JP6166445B1 - Application layer multicast delivery method - Google Patents

Abstract

Even if the communication state of a wireless communication portable terminal device constituting a node is lowered, it is possible to prevent the quality of multicast distribution of content from being lowered. When a communication state of a last wireless communication portable terminal device 31 of a first chain is less than a predetermined communication state threshold, a distribution server 21 transmits another distribution request to the next wireless communication portable device. The predetermined content data is distributed to the terminal device 31 as a second chain different from the first chain, and the distribution server 21 sets the wireless communication portable terminal device 31 as the second chain in the order in which the distribution request is transmitted thereafter. In a chain connection, the predetermined content data is distributed to each wireless communication portable terminal device 31 by multicast using a peer-to-peer method. [Selection] Figure 1

Description

  The present invention relates to an application layer multicast distribution method, and in particular, a moving image, a still image, and audio data from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication line network including a mobile communication line and a wireless LAN. The present invention relates to a method for multicast distribution of predetermined content data such as GPS information and other text data by a peer-to-peer method and chain connection.

  As a method of simultaneously transmitting one piece of content data from a distribution server to a plurality of client computers, an application layer multicast distribution method (also referred to as application layer multicast distribution method ALM or overlay multicast distribution method) is known ( Patent Document 1).

JP 2009-272801 A

  When predetermined content data is distributed from a single distribution server to a plurality of stationary computers via a wired line or the like in the application layer multicast distribution by the peer-to-peer method, the communication state of the stationary computers constituting each node varies. That is extremely rare. For this reason, the communication state of the stationary computer that constitutes each node hardly affects other nodes. However, when a predetermined content data is distributed from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN, in an application layer multicast distribution by a peer-to-peer method, The communication state of the wireless communication portable terminal device constituting each node greatly affects other nodes. That is, when the communication state of the preceding wireless communication portable terminal device is reduced or interrupted, the content data is not transmitted to the subsequent wireless communication portable terminal device.

  An object of the present invention is to provide an application layer multicast distribution method capable of suppressing the deterioration of the multicast distribution quality of content even when the communication state of the wireless communication portable terminal device constituting the node is decreased.

The present invention is a method for distributing application content multicast in a peer-to-peer manner from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN. There,
The distribution server distributes the predetermined content data to a wireless communication portable terminal device that has transmitted a distribution request first from a state in which the distribution server is not connected to any wireless communication portable terminal device,
The distribution server chain-connects the wireless communication portable terminal devices as a first chain in the order in which a distribution request is subsequently transmitted, and the predetermined content is transmitted between the chained wireless communication portable terminal devices by the peer-to-peer method. Deliver data to application layer multicast,
When the communication state of the last wireless communication portable terminal device of the first chain is less than a predetermined communication state threshold, the distribution server sends another distribution communication request to the next wireless communication portable terminal device And delivering the predetermined content data as a second chain different from the first chain,
The distribution server chain-connects the wireless communication portable terminal devices as the second chain in the order in which distribution requests are subsequently transmitted, and the predetermined communication is performed in the peer-to-peer manner between the chained wireless communication portable terminal devices. The above-described problem is solved by a method for distributing content data by application layer multicast.

In addition, the present invention provides a method for multicast distribution of predetermined content data in a peer-to-peer manner from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN. Because
The distribution server receives information including an ID, an IP address, and a communication state of the wireless communication portable terminal device when receiving a distribution request from the wireless communication portable terminal device and at a predetermined time interval. The above problem is solved by an application layer multicast distribution method for generating or updating an index table including the index table.

In addition, the present invention provides a method for multicast distribution of predetermined content data in a peer-to-peer manner from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN. Because
The distribution server distributes the predetermined content data to a wireless communication portable terminal device that has transmitted a distribution request first from a state in which the distribution server is not connected to any wireless communication portable terminal device,
The distribution server chain-connects the wireless communication portable terminal devices as a first chain in the order in which a distribution request is subsequently transmitted, and the predetermined content is transmitted between the chained wireless communication portable terminal devices by the peer-to-peer method. Deliver data to application layer multicast,
The wireless communication portable terminal device connected in the chain detects the communication state of the own device during the chain connection, and when the communication state of the own device is less than a predetermined connection threshold, the distribution server temporarily Send a request to leave,
The distribution server solves the above problem by an application layer multicast distribution method for temporarily disconnecting the wireless communication portable terminal device that has transmitted the request to temporarily leave the chain from the chain.

  According to the present invention, only the wireless communication portable terminal device whose communication state is equal to or higher than the predetermined communication state threshold value is distributed until the communication state of the last wireless communication portable terminal device becomes less than the predetermined communication state threshold value. Since the chain connection is made as one chain in the order in which the requests are transmitted, and predetermined content data is distributed to each wireless communication portable terminal device by the peer-to-peer method, the communication state of the wireless communication portable terminal device constituting the chain is lowered. Even so, it is possible to suppress the deterioration of the quality of the multicast distribution of the content.

  According to the present invention, the distribution server receives information including the ID, IP address, and communication state of the wireless communication portable terminal device when receiving a distribution request from the wireless communication portable terminal device and at a predetermined time interval. Since the index table including these pieces of information is generated or updated, even if the communication state of the wireless communication portable terminal device constituting the chain is lowered, this can be immediately grasped by the index table. As a result, it is possible to suppress degradation of the multicast distribution quality of the content by changing the node configuration of the chain.

  According to the present invention, the wireless communication portable terminal device connected in the chain detects the communication state of the own device during the chain connection, and temporarily stops from the chain when the communication state of the own device is less than the predetermined connection threshold. Therefore, even if the communication state of the wireless communication portable terminal device constituting the chain is lowered, it is possible to prevent the quality of the multicast distribution of the content from being lowered.

It is a block diagram which shows the delivery system of the content which implement | achieves the application layer multicast delivery method concerning one embodiment of this invention. It is a figure which shows an example of the index table (carousel data) used with the application layer multicast delivery method concerning one embodiment of this invention. It is a flowchart which shows the basic delivery routine of the application layer multicast delivery method which concerns on one embodiment of this invention. It is a flowchart which shows the process sequence in a delivery server regarding the finite number of nodes of the chain connection of the application layer multicast delivery method which concerns on one embodiment of this invention. It is a flowchart which shows the process sequence in a delivery server regarding the selection of the chain by the communication band and attribute of a line of the application layer multicast delivery method concerning one embodiment of this invention, and optimization of the content data to deliver. It is a flowchart which shows the process sequence in a delivery server and a radio | wireless communication portable terminal device regarding the node monitoring and node switching control of the application layer multicast delivery method which concerns on one embodiment of this invention. It is a flowchart which shows the other process sequence in a delivery server and a radio | wireless communication portable terminal device regarding the node monitoring and node switching control of the application layer multicast delivery method concerning one embodiment of this invention. It is a flowchart which shows the process sequence in a delivery server and a radio | wireless communication portable terminal device regarding the idle mode of the application layer multicast delivery method which concerns on one embodiment of this invention. It is a block diagram which shows the content delivery system (node delivery server-ization) which implement | achieves the application layer multicast delivery method which concerns on other embodiment of this invention. It is a figure explaining the carousel delivery of the index table (carousel data) in the content delivery system of FIG.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a content distribution system 1 for realizing the application layer multicast distribution method of the invention. The content distribution system 1 of this embodiment includes a real-time encoder 11, a distribution server 21, a wireless communication portable terminal device 31, and a telecommunication network 41. In the content distribution system 1 of the present embodiment, the wireless communication portable terminal device 31 is also referred to as a node. The content of the present embodiment includes moving images, still images, audio data, GPS information and other text data, and multiplexed data thereof. In addition to the distribution of live video described in the following embodiment, such content data is assumed to be deployed to IoT (Internet of Things) devices, etc. (1) Data for updating client software such as IoT devices, (2) Control data for each IoT device or graphic data such as map information, etc. (3) Self-information data from each IoT device (for example, moving image or still image data shot by each IoT device, probe data of vehicle equipment (position Information, speed information, brake and other sensor information, road surface information, etc.), GPS information, sensor information, text data, etc.) can be distribution targets as content data. In the following, an embodiment of the present invention will be described using a moving image as an example of content data.

