KR101883908B1 - A Transmission Method of Resource Allocation Information for minimum resource unit - Google Patents

Abstract

The present invention relates to a method for transmitting resource allocation information of a minimum unit. More specifically, the method comprises a resource allocation communications step of allocating a resource of a communications network composed of a plurality of user nodes to the user nodes to have communications. The resource allocation communications step comprises: a minimum unit resource division step of dividing a resource of a communications network composed of a plurality of user nodes into a plurality of minimum unit resources by a predetermined method; and an additional resource generation step of generating an additional resource composed of one frequency unit corresponding to one time unit. The predetermined method divides the resource into a plurality of minimum unit resources by using a preset number of frequency units corresponding to a predetermined number of time units as a minimum unit. The number of generated additional resources is equal to the number of the minimum unit resources, and the additional resources correspond to the minimum unit resources in a one-to-one manner.

Description

[0001] The present invention relates to a resource allocation method,

More particularly, the present invention relates to a method of transmitting resource allocation information of a minimum unit, and more particularly, to a method of transmitting resource allocation information by a minimum unit, And transmits information on the resources divided into the minimum unit allocated to the node using the corresponding additional resource.

In a wired / wireless communication system in which a plurality of nodes share limited resources, normal communication can be performed only by transmitting resource allocation information used by a specific node. In a communication system, time, frequency, and space based on multiple antennas are used as resources for communication.

When a plurality of nodes communicate with each other around a central control device such as a base station, resource management for a number of optimized communication such as resource allocation, resource management and power control is possible through a central control device. However, In the absence of any central control device such as a network, such optimized resource allocation and resource management are not easy.

Therefore, in the case of the ad-hoc network, a method for relieving systematic resource allocation and resource management based on a central control apparatus has been required.

An object of the present invention is to provide a method and an apparatus for allocating resources in units of time units and frequency units by dividing them into minimum units and allocating them to nodes and using the additional resources corresponding to 1: And to transmit information on the divided resources.

In order to solve the above problems, the present invention provides a resource allocation information transmission method comprising: a resource allocation communication step of allocating resources of a communication network constituted by a plurality of user nodes to the user node, The communication step includes: a minimum unit resource dividing step of dividing the resources of the communication network constituted by the plurality of user nodes into a plurality of minimum unit resources by a preset method; And an additional resource generating step of generating an additional resource constituted by one frequency unit corresponding to one time unit, wherein the preset method comprises: a predetermined number of frequency units corresponding to a preset number of time units; Dividing the resource into a plurality of minimum unit resources as a minimum unit, the number of the additional resources generated being equal to the number of the divided minimum unit resources, and the additional resources corresponding to the minimum unit resources at a ratio of 1: 1 .

In some embodiments of the present invention, the resource allocation communication step may further include a first minimum unit resource allocation step of allocating the minimum unit resource to each user node constituting the communication network.

In some embodiments of the present invention, the resource allocation communication step may include a first minimum unit which generates first minimum unit resource allocation information, which is information on the minimum unit resource allocated to each user node constituting the communication network Wherein the first minimum unit resource allocation information includes a minimum unit resource allocated to the user node is on and a minimum unit resource not allocated to the user node is off, 1 < / RTI > to 1 < RTI ID = 0.0 > 1, < / RTI >

In some embodiments of the present invention, the resource allocation communication step may include determining whether the minimum unit resource is allocated to each user node constituting the communication network, based on the first minimum unit resource allocation information, And a first minimum unit resource allocation information transmission step of transmitting the first minimum unit resource allocation information using the additional resources corresponding to 1: 1 resources.

In some embodiments of the present invention, the resource allocation communication step may further include: a node identification information providing step of assigning node identification information having different binary values to each of the plurality of user nodes.

In some embodiments of the present invention, the resource allocation communication step may include: a second minimum unit resource allocation step of continuously allocating the minimum unit resource with the minimum value of the node identification information having the binary value; And a second minimum unit resource allocation information generation step of generating second minimum unit resource allocation information which is information on the minimum unit resource allocated to each user node constituting the communication network, Wherein the minimum unit resource allocation information includes at least one bit allocation information that is expressed by turning on a minimum unit resource continuously allocated to the user node and a minimum unit resource not allocated to the user node, And a result of the operation is obtained, and the operation result may be given to the additional resource corresponding to 1: 1 to the minimum unit resource.

