JP2012213057A - Failure analysis system, failure analysis device, reception device, failure analysis method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To quickly specify a failure location at which a failure occurs when abnormality occurs in data distribution through a network.SOLUTION: A failure analysis device 10 periodically collects connection information from each device configuring video provider equipment 20 and each device configuring communication NW equipment 30. A video reception device 41 receives a video signal from a video server 21 and performs FEC decoding. The video reception device 41 transmits evaluation basis excess notification to the failure analysis device 10 when it is determined that errors generated in performing the FEC decoding exceed an evaluation basis shown by evaluation basis data acquired in advance. The failure analysis device 10 reads out a distribution route of the video reception device 41 specified by node identification information shown by the received evaluation basis excess notification, and specifies a failure location from a device on the read out distribution route or channel commonality shown by the evaluation basis excess notification.

Description

  The present invention relates to a failure analysis system, failure analysis device, reception device, failure analysis method and program in data distribution.

  Video content distribution via an IP network video distribution network, such as IP (Internet Protocol) redistribution of terrestrial digital broadcasting and provision of IP multi-CH (channel) broadcasting, is performed. For example, FEC (Forward Error Correction) is available as a technique for preventing deterioration of video quality of distributed video content. By using FEC, data errors can be detected and corrected on the data receiving side, so if there is a small amount of packet loss, video content errors such as STB (Set Top Box) are corrected. Is possible. In addition, in the video distribution network, it is possible to distribute video content according to an allowable video quality by using priority control by QoS (Quality of Service) technology.

  On the other hand, Japanese Patent Application Laid-Open No. 2004-228561 describes that a video quality measurement based on information obtained from a video data receiving device is performed in a transmission device that distributes video data via an IP network. In Patent Document 2, a packet for video communication is distributed via a packet network, and a server connected to a receiver determines the transfer quality of a node on a communication path based on the packet transfer quality in the receiver. It is described to control.

JP 2010-98441 A JP 2011-10238 A

With the diversification and complexity of user premises equipment, the number of failure points related to distribution of video content increases, and the location of the failure is on the video provider side, the telecommunications carrier side, or the user It has become difficult to quickly isolate what is on the side.
For example, a failure of a communication device constituting the video distribution network can be detected by a monitoring protocol such as SNMP (Simple Network Management Protocol). However, if a silent failure that cannot be detected or notified in the communication device has occurred, or if a temporary packet loss has occurred due to congestion or excess bandwidth, failure detection by SNMP cannot be performed. Therefore, the discovery of these events can only rely on a report from the user that there is a problem with the reception quality of the video content.

On the other hand, as described above, the communication devices constituting the video distribution network classify the network quality into top priority, priority, best effort, etc. by QoS technology, and the video quality that the video content allows for each video content packet. Transfer with network quality according to In other words, the permissible range of packet loss due to congestion or excess bandwidth varies depending on the network quality. However, it is difficult for the user to understand this network quality, perform video quality evaluation of video content according to the network quality, and determine whether an abnormality to be reported has occurred.
For these reasons, even if there is a report from the user, it is not possible to quickly determine whether a breakdown has actually occurred from that report or to quickly identify the failure location It is difficult, and it is impossible to specify the fault range where the fault location cannot be specified.

  However, the technique described in Patent Document 1 estimates video quality in a video data receiving apparatus, and does not determine a location where a failure has occurred. The technique described in Patent Document 2 controls the transfer quality of a packet for distributing video content, and does not determine the location where a failure has occurred.

  The present invention has been made in view of such circumstances, and its purpose is to quickly identify a location where a failure has occurred when an abnormality occurs in data distribution via a network. A failure analysis system, a failure analysis device, a reception device, a failure analysis method, and a program are provided.

  In order to solve the above problems, the present invention is a failure analysis system comprising a network configured by a communication device and routing data distributed from a data distribution device to a reception device, and a failure analysis device connected to the network. The receiving device includes a data processing unit that receives data distributed from the data distribution device via the network, an output unit that outputs the data received by the data processing unit, and the data processing unit. When an error due to packet loss occurs in reception of the data in the above, an error occurs to notify the analysis device of an error occurrence notification in which node identification information for specifying the receiving device and data identification information for specifying the data are set And the failure analysis device stores configuration information indicating a configuration of the network. Reading the node identification information and the data identification information from the error occurrence notification received by the network information storage unit, the error occurrence notification receiving unit that receives the error occurrence notification from the receiving device, and the error occurrence notification receiving unit; For each of the read node identification information, the data distribution path of the receiving device specified by the node identification information is read from the configuration information stored in the network information storage unit, and the data distribution path common to the read data distribution path The receiving device in which a failure has occurred based on whether there is a communication device, whether the read node identification information is common, whether the read data identification information is common, A failure analysis execution unit that identifies the communication device or the data distribution device, and That is a failure analysis system.

Further, the present invention is the failure analysis system described above, wherein the receiving device includes an evaluation criterion storage unit that stores evaluation criterion data indicating a condition for determining that an error due to packet loss has occurred, and the data processing unit. An analysis unit that detects that a packet loss has occurred in reception of the data, and a condition of occurrence of packet loss detected by the analysis unit in the condition indicated by the evaluation criterion data stored in the evaluation criterion storage unit An evaluation execution unit that determines whether or not the error occurrence notification unit, the error occurrence notification unit, in the evaluation execution unit, the occurrence of packet loss matches the condition indicated by the evaluation reference data When the determination is made, the error notification is notified to the analysis device.
In the failure analysis system, the receiving device may further include an evaluation criterion receiving unit that receives the evaluation criterion data distributed from the data distribution device and writes the evaluation criterion data in the evaluation criterion storage unit.

  Further, the present invention is the failure analysis system described above, wherein the data processing unit decodes the forward error encoded data, and the analysis unit fails to decode the data in the data processing unit. It is characterized in that it is sometimes determined that a packet loss has occurred.

  Further, the present invention is the failure analysis system described above, wherein the failure analysis execution unit is configured to use the communication device or the data in which the failure has occurred from the configuration information stored in the network information storage unit. The information of the receiving device connected to the distribution device directly or via another communication device is read, and the receiving device indicated by the read information is determined as a failure range.

  The present invention is the failure analysis system described above, wherein the failure analysis apparatus determines that the reception device has a failure when the failure analysis execution unit determines that the reception device is a failure location. An analysis result notification processing unit for notifying the receiving device is further provided.

  The present invention is the above-described failure analysis system, wherein the data is content data of video content, and the data processing unit requests distribution of the video content, and the video content requested to be distributed. The content data is received from the data distribution device, the content data of the video content different from the video content requested to be distributed is received from the data distribution device, and the reception device stores the content data of the different video content An alternative content storage unit that outputs the requested video content content data received by the data processing unit to a display device, and cannot output the requested video content content data. In this case, the alternative content storage unit And displays and outputs the content data of the read different video contents on said display device, characterized in that.

  The present invention also relates to the failure analysis apparatus in a failure analysis system comprising a network configured by a communication apparatus and routing data distributed from the data distribution apparatus to the reception apparatus, and a failure analysis apparatus connected to the network. Node identification information for identifying the receiving device from the network information storage unit for storing configuration information indicating the configuration of the network and the receiving device in which an error has occurred in receiving data distributed from the data distributing device An error occurrence notification receiving unit configured to set data identification information for specifying the data, and the node identification information from the error occurrence notification received from the receiving device in the error occurrence notification receiving unit. The data identification information is read, and the read node identification information is Whether or not there is a communication device that is common to the read data distribution path by reading the data distribution path of the receiving device specified by the node identification information from the configuration information stored in the network information storage unit The reception device, the communication device, or the data distribution device in which a failure has occurred based on whether the read node identification information is common or whether the read data identification information is common A failure analysis device comprising: a failure analysis execution unit that identifies

  The present invention is also the reception device in a failure analysis system including a network configured by a communication device and routing data distributed from the data distribution device to the reception device, and a failure analysis device connected to the network. An evaluation criterion storage unit that stores evaluation criterion data indicating a condition for determining that an error due to packet loss has occurred, a data processing unit that receives data distributed from the data distribution device via the network, and An output unit that outputs the data received by the data processing unit, an analysis unit that detects that a packet loss has occurred in the reception of the data in the data processing unit, and an occurrence status of the packet loss detected by the analysis unit Matches the condition indicated by the evaluation criteria data stored in the evaluation criteria storage. The evaluation execution unit that determines whether or not, and the evaluation execution unit identifies the receiving device when it is determined that the occurrence of packet loss matches the condition indicated by the evaluation reference data An error occurrence notification unit configured to notify the analysis apparatus of an error occurrence notification in which node identification information and data identification information for specifying the data are set.

  The present invention is also a failure analysis method for a failure analysis system comprising a network configured by a communication device and routing data distributed from a data distribution device to a reception device, and a failure analysis device connected to the network. In the receiving device, the data processing unit receives the data distributed from the data distribution device via the network, and the output unit outputs the data received by the data processing unit. When an error due to packet loss occurs in receiving the data in the data processing process, the output process and the error occurrence notification unit include node identification information for identifying the receiving apparatus and data identification information for identifying the data. An error occurrence notification process for notifying the analysis device of the set error occurrence notification, and the failure analysis device The error occurrence notification receiving unit receives the error occurrence notification from the receiving device, and the failure analysis execution unit receives the node identification from the error occurrence notification received by the error occurrence notification receiving unit. The information and the data identification information are read, and each of the read node identification information is stored in a network information storage unit, and is specified by the node identification information from the configuration information indicating the configuration of the network. Based on whether there is a common communication device in the read data distribution path, whether the read node identification information is common, and whether the read data identification information is common. The receiving device, the communication device or the data distribution device in which a failure has occurred A failure analysis method characterized by having a failure analysis during the course of identifying.

  Further, the present invention is used for the receiving device in a failure analysis system including a network configured by a communication device and routing data distributed from the data distribution device to the receiving device, and a failure analyzing device connected to the network. An evaluation criterion storage unit that stores evaluation criterion data indicating a condition for determining that an error due to packet loss has occurred, a data processing unit that receives data distributed from the data distribution device via the network, An output unit that outputs the data received by the data processing unit, an analysis unit that detects that a packet loss has occurred during reception of the data in the data processing unit, and the occurrence status of the packet loss detected by the analysis unit is the evaluation The article indicated by the evaluation standard data stored in the standard storage unit When the evaluation execution unit for determining whether or not the condition is satisfied, the evaluation execution unit determines that the occurrence condition of packet loss matches the condition indicated by the evaluation reference data. A program that functions as an error occurrence notification unit that notifies the analysis apparatus of an error occurrence notification in which node identification information to be identified and data identification information to identify the data are set.

  ADVANTAGE OF THE INVENTION According to this invention, when abnormality generate | occur | produces in the data delivery via a network, the location where the failure has occurred can be specified quickly.

1 is a diagram illustrating an overall configuration of a video distribution system (failure detection system) according to an embodiment of the present invention. It is a figure which shows the operation | movement outline | summary of the video delivery system by the embodiment. It is a figure which shows the operation | movement outline | summary of the video delivery system by the embodiment. It is a figure which shows the operation | movement outline | summary of the video delivery system by the embodiment. It is a functional block diagram which shows the internal structure of DB server by the embodiment. It is a functional block diagram which shows the internal structure of the notification server by the embodiment. It is a functional block diagram which shows the internal structure of the analysis server by the embodiment. It is a functional block diagram which shows the internal structure of the video server by the embodiment. It is a functional block diagram which shows the internal structure of the edge apparatus by the embodiment. It is a functional block diagram which shows the internal structure of the video receiver by the embodiment. It is a figure which shows the example of a connection structure of the video delivery system by the embodiment. It is a figure which shows the example of a setting of the connection information by the embodiment. It is a figure which shows the example of a setting of NW state information by the embodiment. It is a figure which shows the example of a setting of the evaluation reference data by the same embodiment. It is a figure which shows the example of a setting of the evaluation information by the embodiment. It is a figure which shows the example of a setting of the video receiver information by the embodiment. It is a figure which shows the example of a format of the image | video evaluation data packet by the embodiment. It is a sequence diagram of the video delivery system by the embodiment. It is a sequence diagram of the video delivery system by the embodiment. It is a sequence diagram of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is a processing flowchart of the video delivery system by the embodiment. It is an example of the analysis result of the video delivery system by the same embodiment. It is an example of the analysis result of the video delivery system by the same embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the present embodiment, an example in which the failure detection system is applied to a video distribution system is shown. That is, this is an example in which the data distributed via the network is content data of video content (hereinafter referred to as “video content data”).