  The real-time encoder 11 includes, as hardware, a computing unit such as a CPU or MPU, a ROM in which software is installed, a RAM in which input / output data is temporarily stored, and an input / output data I / O port. Consists of a computer. The real-time encoder 11 has an encoding function realized by software, captures video via a video capture board from a video camera that captures content data, for example, a live video (moving image), and an adaptive bit rate described later. In order to correspond to a method (ABR, Adaptive Bitrate, hereinafter also referred to as ABR method), encoding is performed at different bit rates. For example, in the example shown in FIG. 1, the data is encoded into three types of bit rate content data of 1 Mbps high quality data, 600 bps medium quality data, and 300 bps low quality data. Note that the number of types of image quality encoding may be two or less or four or more. In encoding, H. H.264 / MPEG-4 AVC standard and H.264. It is encoded in real time according to the H.265 / HEVC (High Efficiency Video Coding) standard and transmitted to the distribution server 21. The real-time encoder 11 can use an encoder device including an encoder circuit as hardware in addition to the software encoding. Further, when the content data is a still image or audio data other than a moving image, it may be encoded into a plurality of types of bit rate data (such as image quality) by the real-time encoder 11 according to the data capacity. It may be replaced with a single type of content data.

  The distribution server 21 includes, as hardware, a computing unit such as a CPU or MPU, a ROM in which software is installed, a RAM in which input / output data is temporarily stored, and an I / O port for input / output data. Consists of a computer. The distribution server 21 creates, updates, and transmits a distribution function of content data encoded by the real-time encoder 11, a distribution server function of peer-to-peer (P2P), and an index table (carousel distribution data) realized by software. A function, a chain switching function, and a node control function.

  The content data distribution function of the distribution server 21 assigns content data of different bit rates transmitted from the real-time encoder 11 to one or a plurality of output ports for each bit rate, and a plurality of chains corresponding to the output ports. Is to prepare. Then, the content data of each bit rate is distributed to the wireless communication portable terminal device 31 (node 1) connected first to the chain to be distributed (ABR method). Further, the distribution server 21 has output ports corresponding to a chain group that distributes content data via a mobile communication line and a chain group that distributes content data via a wireless LAN such as Wi-Fi (registered trademark). prepare. In the example shown in FIG. 1, a chain group distributed via a mobile line includes four chains: chain 1 (high image quality), chain 2 (high image quality), chain 3 (medium image quality), and chain 4 (low image quality). The chain group distributed via the wireless LAN includes a chain 5 (high image quality), a chain 6 (medium image quality), and a chain 7 (low image quality). The number of these chains, that is, the number of output ports, can be increased or decreased according to the number of wireless communication portable terminal devices 31 to be connected. For example, a Wi-Fi (registered trademark) line installed in a public place such as a station has a low communication quality and a low communication speed. Therefore, if the same content data is distributed with a time difference and a packet error occurs, the other The content data may be supplemented by a packet of content data.

  The peer-to-peer (P2P) distribution server function of the distribution server 21 determines the line attribute of a mobile line or a wireless LAN when there is a distribution request (also referred to as a connection request) from each wireless communication portable terminal device 31. A chain group to be selected is selected, a communication band of the telecommunication network 41 (mobile line, wireless LAN) is detected, and a chain of bit rates corresponding to the detected communication band is switched and controlled. When there is a distribution request from the wireless communication portable terminal device 31, the wireless communication portable terminal device 31 detects whether the connection line is a mobile line or a wireless LAN, and transmits it to the distribution server 21. The distribution server 21 detects the communication band of the telecommunication network 41.

  The creation, update and transmission functions of the index table of the distribution server 21 create and update the index table for each chain in the distribution server 21, and transfer the index table to the wireless communication portable terminal device 31 connected to the chain. It is distributed and sent from the end of the chain or each wireless communication portable terminal device 31 to the distribution server. Alternatively, or in addition to this, an index table created by the distribution server 21 may be transmitted and received between the distribution server 21 and each wireless communication portable terminal device 31.

  An example of the data structure of the index table is shown in FIG. The upper part of FIG. 2 shows how the index table is distributed to the two chains from the distribution server 21, the middle part of FIG. 2 shows an example of the data structure of the index table of chain 1, and the lower part of FIG. . An example of the data structure of the index table of chain 2 is shown. In the example shown in FIG. 2, an index table that is an information group including the ID, IP address, and communication state of the wireless communication portable terminal device 31 is prepared for each chain. For example, the index table of the chain 1 in the middle of FIG. 2 includes a content data source node (reception source), node number, destination node (transmission destination), client ID, IP address, and node information. The node information includes node status information such as SIM carrier information, node movement speed using GPS signals, communication cutoff history, communication status (communication speed or packet error), and line attributes. The index table prepared for each chain is inserted into content data to be distributed periodically (for example, at intervals of 0.5 seconds) and transmitted to each node, or directly from the distribution server 21 to each node as necessary. Sent.

  At that time, each node reads out the reception source node ID (including the IP address) and the transmission destination node ID (including the IP address), overwrites the node information of the own device, and transmits the transmission destination node ID (IP address). To the wireless communication portable terminal device 31 and / or the distribution server 21. Thereby, each wireless communication portable terminal device 31 constituting one chain can periodically grasp the IP addresses of the reception source node and the transmission destination node, and even if the immediately preceding node or the immediately following node leaves the chain. By referring to the index table, it is possible to grasp the IP addresses of the new reception source node and transmission destination node, and immediately connect to receive and transmit the content data. In addition, the distribution server 21 can periodically grasp the node information of the wireless communication portable terminal device 31 constituting each chain, and can execute an appropriate countermeasure according to each node information. Note that the last wireless communication portable terminal device 31 of each chain returns the index table to the distribution server 21.

  The chain switching function and the node control function of the distribution server 21 perform control such as designation of a connection destination of each node by a state transition request transmitted from the wireless communication portable terminal device 31 constituting each node. The state transition request transmitted from the wireless communication portable terminal device 31 constituting each node includes, for example, a transition request for changing the line attribute of the mobile communication line and the wireless LAN, a request for changing the bit rate of the ABR method due to a change in communication state, When the connected wireless communication portable terminal device 31 transmits a distribution stop request or the communication is cut off, a node change request for changing the wireless communication portable terminal device 31 or temporarily leaves the chain due to a decrease in communication state Idle mode requests to be included. This function is a function to cope with switching between a mobile line and a wireless LAN and a change in the communication state of the wireless communication portable terminal device 31 that occur frequently when the wireless communication portable terminal device 31 is moving. The distribution server 21 is configured by a stationary computer, and software that implements each function of the distribution server 21 described below is installed in the wireless communication portable terminal device 31 that configures each node. The device itself may function as the distribution server 21. That is, the distribution server 21 according to the present invention includes the wireless communication portable terminal device 31. This embodiment will be described later.