In some embodiments of the present invention, in the resource allocation communication step, it is determined whether or not the minimum unit resource is allocated to each user node constituting the communication network, based on the second minimum unit resource allocation information, And a second minimum unit resource allocation information transmission step of transmitting the second minimum unit resource allocation information using an additional resource corresponding to 1: 1 resource.

In some embodiments of the present invention, in the resource allocation communication step, the second minimum unit resource allocation information received from each user node constituting the communication network is transmitted to a user who has received the second minimum unit resource allocation information And a first exclusive-OR operation step of performing an exclusive-OR operation with each of the nodes of the node identification information to obtain information on the allocation of the minimum unit resources.

In some embodiments of the present invention, the resource allocation communication step may include: a third minimum unit resource allocation step of allocating the minimum unit resource to each user node constituting the communication network; And a third minimum unit resource allocation information generation step of generating third minimum unit resource allocation information which is information on the minimum unit resource allocated to each user node constituting the communication network, The minimum unit resource allocation information may include allocation information that is repeatedly expressed by the length of the node identification information with a minimum unit resource allocated to the user node being on and a minimum unit resource not allocated to the user node being off, Information and an exclusive OR operation to obtain the operation result, and the operation result can be given to the additional resource corresponding to 1: 1 to the minimum unit resource.

In some embodiments of the present invention, the resource allocation communication step may include determining whether the minimum unit resource is allocated to each user node constituting the communication network, based on the third minimum unit resource allocation information, And a third minimum unit resource allocation information transmission step of transmitting the third minimum unit resource allocation information using an additional resource corresponding to 1: 1 resource.

In some embodiments of the present invention, the resource allocation communication step may further include: transmitting the third minimum unit resource allocation information received from each user node constituting the communication network to a user who has received the third minimum unit resource allocation information And a second exclusive-OR operation step of performing an exclusive-OR operation with the node identification information of the node to obtain information on whether the minimum unit resource is allocated or not.

According to an embodiment of the present invention, resources allocated in units of time units and frequency units are divided into minimum units and allocated to nodes, whereby the resources can be efficiently allocated.

According to an embodiment of the present invention, an additional resource corresponding to 1: 1 is allocated to a resource divided into a minimum unit, and information about a resource divided into a minimum unit allocated to the node can be transmitted.

According to an embodiment of the present invention, identification information about a node to which a resource divided by a minimum unit is allocated to an additional resource corresponding to 1: 1 to a resource divided by a minimum unit is included, Information about the node to be allocated can be transmitted together.

FIG. 1 exemplarily shows a process of a minimum unit resource division step according to an embodiment of the present invention.
FIG. 2 illustrates an exemplary process of generating additional resources according to an exemplary embodiment of the present invention.
FIG. 3 schematically shows a step of a resource allocation information transmission method including a first minimum unit resource allocation step according to an embodiment of the present invention.
FIG. 4 schematically shows a step of a resource allocation information transmission method including a second minimum unit resource allocation step according to an embodiment of the present invention.
FIG. 5 exemplarily shows a second minimum unit resource allocation information generation step according to an embodiment of the present invention.
FIG. 6 schematically shows a step of a resource allocation information transmission method including a third minimum unit resource allocation step according to an embodiment of the present invention.
FIG. 7 exemplarily shows a third minimum unit resource allocation information generation step according to an embodiment of the present invention.

In the following, various embodiments and / or aspects are now described with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more aspects. However, it will also be appreciated by those of ordinary skill in the art that such aspect (s) may be practiced without these specific details. The following description and the annexed drawings set forth in detail certain illustrative aspects of one or more aspects. It is to be understood, however, that such aspects are illustrative and that some of the various ways of practicing various aspects of the principles of various aspects may be utilized, and that the description set forth is intended to include all such aspects and their equivalents.

In addition, various aspects and features will be presented by a system that may include multiple devices, components and / or modules, and so forth. It should be understood that the various systems may include additional devices, components and / or modules, etc., and / or may not include all of the devices, components, modules, etc. discussed in connection with the drawings Must be understood and understood.

As used herein, the terms "an embodiment," "an embodiment," " an embodiment, "" an embodiment ", etc. are intended to indicate that any aspect or design described is better or worse than other aspects or designs. . The terms 'component', 'module', 'system', 'interface', etc. used in the following generally refer to a computer-related entity, And a combination of software and software.