  FIG. 1 is an overall configuration diagram of a video distribution system (failure detection system) according to an embodiment of the present invention. As shown in the figure, the video distribution system according to the present embodiment includes a video provider facility 20 of a video provider, a communication provider facility of a communication provider, and a user home facility 40 installed in a viewing user's home. And is configured.

  The user premises equipment 40 includes a video receiving device 41 that is a video content receiving device, and a receiver 43 that is a display device that performs video display and audio output of the video content. For example, the video receiving device 41 of the user premises equipment 40 is an STB (set top box), and the receiver 43 is a television receiver, but the video receiving device 41 and the receiver 43 are one device, For example, it may be realized by a television receiver with a built-in STB or a computer terminal.

  The video provider equipment 20 includes a video server 21, a stored video server 23, and an NW device 25 connected via the video provider network 2 (hereinafter, “network” is also referred to as “NW”). . The video server 21 and the stored video server 23 are data distribution devices that distribute video content, and the NW device 25 is a communication device such as a router.

  The communication carrier facility includes a communication NW facility 30 including a core device 31 and an edge device 33 connected via the communication NW3, and a failure analysis device 10 connected to the communication carrier NW1. The core device 31 is a communication device such as a router, and the edge device 33 is a communication device that accommodates the video reception device 41. The failure analysis apparatus 10 includes a database server 11 (hereinafter referred to as “DB server 11”), a notification server 13, and an analysis server 15.

  The communication carrier NW1, the video provider NW2, and the communication NW3 are IP (Internet Protocol) networks. The NW device 25 and the core device 31 are connected to each other, and the edge device 33 and the video reception device 41 are mutually connected. Connecting. Further, the failure analysis apparatus 10 is connected to the video provider NW2 and the communication NW3 via the communication provider NW1.

  As described above, the content receiving device includes the NW device 25 that is a communication device, the core device 31, and the edge device 33, and the content data distributed from the video server 21 and the stored video server 23 that are data distribution devices. And a failure analysis apparatus 10 connected to the network. This network includes a network of communication carriers and a network of video providers.

  In the figure, only one video server 21, stored video server 23, NW device 25, core device 31, edge device 33, and user premises equipment 40 are shown, but a plurality of units are provided. obtain. Hereinafter, the video server 21, the stored video server 23, the NW device 25, the core device 31, the edge device 33, and the user premises equipment 40 are collectively referred to simply as “device”.

  Next, an outline of the operation of the video distribution system according to the present embodiment will be described with reference to FIGS. In the present embodiment, a case will be described in which video content of a VOD (Video On Demand) channel requested by the viewing user (hereinafter also referred to as “CH”) is distributed by unicast.

FIG. 2 is a diagram showing an outline of the operation of the video distribution system during a normal content viewing request.
The failure analysis device 10 periodically collects NW information from each device constituting the video provider facility 20 (step S11) and collects NW information from each device constituting the communication NW facility 30 (step S12). ). The DB server 11 stores the NW information notified from each device (step S13). The NW information includes NW status information indicating the status (normal, failure occurrence, etc.) of each device, and connection information indicating other devices connected to the device.

  The video server 21 transmits evaluation reference data indicating the evaluation reference of the NW quality for each CH to the edge device 33 before distributing the video content (step S14). The evaluation standard is a condition (standard) for determining whether an error has occurred, and the evaluation standard data includes an evaluation method indicating the condition. The edge device 33 stores the evaluation reference data received via the NW device 25 and the core device 31 in a database (hereinafter referred to as “DB”) provided therein.

  The video receiving device 41 transmits a viewing request for video content to the edge device 33 and receives a response (step S15). The edge device 33 transmits a viewing request to the video server 21 that distributes the video content of the CH requested by the viewing request, and receives a response (step S16). The edge device 33 transmits the evaluation reference data stored in the internal DB to the video receiving device 41, and the video receiving device 41 stores the received evaluation reference data in the internal DB (step S17).

FIG. 3 is a diagram showing an outline of the operation of the video distribution system during normal content viewing.
Similarly to FIG. 2, the failure analysis device 10 periodically collects NW information from each device configuring the video provider equipment 20 (step S <b> 21) and NW information from each device configuring the communication NW facility 30. Are collected (step S22), and the DB server 11 stores the NW information notified from each device (step S23).

  On the other hand, the video server 21 that has received the viewing request transmits the video signal of the video content of the VOD requested by the viewing request after transmitting the response. The stored video server 23 also stores video signals of the stored video content stored in the video receiver 41 (hereinafter referred to as “store” in order to display the VOD video content in place of the receiver 43 when the video content cannot be displayed. (Referred to as “video signal”) (step S24). The video signal is data obtained by encoding video content data by FEC (Forward Error Correction).

  The video receiver 41 receives the video signal and the stored video signal from the video server 21 via the NW device 25, the core device 31, and the edge device 33, and performs FEC decoding. The video receiving device 41 checks whether an error exceeding the evaluation criterion has occurred in the FEC decoding of the video signal in light of the NW quality evaluation criterion indicated by the evaluation criterion data (step S25). The video receiver 41 writes video content data (hereinafter referred to as “accumulated video content data”) of the stored video obtained by FEC decoding the stored video signal to the HDD (hard disk drive) (step S26), and the video signal is FEC. The video content data obtained by decoding is output to the receiver 43 and displayed (step S27).

FIG. 4 is a diagram showing an outline of the operation of the video distribution system when an error is detected during content viewing.
Assume that the video reception device 41 collates with the NW quality evaluation standard indicated by the evaluation standard data and detects the occurrence of an error exceeding the evaluation standard, for example, an instantaneous interruption (step S31). The video receiver 41 transmits an evaluation criterion excess notification for notifying the occurrence of an error (step S32). The evaluation criterion excess notification includes information for identifying the violated evaluation criterion (evaluation criterion number), user ID, information for identifying the video signal in which the error has occurred (error video signal), the error state that has occurred, the error occurrence time, etc. Contains information. In addition, the video receiving device 41 causes the receiver 43 to display the occurrence of the instantaneous interruption and that the cause is being analyzed (step S33), and receives the video signal of the stored content stored in the HDD. It is displayed on the machine 43.

  The analysis server 15 analyzes the failure location causing the instantaneous interruption from the notification of excess evaluation criteria from the video reception device 41 and the NW information stored in the DB 11, and specifies the failure range (step S34). ). The notification server 13 notifies the analysis result by the analysis server 15 to the video reception device 41, the video provider equipment 20 device, and the communication NW equipment 30 device (step S35). The video receiver 41 displays the received analysis result on the receiver 43 (step S36). Further, the device of the video provider facility 20 and the device of the communication NW facility 30 display the received analysis result on a display (not shown) provided in the device.

As described above, the video server 21, the stored video server 23, the NW device 25, the core device 31, and the edge device 33 notify the failure analysis device 10 of NW information by SNMP (Simple Network Management Protocol) or the like. However, each of these devices is duplicated. Therefore, when a failure occurs in the active system, the standby system is switched to the active system. Due to the occurrence of this failure and the accompanying system switching, an instantaneous interruption occurs, and packet loss occurs in the operating system before switching. However, after the system is switched, an SNMP report indicating the occurrence of a failure may not be transmitted to the failure analysis apparatus 10 from a new operational system. Such a failure that cannot be reported by SNMP is referred to as a “silent failure”. Also, SNMP cannot report temporary packet loss due to congestion or excess bandwidth.
In this embodiment, the failure analysis device 10 has already accumulated the evaluation criterion excess notification notified from the video reception device 41 even when there is no notification of the occurrence of failure from the video provider facility 20 or the communication NW facility 30. Based on the current NW information (connection information), the location where the failure has occurred is identified, and the failure range is determined.

  Next, the internal configuration of each device will be described.

  FIG. 5 is a functional block diagram showing the internal configuration of the DB server 11. The DB server 11 can be realized by a computer server, and as shown in the figure, the evaluation standard storage unit 111, the video reception device information storage unit 112, the NW information storage unit 113, the server cooperation unit 114, and the NW state A notification processing unit 115 is provided.

  The evaluation criterion storage unit 111 stores evaluation criterion data. The evaluation reference data indicates the evaluation reference for each video content, and is information in which video content identification information, information for specifying NW quality, and an evaluation method for NW quality are associated with each other. A CH number is used as identification information of video content. The video receiver information storage unit 112 stores video receiver information. The video receiver information corresponds to the identification information and address information of the video receiver 41 that detected the error, the error occurrence time, the content of the error that occurred, and the identification information (CH number) of the video content in which the error occurred. Information. The NW information storage unit 113 stores NW information. The NW information includes NW state information indicating the state of each device and connection information indicating other devices to which each device is connected.

  The server cooperation unit 114 transmits / receives data to / from the notification server 13 and the analysis server 15 via the communication carrier NW1. The NW state notification processing unit 115 receives the NW information from the notification server 13 via the server cooperation unit 114 and writes the NW information in the NW information storage unit 113. Further, the NW state notification processing unit 115 instructs the server cooperation unit 114 to read out the NW information stored in the NW information storage unit 113 and output it to the analysis server 15.

  FIG. 6 is a functional block diagram showing the internal configuration of the notification server 13. The notification server 13 can be realized by a computer server. As shown in the figure, the packet transmission / reception unit 131, the evaluation standard transmission / reception unit 132, the server cooperation unit 133, the NW state notification processing unit 134, the evaluation standard excess notification processing unit 135 and an analysis result notification processing unit 136.

The packet transmission / reception unit 131 transmits / receives various data by data packets via the video provider NW2 and the communication NW3 and the communication NW1. The server cooperation unit 133 transmits / receives data to / from the DB server 11 and the analysis server 15 via the communication carrier NW1.
The evaluation reference transmission / reception unit 132 receives the evaluation reference data via the packet transmission / reception unit 131 and instructs the server cooperation unit 133 to output the received evaluation reference data to the DB server 11. The NW state notification processing unit 134 receives the NW information from each device constituting the video provider facility 20 and each device constituting the communication NW facility 30 via the packet transmission / reception unit 131, and the received NW information is stored in the DB server. 11 to instruct the server cooperation unit 133 to output to the server 11. The evaluation criterion excess notification processing unit 135 receives the evaluation criterion excess notification from the video reception device 41 via the packet transmission / reception unit 131 and instructs the server cooperation unit 133 to output the received evaluation criterion excess notification to the DB server 11. . The analysis result notification processing unit 136 receives the analysis result from the analysis server 15 via the server cooperation unit 133, and transmits the analysis result to the video reception device 41, the device of the video provider facility 20, and the device of the communication NW facility 30. The packet transmission / reception unit 131 is instructed to do so.

  FIG. 7 is a functional block diagram showing the internal configuration of the analysis server 15. The analysis server 15 can be realized by a computer server. As shown in the figure, the server cooperation unit 151, the video reception device information reception unit 152, the NW state information reception unit 153, the analysis information transmission / reception unit 154, and the failure analysis execution A portion 155 is provided.

  The server cooperation unit 151 transmits and receives various data between the DB server 11 and the notification server 13 via the communication carrier NW1. The analysis information transmitting / receiving unit 154 instructs the NW state information receiving unit 153 to read the NW information and also instructs the video receiving device information receiving unit 152 to read the video receiving device information. The analysis information transmission / reception unit 154 instructs the server cooperation unit 15 to output the analysis result from the failure analysis execution unit 155 to the notification server 13. The video receiving device information receiving unit 152 receives the video receiving device information from the DB server 11 via the server cooperation unit 151. The NW state information receiving unit 153 receives NW information from the DB server 11 via the server cooperation unit 151. The failure analysis execution unit 155 receives the NW information received by the video reception device information reception unit 152 and the video reception device information received by the NW state information reception unit 153 from the analysis information transmission / reception unit 154, and based on these information Identify the failure location and the fault range. The failure analysis execution unit 155 outputs an analysis result indicating the identified failure location and failure range to the analysis information transmission / reception unit 154.