  The wireless communication portable terminal device 31 includes, as hardware, a computing unit such as a CPU or MPU, a ROM in which software is installed, a RAM in which input / output data is temporarily stored, and an I / O port for input / output data. It is comprised with the computer provided with these, and the user can carry and move. For example, a smartphone, a notebook type, or a tablet type personal computer can be used. The wireless communication portable terminal device 31 is implemented by software, including a peer-to-peer connection and IP address exchange function, a peer-to-peer hole punching connection function, a retransmission control function when a packet error occurs when content data is received, a wireless LAN chain Function for decoding multiplexed content (content data distributed with a time difference) in Japanese Patent No. 5159773, index table and content data reception and relay function, mobile line or wireless LAN detection function, communication Status detection function, chain switching request or node change request function according to communication status, content data buffering function, maximum speed transfer function of content to subsequent nodes; H.264 / MPEG-4 AVC standard and H.264. 265 / HEVC (High Efficiency Video Coding) standard content data decoding function is provided. Details of each function will be described later.

  Next, various application layer multicast delivery methods realized by the delivery system shown in FIG. 1 will be described.

《Basic delivery》
From a state in which the distribution server 21 is not connected to any of the wireless communication portable terminal devices 31, distribution requests from a plurality of wireless communication portable terminal devices 31 via the telecommunication network 41 including the mobile communication line and the wireless LAN. Will be described in order, and a basic procedure for delivering predetermined content data in an application layer multicast manner in a peer-to-peer manner will be described. FIG. 3 is a flowchart showing a basic distribution routine of the application layer multicast distribution method according to the embodiment of the invention. An example of content data is a live image such as a sports broadcast or a racing relay. When the distribution server 21 is activated and encoding of content data (stream data or the like) by the real-time encoder 11 is started, preparation for distribution is completed (step S1). Here, when the application software of the node 1.1 that is one of the plurality of wireless communication portable terminal devices 31 is activated (step S2), and a content data distribution request to the distribution server 21 is transmitted (step S2). S3) Along with the distribution request, the client ID, IP address, and node information of the node 1.1 are transmitted to the distribution server 21. The node information includes node carrier status data such as SIM carrier information, node movement speed using GPS signals, communication cutoff history, communication status, and line attributes.

  The distribution server 21 that has received the distribution request from the node 1.1 creates and stores an index table including the node ID (steps S4 to S5). The node ID of this node 1.1 is 1.1, for example. 1. The nodes 1.1 to 1. constituting the plurality of chains 1 to 7 shown on the right side of FIG. E, 2.1-2. E ... shows an example of the node ID, for example, the first number means the chain ID, and the next number means the order from the top in the chain. For example, the node 4.6 means the sixth wireless communication portable terminal device 31 in the chain 4 (the chain assigned to the low-quality content output port of the mobile line). The node ID assigned by the distribution server 21 is also transmitted to the node 1.1, and the node 1.1 acquires its own node ID (step S6). The own port in the index table in step S5 means the input / output port of the wireless communication portable terminal device 31, and the input ID is the device of the distribution source (device that distributes content data to the own device). ID means the output ID means the ID of the device of the distribution destination (the device to which the own device distributes the content data).

  The distribution server 21 performs carousel distribution of the created index table (step S7) and starts distribution of content data (step S8). The node 1.1 buffers the received content data in its own data buffer, and starts reproduction when receiving a reproducible data amount (step S9). The index table is periodically inserted into the content data to be distributed (for example, at intervals of 0.5 seconds) and distributed as a carousel (step S10). The node 1.1 that has received the index table receives the latest information of its own device. After the overwriting, if there is a subsequent node, it is transmitted to the subsequent node, and if there is no subsequent node, it is returned to the distribution server 21 (step S11).

  From the state of step S11, application software of node 1.2, which is a wireless communication portable terminal device 31 different from node 1.1, is activated (step S12), and a distribution request for content data to distribution server 21 is transmitted. Then (step S13), along with the distribution request, the client ID, IP address, and node information of the node 1.2 are transmitted to the distribution server 21. This node information also includes node status information such as SIM carrier information, node movement speed using GPS signals, communication cutoff history, communication status, and line attributes.

  The distribution server 21 that has received the distribution request from the node 1.2 creates and stores an index table including the node ID (steps S14 to S15). Strictly speaking, as shown in step S15, the information of the node 1.2 is added to the index table created in step S5. The node ID of this node 1.2 is 1.2, for example. The node ID assigned by the distribution server 21 is also transmitted to the node 1.2, and the node 1.2 acquires its own node ID (step S16). Note that the output ID of the node 1.1 in the index table in step S15 is updated to ID 1.2, and the input ID of the node 1.2 is set to ID 1.1. As a result, the node 1.2 receives the content data distributed to the node 1.1.

  The distribution server 21 distributes the created index table in a carousel (step S17). The node 1.1 continues the reproduction while buffering the received content data in its own data buffer, but the output ID of its own node 1.1 in the received index table is ID 1.2. Has been updated. Accordingly, the node 1.1 starts transmission of the buffered content data to the node 1.2 (step S18). The node 1.2 buffers the content data received from the node 1.1 in its own data buffer, and starts reproduction when it receives a reproducible data amount (step S19). In addition, the node 1.2 that has received the index table overwrites the latest information of its own device, and if there is a subsequent node, transmits it to the subsequent node, and returns to the distribution server 21 if there is no subsequent node (step S20).

  From the state of step 20, the application software of the nodes 1.3, 1.4,..., Which is a wireless communication portable terminal device 31 different from the nodes 1.1 and 1.2, is activated, and the content data to the distribution server 21 When the distribution request is transmitted, the same processing as that of the node 1.2 described above is executed, the content data buffered in the node 1.2 is received, and the content data that can be played back is received and played back. To start. In this way, a predetermined distribution server 21 is connected to a plurality of wireless communication portable terminal devices 31 (nodes 1.1 to 1.E) via a telecommunication network 41 including a mobile communication line and a wireless LAN. Content data can be distributed in an application layer multicast in a peer-to-peer manner.

  When application layer multicast distribution is performed in this peer-to-peer method, a plurality of nodes 1.1 to 1. E can be connected by a tree method or a mesh method. However, when a plurality of nodes are chain-connected as in the present embodiment, monitoring of each node becomes easier as compared to the case of connecting by a tree method or a mesh method. That is, when connected by the tree method or the mesh method, there are many connection routes, and the calculation load monitored by following these connection routes is large. On the other hand, in the chain method, it is only necessary to monitor a chain with a single route, so the monitoring load is reduced compared to the tree method and the mesh method. In addition, in the case of connection using the tree method or the mesh method, since the node of the own device is connected to a plurality of nodes, it becomes difficult to secure the line bandwidth in the wireless environment of the wireless communication portable terminal device 31. On the other hand, chain connection has the advantage that it is easy to secure the line bandwidth because there is one preceding node and one following node.