It is also to be understood that the term " comprises "and / or" comprising " means that the feature and / or component is present, but does not exclude the presence or addition of one or more other features, components and / It should be understood that it does not.

Also, terms including ordinal numbers such as first, second, etc. may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Furthermore, in the embodiments of the present invention, all terms used herein, including technical or scientific terms, unless otherwise defined, are intended to be inclusive in a manner that is generally understood by those of ordinary skill in the art to which this invention belongs. Have the same meaning. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and, unless explicitly defined in the embodiments of the present invention, are intended to mean ideal or overly formal .

There is provided a method of transmitting resource allocation information including a resource allocation information transmission step of allocating a resource of a communication network composed of a plurality of user nodes to the user node and communicating .

Although the method of transmitting resource allocation information provided in the present invention is described with reference to a method of allocating resources based on time units and frequency units used in a conventional communication system, In addition, the present invention can be applied to all kinds of communication resources, and is not understood or utilized by the time unit and the frequency unit.

Hereinafter, the minimum unit resource allocation information transmission method of the present invention will be described by three embodiments.

However, the minimum unit resource dividing step S10 and the additional resource generating step S20 described in FIGS. 1 and 2 can be applied in common to the three embodiments.

FIG. 1 exemplarily shows a process of a minimum unit resource division step according to an embodiment of the present invention.

Wherein the resource allocation communication step includes a minimum unit resource division step (S10) of dividing a resource of a communication network composed of a plurality of user nodes into a plurality of minimum unit resources by a predetermined method, The resource can be divided into a plurality of minimum unit resources with a predetermined number of frequency units corresponding to the set number of time units as a minimum unit.

That is, when a resource is allocated to the plurality of user nodes constituting the communication network, each frequency unit corresponding to each time unit constituting the resource becomes one resource and can be allocated to the plurality of user nodes However, it is also possible that the time unit is divided into a predetermined number, the frequency unit is divided into a predetermined number, and the frequency unit divided into a predetermined number corresponding to the predetermined number of time units becomes one resource The minimum unit resource may be assigned to the plurality of user nodes.

As shown in FIG. 1, when the resource is constituted by 16 time units of t ₁ to t ₁₆ and 16 frequency units of f ₁ to f ₁₆ , the number of combinations of resources allocated to the plurality of user nodes 16x16 = 256 combinations of frequency units corresponding to each time unit are possible. As the number of time units and the number of frequency units increases, the number of combinations increases.

Therefore, in order to reduce the number of combinations of resources allocated to the plurality of user nodes, the time unit and the frequency unit may be divided into a minimum unit of a predetermined number of time units and a predetermined number of frequency units have.

That is, as shown in FIG. 1, the minimum unit resource can be divided into a minimum unit of 16 units and a total of 16 units of frequency, respectively. a minimum unit of a total of four time units of t ₁ to t ₄ , t ₅ to t ₈ , t ₉ to t ₁₂ and t ₁₃ to t ₁₆ , and f ₁ to f ₄ , f ₅ to f ₈ , f ₉ to f ₁₂ , and f ₁₃ to f ₁₆ , and a resource allocated to the plurality of user nodes in a combination of the frequency unit divided into the minimum unit and the minimum unit A total of 16 minimum unit resources can be allocated.

As a result, as shown in FIG. 1, by performing the minimum unit resource division step S105, a total of 256 resource combinations composed of 16 time units and 16 frequency units are divided into four minimum units And 16 resource units of the frequency unit divided into four minimum units, and can be allocated to the plurality of user nodes.

FIG. 2 illustrates an exemplary process of generating additional resources according to an exemplary embodiment of the present invention.

However, if the time unit and the frequency unit are divided into a minimum unit and the resources are allocated to the plurality of user nodes, as described above, I do not know the information.

Therefore, according to the embodiment, the resource allocation communication step may include an additional resource generation step (S20) of generating an additional resource constituted by one frequency unit corresponding to one time unit, The number of resources is the same as the number of the divided minimum unit resources, and the additional resources can correspond to the minimum unit resources in a one-to-one correspondence.

That is, when there are sixteen minimum unit resource combinations as shown in FIG. 2, the number of combinations of the minimum unit resources in the communication network constituted by the plurality of user nodes is equal to the number of combinations of the minimum unit resources, An additional resource configured by one time unit and one frequency unit corresponding to the plurality of user nodes may be generated so as to have information on the minimum unit resource allocated to each of the plurality of user nodes.

