JP6717548B2 - Traffic control system and method - Google Patents

Description

The present invention relates to a network system for providing various services to user terminals in entertainment facilities such as sports facilities and entertainment facilities, and more particularly to a technique for improving traffic efficiency.

In recent years, in various types of entertainment facilities such as sports facilities such as soccer stadiums, baseball fields, athletics stadiums, and entertainment facilities such as concert halls and multipurpose halls, various services including content distribution have been provided to user terminals owned by users who are facility users. It is considered to be provided. Examples of the distribution contents include a replay video of a game and a player introduction video in the field of sports, and a video of a player up and a live video in the field of music.

Here, in providing the service, there is a demand to provide the service according to the rank and position of the seat in the entertainment facility (view from the seat). This is expected to enhance the added value of individual seats, such as premium seats and supplementing the field of view for seats away from the ground.

In addition, since the facility users bring in various capabilities and functions, it is difficult to presuppose uniformly high-performance terminals when providing the service, and they want to utilize only general terminal functions. There is a request.

Further demands include providing services not only to a single entertainment facility but also to a plurality of entertainment facilities. For example, there is a desire to provide services similar to those provided at the main venue, not only at the main venue where the actual game is played, but also at so-called public viewing facilities that simultaneously relay the game at the main venue. ..

In order to provide such a service, a network configuration as shown in FIG. 10 is being studied. In the following, a case where a video distribution service is provided in a stadium will be described as an example. As shown in FIG. 10, a LAN (Local Area Network) 100 accommodating a plurality of wireless access points 110 is laid in the stadium 10. A video server 120 housed in the LAN 100 is arranged in or near the stadium 10. The LAN 100 of the stadium 10 is housed in a carrier network (telecommunications carrier network) 200. The carrier network 200 accommodates a video server 210 and a DNS (Domain Name System) server 220. The carrier network 200 is connected to the Internet 300. A video server 310 and a DNS server 320 are arranged on the Internet 300. The user terminal 1 connects to the access point 110 and receives a video distribution service from the video servers 120, 210, 310.

In such a network configuration, the video material is uploaded to the video servers 120, 210, 310 as the upstream traffic from the LAN 100, while the distribution content such as the video data is distributed as the downstream traffic to the user terminal 10. It In order to provide appropriate services, it is necessary to perform traffic control in order to satisfy service requirements such as delay while optimizing the bandwidth used by each traffic.

Conventional traffic control techniques include, for example, a load balancer technique (Non-Patent Document 1) and a server redirection technique (Non-Patent Document 2). When applying the load balancer technology in the above network configuration, a load balancer is arranged in the LAN 100, and the load balancer is an appropriate video server according to the bandwidth of the network, the utilization rate of the video server, and the priority of each wireless access point 110. And determine the request from the user terminal.

Further, when the server redirection technology is applied in the above network configuration, the video server determines an appropriate video server according to the service priority of each wireless access point 110 at the timing of receiving the video control request, and the user terminal The request of.

"Load Balancing-What is a Load Balancer? What is DNS Round Robin?", [online], [Search June 22, 2017], Internet <URL:http://www.infraexpert.com/study/loadbalancer1.html > "CDN Demonstration Experiment at Poweredcom", [online], [June 22, 2017 Search], Internet <URL:http://www.unisys.co.jp/tec_info/tr78/7805.pdf>

However, if the load balancer technology is applied, it is necessary to process video traffic of several Tbps by the load balancer assuming tens of thousands of users. The current load balancer product is about 10 million yen at several tens of Gbps, and it is assumed that enormous cost is required. In addition, when there are multiple bases, it is necessary to install a load balancer at each base, so it is necessary to implement resource arbitration between the load balancers at each base for resource optimization between bases. As described above, when the load balancer technology is used, there is a problem that a large cost and labor are required.

Further, when the server redirection technology is applied, it is necessary to implement the redirection determination logic for each protocol unit. Also, when selecting a video server, a judgment function that crosses them is required. Further, when there are a plurality of bases, the video server needs to be installed in each facility, and therefore resource arbitration between the video servers of the bases needs to be implemented for resource optimization between the bases. As described above, when the load balancer technology is used, there is a problem that a large cost and labor are required.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a traffic control system and method capable of providing appropriate service for each position of a user at a entertainment facility at low cost. It is in.