  Incidentally, as shown in FIG. 3, the distribution server 21 includes a plurality of (three in the figure) nodes 1.1,. When the distribution stop request is made from one or a plurality of nodes from the state where E is connected, the nodes subsequent to the node for which the distribution stop request has been made are reconnected and the distribution of the content data is performed. Will continue. For example, when a distribution stop request is transmitted from the first node 1.1 in FIG. 3 to the distribution server 21, the distribution server 21 deletes the information string related to the node 1.1 in the index table and the subsequent node Information indicating that the chain connection of 1.2 and node 1.3 is advanced to node 1.1 and node 1.2, respectively, is reflected in the index table, and is distributed to the nodes of the chain. Each node that has received the index table reads out the IP addresses of its own receiving destination node and distribution destination node based on its own client ID. Then, from the new receiving node, a data distribution request following the final data of the content data that has been received is transmitted and received from that portion. For a new delivery destination node, delivery is resumed from the part of the content data requested from the new delivery destination node.

  Further, distribution of content data between nodes is executed as follows. That is, each wireless communication portable terminal device 31 includes a data buffer for buffering received content data, and for example, content data of about 5 to 30 seconds is buffered. Therefore, even if the communication speed is reduced during the reproduction of the content data, the buffered content data exists and can be absorbed. However, if the buffering capacity is too large, the real-time difference from the actual scene becomes large, which is not preferable. On the other hand, if the buffering capacity is too small, the decrease in communication speed cannot be absorbed and problems such as image stop and image skipping occur. For this reason, the buffering capacity is moderate.

  Here, when a new node is connected to the chain-connected node (the preceding node is 1.1 and the newly connected node is 1.2), all of the buffered data in this way, That is, the transmission speed is increased stepwise to the newly connected node 1.2 until the preceding node 1.1 reaches the currently received data position. In this case, the newly connected node 1.2 detects the error value of the received content data (packet error of the received content data) and transmits the error value to the preceding node 1.1. 1.1, when the error value exceeds a predetermined error threshold, stop increasing the transmission speed of the content data, and reverse until the error value of the newly connected node 1.2 becomes equal to or lower than the predetermined error threshold. Decelerate gradually. The transmission rate of the content data is increased in GOP (Group of Picture) units or packet units. Thereby, the newly connected wireless communication portable terminal device 31 can not only reproduce in a short time, but can catch up with the currently received data position in a short time. When the transmission speed is increased stepwise to the newly connected node 1.2, the newly connected node 1.2 determines the communication speed of the received content data. Detecting and transmitting the communication speed to the preceding node 1.1. When the communication speed falls below a predetermined speed threshold, the preceding node 1.1 stops increasing the transmission speed of the content data and newly connects. Conversely, the speed may be gradually reduced until the error value of the node 1.2 becomes equal to or higher than a predetermined speed threshold.

  When transmitting content data from the preceding node 1.1 to the newly connected node 1.2, the preceding node 1.1 stops increasing the transmission speed of the content data and switches to deceleration. When the communication state of the node 1.2 does not correspond to the bit rate of the chain, the distribution server 21 switches the newly connected node 1.2 to a chain with a bit rate corresponding to the communication state. Control. In this chain switching control, when the communication state of the newly connected node 1.2 is good, the communication state of the newly connected node 1.2 is not good. In some cases, switching to a lower quality chain is also included. Then, the newly connected node 1.2 starts reproduction of the content data when a reproducible amount of content data is accumulated in its own data buffer.

  Incidentally, each wireless communication portable terminal device 31 has a retransmission control function for transmitting a retransmission request when a packet error occurs when content data is received from a preceding node. That is, the succeeding node transmits a retransmission request for the packet or GOP data to which the packet belongs to the preceding node. When the preceding node receives this retransmission request from the subsequent node, it transmits the requested packet or GOP data to which the packet belongs to the subsequent node. Here, if the retransmission request from the succeeding node is delayed in time and the request packet or the request GOP data does not remain in the preceding node (for example, when the next content data is overwritten in the data buffer), the preceding request A similar retransmission request is transmitted to the node before the node. This retransmission request is made retroactively to the node where the request packet or request GOP data remains. If there is no request packet or request GOP data remaining in all preceding nodes constituting the chain, a retransmission request is transmitted to the distribution server 21.

  In addition, as described above, a packet error occurs in the wireless communication portable terminal device 31, a retransmission request for the packet or GOP data to which the packet belongs is transmitted to the preceding node, and the packet or the packet newly belongs. Even if the configuration is such that GOP data is received, for example, when the number of packet errors is too large, it takes too much time to receive a retransmission request and receive it, which may affect subsequent nodes. As a countermeasure in such a case, sorting (rearrangement, rearrangement of the order) of the nodes of the chain may be performed. That is, each wireless communication portable terminal device 31 writes the number of packet errors of its own device in the index table that is distributed in the data carousel. The distribution server 21 determines the data of the number of packet errors in the index table, and connects from the top of the chain in ascending order of the number of packet errors. That is, a node with a larger number of packet errors is connected to a position closer to the end. By doing so, the influence on the subsequent node can be suppressed to the minimum.

《Limiting the number of nodes in chain connection》
In the present embodiment, when the application layer multicast distribution is performed by the peer-to-peer method, the plurality of nodes 1.1 to 1. Although E is chain-connected, the number of nodes to be chain-connected is not infinite but finite. FIG. 4 is a flowchart showing a processing procedure in the distribution server 21 regarding the finite number of nodes in chain connection. That is, when the distribution server 21 receives a distribution request from a new node, the distribution server 21 determines whether or not the communication state of the last node of the current chain is equal to or greater than a predetermined threshold (step S41). If the communication state is equal to or higher than the predetermined communication state threshold (good), the chain connection is made at the end of the chain (step S42), but the communication state of the last node is less than the predetermined communication state threshold (bad). If there is, it does not connect to that chain, but directly connects to the head of the new chain, that is, another output port of the distribution server 21 (step S43).

  The communication state of the last node of each chain is monitored, and if the communication state is not good, the distribution server 21 directly distributes the other chain through another chain, thereby distributing to the node that requested the most recent distribution and subsequent nodes. Quality is improved. Note that the communication state of the wireless communication portable terminal device 31 (node) indicates the number of data per unit time received by the wireless communication portable terminal device 31 and / or an error in the data received by the wireless communication portable terminal device 31. Based on the value, the wireless communication portable terminal device 31 detects it, and transmits it to the distribution server 21 by writing it directly and in the index table. Alternatively, the distribution server 21 may detect the communication state of the wireless communication portable terminal device 31 (node) based on a ripple coefficient described later. The ripple coefficient will be described later.