Specifically, an additional unit resource 1 composed of a time unit of t _{17 and} a time unit of f ₁₇ corresponding to the minimum unit resource 1 is generated, and the one unit node of the plurality of user nodes constituting the communication network When the minimum unit resource 1 is allocated, the resource can be configured so as to have information on whether the minimum unit resource 1 is allocated to the additional unit resource 1 corresponding to the minimum unit resource 1.

In the first exemplary embodiment described below, when the minimum resource unit 1 is allocated to one user node among the plurality of user nodes, '1' or '1' is stored in the additional resource 1 corresponding to the minimum unit resource 1 If the minimum unit resource 1 is not allocated to one user node among the plurality of user nodes, the additional resource 1 corresponding to the minimum unit resource 1 is represented by 1 bit allocation information of '0' And determine whether each of the minimum unit resources is assigned to one of the plurality of user nodes.

In this way, from the minimum resource unit 1 to the minimum resource unit 16 of the minimum resource unit 16 shown in FIG. 2 are sequentially allocated 1: 1, and the additional resources 1 An additional resource 16 is created and information on whether or not each minimum unit resource from the minimum unit resource 1 to the minimum unit resource 16 is allocated to the plurality of user nodes is made to have additional resources corresponding to each minimum unit resource .

The minimum unit resource dividing step (S10) and the additional resource generating step (S20) described in FIG. 1 and FIG. 2 are basically the same as the first embodiment, the second embodiment and the third embodiment. The first embodiment, the second embodiment and the third embodiment will be described based on the same minimum resource division step S10 and the additional resource generation step S20.

(Example 1)

FIG. 3 schematically shows a step of a resource allocation information transmission method including a first minimum unit resource allocation step according to an embodiment of the present invention.

According to the first embodiment, the resource allocation communication step may further include a first minimum unit resource allocation step (S100) of allocating the minimum unit resource to each user node constituting the communication network.

That is, the first minimum unit resource allocation step (S100) includes allocating the minimum unit resource generated by dividing the resources in the minimum unit resource allocation step (S10) to the user nodes constituting the communication network .

In addition, the resource allocation communication step may include a first minimum unit resource allocation information generation step of generating first minimum unit resource allocation information, which is information on the minimum unit resource allocated to each user node constituting the communication network Wherein the first minimum unit resource allocation information includes a minimum unit resource allocated to the user node is on and a minimum unit resource not allocated to the user node is off, 1 < / RTI > allocated to the additional resource corresponding to " 1 "

As described above, in the first minimum unit resource allocation step (S100), after allocating the minimum unit resource to the user node constituting the communication network, the first minimum unit resource allocation information generation step (S110) bit allocation information, wherein the first minimum unit resource allocation information includes at least one of a minimum unit resource allocated to the user node and a minimum unit resource allocated to the user node, (0), and can be assigned to the additional resource corresponding to 1: 1 to the minimum unit resource.

According to the first embodiment, after performing the first minimum unit resource allocation information generation step (S110), the resource allocation communication step may include: (S110) of transmitting, by using the additional resource corresponding to 1: 1 to the minimum unit resource, whether or not the minimum unit resource is allocated to the user node of the first unit resource allocation information have.

In this manner, each of the user nodes configuring the communication network, when data is transmitted and received at each user node, checks the first minimum unit resource allocation information for the additional resource, Information on the minimum unit resources can be confirmed.

In this way, it is possible to determine to which user node the minimum unit resource allocated to each user node in the communication network, which is composed of a plurality of user nodes, is actually allocated to the user node, There is a disadvantage that it can not.

Therefore, in the second and third embodiments described later, in order to solve such a problem, the minimum unit resources are provided with identification information unique to each of the plurality of user nodes, Will be described.

(Example 2)

FIG. 4 schematically shows a step of a resource allocation information transmission method including a second minimum unit resource allocation step according to an embodiment of the present invention.

As shown in FIG. 4, in the second embodiment, the minimum unit resource division step S10 and the additional resource generation step S20 are performed, and the following steps are performed.

According to the second embodiment, after performing the minimum unit resource division step (S10) and the additional resource creation step (S20), the resource allocation communication step may include: And a node identification information providing step (S30) of giving node identification information.

