KR20110073703A - Overlay multicast tree construction scheming method and node based on peer to peer available bandwidth - Google Patents

Abstract

PURPOSE: An overlay multicast tree construction configuring method and node based on peer to peer available bandwidth is provided to secure a stream service to a user by joining a multicast group. CONSTITUTION: A node requests subscription to a stream supply server or a multicast control server according to the subscription request to a multicast group of a user(S1). The stream supply server or the multicast control server transmits available bandwidth information to the node(S2). The node measures RTT(Round Trip Time) of the nodes in a parent node list. The parent node is transmitted to the stream supply server or the multicast control server(S3). The node is transmitted to the stream supply server or the multicast control server(S4).

Description

OVERLAY MULTICAST TREE CONSTRUCTION SCHEMING METHOD AND NODE BASED ON PEER AVAILABLE BANDWIDTH}

 It is related to overlay multicast tree construction technology. It is necessary to configure overlay multicast tree to improve the quality of streaming service in open IPTV platform environment where overlay multicast and unicast are simultaneously applied to improve scalability. The present invention relates to a technique for constructing a tree by reflecting an available bandwidth between nodes located in a node and their parent nodes.

Overlay multicast is a technique for improving scalability by performing relay transmission in which nodes located in the middle of a multicast tree transmit data or streams received from a parent node to lower child nodes. This overlay multicast is used to deliver open IPTV platforms for individuals or small businesses that use relatively small network bandwidth and process resources to provide IPTV services.

Open IPTV platform that provides IPTV service using overlay multicast is transmitted to end node of multicast tree through multi-stage relay transmission due to multicast tree structure. Due to this multiple-stage relay transmission, a relatively large transmission delay problem occurs and a disadvantage is that the quality of service provided by the network and process resources of the ancestor nodes including the parent node is determined. In order to solve this disadvantage, a method of solving the inherent disadvantage of overlay multicast by placing a node having a network state or sufficient process resources at a higher level of the multicast tree has been proposed.

However, this solution cannot construct an optimal multicast tree when nodes sequentially request to join a multicast group, and focuses on the efficient aspect of the entire network, unlike the quality improvement of IPTV service.

 Available bandwidth with the parent nodes of nodes located at the end of the existing multicast tree when constructing the tree of nodes requesting to join the multicast group to improve the quality of the stream service provided by the open IPTV platform using the overlay multicast scheme. A method of constructing an overlay multicast tree constituting a multicast tree reflecting the above and a node performing the same are proposed.

According to an aspect, a peer-to-peer available bandwidth-based overlay multicast tree construction method includes a node requesting a stream providing server or a multicast control server to join a multicast group according to a user's request to join a multicast group. step; Transmitting, by the stream providing server or multicast control server, the potential parent node list and available bandwidth information with the parent nodes of the nodes in the potential parent node list to the node; The node measures a round trip time (RTT) of nodes included in the received latent parent node list, RTT information of nodes in the measured latent parent node list and the received latent parent node list. Selecting a parent node of the nodes using the available bandwidth information of the parent nodes and transmitting the same to a stream providing server or a multicast control server; And measuring, by the node, its available bandwidth with the node selected as its parent node and transmitting it to the stream providing server or the multicast control server.

The node measures an RTT of nodes included in the received latent parent node list, and is available between RTT information of nodes in the measured latent parent node list and parent nodes of nodes in the received latent parent node list. The step of selecting a parent node using the bandwidth information and transmitting the selected parent node to the stream providing server or the multicast control server may include: at the measured RTT and the stream providing server or the multicast control server for each node in the potential parent node list. By calculating the weighted average value of the available bandwidths with the received parent node, the node having the highest weighted average value may be selected as the parent node.

The node may measure the available bandwidth with the node selected as its parent node and transmit the measured bandwidth to the stream providing server or the multicast control server using the pathChirp of self-induced congestion. Reversible bandwidth measurement with a node selected as a node.