  FIG. 8 is a functional block diagram showing the internal configuration of the video server 21. The video server 21 can be realized by a computer server. As shown in the figure, the evaluation standard storage unit 211, the video signal storage unit 212, the packet transmission / reception unit 213, the NW state notification processing unit 214, and the NW state collection processing unit 215, an evaluation reference transmission / reception unit 216, and a video signal transmission unit 217.

  The evaluation criterion storage unit 211 stores evaluation criterion data. The video signal storage unit 212 stores video content data. The video content data includes data necessary for video viewing such as video data, audio data, and related data. The packet transmission / reception unit 213 transmits / receives various data by data packets via the video provider NW2. The NW state collection processing unit 215 collects the operating state of the video server 21. The NW state notification processing unit 214 includes NW state information indicating the operating state of the video server 21 collected by the NW state collection processing unit 215 and connection information indicating other devices to which the video server 21 is connected. The packet transmission / reception unit 213 is instructed to transmit the NW information to the notification server 13. The evaluation reference transmission / reception unit 216 reads the evaluation reference data from the evaluation reference storage unit 211 and instructs the packet transmission / reception unit 213 to transmit. The video signal transmission unit 217 generates a video signal by FEC encoding the video content data read from the video signal storage unit 212 and instructs the packet transmission / reception unit 213 to transmit the generated video signal.

  The stored video server 23 has the same configuration as the video server 21. However, the evaluation criterion storage unit 211 of the video server 21 stores the accumulated video content data. The stored video server 23 may not include the evaluation criterion storage unit 211 and the evaluation criterion transmission / reception unit 216.

  FIG. 9 is a functional block diagram showing the internal configuration of the edge device 33. The edge device 33 can be realized by, for example, a computer device such as a router. As shown in the figure, the packet transmission / reception unit 331, the NW state notification processing unit 332, the NW state collection processing unit 333, and the evaluation reference transmission / reception unit 334 are provided. And an evaluation standard storage unit 335 and a viewing request processing unit 336.

  The packet transmission / reception unit 331 transmits / receives various data by data packets to / from the video reception device 41 and other devices via the communication NW3. The NW state collection processing unit 333 collects the operating state of the edge device 33. The NW state notification processing unit 332 includes NW state information indicating the operating state of the edge device 33 collected by the NW state collection processing unit 333 and connection information indicating other devices to which the edge device 33 is connected. The packet transmission / reception unit 331 is instructed to transmit the NW information to the notification server 13. The evaluation reference transmission / reception unit 334 writes the evaluation reference data received from the video server 21 via the packet transmission / reception unit 331 into the evaluation reference storage unit 335, or the evaluation reference data read from the evaluation reference storage unit 335 to the video reception device 41. The packet transmission / reception unit 331 is instructed to transmit. The evaluation standard storage unit 335 stores evaluation standard data. The viewing request processing unit 336 receives the content distribution request from the video reception device 41 via the packet transmission / reception unit 331 and instructs the packet transmission / reception unit 331 to transmit the received distribution request to the video server 21.

  FIG. 10 is a functional block diagram showing the internal configuration of the video reception device 41. As shown in the figure, the video reception device 41 includes a packet transmission / reception unit 411, an evaluation standard transmission / reception unit 412, an evaluation standard storage unit 413, a video / audio processing unit 414, a video signal analysis unit 415, an alternative content storage unit 416, and an evaluation execution. 417, an evaluation information storage unit 418, and a video signal output unit 419.

  The packet transmission / reception unit 411 transmits / receives various data using data packets via the communication NW3. The evaluation criterion storage unit 413 stores evaluation criterion data. The evaluation information storage unit 418 stores evaluation information. The evaluation information is information in which the packet loss occurrence time, the CH number in which the packet loss has occurred, and the packet loss occurrence state are associated with each other. The alternative content storage unit 416 is an HDD, and stores the accumulated video content data that has been FEC-decoded by the video / audio processing unit 414.

  The evaluation reference transmission / reception unit 412 writes the evaluation reference data received via the packet transmission / reception unit 411 in the evaluation reference storage unit 413. Also, the evaluation standard transmission / reception unit 412 instructs the packet transmission / reception unit 411 to transmit an evaluation standard excess notification to the edge device 33 when the evaluation execution unit 417 determines that the evaluation standard has been exceeded. The video / audio processing unit 414 performs FEC decoding on the video signal received through the packet transmission / reception unit 411 to obtain video content data. Also, the video / audio processing unit 414 performs FEC decoding on the stored video signal received via the packet transmission / reception unit 411, obtains stored video content data, and writes the stored video content data in the alternative content storage unit 416. The video signal output unit 419 outputs the video content data FEC decoded by the video / audio processing unit 414 or the stored video content data read from the alternative content storage unit 416 by the video signal analysis unit 415 to the receiver 43.

  The video signal analysis unit 415 determines whether or not a packet loss has occurred in the FEC decoding process executed by the video and audio processing unit 414. If the video signal analysis unit 415 determines that a packet loss has occurred, the video signal analysis unit 415 notifies the evaluation execution unit 417. In addition, the video signal analysis unit 415 outputs the accumulated video content data read from the alternative content storage unit 416 to the video signal output unit 419. The evaluation execution unit 417 reads the evaluation reference data corresponding to the identification information (CH number) of the video content input from the video signal analysis unit 415 from the evaluation reference storage unit 413 and corresponds to the identification information (CH number). The evaluation information is read from the evaluation information storage unit 418. The evaluation execution unit 417 determines whether or not an error has occurred based on the read evaluation reference data and the evaluation information to which the error detected by the video signal analysis unit 415 is added.

FIG. 11 is a diagram illustrating a network configuration example of the video distribution system according to the present embodiment. The network shown in the figure includes two video servers 21. The node IDs of these two video servers 21 are “SV1” and “SV2”, respectively, and the node ID of the NW device 25 connected to these two video servers 21 is “B1”. Two core devices 31 are connected to the NW device 25 with the node ID “B1”, and the node IDs of these two core devices 31 are “C1” and “C2”, respectively. Two edge devices 33 are connected to the core devices 31 of the node IDs “C1” and “C2”, and the node IDs of the two edge devices 33 connected to the node ID “C1” are respectively The node IDs of the two edge devices 33 that are “E1” and “E2” and connected to the node ID “C2” are “E3” and “E4”, respectively. Three video receivers 41 are connected to the edge devices 33 with node IDs “E1”, “E2”, “E3”, and “E4”, respectively, and are connected to the edge device 33 with the node ID “E1”. The node IDs of the video receivers 41 are “U1”, “U2”, and “U3”, respectively, and the node IDs of the video receivers 41 connected to the edge device 33 with the node ID “E2” are “U4”, respectively. , “U5”, and “U6”, and the node IDs of the video receivers 41 connected to the edge device 33 with the node ID “E3” are “U7”, “U8”, and “U9”, respectively. The node IDs of the video receivers 41 connected to the edge device 33 of “E4” are “U10”, “U11”, and “U12”, respectively. The node ID of the video reception device 41 is a user ID that identifies the viewing user.
The one closer to the video server 21 is higher and the one closer to the video receiver 41 is lower.

  Note that the video provider NW2 and the communication NW3 can each be constituted by a communication device such as a router. Therefore, the video server 21 and the NW device 25 are connected via a communication device constituting the video provider NW2, or the core device 31 and the edge device 33 are connected via a communication device constituting the communication NW3. There is also a configuration to do.

FIG. 12 is a diagram illustrating a setting example of connection information stored in the NW information storage unit 113 of the DB server 11.
As shown in the figure, the connection information includes storage device information indicating the node ID of the storage device, node IDs of lower-level devices connected to the storage device and lower-level device information indicating the address information, and the storage device. It consists of a record in which higher-level device information indicating the node ID of the connected higher-level device is associated. The node ID is identification information that uniquely identifies the device. In the address information, an IP address, a MAC (Medium Access Control) address, and the like are set.

  For example, the host device of the edge device 33 specified by the node ID “E1” described in the accommodation device information is the core device 31 specified by the node ID “C1” described in the host device information, The subordinate device is the video receiving device 41 identified by the node ID “U1” of the subordinate device information, and the address of the video receiving device 41 is “IP address u1” described in the address information.

  The host device of the core device 31 identified by the node ID “C1” described in the accommodation device information is the NW device 25 identified by the node ID “B1” described in the host device information. The lower device is the edge device 33 specified by the node IDs “E1” and “E2” of the lower device information, and the address of the edge device 33 with the node ID “E1” is “IP address” described in the address information. The address of the edge device 33 of “e1” and node ID “E2” is “IP address e2” described in the address information.

FIG. 13 is a diagram illustrating a setting example of NW state information stored in the NW information storage unit 113 of the DB server 11.
The NW status information is information in which the node ID of each device is associated with the operating status of the device. In the figure, the operating status indicates that a failure has occurred and the time at which the failure has occurred. Only the information that is associated with is shown.

FIG. 14 is a diagram illustrating an example of setting the evaluation reference data.
As shown in the figure, the evaluation standard data includes an evaluation standard number (No.), video content identification information (viewing video), NW quality identification information (NW quality), and NW quality evaluation method. This data is associated with each other. The NW quality identification information specifies a quality of service (QoS) level. The VOD CH number is used as information for specifying video content.

  FIG. 14A shows an example of two types of evaluation criteria for the same viewing video (CH number) “CH100”. Evaluation criteria no. The evaluation reference data indicated by “1” is an evaluation reference in the case of high-quality distribution that does not allow image disturbance, and the evaluation method includes a case where one or more packet loss (also referred to as “packet loss”) occurs. Describes that it is determined that an error has occurred (exceeds evaluation criteria). On the other hand, evaluation criteria No. The evaluation reference data indicated by “2” is an evaluation reference in the case of low-quality delivery that allows video disturbance, and the evaluation method determines that an error has occurred when no packet reception occurs for 5 seconds or more. It is described.

  FIG. 14B shows an example of the strictest evaluation criteria. Evaluation criteria No. 1 shown in FIG. The evaluation standard data “3” is an evaluation standard for emergency warning broadcasting that does not allow image disturbance, and the evaluation method describes that it is determined that an error has occurred when one or more packet losses occur.

  FIG. 14C shows an example of two types of evaluation criteria for IP broadcasting. Evaluation criteria no. The evaluation standard data indicated by “4” is an evaluation standard in the case of low-quality broadcasting that allows video disturbance, and the evaluation method is within one minute per one CH of the viewing video “CH1 to 10”. It is described that it is determined that an error has occurred when 10 or more packet losses occur. On the other hand, evaluation criteria No. The evaluation standard data indicated by “5” is an evaluation standard that allows video disturbance and other than complete interruption, and no packet reception occurs for 30 seconds per any one of the viewing video “CH1 to 10”. It is described that it is determined that an error has occurred.

FIG. 15 is a diagram illustrating a setting example of evaluation information stored in the evaluation information storage unit 418 of the video reception device 41.
As shown in the figure, the evaluation information includes a record in which identification information (error video signal) of a video signal in which a packet loss has occurred, a packet loss occurrence time, and a packet loss occurrence state are associated with each other.

FIG. 16 is a diagram illustrating a setting example of video reception device information stored in the video reception device information storage unit 112 of the DB server 11.
As shown in the figure, the video receiving apparatus includes the error occurrence time, the node ID and address information of the video receiving apparatus 41 in which the error has occurred, the error state, the number of the evaluation criterion that has been violated, and the video signal in which the error has occurred. It consists of records that correspond to. The video signal in which the error has occurred is indicated by the CH number.

  FIG. 17 is a diagram illustrating an example of a format of a video evaluation data packet transmitted / received between nodes. As shown in the figure, the data packet includes an IPv6 header part and a payload part.

  The IPv6 header part includes a source address, a destination address, and a protocol number. In the case of unicast, the address of the destination device is set as the destination address. In the case of multicast, an address indicating multicast is set. The protocol number is set to a value that identifies the video evaluation data packet.

  The payload part includes a data type and detailed data corresponding to the data type. In the data type, a value indicating whether it is a video evaluation standard notification, a video evaluation standard reception response, an evaluation standard excess notification, an excess notification reception response, an analysis result notification, or an analysis result reception response is set. When the data type is the video evaluation standard notification or the video evaluation standard reception response, the evaluation standard data is set in the detailed data. When the data type is an evaluation criterion excess notification or an excess notification reception response, the detailed evaluation data includes a violation evaluation criterion number (No.), a user ID, an error video signal, an error state, and an error occurrence time. When the data type is an analysis result notification and an analysis result reception response, the analysis result is set in the detailed data.