As described above, according to the first embodiment, it is not possible to know information on which user node has been allocated the minimum unit resource allocated to each user node in the communication network constituted by a plurality of user nodes, And a node identification information providing step (S30) for giving identification information.

The node identification information providing step (S30) may assign node identification information having different binary values to each of the plurality of users.

For example, in a communication network composed of four user nodes A, B, C, and D, [00] for [A], [01] for B, 11] to give different node identification information to each of the user nodes, and in each step of the second embodiment described later, the node identification information is used to determine So that information on which user node is actually allocated to the minimum unit resource allocated to the user node can be known.

FIG. 5 exemplarily shows a second minimum unit resource allocation information generation step according to an embodiment of the present invention.

According to the second embodiment, after performing the node identification information providing step (S30), the resource allocating communication step consecutively allocates the minimum unit resource as the minimum value of the node identification information having the binary value A second minimum unit resource allocation step (S200); And a second minimum unit resource allocation information generation step (S210) for generating second minimum unit resource allocation information which is information on the minimum unit resources allocated to each user node constituting the communication network, The second minimum unit resource allocation information may include at least one bit allocation information that is expressed by turning on a minimum unit resource continuously allocated to the user node and off a minimum unit resource not allocated to the user node, And the operation result is given to the additional resource corresponding to the minimum unit resource in a one-to-one correspondence.

That is, as shown in FIG. 5, the second minimum unit resource allocation step (S200) may allocate the minimum unit resources to the user node consecutively as the minimum value of the node identification information having the binary value have.

For example, in a communication network composed of four user nodes A, B, C, and D, [00] for [A], [01] for B, When the node identification information having different binary values is given to the user node, the minimum unit resource is continuously given to the user node corresponding to the node identification information of 2 bits in length.

That is, as shown in FIG. 5, the minimum unit resource 1 and the minimum unit resource 2 can be consecutively allocated to the A node, which is one of the user nodes.

Also, the minimum unit resource allocated to the user node is allocated with a minimum length of the node identification information having a binary value. That is, if the length of the node identification information having the binary value is 2 bits, at least two minimum unit resources should be allocated to the user node. Therefore, when the length of the node identification information having the binary value of the user node becomes long, the number of the minimum unit resources allocated to the user node increases proportionally.

As a result, in the second minimum unit resource allocation step (S200), the minimum unit resources are consecutively allocated to the user node constituting the communication network such that the length of the node identification information having a binary value is minimized, The 2-bit minimum resource allocation information generating step (S210) generates 1-bit allocation information, and the 1-bit allocation information indicates that the minimum unit resource allocated to the user node is on (1) And a minimum unit resource that can not be represented by off (0).

As shown in FIG. 5, '1' allocation information is generated in the minimum unit resource 1 and the minimum unit resource 2 allocated to the A node, which is one of the user nodes, Allocation information of '0' can be generated and represented in the minimum unit resource 3 to the minimum unit resource 16.

The allocation information is successively subjected to exclusive OR operation with each place of the node identification information to obtain a calculation result, and the calculation result is given to the additional resource corresponding to the minimum unit resource at a ratio of 1: 1.

First, as shown in FIG. 5, the allocation information represented by '0' or '1' is subjected to exclusive OR operation with each of the digits of the node identification information of the user node. Quot; 1 " represented by the additional resource 1 is subjected to exclusive OR operation with the first position [0] of the node A to give the operation result to the additional resource 1 corresponding to the minimum unit resource 1, '1' to an additional resource 2 corresponding to the minimum unit resource 2 by performing an exclusive OR operation with an [0] which is the second digit of the A node, and gives '0' represented in the minimum unit resource 3 to A In the same manner as in the case of performing the exclusive OR operation with the first position [0] of the node and giving the result of the operation to the additional resource 3 corresponding to the minimum unit resource 3, And gives an operation result of the operation.

According to the second embodiment, after performing the second minimum unit resource allocation information generation step (S210), the resource allocation communication step includes a step of, based on the second minimum unit resource allocation information, And a second minimum unit resource allocation information transmission step (S220) of transmitting, to each of the user nodes constituting, whether or not the minimum unit resource is allocated using the additional resource corresponding to 1: 1 to the minimum unit resource have.

That is, the second minimum unit resource allocation information transmission step (S220) is performed to transmit the second minimum unit resource allocation information generated in the second minimum unit resource allocation information generation step (S210).