According to another aspect, a node joining a peer-to-peer available bandwidth-based overlay multicast group includes a subscription requesting a stream providing server or a multicast control server to join a multicast group according to a user's request to join a multicast group. Request unit; An RTT measuring unit measuring a round trip time (RTT) of nodes included in a list of potential parent nodes received from the stream control server or a multicast control server; And using the measured RTT information of the nodes in the potential parent node list and available bandwidth information of the parent nodes of the nodes in the received potential parent node list, selecting the parent node of the node belonging to the asset to provide the stream providing server. Or a parent node determining unit for transmitting to a multicast control server and measuring an available bandwidth with a node selected as the parent node and transmitting the measured bandwidth to a stream providing server or a multicast control server.

All nodes belonging to the multicast group measure the available bandwidth with the parent node and reflect this in the configuration of the overlay multicast tree for the stream service of the open IPTV platform, so that the nodes provided with the service have the minimum bandwidth for the stream service. By constructing a multicast tree so as to secure the, it is possible to guarantee a stream service of a certain level or more to a user who wants to use the stream service by joining the multicast group.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention; In describing the embodiments of the present invention, when it is determined that detailed descriptions of related known functions or configurations may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intention or custom of a user or an operator. Therefore, the definition should be based on the contents throughout this specification.

1 is a flowchart of a method for configuring peer-to-peer available bandwidth-based overlay multicast according to an embodiment of the present invention.

As shown, first the service user requests the node to join the multicast group. The node requests the stream providing server or the multicast control server to join the multicast group according to the user's request to join the multicast group (S1).

In response to the subscription request, the stream providing server or the multicast control server transmits a subscription request to one node with available bandwidth information with the parent node of the potential parent node list and the nodes in the potential parent node list.

The node making the subscription request measures the round trip time (RTT) of nodes in the potential parent node list received from the stream providing server or the multicast control server. A node requesting a subscription selects its parent node using available bandwidth information between the measured RTT information of nodes in the potential parent node list and the parent node of the nodes in the received potential parent node list to provide a stream providing server or multi Send to the cast control server (S3).

In this case, the node requesting the subscription may measure reversible bandwidth with the node selected as its parent node using pathChirp among self-induced congestion. A diagram illustrating this is shown in FIG. 2. As shown, a node requesting to join a multicast group receives a list of potential parent nodes from a stream providing server or a multicast control server and measures an RTT with nodes in the corresponding potential parent node list.

In addition, the node requesting the subscription calculates a weighted average value of available bandwidths between the measured RTT and the parent node received from the stream providing server or the multicast control server for each node in the potential parent node list, and has the highest weighted average value. You can select a node as a parent node. This is illustrated in FIG. 3. As shown, the node requesting to join the multicast group measures the available bandwidth with the parent node of the nodes in the potential parent node list received from the stream providing server or the multicast control server and for the nodes in the potential parent node list. Calculate parent node score using round trip time (RTT). The node requesting to join the multicast group selects a node in the potential parent node list having the largest parent node score as the parent node and transmits the node to the stream providing server or the multicast control server.

When the parent node selection and transmission is completed, the node requesting the subscription measures the available bandwidth with the node selected as its parent node and transmits it to the stream providing server or the multicast control server (S4). In this case, the available bandwidth for the selected parent node is measured after the parent node selection and transmission is completed because a considerable time is required to measure the available bandwidth, so that when the tree configuration step is performed, it takes a lot of time to construct the tree.

4 is a diagram illustrating a configuration of a node joining a peer-to-peer available bandwidth-based overlay multicast group according to an embodiment.

As shown, the node includes a subscription request unit 1, an RTT measurement unit 2, and a parent node determination unit 3.

The subscription request unit 1 requests the stream providing server or the multicast control server to join the multicast group according to the user's request to join the multicast group.

The RTT measurement unit 2 measures a round trip time (RTT) of nodes included in a list of potential parent nodes received from a stream control server or a multicast control server. In this case, the parent node determiner 3 may measure reversible bandwidth with the node selected as the parent node of the node to which the node belongs by using pathChirp among self-induced congestion.