18 to 20 are sequence diagrams of the video distribution system shown in FIG.
FIG. 18 is a sequence diagram of normal NW information collection processing.
The failure analysis device 10 periodically collects NW information from each facility such as the video server 21, the stored video server 23, and the NW device 25 constituting the video provider equipment 20 (step S105). . Similarly, the failure analysis apparatus 10 periodically collects NW information from each facility such as the core device 31 and the edge device 33 that constitute the communication NW facility 30 (step S110). The DB server 11 of the failure analysis apparatus 10 stores the collected NW information.

  The video server 21 of the video provider equipment 20 transmits the evaluation standard data read from the evaluation standard storage unit 211 to the edge device 33 (step S115). When the edge device 33 writes the evaluation reference data received from the video server 21 via the NW device 25 and the core device 31 in the evaluation reference storage unit 335, the edge device 33 returns a video evaluation reference reception response (step S120). The video server 21 receives the video evaluation reference reception response from the edge device 33 via the core device 31 and the NW device 25. Further, the edge device 33 transmits the evaluation reference data written in the evaluation reference storage unit 335 to the failure analysis device 10 (step S125). The failure analysis apparatus 10 stores the evaluation reference data received from the edge device 33 and returns a video evaluation reference reception response (step S130).

FIG. 19 is a sequence diagram of a normal video distribution process.
The video receiving device 41 transmits a viewing request to the edge device 33 (step S205). The viewing request includes the CH number, address information of the video receiving device 41, and the like. When receiving the viewing request, the edge device 33 returns a response to the video receiving device 41 (step S210), and returns a video evaluation standard notification in which the evaluation standard data read from the evaluation standard storage unit 335 is set (step S215). ).

  The video reception device 41 writes the evaluation reference data set in the video evaluation reference notification received from the edge device 33 in the evaluation reference storage unit 413 and returns a video evaluation reference reception response (step S220). Upon receiving the video evaluation standard reception response, the edge device 33 transmits the viewing request received in step S205 to the video server 21 that distributes the video content of the CH number set in the viewing request (step S225). . After returning a response to the edge device 33 (step S230), the video server 21 transmits the video signal of the requested CH number to the address of the video receiving device 41 set as the viewing request transmission source (step S230). Step S235). The video receiver 41 outputs video content data obtained by FEC decoding the received video signal to the receiver 43 (step S240). The receiver 43 displays the video data of the video content data on the display, and outputs audio data from the speaker.

  The video server 21 notifies the stored video server 23 of the address information of the video receiving device 41 acquired from the transmission source of the viewing request. Alternatively, the edge device 33 may transmit a viewing request to the stored video server 23. The stored video server 23 stores the stored video addressed to the address of the video receiving device 41 indicated by the address information received from the video server 21 or to the address of the video receiving device 41 indicated by the source of the viewing request received from the edge device 33. A signal is transmitted (step S245). The video receiver 41 stores the stored video content data obtained by FEC decoding the received stored video signal in the alternative content storage unit 416. When the writing of the stored video content data is completed, the video receiving device 41 notifies the edge device 33 of a storage completion notification (step S250), and the edge device 33 transmits the received storage completion notification to the stored video server 23. (Step S255).

FIG. 20 is a sequence diagram when an error occurs.
The video server 21 transmits a video signal to the video receiver 41 (step S305), and the video receiver 41 outputs video content data obtained by FEC decoding the video signal to the receiver 43 (step S310). The receiver 43 displays the video content data output from the video receiver 41.

When the video reception device 41 detects a video signal error due to packet loss in the FEC decoding process of the video signal received from the video server 21 (step S315), the evaluation shown by the occurrence status of the packet loss so far and the evaluation reference data. The method is compared (step S320). When the video reception device 41 determines that the error occurrence state matches the evaluation method, that is, exceeds the evaluation criterion (step S325), the video reception device 41 transmits an evaluation criterion excess notification to the edge device 33 (step S330). ). The edge device 33 returns an excess notification reception response to the video reception device 41 and displays the content of the evaluation criterion excess notification on a display (not shown) or the like so that a maintenance person or the like can confirm (step S335). Upon receiving the excess notification reception response, the video reception device 41 causes the video reception device 41 to display an error occurrence and an error analysis in progress on the receiver 43 (step S340).
If the excess notification reception response from the edge device 33 is not returned, the video reception device 41 outputs the content data of the stored content stored in the alternative content storage unit 416 to the receiver 43 for display ( Step S345). The video reception device 41 retransmits the evaluation criterion excess notification to the edge device 33 until the excess notification reception response is returned.

  The edge device 33 transmits the evaluation criterion excess notification received in step S335 to a device that constitutes the video provider equipment 20, for example, the video server 21 (step S350). When the video server 21 receives the evaluation standard excess notification, the video server 21 returns an excess notification reception response to the edge device 33 and displays the content of the evaluation standard excess notification on a display (not shown) so that a maintenance person or the like can confirm ( Step S355).

  Further, the edge device 33 transmits the evaluation criterion excess notification received in step S335 to the failure analysis device 10 (step S360). Upon receiving the evaluation criterion excess notification, the failure analysis device 10 returns an excess notification reception response to the edge device 33 (step S365), the video reception device information indicating the evaluation criterion excess notification received so far, NW information, Based on the above, failure analysis processing is performed (step S370). When the failure analysis device 10 completes the failure analysis processing (step S375), the failure analysis device 10 transmits an analysis result notification in which the failure occurrence location and the failure range specified by the failure analysis processing are set to the video server 21 and the edge device 33 (step S380). , S385). Moreover, the failure analysis apparatus 10 displays a failure occurrence location and a failure range on a display (not shown).

Upon receiving the analysis result notification, the video server 21 returns an analysis result reception response to the failure analysis apparatus 10, and displays a failure occurrence location and a failure range indicated by the analysis result reception response on a display (not shown) or the like (step S390). ).
When receiving the analysis result notification, the edge device 33 transmits the analysis result notification to the video reception device 41 that has transmitted the evaluation criterion excess notification in step S330 (step S395), and returns the analysis result reception response to the failure analysis device 10. (Step S400). The edge device 33 displays the failure occurrence location and failure range indicated by the analysis result reception response on a display (not shown) or the like. The video reception device 41 displays the failure location and failure range indicated by the received analysis result notification on the receiver 43 (step S405).

  Next, a detailed processing procedure of the video distribution system will be described.

  FIG. 21 shows a processing flow of NW information collection and storage processing shown in steps S105 and S110 of FIG. The NW state notification processing unit 134 of the notification server 13 uses a packet transmission / reception unit to transmit an NW information collection instruction to each device configuring the video provider facility 20 and each device configuring the communication NW facility 30 using SNMP or the like. 131 is instructed. The packet transmitting / receiving unit 131 transmits an NW information collection instruction to the video server 21, the stored video server 23, the NW device 25, the core device 31, and the edge device 33 (step S505).

  When the packet transmission / reception unit 213 of the video server 21 receives the NW information collection instruction, the NW state collection processing unit 215 collects the operating state of the video server 21. The NW state notification processing unit 214 reads the node ID and address information of the lower-level device connected to the server from a connection information storage unit (not shown). The NW state notification processing unit 214 generates connection information including the lower device information in which the node ID and address information of the lower device are set and the accommodation device information in which the node ID of the video server 21 is set. The NW state notification processing unit 214 outputs NW information including the generated connection information and the NW state information indicating the operating state of the video server 21 collected by the NW state collection processing unit 215 to the packet transmitting / receiving unit 213, The transmission / reception unit 213 transmits the NW information input from the NW state notification processing unit 214 to the notification server 13. The stored video server 23 also transmits NW information to the notification server 13 by the same processing as the video server 21.

When the packet transmission / reception unit 331 of the edge device 33 receives the NW information collection instruction, the NW state collection processing unit 333 collects the operating state of the edge device 33. The NW state notification processing unit 332 reads the node ID and address information of the lower device connected to the edge device 33 and the node ID of the upper device from a connection information storage unit (not shown). The NW state notification processing unit 332 includes lower-level device information in which the node ID and address information of the video reception device 41 that is the received lower-level device is set, and higher-level device information in which the node ID of the NW device 25 that is the higher-level device is set. And connection information including the accommodation device information in which the node ID of the own device is set. The NW state notification processing unit 332 outputs the NW information including the generated connection information and the NW state information indicating the operating state of the edge device 33 collected by the NW state collection processing unit 333 to the packet transmission / reception unit 331, The transmission / reception unit 331 transmits the NW information input from the NW state notification processing unit 332 to the notification server 13.
The core device 31 and the NW device 25 also transmit NW information to the notification server 13 by the same process as the edge device 33 (step S510).

  When the NW state notification processing unit 134 of the notification server 13 receives the NW information transmitted from the video server 21, the stored video server 23, the NW device 25, the core device 31, and the edge device 33 via the packet transmission / reception unit 131, The received NW information is output to the server cooperation unit 133. The server cooperation unit 133 transmits the NW information input from the NW state notification processing unit 134 to the DB server 11. The NW state notification processing unit 115 of the DB server 11 receives the NW information transmitted from the notification server 13 via the server cooperation unit 114. The NW state notification processing unit 115 updates the NW state information and the connection information currently stored in the NW information storage unit 113 with the NW state information and the connection information set in the NW information (step S515).

FIG. 22 shows a processing flow of evaluation reference data transmission / reception processing among the video server 21, the edge device 33, and the failure analysis device 10 shown in steps S115 to S130 of FIG.
The evaluation standard transmission / reception unit 216 of the video server 21 reads the evaluation standard data from the evaluation standard storage unit 211 periodically or when the evaluation standard data stored in the evaluation standard storage unit 211 is updated. The packet is transmitted to the packet transmitting / receiving unit 213 and instructed to be transmitted to the edge device 33. One evaluation reference data may correspond to one CH, and a plurality of evaluation reference data may correspond to one CH. The packet transmission / reception unit 213 transmits the evaluation reference data input from the evaluation reference transmission / reception unit 216 to the edge device 33 using the packet shown in FIG. 17 (step S605). The address of the video server 21 is set as the transmission source address, the address of the edge device 33 is set as the destination address, the value indicating the video evaluation reference notification is set as the data type, and the evaluation data is set as the detailed data. Reference data is set.

  When the packet transmitting / receiving unit 331 of the edge device 33 determines that a value indicating the video evaluation criterion notification is set in the data type of the packet received from the video server 21, the packet transmitting / receiving unit 331 outputs the received packet to the evaluation criterion transmitting / receiving unit 334. When the evaluation reference data is set in the detailed data of the received packet, the evaluation reference transmission / reception unit 334 writes the evaluation reference data in the evaluation reference storage unit 335 and returns a video evaluation reference reception response to the packet transmission / reception unit 331. An instruction is given (step S615). The packet transmitting / receiving unit 331 transmits a video evaluation reference reception response to the video server 21 using the packet illustrated in FIG. 17 (step S620). The address of the edge device 33 is set as the transmission source address, the address of the video server 21 is set as the destination address, the value indicating the video evaluation reference reception response is set as the data type, and the detailed data includes The evaluation standard data set in the video evaluation standard notification is set. The evaluation standard transmission / reception unit 216 of the video server 21 receives the video evaluation standard reception response via the packet transmission / reception unit 213.

  The evaluation standard transmission / reception unit 334 of the edge device 33 instructs the packet transmission / reception unit 331 to transmit the video evaluation standard notification received from the video server 21 to the notification server 13. The packet transmitting / receiving unit 331 transmits the video evaluation standard notification packet received from the video server 21 to the DB server 11 (step S625). The address of the edge device 33 is set as the source address, and the address of the notification server 13 is set as the destination address.

  Upon receiving the video evaluation standard notification transmitted from the edge device 33 via the packet transmission / reception unit 131, the evaluation standard transmission / reception unit 132 of the notification server 13 transmits the evaluation standard data acquired from the video evaluation standard notification to the DB server 11. The server cooperation unit 133 is instructed. The server cooperation unit 133 transmits the evaluation reference data to the DB server 11. The evaluation standard storage unit 111 of the DB server 11 stores the evaluation standard data received via the server cooperation unit 114 (step S630).