According to the second embodiment, the second minimum unit resource allocation information transmitted in the second minimum unit resource allocation information transmission step (S220) is received by each user node constituting the communication network, and then the first exclusive OR The inverse operation step S230 may be performed to confirm information on the minimum unit resource allocated to each user node constituting the communication network.

That is, in the resource allocation communication step, the second minimum unit resource allocation information received from each user node constituting the communication network is divided into the node identification information of the user node that received the second minimum unit resource allocation information (S230) of performing an exclusive OR operation with each place of the minimum unit resource to obtain information on whether the minimum unit resource is allocated or not.

Unlike the first embodiment, in the second embodiment, the first exclusive-OR operation (S230) is performed without transmitting the node identification information or decoding the received data and confirming the node identification information It is possible to know which resource is assigned to which node. It is possible to confirm what minimum unit resource is allocated by performing the exclusive OR operation of the second minimum unit resource allocation information received from each of the user nodes constituting the communication network with the user identification information of each user node Because.

However, according to the second embodiment, when the length of the node identification information having the binary value of the user node increases, the minimum number of the minimum unit resources allocated to the user node may be increased proportionally.

In the case of the third embodiment described below, even if the length of the node identification information having the binary value of the user node increases, the number of the minimum minimum unit resources to be allocated is not increased, The information of the user node can be expressed.

(Example 3)

FIG. 6 schematically shows a step of a resource allocation information transmission method including a third minimum unit resource allocation step according to an embodiment of the present invention.

6, in the third embodiment, the minimum unit resource division step S10, the additional resource creation step S20, and the node identification information application step S30 are performed, and the following steps .

According to the third embodiment, after performing the minimum unit resource division step (S10), the additional resource generation step (S20), and the node identification information application step (S30), the resource allocation communication step A third minimum unit resource allocation step (S300) of allocating a unit resource to each user node constituting the communication network; And a third minimum unit resource allocation information generating step (S310) for generating third minimum unit resource allocation information which is information on the minimum unit resources allocated to each user node constituting the communication network, The third minimum unit resource allocation information may include allocation information that is repeatedly expressed by the length of the node identification information with a minimum unit resource allocated to the user node being on and a minimum unit resource not allocated to the user node being off An operation result is obtained by exclusive-OR operation with the node identification information, and the operation result is given to the additional resource corresponding to 1: 1 to the minimum unit resource.

That is, the third minimum unit resource allocation step (S300) may allocate the minimum unit resource to each user node constituting the communication network.

More specifically, the third minimum unit resource allocation step (S300), unlike the second minimum unit resource allocation step (S200), allocates the minimum unit resource to the minimum unit And allocating the minimum unit resource generated by dividing the resources in the resource segmentation step (S10) to the user nodes constituting the communication network.

After allocating the minimum unit resource to the user node configuring the communication network in the third minimum unit resource allocation step (S300), the third minimum unit resource allocation information generating step (S310) (1), the minimum unit resource allocated to the user node is off (0), and the minimum unit resource allocated to the user node is represented by off (0) .

That is, as shown in FIG. 7, a minimum unit resource 1 and a minimum unit resource 2 allocated to the A node, which is one of the user nodes, are repeated by 2 bits, which is the length of the node identification information of the user node, 0] is repeated by 2 bits, which is the length of the node identification information of the user node, in the minimum unit resources 3 to the minimum unit resources 16 that are not allocated to the A node, which is one of the user nodes The allocation information of [00] can be generated and represented.

The allocation information is subjected to an exclusive OR operation with the node identification information to obtain a calculation result, and the calculation result is given to the additional resource corresponding to the minimum unit resource at a ratio of 1: 1.

First, as shown in FIG. 7, the allocation information represented by [11] or [00] is subjected to exclusive OR operation with the node identification information of the user node. [11] represented by the additional resource 1 is subjected to exclusive OR operation with the node identification information [00] of the A node, and the operation result is given to the additional resource 1 corresponding to the minimum unit resource 1, [11] is subjected to exclusive OR operation with the node identification information [00] of the A node, and the operation result is given to the additional resource 2 corresponding to the minimum unit resource 2, and expressed in the minimum unit resource 3 to the minimum unit resource 16 [00] is subjected to exclusive OR operation with the node identification information [00] of the A node, and the operation result is given to the additional resource 3 to the additional resource 16 corresponding to the minimum unit resource 3 to the minimum unit resource 16.