<< Chain selection based on communication bandwidth and attributes of lines and optimization of content data to be distributed >>
In the present embodiment, when application layer multicast distribution is performed by a peer-to-peer method, the distribution of content data is optimized. FIG. 5 is a flowchart showing a processing procedure in the distribution server 21 regarding chain selection based on the communication band and attribute of the line and optimization of the content data to be distributed. That is, when there is a delivery request from any of the wireless communication portable terminal devices 31 to the delivery server 21, regardless of whether the timing of the content data is being delivered or is not being delivered (that is, some chains are already connected) The wireless communication portable terminal device 31 detects the line attribute of the mobile line or the wireless LAN and transmits it to the distribution server 21 (step S51). The communication band of the telecommunication network 41 (mobile line, wireless LAN) is detected (step S52). The distribution server 21 selects a chain group corresponding to the detected line attribute, selects a chain with a bit rate corresponding to the detected communication band, and connects to the tail of the chain (step S53). . In the example shown in FIG. 1, when the detected line attribute is a wireless LAN and the communication band is large, a chain 5 is assigned, the detected line attribute is a mobile line, and the communication band is medium. If so, chain 3 is allocated.

  When the wireless communication portable terminal device 31 is chain connected to the tail of the selected chain, the content data of the bit rate corresponding to the chain is distributed from the preceding wireless communication portable terminal device 31 (step S54). In the example shown in FIG. 1, when the detected line attribute is a wireless LAN and the communication band is large, the chain 5 is assigned, so that high-quality content data of 1 Mbps is distributed. Similarly, when the detected line attribute is a mobile line and the communication band is medium, chain 3 is allocated, so that 600 bps of medium-quality content data is distributed.

  Since the client of the present embodiment is the wireless communication portable terminal device 31, the communication state varies from moment to moment with movement. For this reason, a decrease in the communication state of the own device affects distribution to not only the own device but also to subsequent nodes. In the present embodiment, first, basically, the line attribute and communication state distributed from the distribution server 21 are changed. On the basis of this, since an appropriate chain is selected from a plurality of prepared chains, and content data of a bit rate corresponding to the selected chain is distributed, it is possible to obviate a playback defect such as image pause or image skip in the wireless communication portable terminal device 31. Can be prevented.

<Node monitoring and node switching control>
When the wireless communication portable terminal device 31 transmits a distribution request, as described above, the optimum chain connection according to the communication state at that time is executed. However, as described above, since the client of the present embodiment is the wireless communication portable terminal device 31, the communication state fluctuates from moment to moment with movement even during distribution. For this reason, even after connection, the communication state of the wireless communication portable terminal device 31 is monitored, and control is performed to switch the content data of a chain and thus different bit rates according to the communication state. Specifically, the node monitoring and the node switching control are executed by updating the index table. FIG. 6 is a flowchart showing processing procedures in the distribution server 21 and the wireless communication portable terminal device 31 (node n) regarding node monitoring and node switching control.

  First, the distribution server 21 acquires information from each wireless communication portable terminal device 31 connected to each chain, creates an index table, and performs carousel distribution to these wireless communication portable terminal devices 31 (step S61). Each wireless communication portable terminal device 31 connected to each chain detects its own communication state (step S62), and updates the index table that is distributed by carousel at a predetermined time interval, including the communication state. (Step S63). Note that the communication state of the wireless communication portable terminal device 31 (node) indicates the number of data per unit time received by the wireless communication portable terminal device 31 and / or an error in the data received by the wireless communication portable terminal device 31. Based on the value, the wireless communication portable terminal device 31 detects. Alternatively, a ripple coefficient described later may be used instead. Next, when the distribution server 21 receives the index table returned by the carousel distribution (step S64), the distribution server 21 determines a change in the communication state of each wireless communication portable terminal device 31 (node n) (step S65). Specifically, it is determined whether the communication state is less than a predetermined communication state threshold. Alternatively, the communication speed is determined instead.

  At this time, when the communication state of each wireless communication portable terminal device 31 is equal to or greater than a predetermined communication state threshold, that is, when the communication state is good, the ID of the reception source and transmission destination of the index table is maintained. Alternatively, when the communication speed of each wireless communication portable terminal device 31 is not changed, the ID of the reception source and the transmission destination of the index table is maintained.

  On the other hand, when the distribution server 21 confirms the presence of the wireless communication portable terminal device 31 whose communication state is less than a predetermined communication state threshold (for example, a state where communication is cut off or close to this) by the index table, The wireless communication portable terminal device 31 having a poor communication state is removed from the chain, and the wireless communication portable terminal devices 31 before and after that are connected. For this reason, the wireless communication portable terminal device 31 in which the communication state is inferior is deleted from the index table, the transmission destination ID (including the IP address) of the wireless communication portable terminal device 31 immediately before it, and the wireless immediately after that The ID (including the IP address) of the reception source of the communication portable terminal device 31 is rewritten (step S66). When the index table rewritten in step S66 is delivered to the chain by carousel (step S67), each wireless communication portable terminal device 31 confirms the ID of the reception source and the ID of the transmission destination, and has been changed. Transmits / receives content data to / from the wireless communication portable terminal device 31 after the change (step S68). When the wireless communication portable terminal device 31 detects whether the communication state of the own device is good and the communication state is less than a predetermined communication state threshold, the wireless communication portable terminal device 31 voluntarily sends it to the distribution server 21. By transmitting a withdrawal request from the chain, the node may be changed to another chain suitable for the communication state or may be changed to an idle mode described later.

  Thus, the communication state of each wireless communication portable terminal device 31 is monitored at a predetermined time interval (for example, 0.5 seconds), and if a communication failure occurs, the communication of the wireless communication portable terminal device 31 before and after that is adversely affected. So that the wireless communication portable terminal device 31 with poor communication is disconnected and the wireless communication portable terminal device 31 before and after that is reconnected, the content data delivered to the subsequent wireless communication portable terminal device 31 is interrupted, It is possible to suppress playback problems such as image pause and image skipping.

  In step S65, when the presence of the wireless communication portable terminal device 31 whose communication speed is slower or faster than before is confirmed, it is disconnected from the current chain and connected to the tail of the chain according to the communication speed. Also good. For example, in FIG. 1, the node 1.3 is connected to the third mobile line chain 1 (high image quality), but when the communication speed decreases, the node 1.3 is disconnected from the chain 1 and the same mobile line chain 3 (medium Image quality) or chain 4 (low image quality). In this way, content data corresponding to the communication speed of the wireless communication portable terminal device 31 can be received. On the contrary, in FIG. 1, the node 4.3 is connected to the third mobile line chain 4 (low image quality), but when the communication speed increases, the node 4.3 is disconnected from the chain 4 and the same mobile line chain 1 or Connect to the end of 2 (high image quality) or chain 3 (medium image quality). In this way, content data corresponding to the communication speed of the wireless communication portable terminal device 31 can be received.

  FIG. 7 is a flowchart showing another processing procedure in the distribution server 21 and the wireless communication portable terminal device 31 (node n) regarding node monitoring and node switching control. At this time, it is assumed that three nodes are chain-connected to one chain of the distribution server 21 and the content data is multicast distributed by the peer-to-peer method (step S71). Here, if any communication failure occurs in the node 1.1 and the node 1.2 detects that the content data and the index table are not distributed to the subsequent node 1.2 (step S72, specifically, the carousel). If it has not been received even when the distribution interval of 0.5 seconds has expired), the node 1.2 transmits an inquiry request for the status of the node 1.1 to the distribution server 21 (step 73). Until the distribution server 21 updates the index table, the node 1.2 reproduces the content data that has been buffered until then (step S75), and maintains the subsequent session with the node 1.3 (step S75). Step S76). Subsequent node 1.3 reproduces the content data buffered in its own data buffer (step S77).

