적어도 일부 횟수 실시된 이후, 현재 단계의 무선 자원을 사용한 브로드캐스팅이 전체 횟수만큼 실시되기 이전에 실시되는 것을 특징으로 하는 무선 자원 할당 방법.
- 제1항에 있어서,상기 (b1) 단계에서 예약된 다음 단계의 무선 자원에 대한 정보는,상기 (b1) 단계의 예약 이후 상기 (a1) 단계에서의 브로드캐스팅되는 메시지에 포함되어 브로드캐스팅되는 것을 특징으로 하는 무선 자원 할당 방법.
- 제1항에 있어서,상기 무선 자원 할당 방법은,미리 설정된 현재 단계의 서브프레임값이, 상기 전송 서브프레임값과 동일한 경우에 상기 (a1) 단계에서 현재 단계의 무선 자원을 사용하여 메시지를 브로드캐스팅하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제5항에 있어서,상기 무선 자원 할당 방법은, 상기 (a1) 단계에서 현재 단계의 무선 자원을 사용하여 메시지의 브로드캐스팅 중, 적어도 일부의 브로드캐스팅 이후,(d1) 현재 단계의 전송 서브프레임값을 갱신하는 단계; 및(e1) 현재 단계의 서브프레임값을 갱신하는 단계;를 더 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제1항에 있어서,상기 (a1) 단계에서의 메시지의 브로드캐스팅은,상기 전송 서브채널값에 해당하는 전송 서브채널을 시작 서브채널로 하여 미리 설정된 채널 개수값 만큼의 전송 서브채널을 이용하여 실시되는 것을 특징으로 하는 무선 할당 방법.
- 사용자 장비에 의한 무선 자원 할당 방법에 있어서,(a2) 미리 설정된 현재 단계 카운터값에 기반한 현재 단계의 무선 자원에 의한 메시지의 브로드캐스팅의 전체 횟수 중, 일부 횟수 만큼 현재 단계의 무선 자원에 의해 메시지의 브로드캐스팅을 실시하는 단계;를 포함하고,상기 무선 자원은,메시지를 전송하기 위한 서브프레임의 정보인 전송 서브프레임값 및 서브채널의 정보인 전송 서브채널값을 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제8항에 있어서,상기 무선 자원 할당 방법은, 상기 (a2) 단계의 완료 이후,(b2) 다음 단계의 메시지의 브로드캐스팅의 전체 횟수를 결정하기 위한 다음 단계 카운트값을 설정하는 단계;(c2) 다음 단계의 무선 자원에 대한 정보를 예약하는 단계; 및(d2) 현재 단계의 무선 자원에 의한 메시지의 브로드캐스팅의 전체 횟수 중, 나머지 횟수만큼 현재 단계의 무선 자원에 의한 메시지의 브로드캐스팅을 실시하는 단계;를 더 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제9항에 있어서,상기 (c2) 단계는,(c2-1) '0'과 '1' 사이의 난수를 생성하여, 생성된 난수를 미리 설정된 확률값과 비교하는 단계;(c2-2) 상기 (c2-1) 단계의 비교 결과, 생성된 난수가 미리 설정된 확률값 미만인 경우, 다음 단계의 무선 자원을 현재의 무선 자원과 동일하게 설정하는 단계; 및(c2-3) 상기 (c2-1) 단계의 비교 결과, 생성된 난수가 미리 설정된 확률값 이상인 경우, 다음 단계의 무선 자원을 새로이 선택하여 설정하는 단계;를 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제9항에 있어서,상기 (a2) 단계에서의 메시지의 브로드캐스팅의 실시 이후 또는 상기 (d2) 단계에서의 적어도 일부의 메시지의 브로드캐스팅의 실시 이후,현재 단계의 전송 서브프레임값 및 미리 설정된 현재 단계의 서브프레임값은 갱신되는 것을 특징으로 하는 무선 자원 할당 방법.
- 제9항에 있어서,상기 무선 자원 할당 방법은,상기 현재 단계의 서브프레임값이 상기 전송 서브프레임값과 동일한 경우에 상기 (a2) 단계 및 상기 (d2) 단계에서 현재 단계의 무선 자원을 사용하여 메시지의 브로드캐스팅을 실시하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제12항에 있어서,상기 (a2) 단계 및 상기 (d2) 단계에서의 메시지의 브로드캐스팅은,상기 전송 서브채널값에 해당하는 전송 서브채널을 시작 서브채널로 하여 미리 설정된 채널 개수값 만큼의 전송 서브채널을 이용하여 실시되는 것을 특징으로 하는 무선 할당 방법.
- 제9항에 있어서,상기 무선 자원 할당 방법은, 상기 (d2) 단계의 완료 이후,상기 (c2) 단계에서 예약된 무선 자원이 사용 가능한 경우 상기 (c2) 단계에서 예약된 무선 자원 정보를 다음 단계의 무선 자원 정보로 사용하고, 상기 (c2) 단계에서 예약된 무선 자원이 사용 가능하지 않은 경우 다음 단계의 무선 자원 정보를 다시 선택하는 단계;를 더 포함하는 것을 특징으로 하는 무선 자원 할당 방법.
- 제9항에 있어서,상기 (c2) 단계에서 예약된 다음 단계의 무선 자원에 대한 정보는,상기 (d2) 단계에서의 브로드캐스팅되는 메시지에 포함되어 브로드캐스팅되는 것을 특징으로 하는 무선 자원 할당 방법.
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