  The evaluation standard transmission / reception unit 132 of the notification server 13 instructs the packet transmission / reception unit 131 to return a video evaluation standard reception response. The packet transmitting / receiving unit 131 transmits a video evaluation reference reception response to the edge device 33 (step S635). The evaluation reference transmission / reception unit 334 of the edge device 33 receives the video evaluation reference reception response via the packet transmission / reception unit 331.

  On the other hand, when the packet transmitting / receiving unit 331 of the edge device 33 determines in step S610 that a value different from the value indicating the video evaluation reference notification is set in the data type received from the video server 21, the received packet is discarded. (Step S640).

FIG. 23 shows a processing flow of evaluation reference data transmission / reception processing between the edge device 33 and the video reception device 41 shown in steps S205 to S220 of FIG.
The video / audio processing unit 414 of the video receiving device 41 receives a viewing request transmission time when a viewing user inputs a viewing request transmission instruction and a CH number from an input unit (not shown) or when the viewing user inputs in advance in association with the CH number. When it is detected that the channel number has become, the viewing request in which the CH number is set is output to the packet transmitting / receiving unit 411. The packet transmission / reception unit 411 transmits the viewing request input from the video / audio processing unit 414 to the edge device 33 (step S705). When the viewing request processing unit 336 of the edge device 33 receives the viewing request from the video receiving device 41 via the packet transmitting / receiving unit 331, the viewing request processing unit 336 instructs the packet transmitting / receiving unit 331 to return a viewing response. The packet transmitting / receiving unit 331 transmits a viewing response to the video receiving device 41 that is the viewing request transmission source, and the video / audio processing unit 414 of the video receiving device 41 receives the viewing response via the packet transmitting / receiving unit 411.

  When the edge device 33 returns the viewing request, the evaluation reference transmission / reception unit 334 reads the evaluation reference data from the evaluation reference storage unit 335, outputs it to the packet transmission / reception unit 331, and instructs the video reception device 41 to transmit it. When different evaluation criteria are applied to the user due to a contract or the like, the contract quality for each user is stored in the evaluation criterion storage unit 335 in advance. When a plurality of evaluation standard data corresponding to the same CH number is stored in the evaluation standard storage unit 335, the evaluation standard transmission / reception unit 334 sets the user ID and user address of the video reception device 41 set in the viewing request. The corresponding contract quality is read from the evaluation standard storage unit 335, and evaluation standard data in which the QoS level corresponding to the read contract quality is set is selected and read. The packet transmission / reception unit 213 transmits the evaluation reference data input from the evaluation reference transmission / reception unit 334 to the video reception device 41 that is the transmission source of the viewing request, using the packet illustrated in FIG. 17 (step S710).

  When the packet transmitting / receiving unit 411 of the video receiving device 41 determines that a value indicating the video evaluation criterion notification is set in the data type of the packet received from the edge device 33 (step S715: YES), the received packet is evaluated as the evaluation criterion. The data is output to the transmission / reception unit 412. When the evaluation reference data is set in the detailed data of the received packet, the evaluation reference transmission / reception unit 412 writes the evaluation reference data in the evaluation reference storage unit 413 and returns a video evaluation reference reception response. (Step S720). The packet transmitting / receiving unit 331 transmits a video evaluation reference reception response to the edge device 33 using the packet shown in FIG. 17 (step S725). The evaluation reference transmission / reception unit 334 of the edge device 33 receives the video evaluation reference reception response via the packet transmission / reception unit 331.

  When the evaluation standard transmission / reception unit 334 of the edge device 33 receives the video evaluation standard reception response, the viewing request processing unit 336 distributes the viewing request received in step S705 to the video signal of the CH number set in the viewing request. The packet transmission / reception unit 331 is instructed to transmit to the video server 21 to be transmitted. The packet transmission / reception unit 331 transmits the viewing request to the video server 21. In the viewing request, address information of the video receiving device 41 that is the viewing request transmission source is set. When the video signal transmission unit 217 of the video server 21 receives the viewing request via the packet transmission / reception unit 213, the video signal transmission unit 217 reads the video content data of the CH number set in the viewing request from the video signal storage unit 212 and performs FEC encoding. Generate a video signal. The video signal transmission unit 217 outputs the generated video signal and the address of the video reception device 41 set in the viewing request to the packet transmission / reception unit 213 to instruct transmission. The packet transmission / reception unit 213 transmits the video signal input from the video signal transmission unit 217 with the address of the video reception device 41 as a destination.

  Also, the viewing request processing unit 336 instructs the packet transmitting / receiving unit 331 to transmit the viewing request received in step S705 to the stored video server 23, and the packet transmitting / receiving unit 331 sends a viewing request to the stored video server 23. Send. When the video signal transmission unit 217 of the stored video server 23 receives a viewing request via the packet transmission / reception unit 213, the video signal transmission unit 217 reads the stored video content data from the video signal storage unit 212 and performs FEC encoding to generate a stored video signal. The video signal transmission unit 217 outputs the generated accumulated video signal and the address of the video reception device 41 set in the viewing request to the packet transmission / reception unit 213 to instruct transmission. The packet transmission / reception unit 213 transmits the stored video signal input from the video signal transmission unit 217 with the address of the video reception device 41 as a destination.

  In step S715, when the packet transmission / reception unit 411 of the video reception device 41 determines that the value indicating the video evaluation reference notification is not set in the data type of the packet received from the edge device 33 (step S715: NO). The received packet is discarded (step S730).

  The edge device 33 may transmit a viewing request to the video server 21 and the stored video server 23, and the packet transmitting / receiving unit 213 of the stored video server 23 may receive the viewing request from the edge device 33.

FIG. 24 shows a processing flow of error detection and notification processing shown in steps S305 to S335 of FIG.
When receiving the data packet of the video signal transmitted from the video server 21 via the packet transmitting / receiving unit 411, the video / audio processing unit 414 of the video receiving device 41 performs FEC decoding on the video signal set in the received data packet. (Step S805). The video signal analysis unit 415 determines whether or not a packet loss has occurred from the result of the FEC decoding by the packet transmission / reception unit 411 (step S810). For example, the video signal analysis unit 415 determines a packet loss when the FEC decoding fails or when the sequence number added to the data packet of the video signal is not continuous. Alternatively, if a video signal data packet cannot be received and the FEC decoding is not performed for a predetermined time or longer in the video / audio processing unit 414, it is also determined as a packet loss.

  When the video signal analysis unit 415 determines that a packet loss has occurred (step S810: YES), the video content CH number (hereinafter referred to as "error CH number") in which the packet loss has occurred. The packet loss occurrence time is acquired and notified to the evaluation execution unit 417 together with the packet loss occurrence status (one packet loss, no packet received for 10 seconds, etc.).

  The evaluation execution unit 417 outputs the error CH number input from the video signal analysis unit 415 to the evaluation reference storage unit 413, and the evaluation reference storage unit 413 evaluates the error CH number input from the evaluation execution unit 417. The reference data is output to the evaluation execution unit 417. Subsequently, the evaluation execution unit 417 outputs the error CH number input from the video signal analysis unit 415 to the evaluation information storage unit 418. The evaluation information storage unit 418 outputs evaluation information corresponding to the input error CH number to the evaluation execution unit 417.

  The evaluation execution unit 417 adds the occurrence time and occurrence state of the packet loss input from the video signal analysis unit 415 to the evaluation information acquired from the evaluation information storage unit 418, and generates update evaluation information. Note that if the evaluation information corresponding to the error CH number is not registered, the evaluation information storage unit 418 outputs no evaluation information to the evaluation execution unit 417. In this case, the evaluation execution unit 417 generates update evaluation information in which the error CH number input from the video signal analysis unit 415, the packet loss occurrence time, and the occurrence status are associated with each other.

Based on the updated evaluation information, the evaluation execution unit 417 determines whether the evaluation criterion is exceeded based on whether the evaluation method indicated by the evaluation criterion data is satisfied (step S815).
For example, the evaluation No. shown in FIG. In the case of the evaluation standard data of “01”, the evaluation method is “occurrence of one or more packet loss”, and one or more error occurrence times are set in the update evaluation information. Therefore, the evaluation execution unit 417 exceeds the evaluation standard. Judge that you are doing.
In addition, the evaluation No. shown in FIG. In the case of the evaluation reference data of “02”, since the evaluation method is “no packet reception for 5 seconds occurs 3 or more times”, the evaluation execution unit 417 sets the error type “no packet reception for x seconds” ( If x ≧ 5) is 3 or more, it is determined that the evaluation criterion is exceeded.
Alternatively, the evaluation No. shown in FIG. In the case of the evaluation standard data of “04”, the evaluation method is “10 or more packet losses occur within 1 minute per CH”. When the total number of packet losses indicated by the packet loss occurrence status in the update evaluation information is 10 or more corresponding to the error occurrence time indicating the time from the current time to the time one minute before the current time, the evaluation execution unit 417 evaluates Judge that the standard is exceeded. When the packet loss occurrence state is indicated by a time when no packet is received, the packet loss is converted into the number of packets expected to be received at that time.

  The evaluation execution unit 417 outputs the updated evaluation information to the evaluation information storage unit 418, and the evaluation information storage unit 418 receives the evaluation information stored corresponding to the error CH number from the evaluation information storage unit 418. Overwrite with updated evaluation information. When the evaluation information storage unit 418 does not store the evaluation information corresponding to the error CH number, the evaluation information storage unit 418 newly stores the updated evaluation information input from the evaluation information storage unit 418 as the evaluation information.

  When the evaluation execution unit 417 determines that the evaluation standard is exceeded (step S820: YES), the evaluation standard No. of the evaluation standard data used when it is determined that the evaluation method is satisfied. And the error video signal indicating the error CH number, the error state indicating the packet loss, and the packet loss information in which the error occurrence time indicating the current time is set are output to the video signal analysis unit 415. The video signal analysis unit 415 generates an evaluation criterion excess notification using the packet shown in FIG. 17 and outputs it to the packet transmission / reception unit 411. In the detailed data of the payload part, the evaluation standard No. input from the evaluation execution part 417 is displayed. The packet loss information and the user ID of the video receiving device 41 are set, and the address of the edge device 33 is set as the destination. The packet transmitting / receiving unit 411 transmits the evaluation criterion excess notification input from the video signal analyzing unit 415 to the edge device 33 (step S825). When the packet transmission / reception unit 331 of the edge device 33 receives the evaluation criterion excess notification from the video reception device 41, the packet transmission / reception unit 331 returns an excess notification reception response to the video reception device 41 (step S830).

  If the video signal analysis unit 415 determines in step S810 that no packet loss has occurred (step S810: NO), or if the evaluation execution unit 417 does not exceed the evaluation criteria in step S820. If it is determined (step S820: NO), the video reception device 41 ends the error detection and notification process.

  The video signal analysis unit 415 outputs the video content data FEC decoded by the video / audio processing unit 414 to the video signal output unit 419, and the video signal output unit 419 receives the video content data input from the video signal analysis unit 415. The data is output to the machine 43 and displayed. When receiving the next video signal packet, the video reception device 41 performs the processing from step S805.

FIG. 25 shows a processing flow of the stored video transmission processing shown in steps S330 to S345 of FIG.
In step S825 of FIG. 24, the video reception device 41 transmits an evaluation criterion excess notification to the edge device 33 (step S905), and after the evaluation criterion excess notification is transmitted, an excess notification reception response from the edge device 33 is transmitted within a predetermined time. If not received (step S910: NO), the video signal analysis unit 415 outputs display data for displaying a message indicating that the cause of the instantaneous interruption of the video signal is being analyzed to the video signal output unit 419 to display the video. The signal output unit 419 outputs display data to the receiver 43. The receiver 43 displays the display data input from the video receiver 41 on the screen (step S915). If the excess notification reception response has not been received, there is a high possibility that the edge device 33 is not operating normally, and the video signal distributed from the video server 21 cannot be transmitted to the video receiving device 41. Cannot display video content data on the receiver 43. Therefore, the video signal analysis unit 415 of the video reception device 41 reads the stored video content data from the alternative content storage unit 416 and outputs it to the video signal output unit 419. The video signal output unit 419 outputs the stored video content data to the receiver 43, and the receiver 43 displays the stored video content data on the screen (step S920).