According to the third embodiment, after the step S310 of generating the third minimum unit resource allocation information, the resource allocation communication step includes:

The third minimum unit resource allocation information generation step (S310) generates third minimum unit resource allocation information, which is information on the minimum unit resource allocated to each user node constituting the communication network, The unit resource allocation information indicates that the minimum unit resource allocated to the user node is on (1), the minimum unit resource not allocated to the user node is represented by off (0), '1' Is repeatedly expressed by the length of the node identification information having the binary value.

FIG. 7 exemplarily shows a third minimum unit resource allocation information generation step according to an embodiment of the present invention.

That is, as shown in FIG. 7, when the minimum unit resource 1 and the minimum unit resource 2 are allocated to the node A, the length of the node identification information other than the information represented by 1 bit of '1' and generates the third minimum unit resource allocation information expressed by bits.

On the contrary, the minimum unit resource 3 to the minimum unit resource 16 that are not allocated to the node A is represented by 2 bits of [00], which is the length of the node identification information, rather than information represented by 1 bit of '0' And generates minimum unit resource allocation information.

According to the third embodiment, after performing the third minimum unit resource allocation step (S300) and the third minimum unit resource allocation information generation step (S310), the resource allocation communication step includes: And a second exclusive-OR operation step of performing an exclusive-OR operation on the third minimum unit resource allocation information repeatedly represented by the node identification information having the binary value to obtain an operation result.

Specifically, the third minimum unit resource allocation information repeatedly expressed by the length of the node identification information is exclusive-ORed with the node identification information having a binary value to obtain a calculation result.

7, the value of [11], which is the third minimum unit resource allocation information, is subjected to exclusive OR operation with the node identification information [00] of the A node to obtain the calculation result of [11] 00] is subjected to exclusive OR operation with [00], which is the node identification information of the A node, to obtain an operation result of [00].

According to the third embodiment, after performing the second exclusive OR operation step, the resource allocation communication step includes a step of allocating additional resources corresponding to 1: 1 to the minimum unit resource from each user node constituting the communication network A third minimum unit resource allocation information transmission step (S320) of transmitting the calculation result using the third minimum unit resource allocation information transmission step; And obtaining information on whether the minimum unit resource is allocated by performing an exclusive OR operation on the operation result received from each user node constituting the communication network with the node identification information of the user node that has received the operation result And a second exclusive logical OR operation (S330).

The third minimum unit resource allocation information transmission step (S320) transmits the calculation result using each additional resource corresponding to 1: 1 to the minimum unit resource from each user node constituting the communication network.

That is, the third minimum unit resource allocation information transmission step (S320) is performed to transmit the third minimum unit resource allocation information generated in the third minimum unit resource allocation information generation step.

The second exclusive logical OR computation step (S330) may further include a step of calculating the third minimum unit resource allocation information received from each user node constituting the communication network, based on the third minimum unit resource allocation information Information on whether or not the minimum unit resource is allocated can be obtained by performing exclusive-OR operation with the node identification information.

If the value of [11] transmitted from the additional resource 1 and the additional resource 2 is subjected to exclusive OR operation with the node identification information [01] of the B node in the second exclusive logical OR operation step S330, The value becomes [10], and the value becomes [01] when performing an exclusive-OR operation with the node identification information [10] of the C node. When the exclusive OR operation is performed with the node identification information [11] of the D node, And the minimum unit resource 1 and the minimum unit resource 2 corresponding to the additional resource 1 and the additional resource 2 become the minimum unit resources allocated to the B node, the C node, and the D node, .

Conversely, in the case of the node A, the value of [11] transmitted in the additional resource 1 and the additional resource 2 described above in the second exclusive-OR operation S330 is compared with the node identification information [00] of the A node When the OR operation is performed, the value becomes [11] and it can be confirmed that the minimum unit resource 1 and the minimum unit resource 2 corresponding to the additional resource 1 and the additional resource 2 are the minimum unit resources allocated to the A node .