The parent node determiner 3 selects the parent node of the node to which the asset belongs by using available bandwidth information between the measured RTT information of the nodes in the potential parent node list and the parent node of the nodes in the received potential parent node list. To the stream providing server or the multicast control server. At this time, the parent node determiner 3 calculates a weighted average value of available bandwidths of the measured RTT and the parent node received by the stream providing server or the multicast control server for each node in the potential parent node list, and has the highest weight. The node with the average value can be selected as the parent node.

Then, the parent node determination unit 3 measures the available bandwidth with the node selected as the parent node and transmits it to the stream providing server or the multicast control server. In this case, the available bandwidth for the selected parent node is measured after the parent node selection and transmission is completed because a considerable time is required to measure the available bandwidth, so that when the tree configuration step is performed, it takes a lot of time to construct the tree.

So far, the present invention has been described with reference to the embodiments. Those skilled in the art will understand that the present invention may be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. Therefore, the scope of the present invention should not be construed as being limited to the above-described examples, but should be construed to include various embodiments within the scope of the claims and equivalents thereof.

1 is a flowchart of a method for constructing a peer-to-peer available bandwidth-based overlay multicast tree according to an embodiment.

2 is a diagram illustrating a process of receiving a list of potential parent nodes and a round trip time of a subscription request node;

3 is a diagram illustrating a process of selecting a parent node using the measured round trip time and the available bandwidth of the parent node of nodes in the potential parent node list.

FIG. 4 illustrates a configuration of a node joining a peer-to-peer available bandwidth based overlay multicast group according to an embodiment. FIG.

Claims (7)

Requesting, by the node, the stream providing server or the multicast control server to join the multicast group according to the user's request to join the multicast group; Transmitting, by the stream providing server or multicast control server, the potential parent node list and available bandwidth information with the parent nodes of the nodes in the potential parent node list to the node; The node measures a round trip time (RTT) of nodes included in the received latent parent node list, RTT information of nodes in the measured latent parent node list and the received latent parent node list. Selecting a parent node of the nodes using the available bandwidth information of the parent nodes and transmitting the same to a stream providing server or a multicast control server; And A method for constructing a peer-to-peer available bandwidth-based overlay multicast tree, comprising: a node measuring an available bandwidth with a node selected as its parent node and transmitting it to a stream providing server or a multicast control server. The method of claim 1, The node measures an RTT of nodes included in the received latent parent node list, and is available between RTT information of nodes in the measured latent parent node list and parent nodes of nodes in the received latent parent node list. Selecting a parent node using the bandwidth information and transmitting it to a stream providing server or a multicast control server, For each node in the list of potential parent nodes, a weighted average value of available bandwidths of the measured RTT and the parent node received at the stream providing server or the multicast control server is calculated, and the node having the highest weighted average value is used as the parent node. Peer-to-peer available bandwidth based overlay multicast tree construction method. The method of claim 1, The node may measure the available bandwidth with the node selected as its parent node and transmit it to the stream providing server or the multicast control server. A method for constructing peer-to-peer available bandwidth-based overlay multicast tree that measures reversible bandwidth with a node selected as its parent node using pathChirp among self-induced congestion. A subscription request unit requesting a stream providing server or a multicast control server to join a multicast group according to a user's request to join a multicast group; And And a RTT measurement unit for measuring a round trip time (RTT) of nodes included in a list of potential parent nodes received from the stream control server or a multicast control server. The method of claim 4, wherein By using the available bandwidth information between the measured RTT information of the nodes in the potential parent node list and the parent node of the nodes in the received potential parent node list, selecting the parent node of the node belonging to the asset to provide the stream providing server or And a parent node determining unit for transmitting to a multicast control server and measuring an available bandwidth with the node selected as the parent node and transmitting the measured bandwidth to a stream providing server or a multicast control server. The method of claim 5, The parent node determiner calculates a weighted average value of available bandwidths of the measured RTT and the parent node received by the stream providing server or the multicast control server for each node in the potential parent node list, and selects a node having the highest weighted average value. The node you select as the parent node. The method of claim 5, The parent node determination unit, A node for measuring reversible bandwidth with a node selected as a parent node of the node to which the node belongs by using pathChirp among self-induced congestion.

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