  On the other hand, if an excess notification reception response is received from the edge device 33 within a predetermined time after the evaluation criterion excess notification is transmitted (step S910: YES), the video signal analysis unit 415 is analyzing the cause of the instantaneous interruption of the video signal. Is output to the video signal output unit 419, and the video signal output unit 419 outputs the display data to the receiver 43. The receiver 43 displays the display data on the screen (step S925). The video receiving device 41 enters the analysis result waiting state, and the video signal output unit 419 outputs the video content data FEC decoded by the video / audio processing unit 414 to the receiver 43 for display (step S930).

FIG. 26 shows a process flow of the evaluation criterion excess notification process shown in steps S360 to S365 of FIG.
In step S825 of FIG. 24, when the packet transmitting / receiving unit 331 of the edge device 33 receives the evaluation criterion excess notification from the video reception device 41 (step S1005), it returns an excess notification reception response. Further, the packet transmission / reception unit 331 transmits the evaluation criterion excess notification received from the video reception device 41 to each device of the notification server 13 and the video provider equipment 20 (step S1010). When the evaluation criterion excess notification processing unit 135 of the notification server 13 receives the evaluation criterion excess notification transmitted from the edge device 33 via the packet transmission / reception unit 131, it instructs the packet transmission / reception unit 131 to return an excess notification reception response. . The packet transmitting / receiving unit 131 transmits an excess notification reception response to the edge device 33. Similarly, when each device of the video provider equipment 20 receives the evaluation standard excess notification transmitted from the edge device 33, it returns an excess notification reception response (step S1015).

  The evaluation criterion excess notification processing unit 135 of the notification server 13 reads out the detailed data portion of the received evaluation criterion excess notification and instructs the server cooperation unit 133 to transmit it to the DB server 11 as video receiving device information. The server cooperation unit 133 transmits the video reception device information to the DB server 11. The video receiving device information storage unit 112 of the DB server 11 stores the video receiving device information received by the server cooperation unit 114 (step S1020). The DB server 11 deletes the video receiving device information stored in the video receiving device information storage unit 112 every predetermined period.

FIG. 27 shows a processing flow of the failure analysis processing shown in steps S370 to S375 in FIG.
In step S1010 of FIG. 26, when the notification server 13 receives the evaluation criterion excess notification (step S1105), the evaluation criterion excess notification processing unit 135 instructs the server cooperation unit 133 to transmit the evaluation criterion excess notification to the analysis server 15. To do. The server cooperation unit 133 transmits an evaluation criterion excess notification to the analysis server 15 (step S1110).

  When the analysis information transmission / reception unit 154 of the analysis server 15 receives the evaluation criterion excess notification via the server cooperation unit 151, the analysis information transmission / reception unit 154 instructs the video reception device information reception unit 152 to read the video reception device information. The video reception device information reception unit 152 instructs the server cooperation unit 151 to transmit a video reception device information acquisition request, and the server cooperation unit 151 transmits the video reception device information acquisition request to the DB server 11. Upon receiving the video reception device information acquisition request, the server cooperation unit 114 of the DB server 11 reads the video reception device information from the video reception device information storage unit 112 and returns it to the analysis server 15. At this time, only the video receiver information in which the time from the current time to a time that is a predetermined time later than the current time is set in the generation time information may be read and returned. The video receiving device information receiving unit 152 of the analysis server 15 outputs the video receiving device information received via the server cooperation unit 151 to the analysis information transmitting / receiving unit 154.

  The failure analysis execution unit 155 determines whether the user ID set in the video reception device information (hereinafter referred to as failure user ID) is a different user ID or is the same user ID (step S1115). . When it is determined that the failure user IDs are all the same user ID (step S1115: NO), the failure analysis execution unit 155 causes the packet loss due to the factor of the user premises equipment 40 of the viewing user specified by the failure user ID. The failure analysis process is terminated (step S1120).

If it is determined in step S1115 that the failure user IDs are different user IDs (step S1115: YES), the failure analysis execution unit 155 reads the connection information from the DB server 11 and sets the video reception device information from the connection information. The distribution route of the video signal is read as follows for each failure user ID that has been made (step S1125).
First, the failure analysis execution unit 155 instructs the NW state information reception unit 153 to read connection information. The NW state information receiving unit 153 instructs the server cooperation unit 151 to transmit a connection information acquisition request, and the server cooperation unit 151 transmits an NW information acquisition request to the DB server 11. When receiving the connection information acquisition request via the server cooperation unit 114, the NW state notification processing unit 115 of the DB server 11 reads the connection information from the NW information storage unit 113 and outputs the connection information to the server cooperation unit 114. Transmits the connection information to the analysis server 15. The NW state information reception unit 153 of the analysis server 15 outputs the connection information received via the server cooperation unit 151 to the analysis information transmission / reception unit 154.

  The failure analysis execution unit 155 reads the accommodation device information and the upper device information from the record of the accommodation device information in which the failure user ID is set in the node ID of the lower device information, and further, the node ID indicated by the read upper device information Repeats the process of reading the higher-level device information set in the node ID of the accommodation device information until a record in which the higher-level device information is not set is reached.

  For example, when the failure user ID is “U1”, the failure analysis execution unit 155 stores the accommodation device information “E1” from the record of the connection information (FIG. 12) in which the node ID “U1” of the lower device information is set. And the upper device information “C1” is read out. Subsequently, the failure analysis execution unit 155 reads the higher-level device information “B1” from the connection information record in which the read higher-level device information “C1” is set in the accommodation device information, and further reads the higher-level device information “B1”. Reads the upper device information “SV1” and “SV2” from the connection information record set in the accommodation device information. Since the upper apparatus information is not set in the connection information record in which the upper apparatus information “SV1” and “SV2” are set in the accommodation apparatus information, the failure analysis execution unit 155 ends the search for the distribution route. Since the node ID read out earlier is lower in the distribution route, the distribution route of the failure user “U1” is “SV1”, “SV2” → “B1” → ordered node IDs in the reverse order. “C1” → “E1” → “U1”.

  When the failure analysis execution unit 155 obtains distribution routes for all failure-occurring user IDs, the communication NW facility 30 (core device 31 or edge device 33) common to all the distribution routes (or more than a predetermined threshold such as 95%). ) Is determined (step S1130). When it is determined that there is a node ID of the common communication NW facility 30 (step S1130: YES), the failure analysis execution unit 155 selects the lowest device among the devices specified by the node ID of the common communication NW facility 30. It is determined that the device is a suspected device (step S1135).

For example, when the failure user is “U1” to “U6”, the distribution routes of “U1” to “U3” are “SV1”, “SV2” → “B1” → “C1” → “E1” → The distribution routes from “U1” to “U3” are “SV1”, “SV2” → “B1” → “C1” → “E2” → “U4” to “U6”. is there. In this case, since the core device 31 having the node ID “C1” is common, it is determined as the suspected device.
For example, when the failure user is “U1” and “U2”, the core device 31 with the node ID “C1” and the edge device 33 with the node ID “E1” are common in these distribution routes. Of these, the edge device 33 having the node ID “E1”, which is a lower device, is determined to be a suspected device.

  Further, the failure analysis execution unit 155 reads the CH number indicated by the error video signal corresponding to the failure user ID from the video receiving device information, and all the read CH numbers (or more than a predetermined threshold) are the same video server. It is determined whether or not the channel number of the video content distributed by 21 (step S1140). When it is determined that the read CH number is the CH number of the different video server 21 (step S1140: NO), the process of step S1170 described later is performed. On the other hand, when it is determined that the channel numbers are the same for the video server 21 (step S1140: YES), the failure analysis execution unit 155 determines that the video server 21 that distributes the video signal of the CH number is also a suspect device. (Step S1145).

  In step S1130, when it is determined that there is no node ID of the communication NW facility 30 common to all the distribution routes of the failure user ID (step S1130: NO), the failure analysis execution unit 155 It is determined whether or not there is a node ID of the video provider equipment common to the distribution route equal to or greater than a predetermined threshold (step S1150). When it is determined that there is no node ID of the common video provider equipment (step S1150: NO), the failure analysis execution unit 155 causes packet loss due to the factor of the user premises equipment 40 of the viewing user specified by the failure user ID. Is determined to have occurred (step S1120).

If it is determined in step S1150 that there is a common node ID of the video provider equipment 20 (step S1150: YES), the failure analysis execution unit 155 determines the error video signal corresponding to the failure user ID from the video receiver information. Is read, and it is determined whether all of the read CH numbers (or more than a predetermined threshold) are the CH numbers of the video contents distributed by one video server 21 (step S1155). If it is determined that the channel numbers are not the same for the video server 21 (step S1155: NO), the failure analysis execution unit 155 determines that the NW device 25 identified by the node ID of the common video provider equipment 20 is the suspected device. It is determined that there is (step S1160).
If it is determined in step S1155 that the channel numbers are the same for the video server 21 (step S1155: YES), the failure analysis execution unit 155 determines the device (video) specified by the node ID of the common video provider equipment 20 It is determined that the server 21 and the NW device 25) are suspect devices (step S1165).

  If NO is determined in step S1140, or after the processing in step S1145, step S1160, or step S1165, the failure analysis execution unit 155 registers the NW state information indicating the failure of the suspected device in the DB server 11. (Step S1170). First, the failure analysis execution unit 155 instructs the NW state information receiving unit 153 to read the NW state information. The NW state information receiving unit 153 instructs the server cooperation unit 151 to transmit an NW state information acquisition request, and the server cooperation unit 151 transmits the NW state acquisition request to the DB server 11. When receiving the NW state information acquisition request via the server cooperation unit 114, the NW state notification processing unit 115 of the DB server 11 reads the NW state information from the NW information storage unit 113 and outputs the NW state information to the server cooperation unit 114. The server cooperation unit 114 transmits the NW state information to the analysis server 15. The NW state information receiving unit 153 of the analysis server 15 outputs the NW state information received via the server cooperation unit 151 to the analysis information transmitting / receiving unit 154.

  If the failure occurrence is recorded in the NW state information corresponding to the node ID of the suspected device (step S1170: YES), the failure analysis execution unit 155 determines that a packet loss has occurred due to the failure of the suspected device. The analysis process is terminated (step S1175). If the failure occurrence is not recorded in the NW state information corresponding to the node ID of the suspected device (step S1170: NO), the failure analysis execution unit 155 determines that a packet loss has occurred due to the silent failure of the suspected device, The failure analysis process is terminated (step S1180).

FIG. 28 shows a processing flow of the analysis result notification processing shown in step S380 of FIG.
When the failure analysis execution unit 155 of the analysis server 15 completes the process of FIG. 27 (step S1205), the failure analysis execution unit 155 determines whether the cause is due to the user premises equipment 40 (step S1210).

  When it is determined that the factor is the user premises equipment 40 (step S1210: YES), the failure analysis execution unit 155 indicates that the user premises equipment 40 has failed and the user of the user premises equipment 40 that has caused the factor. An analysis result notification in which the ID is set in the detailed data is generated and output to the server cooperation unit 151 and transmitted to the communication NW equipment 30 such as the edge device 33 and the video event person equipment such as the video server 21 and the NW device 25. Instruct. The server cooperation unit 151 transmits the analysis result notification and destination information that is the node ID or address of the edge device 33, the video server 21, and the NW device 25 to the notification server 13. The analysis result notification processing unit 136 of the notification server 13 receives the analysis result notification and the destination information from the analysis server 15 via the server cooperation unit 133 and outputs it to the packet transmitting / receiving unit 131. The packet transmitting / receiving unit 131 transmits the analysis result notification to the edge device 33, the video server 21, and the NW device 25 indicated by the destination information (step S1215).

  When the packet transmission / reception unit 331 of the edge device 33, the packet transmission / reception unit 213 of the video server 21 and the NW device 25 receive the analysis result, the analysis result notification response is returned to the notification server 13 (step S1220). The edge device 33, the video server 21, and the NW device 25 display the received analysis result on a display (not shown) or the like.

  The packet transmission / reception unit 331 of the edge device 33 transmits the received analysis result notification to the video reception device 41 (step S1225). When the packet transmission / reception unit 411 of the video receiving device 41 receives the analysis result notification, the video signal output unit 419 receives the content of the detailed data of the received analysis result notification (a failure caused by the user premises equipment 40). To display.