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

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

Claims (11)

delete delete delete delete delete A method for transmitting resource allocation information,
And a resource allocation communication step of allocating resources of an ad-hoc communication network composed of a plurality of user nodes to the user node and communicating,
Wherein the resource allocation communication step performed in each of the plurality of user nodes comprises:
A minimum unit resource division step of dividing a resource of an ad-hoc communication network composed of a plurality of user nodes into a plurality of minimum unit resources by a predetermined method; And
And an additional resource generating step of generating an additional resource constituted by one frequency unit corresponding to one time unit,
Wherein the predetermined method divides the resource into a plurality of minimum unit resources with a preset number of frequency units corresponding to a predetermined number of time units as a minimum unit,
Wherein the number of the additional resources to be generated is equal to the number of the divided minimum unit resources, the additional resource corresponds to the minimum unit resource in a one-to-
Wherein the resource allocation communication step comprises:
Further comprising: a node identification information providing step of assigning node identification information having different binary values to each of the plurality of user nodes,
Wherein the resource allocation communication step comprises:
A second minimum unit resource allocation step of continuously allocating the minimum unit resource with the minimum value of the length of the node identification information having the binary value; And
And a second minimum unit resource allocation information generation step of generating second minimum unit resource allocation information which is information on the minimum unit resource allocated to each user node constituting the ad-hoc communication network and,
Wherein the second minimum unit resource allocation information comprises:
Wherein a minimum unit resource continuously allocated to the user node is on and a minimum unit resource not allocated to the user node is off and the allocation information of 1 bit is successively subjected to exclusive OR operation with each place of the node identification information And the operation result is given to the additional resource corresponding to 1: 1 to the minimum unit resource.
The method of claim 6,
Wherein the resource allocation communication step comprises:
A step of determining whether or not the minimum unit resource is allocated to each user node constituting the ad-hoc communication network, based on the second minimum unit resource allocation information, And a second minimum unit resource allocation information transmission step of transmitting the resource allocation information using the resource.
The method of claim 7,
Wherein the resource allocation communication step comprises:
Wherein the second minimum unit resource allocation information received from each of the user nodes constituting the ad-hoc communication network is allocated to each of the node identification information of the user node that has received the second minimum unit resource allocation information And performing an exclusive-or operation with respect to the resource to obtain information on whether or not the minimum unit resource is allocated; and a first exclusive OR operation.
A method for transmitting resource allocation information,
And a resource allocation communication step of allocating resources of an ad-hoc communication network composed of a plurality of user nodes to the user node and communicating,
Wherein the resource allocation communication step performed in each of the plurality of user nodes comprises:
A minimum unit resource division step of dividing a resource of an ad-hoc communication network composed of a plurality of user nodes into a plurality of minimum unit resources by a predetermined method; And
And an additional resource generating step of generating an additional resource constituted by one frequency unit corresponding to one time unit,
Wherein the predetermined method divides the resource into a plurality of minimum unit resources with a preset number of frequency units corresponding to a predetermined number of time units as a minimum unit,
Wherein the number of the additional resources to be generated is equal to the number of the divided minimum unit resources, the additional resource corresponds to the minimum unit resource in a one-to-
Wherein the resource allocation communication step comprises:
Further comprising: a node identification information providing step of assigning node identification information having different binary values to each of the plurality of user nodes,
Wherein the resource allocation communication step comprises:
A third minimum unit resource allocation step of allocating the minimum unit resource to each user node constituting the ad-hoc communication network; And
And a third minimum unit resource allocation information generation step of generating third minimum unit resource allocation information which is information on the minimum unit resources allocated to each user node constituting the ad-hoc communication network and,
Wherein the third minimum unit resource allocation information includes:
Wherein the minimum unit resource allocated to the user node is on and the minimum unit resource not allocated to the user node is off and the allocation information repeatedly expressed by the length of the node identification information is subjected to exclusive OR operation with the node identification information And a result of the operation is given to the additional resource corresponding to 1: 1 to the minimum unit resource.
The method of claim 9,
Wherein the resource allocation communication step comprises:
A step of determining whether or not the minimum unit resource is assigned to each user node constituting the ad-hoc communication network based on the third minimum unit resource allocation information, And a third minimum unit resource allocation information transmission step of transmitting the resource allocation information using the resource.
The method of claim 10,
Wherein the resource allocation communication step comprises:
Wherein the third minimum unit resource allocation information received from each user node constituting the ad-hoc communication network is subjected to exclusive-OR operation with the node identification information of the user node receiving the third minimum unit resource allocation information, And a second exclusive OR operation for obtaining information on whether the minimum unit resource is allocated or not.

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