In order to achieve the above object, the present invention provides a local area network laid in a entertainment facility and accommodating a plurality of wireless access points, a first server arranged in or near the entertainment facility for content distribution, and the local area. A network including an upper network that accommodates a network and a second server that is accommodated in the upper network and performs content distribution, and the first server and the second server provide services to user terminals of users who use entertainment facilities In the traffic control system according to claim 1, in response to a name resolution request from the user terminal, name resolution processing is performed for a name related to a service provided by the first server or the second server, and name resolution is performed for another name. A name resolution server having name resolution means for relaying a request to a preset upper level server and wireless access point determination means for determining a wireless access point accommodating a user terminal of a name resolution request source, The solving means is characterized in that different addresses can be responded according to the wireless access points discriminated by the wireless access point discriminating means for the same name.

According to the present invention, different addresses corresponding to the wireless access point accommodating the user terminal can be responded to the same name, so that different traffic control can be performed according to the position of the user. Moreover, in the present invention, since it is not necessary to make any improvement to the user terminal, the introduction cost is low.

Content distribution service network configuration diagram according to the present invention Wireless access point configuration diagram Diagram of DNS Proxy Example of name resolution table Example of wireless access point information table Example of resource management table Flowchart explaining the overall processing of traffic control Flowchart explaining processing when contents are on video server of base network Flowchart explaining the processing when the content is not on the video server of the base network Conventional content distribution service network configuration diagram

A traffic control system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a network configuration diagram of a content distribution service. In the present embodiment, a case will be described in which, at entertainment facilities at a plurality of bases, a video distribution service is provided to user terminals of users who use the entertainment facilities. Specifically, the video distribution service is provided to the user terminals in the stadium 10 which is a performance facility for performing a game and the stadiums 11, 12,... Which are performance facilities for performing public viewing. Since each stadium has the same configuration, only the stadium 10 will be described here.

As shown in FIG. 1, the stadium 10 is provided with a base network 100 which is a LAN accommodating a plurality of wireless access points 110. The base network 100 is housed in a carrier network (telecommunications carrier network) 200 via a gateway device (not shown). Further, the carrier network 200 is connected to the Internet 300 via a gateway device (not shown).

Inside or near the base network 100, one or a plurality (two in FIG. 1) of video servers 120, which are content distribution servers accommodated in the base network 100, are arranged. The housing form and mounting form of the video server 120 are not questioned. A server group called a so-called data center can be arranged in or near the stadium 10, and the video server 120 can be arranged in this data center. Also, the video server 120 can be constructed as a virtual server on a physical server and can arbitrarily control the increase and decrease of resources. A DNS Proxy 400, which is a name resolution server, is arranged in the base network 100. Details of the DNS Proxy 400 will be described later.

The carrier network 200 accommodates one or more video servers 210 and DNS servers 220 which are content distribution servers. The housing form and mounting form of the video server 210 are not questioned. A server group called a so-called data center can be arranged in the carrier network 200 or in the vicinity thereof, and the video server 210 can be arranged in this data center. Further, the video server 210 can be constructed as a virtual server on a physical server and can arbitrarily control the increase and decrease of resources. The DNS server 220 is an authoritative server for at least the domain to which the video server 210 belongs in the carrier network 200.

The Internet 300 accommodates one or more video servers 310 and DNS servers 320, which are content distribution servers. The accommodation form or mounting form of the video server 310 does not matter. A server group called a so-called data center can be arranged in the Internet 300 or in the vicinity thereof, and the video server 310 can be arranged in this data center. Also, the video server 310 can be constructed as a virtual server on a physical server and can arbitrarily control the increase and decrease of resources. The DNS server 320 is an authoritative server for at least the domain to which the video server 310 belongs in the Internet 300.

The content distributed by each video server 120, 210, 310 may be held by the server itself, or may be held by another nearby server or storage. In a typical example, when each video server 120, 210, 310 is arranged in a data center, the distribution content is held in another server or storage in the data center. For the sake of simplicity of description, it is assumed that each video server 120, 210, 310 holds the content, and each video server 120, 210, 310 distributes the content held by itself.

In this embodiment, the following are preconditions.
(1) The seats of each stadium 10, 11, 12,... Are classified into the following three service priorities.
High-priority seats (high-quality video can be viewed preferentially)
Medium priority seats (the quality and the number of viewable contents are limited depending on the congestion situation)
Low priority seats (same as above (lowest priority))
(2) There are the following three types of content quality.
High quality (Example of bandwidth used: 7)
Medium quality (Example of bandwidth used: 2)
Low quality (Example of bandwidth used: 1)

Each stadium 10, 11, 12,... Covers the entire service area with a plurality of wireless access points 110. Each wireless access point 110 covers a part or all of the seats of any service priority. User terminals connected to one wireless access point 100 are all user terminals of users who are seated in the seats having the same service priority. For example, the wireless access points 110a and 110b in FIG. 1 are used only by user terminals in high priority seats, the wireless access points 110c, d, e, and f are used only by user terminals in medium priority seats, and the wireless access points 110g, h is used only by the user terminal with the low priority seat. As described above, according to the present invention, services are ranked in a coverage area of a wireless LAN and individual terminals are controlled. That is, each wireless access appointment 110 is uniquely associated with a unique service priority corresponding to the priority of the seat, and the network side performs service control according to the service priority. ..