  On the other hand, when it is determined in step S1210 that the factor is not the user home equipment 40 (step S1210: NO), the fault range is specified with reference to the connection information read in step S1125 of FIG. 28 (step S1230). . That is, the failure analysis execution unit 155 has the node ID of the device determined to be a failure in step S1175 in FIG. 28 or the device determined to be a failure in step S1180 (hereinafter referred to as “failure occurrence device”). The node ID and address information of the lower level device information is read from the connection information record set in the accommodation device information, and the read node ID is a node from the lower level device information of the connection information record set in the accommodation device information. Reading the ID and address information is repeated until the node ID of the video receiving device 41 is obtained. The failure analysis execution unit 155 sets all read node IDs as failure ranges.

  For example, when the failure occurrence device is the core device 31 with the node ID “C1”, the failure analysis execution unit 155 determines the node ID “of the lower device information from the connection information record in which“ C1 ”is set in the accommodation device information. E1 ”, address information“ IP address e1 ”, node ID“ E2 ”and address information“ IP address e2 ”are read. Subsequently, the failure analysis execution unit 155 reads the node IDs “U1”, “U2”, “U3” of the lower device information from the connection information record in which the read node ID “E1” is set in the accommodation device information, and their The address information is read, and the node IDs “U4”, “U5”, “U6” of the lower-level device information and their address information are read from the connection information record in which the node ID “E2” is set in the accommodation device information. Since the node IDs “U1”, “U2”, “U3”, “U4”, “U5”, and “U6” are the node IDs of the video receiving device 41, the search ends. The failure analysis execution unit 155 sets the failure range as the node IDs “E1”, “E2”, “U1”, “U2”, “U3”, “U4”, “U5”, “U6”.

  The failure analysis execution unit 155 generates an analysis result notification in which detailed data is set for the analysis result indicating that a failure has occurred and the node ID of the failure generation device, and the failure range, and outputs the analysis result notification to the server cooperation unit 151. An instruction is sent to the communication NW equipment 30 such as the edge device 33 and the video event person equipment such as the video server 21 and the NW device 25. The server cooperation unit 151 transmits the analysis result notification and destination information that is the node ID or address of the edge device 33, the video server 21, and the NW device 25 to the notification server 13. The analysis result notification processing unit 136 of the notification server 13 receives the analysis result notification and the destination information from the analysis server 15 via the server cooperation unit 133 and outputs it to the packet transmitting / receiving unit 131. The packet transmitting / receiving unit 131 transmits the analysis result notification to the edge device 33, the video server 21, and the NW device 25 indicated by the destination information (step S1235).

  When the packet transmission / reception unit 331 of the edge device 33, the packet transmission / reception unit 213 of the video server 21 and the NW device 25 receive the analysis result, the analysis result notification response is returned to the notification server 13 (step S1240). The edge device 33, the video server 21, and the NW device 25 display the received analysis result on a display (not shown) or the like.

  The packet transmission / reception unit 331 of the edge device 33 transmits the received analysis result notification to the video reception device 41 (step S1245). When the packet transmission / reception unit 411 of the video reception device 41 receives the analysis result notification, the video signal output unit 419 displays the content of the detailed data of the received analysis result notification on the receiver 43.

  The analysis server 15 displays the analysis result by the failure analysis execution unit 155 on a display (not shown). When the maintenance person confirms the occurrence of the failure, the node ID of the failure occurrence device, the failure range, and the like based on the displayed analysis result, the evaluation reference data, video, and the like are input by an input unit (not shown) of the analysis server 15 as necessary. Display instructions such as receiving device information and NW information are input. The analysis server 15 reads the evaluation reference data in the evaluation reference storage unit 111, the video reception device information in the video reception device information storage unit 112, and the NW information in the NW information storage unit 113 from the DB server 11 and displays them on the display. .

  The failure analysis execution unit 155 of the analysis server 15 may output the analysis result notification and the address information of the devices included in the failure range to the server cooperation unit 151 and instruct transmission. The server cooperation unit 151 transmits an analysis result notification and device address information included in the failure range to the notification server 13. The packet transmission / reception unit 131 of the notification server 13 transmits an analysis result notification with the address information of each device included in the failure range as a destination. Each device that has received the analysis result notification displays the contents of the detailed data included in the analysis result notification.

29 and 30 are diagrams illustrating examples of analysis results.
A PT (pattern) 1 shown in FIG. 29 is an example when a failure occurs in the edge device 33. In this case, the evaluation criterion excess notification transmitted from the video receivers 41 with the user IDs “U1”, “U2”, and “U3” is stored in the video receiver information storage unit 112 of the DB server 11. In step S1115 in FIG. 27, the failure user IDs “U1”, “U2”, and “U3” are read (step S1115: YES), and the distribution route of these failure user IDs read in step S1125 is The core device 31 with the node ID “C1” and the edge device 33 with the node ID “E1” are common (step S1130: YES). Accordingly, in step S1135, the edge device 33 having the lower node ID “E1” is determined to be suspicious.

  PT2 is an example when a failure occurs in the core device 31. In this case, the evaluation criterion excess notification transmitted from the video receivers 41 with the user IDs “U1” to “U6” is stored in the video receiver information storage unit 112 of the DB server 11. In step S1115 of FIG. 27, the failure user IDs “U1” to “U6” are read (step S1115: YES), and the distribution route of these failure user IDs read in step S1125 is the node ID “ The core device 31 of “C1” is common (step S1130: YES). Accordingly, in step S1135, the core device 31 with the node ID “C1” is determined to be suspect.

  PT3 shown in FIG. 30 is an example when a failure occurs in the NW device 25. In this case, the evaluation criterion excess notification transmitted from the video receivers 41 of the user IDs “U1” to “U12” is stored in the video receiver information storage unit 112 of the DB server 11. In step S1115 in FIG. 27, the failure user IDs “U1” to “U12” are read (step S1115: YES), and the distribution route of these failure user IDs read in step S1125 is the node ID “ The NW device 25 of “B1”, the video server 21 of the node ID “SV1”, and the video server 21 of the node ID “SV2” are common (step S1130: NO, step S1150: YES). If the CH number where the error has occurred is not common (step S1155: NO), the NW device 25 with the node ID “B1” is determined to be suspicious, except for the video server 21.

  PT4 is an example when a failure occurs in the video server 21. In this case, the evaluation criterion excess notification transmitted from the video receivers 41 with the user IDs “U1”, “U3”, “U6”, and “U9” is stored in the video receiver information storage unit 112 of the DB server 11. In step S1115 in FIG. 27, the failure user IDs “U1”, “U3”, “U6”, “U9” are read (step S1115: YES), and these failure user IDs read in step S1125. Are shared by the NW device 25 with the node ID “B1”, the video server 21 with the node ID “SV1”, and the video server 21 with the node ID “SV2” (step S1130: NO, step S1150: YES). ). Since the CH number where the error has occurred is common (step S1155: YES), the NW device 25 with the node ID “B1” and the video server 21 with the node ID “SV1” that transmits the video signal with the common CH number. Is determined to be suspicious. Since the alarm of the video server 21 with the node ID “SV1” is set in the NW state information (step S1170: YES), it is determined that the video server 21 with the node ID “SV1” has a failure.

  In the above embodiment, the video signal is transmitted by unicast, but may be transmitted by multicast. In that case, the video server 21 adds a destination address indicating a multicast address and transmits the video signal, and the NW device 25 copies the received video signal and transmits it to the lower core device 31. The core device 31 copies the received video signal and transmits it to the lower edge device 33. The edge device 33 copies and transmits the video signal to the video receiving device 41 that is the transmission source of the viewing request.

  Moreover, in the above, although the evaluation criteria for each CH are used, the evaluation criteria for each video content may be used. In this case, in the viewing video of the evaluation reference data, different identification information for each video content data such as the name of the video content data is set instead of the CH number. The evaluation execution unit 417 of the video reception device 41 receives the identification information of the content in which the error has occurred from the video signal analysis unit 415, and acquires the evaluation standard data corresponding to the identification information of the content in which the error has occurred from the evaluation standard storage unit 413. To do. Content identification information is set in the error video signal of the evaluation criterion excess notification. The analysis server 15 operates using content identification information instead of the CH number.

  In step S510 in FIG. 21, the NW state notification processing unit 332 of the edge device 33 receives the video reception device 41 from which the edge device 33 has received the video distribution request, that is, the node ID of the video reception device 41 that is viewing the video, and Connection information in which the address information is set in the lower device information may be generated. In this case, in step S1165, the failure analysis execution unit 155 reads out the user IDs of the video reception devices 41 under the NW device 25 common to the distribution routes of all of the failed user IDs, and all the read out (or a predetermined threshold value). If the above-mentioned user ID is a troubled user ID, the NW device 25 may be determined to be suspicious. Otherwise, the NW device 25 may be determined not to be suspicious. The failure analysis execution unit 155 reads the node ID of the lower-level device information from the connection information record in which the node ID of the NW device 25 is set in the accommodation device information, and sets the read node ID in the accommodation device information. The user ID of the subordinate video reception device 41 is read out by repeatedly reading the node ID from the lower-level device information in the connection information record.

  The evaluation reference data corresponding to the stored video content data may be transmitted from the stored video server 23 to the edge device 33, and the evaluation reference data may be transmitted from the edge device 33 to the video receiving device 41 that is the viewing request transmission source. . The video receiving device 41 performs the same processing as the above-described video signal reception also when the stored video signal is received.

  In the above embodiment, the user home equipment 40 receives the evaluation reference data transmitted from the video server 21 or the stored video server 23 from the edge device 33 at the time of viewing request transmission, but when the user contracts for VOD. For example, the evaluation reference data corresponding to the contract quality of the user may be stored in advance in the evaluation reference storage unit 413 of the video reception device 41. In this case, the video reception device 41 may receive the evaluation reference data from the edge device 33 or may read it from a computer-readable recording medium.

  In the above-described embodiment, the failure analysis apparatus 10 is configured by three computer servers, the DB server 11, the notification server 13, and the analysis server 15. However, all of these computer servers or two arbitrary servers The computer server may be realized by a single computer server. Further, the DB server 11, the notification server 13, and the analysis server 15 may be connected via an NW, or these servers may be directly connected.

  As described above, according to the present embodiment, the video receiving device 41 compares the evaluation standard based on the video quality with the packet loss amount of the distributed video signal, and when the evaluation standard is exceeded, the video receiving apparatus 41 The failure analysis apparatus 10 is notified. The failure analysis device 10 identifies the failure occurrence location and failure range based on the notification received from the video reception device 41 and the NW state and connection configuration. According to this, even if a silent failure occurs in the device of the communication NW facility 30 or the device of the video provider business facility 20, it can be detected, and the cause of the failure can be identified and the affected range can be identified. It becomes possible. Further, when there is a possibility that the user premises equipment 40 is defective, it is possible to notify the user premises equipment 40 of that fact.

  In addition, when displaying video content on the user premises equipment 40, the evaluation criteria exceeded among the user premises equipment 40, the equipment of the video provider equipment 20, the equipment of the communication NW equipment 30, and the failure analysis apparatus 10. Exchange information that an error has occurred. When the video content cannot be displayed on the receiver 43 after the error occurs, the video receiver 41 displays the stored video content received and stored in advance from the stored video server 23 on the receiver 43. Therefore, even when the video content requested by the viewing user cannot be displayed in the user premises equipment 40, an opportunity to view other video content can be provided to the viewing user. By using this accumulated content as an advertisement, it will lead to an improvement in profits.

  In addition, according to the above-described embodiment, when the user premises equipment 40 evaluates the quality of the video content according to the video quality standard agreed between the video provider, the telecommunications carrier, and the viewing user, and detects an abnormality. The failure analysis apparatus 10 is notified. Therefore, it is not necessary for the viewing user himself / herself to determine whether an abnormality has occurred in consideration of the contracted video quality or to report the occurrence of the abnormality. In addition, it is not always necessary to monitor the video quality in each user premises equipment 40 in a device on the telecommunications carrier side such as the failure analysis device 10, and even if a packet loss occurs in a device other than the device constituting the communication NW, the viewing user Can grasp the influence on the video signal being viewed.

