KR102239732B1 - Method for configuring network topology and device for the same - Google Patents

Abstract

A method of communicating using a network entity may be provided. The method includes the steps of searching for one or more entities having a valid layer number among other entities capable of communication; Selecting one parent entity having the highest level layer number among the searched one or more entities and setting a lower number of the highest level layer number as the layer number of the network entity; Providing the set layer number to a subgroup entity having an invalid layer number among other entities capable of communication; And providing the signal transmitted from the parent entity to the subgroup entity.

Description

Communication network configuration method and device therefor {Method for configuring network topology and device for the same}

The present invention relates to a network device, and more particularly, to a technology for configuring a communication network in a network entity relaying physical communication between network entities that are physically impossible to communicate.

Physical communication between the two entities may not be possible depending on the environment in which a plurality of'network entities' (hereinafter simply'entities') that need to communicate with each other are installed. At this time, communication between the two entities may be relayed using another entity capable of communicating with the two entities, respectively. An entity having such a relay function may be referred to as a'relay entity'. In this case, a hierarchical structure may be applied to a plurality of entities. That is, the first entity may be set as a'parent entity' (hereinafter, simply referred to as'parent') of the second entity, and this fact may be known to each other by the first entity and the second entity.

At this time, at least some of the plurality of entities must have at least some of the above-described hierarchical structure and complete information about the parent. The question is who will provide this information and how.

In the present invention, it is intended to provide a technology for obtaining information on a network topology by an entity itself.

In order to solve the above-described problem, a method of communicating using a network entity may be provided. The method includes the steps of searching for one or more entities having a valid layer number among other entities capable of communication; Selecting one parent entity having the highest level layer number among the searched one or more entities and setting a lower number of the highest level layer number as the layer number of the network entity; Providing the set layer number to a subgroup entity having an invalid layer number among other entities capable of communication; And providing the signal transmitted from the parent entity to the subgroup entity.

The present invention may be provided for a network entity using power line communication. In addition, it may be provided for communication between network entities installed in the tunnel.

According to the present invention, it is possible to provide a technology for obtaining information on a network topology by an entity.

1 to 4 illustrate a process in which a plurality of network entities search for their own layer number and a process of self-configuring their own parent according to an embodiment of the present invention.

Hereinafter, a communication method according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

Referring to FIG. 1, a total of 13 entities may belong to three communication groups. Some of these entities (ex: #10) may belong to two or more communication groups. Each communication group may be defined as a set of entities capable of physical communication with each other. For example, the entity #MA can communicate with the entities #1, #2, #3, and #4, but cannot communicate with other entities.

In FIG. 1, the entity (#MA) is a top-level entity and is configured to communicate with all other entities, and the hierarchy number of the entity (#MA) is fixed to a top-level value (ex '0') in advance. However, the hierarchical numbers of other entities are not fixed yet, and are dynamically assigned themselves according to the communication state between entities. The layer numbers of these other entities all have values of a lower layer than the entity (#MA). In an embodiment of the present specification, the larger the number of the layer number, the lower the layer.

In FIG. 1, the layer number is not set except for the entity (#MA), but it can be understood that the communication speed can be measured for each pair of communicable entities.

The notation in FIGS. 1 to 4 is as follows.

#x(y) means that the entity (#x) has a layer number y. #x(?) means that the hierarchy number of the entity (#x) has not been determined yet. If a layer number is given as a specific number, it has a valid layer number, and if a specific number has not yet been assigned to the layer number, it can be regarded as having an invalid layer number.

Referring to FIG. 2, in the state of FIG. 2, an entity (#1, #2, #3, #4) has the highest level of layer numbers of other entities (in this case, entity (#MA)) capable of communicating with itself. After recognizing that the number is (0), the result of setting the value of (1), which is one level lower than the layer number (0), to itself is displayed.

In FIG. 2, the notation is as follows.

bps b/w #x(xi) &#y(yi) represents the communication speed between the entity (#x) having the layer number (xi) and the entity (#y) having the layer number (yi).

Referring to FIG. 3, in the state of FIG. 3, the entity (#10) is the highest among the layer numbers of other entities capable of communicating with itself (here, entities (#1, #2, #20, #30, #40)) After recognizing that the layer number of the level is (1), the result of setting the value of (2), which is one level lower than the layer number (1), to itself is shown.

Referring to FIG. 4, in the state of FIG. 4, the entity (#100) is the highest among the layer numbers of other entities capable of communicating with itself (here, entities (#10, #20, #200, #300, #400)). After recognizing that the layer number of the level is (2), the result of setting the value of (3), which is one level lower than the layer number (2), is displayed.