  Upon receiving the communication failure signal of node 1.1 transmitted from node 1.2 in step 73, distribution server 21 transmits a connection response command to node 1.1 to determine whether it is connected to the chain. To detect. If the node 1.1 is not connected to the chain, the index table is rewritten as shown in step S74. That is, the node 1.1 determined to have a communication failure is removed from the chain, and the nodes 1.2 and 1.3 are shifted to the nodes 1.1 and 1.2, respectively. Therefore, as shown in the index table of step S74, each data is rewritten and transmitted to the node 1.2 (step 78). The node 1.2 confirms that the reception source is changed to the distribution server 21 based on the rewritten index table, and receives the content data from the distribution server 21. At this time, the node 1.2 stores the final position of the content data distributed from the node 1.1 and buffered in its own data buffer, and the reception source is switched to the distribution server 21. The content data that is sometimes received is from a position that continues to its final position.

《Idle mode》
In this embodiment, since the wireless communication portable terminal device 31 is used, communication with the connected node is completely interrupted due to the influence of the communication environment, or the line quality is remarkably lower than the content distribution method using the wired line. Sometimes it gets worse. Therefore, in order to suppress an increase in the frequency of influence from the own node to the succeeding node, when the own node's line condition is extremely bad, the own node is removed from the chain and the influence is not propagated to the succeeding node. Set to mode. FIG. 8 is a flowchart showing a processing procedure in the distribution server 21 and the wireless communication portable terminal device 31 (node n) regarding the idle mode.

  When a plurality of wireless communication portable terminal devices 31 (nodes) are chain-connected and predetermined content data is multicast distributed to each node, each node detects its own communication state and overwrites it in the index table The data is transmitted directly to the distribution server 21 or distributed to the subsequent nodes. The distribution server 21 determines whether or not the communication state of each node is equal to or greater than a predetermined communication state threshold (step S81), and repeats step S81 if there is no problem in the communication state above the predetermined communication state threshold. On the other hand, if there is a node whose communication state is less than the predetermined communication state threshold value, the process proceeds to step S82, and a node having a bad communication state is temporarily changed to the end of the chain. If the communication state does not become equal to or higher than the predetermined communication state threshold value even after the predetermined time has elapsed, the chain is temporarily removed from the chain (step S82). Detachment from the chain is due to the deletion of the information of the node by the index table and the rewriting process of information that sequentially advances the subsequent nodes as described above. Thereby, the malfunction that content data is not delivered to the node following a node with a bad communication state can be suppressed. In step S82, a node having a bad communication state is temporarily changed to the end of the chain, and when the communication state recovers to a predetermined communication state threshold or more by a predetermined time, the connection at the end To maintain.

  On the other hand, a node with a bad communication state that has been temporarily disconnected detects the communication state periodically and transmits it to the distribution server 21 in the same manner as the carousel distribution interval in the index table. The distribution server 21 determines whether or not the communication state of the node is equal to or higher than a predetermined communication state threshold (step S83), and when the communication state of the node returns to the predetermined communication state threshold or higher again, the distribution server 21 ends the chain. Are chain-connected (step S84). In step S83, if the communication state of the node is less than the predetermined communication state threshold, step S83 is repeated. In the embodiment of the idle mode shown in FIG. 8, steps S81, S82, and S85 may be omitted, and when the communication state of the node is less than a predetermined communication state threshold value, it may be removed directly from the chain.

<Detection of communication status by ripple factor>
As described above, according to the application layer multicast delivery method of the present embodiment, when any communication state of the chained wireless communication portable terminal device 31 becomes defective, the content to the subsequent wireless communication portable terminal device 31 is reduced. Data distribution becomes impossible. When a packet error occurs in the received content data due to a poor communication state, the wireless communication portable terminal device 31 retransmits the packet in which the packet error occurred or the GOP data to which the packet belongs, to the preceding wireless communication portable terminal. A request is made to the device 31 or the distribution server 21. This is because GOP data is not established if playback is performed with a packet error remaining, so that playback image skipping called GOP skip occurs and the quality of the playback image deteriorates.

  When such a GOP skip occurs, a GOP skip occurs in all the nodes subsequent to that node. To prevent this, the wireless communication portable terminal device 31 in which the packet error has occurred as described above is not allowed to receive the preceding node or distribution. A retransmission request for the packet or GOP data to which the packet belongs is transmitted to the server 21 to compensate for the packet error.

  In the application layer multicast distribution method of the present embodiment, as a GOP skip monitoring method, the number of GOP skips occurring at each node is counted, and this is written in the index table as the number of GOP skips at each node. The index table is returned to the distribution server 21. For example, if a GOP skip occurs for a GOP length of 0.5 seconds, an index table carousel distribution interval of 0.5 seconds, and a second of 2 seconds, “0” is written while the GOP skip occurs, and normal When GOP data is received, “4” (= 2 seconds / 0.5 seconds) is written. Then, the distribution server 21 monitors the GOP skip of each node.

  In this case, in the application layer multicast delivery method of the present embodiment, the wireless communication portable terminal device 31 quantitatively grasps how much the GOP skip has spread to the nodes constituting the chain based on the value defined as the ripple coefficient. It is used for detecting the communication status of the network, resetting the chain, and restructuring.

  The ripple coefficient according to the present embodiment is M for the maximum number of GOP skips generated in each wireless communication portable terminal device 31 connected to one chain, and in all the wireless communication portable terminal devices 31 connected to the one chain. It is defined by T / M, where T is the total number of generated GOP skips. Although there is no particular limitation, for example, when the ripple coefficient> 1, it is judged that there is a ripple to the plurality of nodes, and when the ripple coefficient is 0 or 1, the ripple to the plurality of nodes is judged as “none”. To do.

  When four GOP skips occur in one wireless communication portable terminal device 31 (2 seconds if the GOP length is 0.5 seconds), the maximum number of GOP skips M = 4 and the total number T of GOP skips T = 4, the ripple coefficient is 4/4 = 1. In this example, a GOP skip occurs only in one wireless communication portable terminal device 31 and does not spread to other wireless communication portable terminal devices 31, so the spread to a plurality of nodes is “none”. On the other hand, one GOP skip occurs in one wireless communication portable terminal device 31 (0.5 seconds if the GOP length is 0.5 seconds), and the subsequent three wireless communication portable terminals When one GOP skip occurs in each of the devices 31, the maximum GOP skip number M = 1 and the total number of GOP skips T = 4. Therefore, the ripple coefficient is 4/1 = 4. In this example, since the GOP skip of one preceding wireless communication portable terminal device 31 has spread to the three subsequent wireless communication portable terminal devices 31, the spread to a plurality of nodes is “present”.