  For example, in Patent Document 1, since the video quality of each receiving terminal is measured in the video data transmission device, the load on the transmission device is large, and at the time of video quality measurement, the packet loss is set to the video quality contracted with the user. It does not consider whether it is within the range. In other words, in the case of the technique disclosed in Patent Document 1, whenever a packet loss occurs, information indicating that fact is transmitted to the server. In the technique described in Patent Document 2, the server connected to the receiving terminal detects the packet loss at each receiving terminal. In addition to the heavy load on the server, the server receives the unit at a unit time. Packet loss is detected based on the number of packets that can be received. As described above, in Patent Documents 1 and 2, the burden on the device on the operator side is large, and services that allow packet loss are not considered. On the other hand, in this embodiment, even if a packet loss occurs within the range allowed by the evaluation standard specified by the video provider (or communication carrier), the user home equipment 40 does not notify the analysis system. Thus, in this embodiment, since abnormality detection is performed in consideration of the allowable range of packet loss according to the service provided to the user, flexibility for packet loss detection is high.

Moreover, in this embodiment, since FEC already incorporated in the user home equipment 40 can be used, an increase in the load on the user home equipment 40 can be suppressed. In the technique of Patent Document 1, sequential scanning of sequence numbers of RTP (Real-Time Transport Protocol) packets is performed to detect packet loss. However, even when an RTP packet loss occurs, the video packet may be complemented by FEC. Therefore, the sequential scanning of the RTP sequence number does not count the video degradation when the viewing user actually views it. , Video deterioration detection reflecting the user viewing state cannot be performed. On the other hand, in the present embodiment, since video packets that could not be complemented by FEC are targeted for packet loss, it is possible to detect video deterioration more reflecting the user viewing state.
In Patent Document 2, a branching unit is installed between the user home equipment and the video distribution network, and packet information is acquired by branching and capturing a packet received by the user home equipment. In this embodiment, there is no need to set up a branching device in the viewing user's home or to introduce a new network necessary for receiving the captured packet on the provider side.

  As described above, according to the present embodiment, in the video distribution system in which the user home equipment 40 receives and displays the video signal distributed via the video distribution network, It is possible to quickly isolate a failure location where an abnormality has occurred. In other words, the failure analysis apparatus 10 of the communication carrier determines whether the failure location affecting the generated abnormality is the user home equipment 40, the communication NW equipment 30 device, or the video provider business equipment 20 device. Thus, it becomes possible to classify the failure range clearly and quickly. By this separation, a packet loss due to silent failure, congestion, and bandwidth excess occurring in the communication NW facility 30 can be detected at an early stage.

  In addition, by identifying the failure location and specifying the range of influence of the failure, it is possible to identify a viewing user who may be affected by image disturbance due to packet loss or the like and notify the failure, or the user home equipment 40 It is possible to improve the convenience of the viewing user by notifying the viewing user that there is a possibility that a problem has occurred. Furthermore, it is possible to provide alternative content to a viewing user who cannot view due to the influence of a failure, and to improve the convenience of the viewing user.

  The DB server 11, the notification server 13, the analysis server 15, the video server 21, the stored video server 23, the NW device 25, the core device 31, the edge device 33, and the video reception device 41 have a computer system therein. Yes. And the process of each part of the DB server 11, the notification server 13, the analysis server 15, the video server 21, the stored video server 23, the NW device 25, the core device 31, the edge device 33, and the video receiving device 41 described above is as follows. The program is stored in a computer-readable recording medium in the form of a program, and the above processing is performed by the computer system reading and executing the program. Here, the computer system includes a CPU, various memories, an OS, and hardware such as peripheral devices.

Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case, and a program that holds a program for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

1 ... Network operator NW
DESCRIPTION OF SYMBOLS 10 ... Failure analysis apparatus 11 ... DB server 111 ... Evaluation criteria storage part 112 ... Video receiver information storage part 113 ... NW information storage part (network information storage part)
DESCRIPTION OF SYMBOLS 114 ... Server cooperation part 115 ... NW state notification process part 13 ... Notification server 131 ... Packet transmission / reception part 132 ... Evaluation reference | standard transmission / reception part 133 ... Server cooperation part 134 ... NW state notification process part 135 ... Evaluation standard excess notification process part (error generation) Notification receiver)
DESCRIPTION OF SYMBOLS 136 ... Analysis result notification process part 15 ... Analysis server 151 ... Server cooperation part 152 ... Image | video receiving apparatus information reception part 153 ... NW state information reception part 154 ... Analysis information transmission / reception part 155 ... Fault analysis execution part 2 ... Image | video provider NW
20 ... Video provider equipment 21 ... Video server (data distribution device)
211 ... Evaluation standard storage unit 212 ... Video signal storage unit 213 ... Packet transmission / reception unit 214 ... NW state notification processing unit 215 ... NW state collection processing unit 216 ... Evaluation standard transmission / reception unit 217 ... Video signal transmission unit 23 ... Storage video server ( Data distribution device)
25 ... NW device (communication device)
3. Communication NW
30 ... Communication NW equipment 31 ... Core device (communication device)
33 ... Edge device (communication device)
331 ... Packet transmission / reception unit 332 ... NW state notification processing unit 333 ... NW state collection processing unit 334 ... Evaluation reference transmission / reception unit 335 ... Evaluation reference storage unit 336 ... Viewing request processing unit 40 ... User premises equipment 41 ... Video reception device (reception device) )
411 ... Packet transmission / reception unit 412 ... Evaluation reference transmission / reception unit (error occurrence notification unit)
413 ... Evaluation criteria storage unit 414 ... Video / audio processing unit (data processing unit)
415 ... Video signal analysis unit (analysis unit)
416 ... Alternative content storage unit 417 ... Evaluation execution unit 418 ... Evaluation information storage unit 419 ... Video signal output unit (output unit)
43 ... Receiver (display device)

Claims (10)

A failure analysis system comprising a network configured by a communication device and routing data distributed from a data distribution device to a reception device, and a failure analysis device connected to the network,
The receiving device is:
A data processing unit for receiving data distributed from the data distribution device via the network;
An output unit for outputting the data received by the data processing unit;
When an error due to packet loss occurs in the reception of the data in the data processing unit, an error occurrence notification in which node identification information for specifying the receiving device and data identification information for specifying the data is set is sent to the analysis device. An error occurrence notification section for notification,
The failure analysis apparatus is
A network information storage unit for storing configuration information indicating the configuration of the network;
An error occurrence notification receiving unit for receiving the error occurrence notification from the receiving device;
The node identification information and the data identification information are read from the error occurrence notification received by the error occurrence notification receiving unit, and each of the read node identification information is read from the configuration information stored in the network information storage unit. The data distribution path of the receiving device specified by the node identification information is read, whether there is the communication apparatus common to the read data distribution path, and whether the read node identification information is common A failure analysis execution unit that identifies the receiving device, the communication device, or the data distribution device in which a failure has occurred, based on whether the data identification information is common,
Comprising
A failure analysis system. The receiving device is:
An evaluation criterion storage that stores evaluation criterion data indicating conditions for determining that an error due to packet loss has occurred;
An analysis unit for detecting that a packet loss has occurred in reception of the data in the data processing unit;
An evaluation execution unit that determines whether or not the occurrence condition of the packet loss detected by the analysis unit matches the condition indicated by the evaluation criterion data stored in the evaluation criterion storage unit;
The error occurrence notification unit notifies the analysis device of the error occurrence notification when the evaluation execution unit determines that a packet loss occurrence condition matches the condition indicated by the evaluation reference data. To
The failure analysis system according to claim 1. The data processing unit decodes the forward error encoded data;
The analyzing unit determines that a packet loss has occurred when the data processing unit fails to decode the data;
The failure analysis system according to claim 2. The failure analysis execution unit is connected to the communication device or the data distribution device in which the failure has occurred from the configuration information stored in the network information storage unit directly or via another communication device. Reading the information of the receiving device, and determining the receiving device indicated by the read information as a failure range,
The failure analysis system according to any one of claims 1 to 3, wherein The failure analysis apparatus is
The failure analysis execution unit further includes an analysis result notification processing unit that notifies the receiving device that the receiving device is faulty when the receiving device determines that the receiving device is a failure location.
The failure analysis system according to any one of claims 1 to 4, characterized in that: The data is content data of video content,
The data processing unit requests distribution of the video content, receives content data of the video content requested to be distributed from the data distribution device, and content data of video content different from the video content requested to be distributed From the data distribution device,
The receiving device is:
An alternative content storage unit for storing content data of the different video content;
The output unit outputs the requested content data of the requested video content received by the data processing unit to a display device for display, and when the requested content data of the video content cannot be output, the alternative content storage unit Outputting the content data of the different video content read out from the display device to be displayed;
The failure analysis system according to any one of claims 1 to 5, wherein: The failure analysis device in a failure analysis system configured by a communication device and configured to route data distributed from a data distribution device to a reception device, and a failure analysis device connected to the network,
A network information storage unit for storing configuration information indicating the configuration of the network;
An error occurrence notification in which node identification information for specifying the receiving device and data identification information for specifying the data is set is received from the receiving device in which an error has occurred in receiving data distributed from the data distribution device. An error occurrence notification receiver;
The node identification information and the data identification information are read from the error occurrence notification received from the receiving device in the error occurrence notification receiving unit, and each of the read node identification information is stored in the network information storage unit The data distribution path of the receiving device specified by the node identification information is read from the configuration information, and whether there is the communication apparatus common to the read data distribution path, or whether the read node identification information is common Or a failure analysis execution unit that identifies the receiving device, the communication device, or the data distribution device in which a failure has occurred, based on whether the read data identification information is common, or
A failure analysis apparatus comprising: A receiving device in a failure analysis system comprising a communication device, a network for routing data distributed from a data distribution device to a receiving device, and a failure analysis device connected to the network,
An evaluation criterion storage that stores evaluation criterion data indicating conditions for determining that an error due to packet loss has occurred;
A data processing unit for receiving data distributed from the data distribution device via the network;
An output unit for outputting the data received by the data processing unit;
An analysis unit for detecting that a packet loss has occurred in reception of the data in the data processing unit;
An evaluation execution unit that determines whether or not the occurrence condition of the packet loss detected by the analysis unit matches the condition indicated by the evaluation criterion data stored in the evaluation criterion storage unit;
In the evaluation execution unit, when it is determined that the packet loss occurrence condition matches the condition indicated by the evaluation reference data, node identification information for specifying the receiving device and data for specifying the data An error occurrence notification unit for notifying the analysis apparatus of an error occurrence notification in which identification information is set;
A receiving apparatus comprising: A failure analysis method of a failure analysis system comprising a network configured by a communication device and routing data distributed from a data distribution device to a reception device, and a failure analysis device connected to the network,
In the receiving device,
A data processing step in which a data processing unit receives data distributed from the data distribution device via the network;
An output process in which the output unit outputs the data received by the data processing unit;
When an error occurrence notification unit has received an error due to packet loss in receiving the data in the data processing process, an error occurs in which node identification information for identifying the receiving device and data identification information for identifying the data are set. An error occurrence notification process for notifying the analyzer of the notification;
In the failure analysis apparatus,
An error occurrence notification receiving unit receives an error occurrence notification from the receiving device;
The failure analysis execution unit reads the node identification information and the data identification information from the error occurrence notification received by the error occurrence notification reception unit, and stores each of the read node identification information in the network information storage unit, The data distribution path of the receiving device specified by the node identification information is read from the configuration information indicating the network configuration, and whether there is the communication apparatus common to the read data distribution path, the read node identification information is A failure analysis execution process for identifying the receiving device, the communication device, or the data distribution device in which a failure has occurred, based on whether they are common or whether the read data identification information is common ,
A failure analysis method characterized by comprising: A computer configured by a communication device and used for the receiving device in a failure analysis system including a network that routes data distributed from the data distribution device to the receiving device, and a failure analysis device connected to the network,
An evaluation criterion storage for storing evaluation criterion data indicating conditions for determining that an error due to packet loss has occurred;
A data processing unit for receiving data distributed from the data distribution device via the network;
An output unit for outputting the data received by the data processing unit;
An analysis unit for detecting that a packet loss has occurred in reception of the data in the data processing unit;
An evaluation execution unit that determines whether or not the occurrence state of the packet loss detected by the analysis unit matches the condition indicated by the evaluation reference data stored in the evaluation reference storage unit;
In the evaluation execution unit, when it is determined that the packet loss occurrence condition matches the condition indicated by the evaluation reference data, node identification information for specifying the receiving device and data for specifying the data An error occurrence notification unit for notifying the analysis apparatus of an error occurrence notification in which identification information is set;
A program characterized by functioning as

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