Hereinafter, a communication method according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. This method is a method of communicating using a network entity (#10), and other entities capable of communication (#1, #2, #20, #30, #40, #100, #200, #300, # Searching for one or more entities (#1, #2) having a valid layer number (1) among 400); The highest level layer by selecting one parent entity (#1 or #2) having the highest level layer number (1) among the layer numbers of the searched one or more entities (#1, #2) Setting the lower number (2) of the number as the layer number (2) of the network entity (#10); The set layer number (2) has an invalid layer number among other entities capable of communication (#1, #2, #20, #30, #40, #100, #200, #300, #400) Providing to the subgroup entities (#100, #200, #300, #400) which are present; And providing a signal transmitted from the parent entity (#1 or #2) to the subgroup entity (#100, #200, #300, #400).

In this case, the providing may be performed at a request of the subgroup entity (#100, #200, #300, #400).

In this case, selecting one parent entity having the highest level layer number among the searched one or more entities includes the first entity (#1) having the highest level layer number and the network entity (#10). ) A first download information exchange capability (C-bps#1 to #10) and a first upword between the parent entity (#MA) and the first entity (#1) for the first entity (#1) Calculating a first harmonic information exchange capability from the information exchange capability (P-bps#1 to #MA); The second downword information exchange capability (C-bps#2 to #20) between the second entity (#2) having the highest level of the layer number and the network entity (#10) and the second entity (#2) Calculating a second harmonic information exchange capability from a second upword information exchange capability (P-bps#2 to #MA) between the second entity (#2) with respect to the parent entity (#MA) of ); And determining one of the first entity and the second entity as the parent entity for the network entity using a result of comparing the first harmonic information exchange capability and the second harmonic information exchange capability. Can be done.

In this case, the parent entity for the first entity and the parent entity for the second entity may be the same as or different from each other.

In this case, one master entity among all network entities that the network entity can communicate with may have a fixed highest level of layer number 0.

At this time, the parent entity (#1 or #2) for the network entity (#10) is the ID (#10) and the layer number (2) of the network entity (#10), and the ID (#) of the subgroup entity (# 100, #200, #300, #400) and a layer number (3), and the parent entity (#1 or #2) to the subgroup entity (#100, #200, #300, #400) When providing information, it may be transmitted through only the network entity #10 among all entities capable of communicating with the parent entity (#1 or #2).

Claims (6)

As a method of communicating using a network entity (#10),
The network entity selects a valid layer number among other entities (#1, #2, #20, #30, #40, #100, #200, #300, #400) capable of mutual communication with the network entity. A search step of searching for one or more entities (#1, #2) possessed, wherein a specific number is assigned to a layer number of each of the one or more entities;
Selecting, by the network entity, one of entities having a highest level of hierarchical number among the searched one or more entities as a parent entity for the network entity;
Validating the layer number of the network entity by setting, by the network entity, a lower number of the layer number of the parent entity as the layer number of the network entity;
The network entity transmits the set layer number, which is the layer number of the network entity, to subgroup entities (#100, #200, #300, #400) having an invalid layer number among other entities capable of communication. A providing step of providing, wherein a specific number is not assigned to a layer number of each of the subgroup entities;
Providing, by the network entity, signals transmitted from the parent entity to the subgroup entities;
Containing,
The parent entity has an ID of the network entity, a layer number of the network entity, an ID of the subgroup entities, and a layer number of the subgroup entities,
When the parent entity provides information to the subgroup entities, it is configured to transmit through the network entity among all entities capable of communicating with the parent entity,
Communication method. The communication method according to claim 1, wherein the providing is performed at a request of the subgroup entity. The method of claim 1,
Selecting one parent entity having the highest level of the hierarchical number among the searched one or more entities,
First downword information exchange capability (C-bps b/w #1 &#10) between the first entity (#1) having the highest level of layer number and the network entity, and a parent entity for the first entity Calculating a first harmonic information exchange capability from a first upward information exchange capability (P-bps b/w #1 &#MA) between the and the first entity;
Second download information exchange capability (C-bps b/w #2 &#20) between the second entity (#2) having the highest level of the layer number and the network entity, and the parent entity of the second entity Calculating a second harmonic information exchange capability from a second upward information exchange capability (P-bps b/w #2 &#MA) between the second entity for the second entity; And
Determining one of the first entity and the second entity as the parent entity for the network entity using a result of comparing the first harmonic information exchange capability and the second harmonic information exchange capability
Consisting of including,
Communication method. 4. The method of claim 3, wherein a parent entity for the first entity and a parent entity for the second entity are the same as or different from each other. The method of claim 1,
One master entity among all network entities to which the network entity can communicate has a fixed highest level of layer number 0. delete

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