  The above-described ripple coefficient is used when detecting the communication state of the wireless communication portable terminal device 31 in step S41 of FIG. 4, step S62 of FIG. 6, steps S81, S83, S86 of FIG. For example, when the ripple coefficient is 0 or 1, it is determined that the communication state is equal to or greater than a predetermined communication state threshold (good), and when the ripple coefficient exceeds 1, the communication state is a predetermined communication state threshold. Judged as less than (bad). Further, when a plurality of wireless communication portable terminal devices 31 are chain-connected, the distribution server 21 calculates a ripple coefficient at a predetermined time interval (for example, 0.5 seconds), and the ripple coefficient is a predetermined reset threshold value. (If, for example, 1 described above) is exceeded, the wireless communication portable terminal device 31 that has been connected to the chain and in which at least GOP skip has occurred is removed from the chain (chain reset), and then each wireless communication portable terminal device You may make it reconnect to the chain according to the communication state of 31. Moreover, since an increase in the chain leads to an increase in the load on the distribution server 21, it is desirable to minimize the number of chains as much as possible. Therefore, when the ripple coefficient of the chain including the reconnected wireless communication portable terminal device 31 is restored to a predetermined reset threshold value or less, the reconnected wireless communication portable terminal device 31 is reconnected to the original chain. May be.

<Node distribution server>
The distribution server 21 of the above-described embodiment is configured by a stationary computer, and the content data is distributed only from the distribution server 21. In addition to or instead of this, the wireless communication portable terminal device 31 configuring each node. The device itself may function as the distribution server 21. This embodiment will be described. FIG. 9 is a block diagram showing a content distribution system (a node distribution server) realizing an application layer multicast distribution method according to another embodiment of the invention, and FIG. 10 is an index in the content distribution system of FIG. It is a figure explaining the carousel delivery of a table (carousel data).

  As shown in FIG. 9, in this embodiment, node 1 (wireless communication portable terminal device 31) to node n (wireless communication portable terminal device 31) are chain-connected. The own device information acquired by the sensor is uploaded to the currently connected chain, and is distributed to the subsequent nodes 2 to n in the application layer multicast manner by the peer-to-peer method. In this case, only the own device information may be distributed to the chain by the application layer multicast, or the own device information may be distributed in addition to the content distributed from the main distribution server 21 by the application layer multicast.

  In the embodiment shown in FIG. 9, in the case where distribution is performed by adding own device information to the content distributed from the distribution server 21 to the application layer multicast, the distribution server 21 transmits the ID, IP address, and communication of each node 1 to node n. The information including the status is added to the above-described own device information acquired by the camera or GPS sensor of the own device, and an index table including the information is generated, and the index table is periodically included in the content data. Carousel delivery. Then, the distribution server 21 updates the index table returned from the last node n of each chain or an arbitrary node. At this time, as shown in FIG. 10, the index table is accumulated in a time series at predetermined time intervals. It may be recorded. By doing this, for example, when the own device information of each node 1 to n is a video taken by the camera, the time series information of each node 1 to n is viewed vertically, so that the continuous still image of each node Playback (motion information such as motion JPEG). Note that the image quality, frame rate, and the like of the own device information of each of the nodes 1 to n are determined by the index data capacity or the data carousel distribution interval.

DESCRIPTION OF SYMBOLS 1 ... Content distribution system 11 ... Real-time encoder 21 ... Distribution server 31 ... Wireless communication portable terminal device 41 ... Telecommunications network

Claims (28)

A method for multicast distribution of predetermined content data in a peer-to-peer manner from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN,
The distribution server distributes the predetermined content data to a wireless communication portable terminal device that has transmitted a distribution request first from a state in which the distribution server is not connected to any wireless communication portable terminal device,
The distribution server chain-connects the wireless communication portable terminal devices as a first chain in the order in which the distribution request is subsequently transmitted,
Between the wireless communication portable terminal devices connected in the chain, the predetermined content data is distributed in an application layer by the peer-to-peer method,
When the communication state of the last wireless communication portable terminal device of the first chain is less than a predetermined communication state threshold, the distribution server sends another distribution communication request to the next wireless communication portable terminal device And delivering the predetermined content data as a second chain different from the first chain,
The distribution server chain-connects the wireless communication portable terminal devices as the second chain in the order in which the distribution request is transmitted thereafter,
An application layer multicast distribution method for delivering the predetermined content data between the chain-connected wireless communication portable terminal devices by the peer-to-peer method. The distribution server acquires a plurality of content data encoded at a plurality of different bit rates,
The application layer multicast distribution method according to claim 1, wherein one or a plurality of chains are assigned to an output port for each bit rate of the content data, and a plurality of chains are prepared.   The application layer multicast distribution according to claim 2, wherein the plurality of chains include a chain group for distributing the content data via the mobile communication line and a chain group for distributing the content data via the wireless LAN. Method.   4. The application layer multicast distribution method according to claim 2, wherein the distribution server detects a communication band of the telecommunications network and switches and controls a chain of bit rates corresponding to the detected communication band. The wireless communication portable terminal device detects a communication state of its own device when transmitting a distribution request or while being connected to the distribution server or a preceding wireless communication portable terminal device, and a chain of a bit rate corresponding to the communication state. A connection request to the distribution server,
The distribution server disconnects the wireless communication portable terminal device that has transmitted the connection request from the chain that is being connected, and connects the wireless communication portable terminal device to the tail of the chain at a bit rate according to the communication state. The application layer multicast delivery method according to claim 1.   The communication state of the wireless communication portable terminal device is detected based on the number of data per unit time received by the wireless communication portable terminal device and / or an error value of data received by the wireless communication portable terminal device. Item 6. The application layer multicast delivery method according to any one of Items 1 to 5.   The communication state of the wireless communication portable terminal device is M for the maximum GOP skip number generated in each wireless communication portable terminal device connected to one chain, and for all wireless communication portable terminal devices connected to the one chain. The application layer multicast delivery method according to any one of claims 1 to 5, wherein detection is performed based on a propagation coefficient defined by T / M, where T is the total number of generated GOP skips.   When the ripple coefficient exceeds a predetermined reset threshold, each wireless communication portable terminal device connected to the one chain and having at least a GOP skip has been removed from the chain. The application layer multicast delivery method according to claim 7, wherein the connection is reconnected to the chain according to the communication state.   9. The reconnected wireless communication portable terminal device is connected to the original chain when a ripple coefficient of the chain including the reconnected wireless communication portable terminal device is equal to or less than the predetermined reset threshold. Application layer multicast delivery method. When a packet error occurs in the received content data, the wireless communication portable terminal device sends a retransmission request for the packet in which the error has occurred or GOP data to which the packet belongs to the GOP to which the error has occurred or to which the packet belongs. Transmitting to the preceding wireless communication terminal device or the distribution server holding the data,
The wireless communication terminal device or the distribution server that has received the retransmission request distributes the packet in which the error has occurred or GOP data to which the packet belongs to the wireless communication mobile terminal device that has transmitted the retransmission request. The application layer multicast delivery method according to any one of 6 to 9. The distribution server acquires the number of packet errors of wireless communication mobile terminal devices connected to one chain at predetermined time intervals,
The application layer multicast delivery method according to claim 10, wherein the order of the wireless communication portable terminal devices connected to the one chain is switched in ascending order of the number of packet errors. When at least one wireless communication portable terminal device is chain-connected to one chain and another wireless communication portable terminal device is chain-connected, the wireless communication immediately before the other wireless communication portable terminal device When the content data is stored in the data buffer of the mobile terminal device,
The immediately preceding wireless communication portable terminal device has the transmission rate of the content data stored in the data buffer with respect to the other wireless communication portable terminal device until the current reception data position of the own device is reached. Speed up and send,
The other wireless communication portable terminal device detects an error value or communication speed of content data received from the immediately preceding wireless communication portable terminal device, and transmits the error value to the immediately preceding wireless communication portable terminal device,
If the error value received from the other wireless communication portable terminal device exceeds a predetermined error threshold or the communication speed is less than a predetermined speed threshold, the error value is The application according to any one of claims 1 to 11, wherein the transmission speed of the content data is gradually reduced until the communication speed becomes equal to or higher than the predetermined speed threshold until the communication speed becomes equal to or lower than the predetermined error threshold. Layer multicast delivery method. When the communication state of the other wireless communication portable terminal device when the immediately preceding wireless communication portable terminal device switches the transmission speed of the content data from acceleration to deceleration does not correspond to the bit rate of the chain ,
13. The application layer multicast distribution method according to claim 12, wherein the distribution server switches the other wireless communication portable terminal device to a chain having a bit rate corresponding to the communication state.   14. The application layer multicast distribution method according to claim 12 or 13, wherein the wireless communication portable terminal device immediately after the start of reproduction of the content data is started when a reproducible amount of content data is accumulated in the data buffer of the device itself. When the wireless communication portable terminal device leaves the current chain and is connected to another chain,
The wireless communication portable terminal device stores the position of the content that has been received in the current chain, and when connected to the other chain, the wireless communication portable terminal device immediately before the other chain, The application layer multicast delivery method according to any one of claims 2 to 14, wherein a transmission request for continuous content is made at the location of the content for which reception has been completed. A method for multicast distribution of predetermined content data in a peer-to-peer manner from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN,
When the distribution server receives a distribution request from the wireless communication portable terminal device and at a predetermined time interval, the ID, IP address, communication state of the wireless communication portable terminal device, and information acquired by the information acquisition device of the own device And generating or updating an index table including these pieces of information ,
The distribution server periodically includes the index table in the content data for the chain in which the wireless communication portable terminal device that transmitted the distribution request is chain-connected, and distributes the data carousel,
Each wireless communication portable terminal device constituting the chain uses the received index table or requests the distribution server to obtain information on IDs of the immediately preceding wireless communication portable terminal device and the immediately following wireless communication portable terminal device, and Rua application layer multicast distribution method to obtain information of an IP address. Each wireless communication portable terminal device constituting the chain updates the received index table by overwriting the current communication state of its own device, and transmits it to the immediately following wireless communication portable terminal device,
The application layer multicast distribution method according to claim 16 , wherein a final wireless communication portable terminal device among the wireless communication portable terminal devices constituting the chain transmits an updated index table to the distribution server. The distribution server accumulates and records information included in the received index table in time series,
The application layer multicast distribution method according to claim 17 , wherein the wireless communication portable terminal device reads and browses information stored and recorded in the time series in the distribution server in time series. The application according to claim 16 , wherein each wireless communication portable terminal device constituting the chain updates the received index table by overwriting a current communication state of the own device, and transmits the updated index table to the distribution server. Layer multicast delivery method. When any of the wireless communication portable terminal devices constituting the chain transmits a distribution stop request to the distribution server, and the distribution server receives the distribution stop request,
The distribution server deletes the wireless communication portable terminal device that has transmitted the distribution stop request and reflects the information that advances the chain connection of the subsequent wireless communication portable terminal device in the index table. The application layer multicast distribution method according to any one of claims 16 to 19 , wherein the index table is distributed in a data carousel. The wireless communication portable terminal device or distribution server immediately before the wireless communication portable terminal device that transmitted the distribution stop request reads the IP address information of the newly succeeding wireless communication portable terminal device from the index table that has been distributed by the data carousel. 21. The application layer multicast delivery method according to claim 20 , wherein the content data is transmitted to the IP address. Among the wireless communication portable terminal devices constituting the chain, the wireless communication portable terminal device following any one of the wireless communication portable terminal devices receives the content data or the index table transmitted from the immediately preceding wireless communication portable terminal device. If you can't
The subsequent wireless communication portable terminal device transmits an inquiry request for the communication state of the immediately preceding wireless communication portable terminal device to the distribution server,
The distribution server detects whether or not connected to the chain by transmitting a connection response command to the immediately preceding wireless communication portable terminal device,
When the distribution server detects that the immediately preceding wireless communication portable terminal device is not connected to the chain, the wireless communication portable terminal to be reconnected to the one or more subsequent wireless communication portable terminal devices Send the device IP address,
The subsequent one or more wireless communication portable terminal device to exchange IP addresses between the wireless communication portable terminal to reconnect the received any one of claims 16 to 21 for receiving the contents data The application layer multicast delivery method according to Item. When the wireless communication portable terminal device is connected to another wireless communication portable terminal device from the immediately preceding wireless communication portable terminal device,
The wireless communication portable terminal device stores the position of content that has been received from the immediately preceding wireless communication portable terminal device, and when connected to the other wireless communication portable terminal device, the other wireless communication portable terminal device The application layer multicast delivery method according to any one of claims 16 to 22 , wherein a transmission request for content that is continuous at a position of the content for which reception has been completed is made to a device. A method for multicast distribution of predetermined content data in a peer-to-peer manner from a single distribution server to a plurality of wireless communication portable terminal devices via a telecommunication network including a mobile communication line and a wireless LAN,
The distribution server distributes the predetermined content data to a wireless communication portable terminal device that has transmitted a distribution request first from a state in which the distribution server is not connected to any wireless communication portable terminal device,
The distribution server chain-connects the wireless communication portable terminal devices as a first chain in the order in which a distribution request is subsequently transmitted, and the predetermined content is transmitted between the chained wireless communication portable terminal devices by the peer-to-peer method. Deliver data to application layer multicast,
The wireless communication portable terminal device connected in the chain detects the communication state of the own device during the chain connection, and when the communication state of the own device is less than a predetermined connection threshold, the distribution server temporarily Send a request to leave,
An application layer multicast distribution method in which the distribution server temporarily leaves the wireless communication portable terminal device that has transmitted the request to leave the chain temporarily from the chain. The wireless communication portable terminal device that has temporarily left the chain transmits a distribution request again to the distribution server when the communication state of the own device recovers to the predetermined connection threshold or more,
25. The application layer multicast distribution method according to claim 24 , wherein the distribution server connects the wireless communication portable terminal device that has transmitted the distribution request to the tail of a chain according to a communication state of the wireless communication portable terminal device. The distribution server, a wireless communication portable terminal device that transmitted the temporary request to leave the chain prior to temporarily disengaged from the chain, according to connect the wireless communication portable terminal to the end of the chain Item 26. The application layer multicast delivery method according to Item 24 or 25 . Communication state of the wireless communication portable terminal device, the number of data per unit time that the wireless communication portable terminal device receives, and / or, according to the wireless communication portable terminal device is detected based on the error value of the received data Item 27. The application layer multicast delivery method according to any one of Items 24 to 26 . The communication state of the wireless communication portable terminal device is M for the maximum GOP skip number generated in each wireless communication portable terminal device connected to one chain, and for all wireless communication portable terminal devices connected to the one chain. 27. The application layer multicast distribution method according to any one of claims 24 to 26 , wherein detection is performed based on a propagation coefficient defined by T / M, where T is the total number of generated GOP skips.

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