The video server 120 of the base network 100 and the video server 210 of the carrier network 200 provide services with any content quality. The content quality at which the service is provided is specified by the IP addresses of the video server 120 and the video server 210. Here, one IP address can be set for one video server 120 or one video server 210, and service can be provided with one content quality. It is also possible to set a plurality of IP addresses for one video server 120 or one video server 210, and to provide services with a plurality of content qualities corresponding to each IP address even though they are the same server. In the example of FIG. 1, a video server 120 having IP addresses of IP_1 and IP_2 is arranged in the base network 100, and a video server 210 of the carrier network 200 has an IP address of IP_3.

The DNS Proxy 400 performs name resolution processing of names related to services provided by the video server 120 of the base network 100 and the video server 210 of the carrier network 200 in response to a name resolution request from a user terminal. That is, the DNS Proxy 400 becomes an authoritative server for the domain related to the video distribution service. Also, the DNS Proxy 400 performs a Proxy process of relaying a name resolution request for another name to a preset upper server.

The first point of the present invention is that the time to live (TTL: Time To Live) of the response resolved by the DNS Proxy 400 is sufficient so that the cache is cleared when the name resolution request is made when the service is used by the user terminal. It is set to a short value. Normally, the TTL of the DNS A/AAAAA record is often about one day, but in the present invention, the TTL is changed to several tens of seconds to several minutes in the DNS Proxy 400 on the stadium 10 in order to perform real-time traffic control. Let This makes it possible to change the IP address of the name resolution response according to the traffic situation and dynamically change the video server of the connection destination.

A second point of the present invention is to perform traffic control using the DNS Proxy 400 according to the service priority for each wireless access point 110. In the present invention, as described above, the TTL is shortened, so that the name resolution request of the server arrives from each wireless access point 110 at any time. The DNS Proxy 400 realizes the efficiency of traffic control by changing the IP address that responds according to the bandwidth of the network, the utilization rate of the server, and the service priority of each wireless access point. As will be described later, each wireless access point 110 is provided with a DHCP (Dynamic Host Configuration Protocol) process, and an IP address is assigned to a subordinate terminal from the assigned IP address range. The DNS Proxy 400 identifies the wireless access point to which it belongs and the service priority corresponding to it, based on the IP address of the terminal.

A third point of the present invention is to dynamically rearrange contents and servers based on DNS information. In the present invention, the usage status and request of each service can be grasped from the information of the DNS Proxy 400. Based on such information, dynamically increase/decrease the video server and rearrange contents. In addition, these additions and reductions are performed in advance according to the schedule of the stadium 10 and the actual service usage.

Next, two operation policies of the DNS Proxy 400 will be described.

(1) When content exists in the video server 120 near the stadium (a) When resources are available, high quality content is distributed to each user as much as possible.
(B) If the resource is insufficient, the resource is secured by lowering the quality of the content of the user having a priority equal to or lower than the requesting user.
(C) If the resources are still insufficient, the distribution is unsuccessful.

(2) When there is no content on the video server 120 near the stadium (a) When there is enough server resources for the video server 120 near the stadium, the content is transferred from the video server 210 of the carrier network 200 to the video server 120 near the stadium. To download. After that, the process transits to the above (1).
(B) If the video server 120 near the stadium does not have sufficient server resources, the video server 210 of the carrier network delivers the content directly.
(B-1) At that time, if the resources are sufficient, the highest quality content is distributed to each user.
(B-2) If the resource is insufficient, the resource is secured by lowering the quality of the content of the user having the priority equal to or lower than the requesting user.

FIG. 2 shows the configuration of the wireless access point 110. As shown in FIG. 2, the wireless access point 110 includes a gateway function unit 111, a DHCP function unit 112, and a DNS cache 113. The gateway function unit 111 relays packets between the base network 100 and the wireless LAN constructed by itself. The DHCP function unit 112 notifies the user terminal, which is trying to connect to the wireless LAN, of the configuration information including the IP address assigned to the terminal and the IP address of the DNS server used by the terminal. Here, the IP address of the DNS server notified to the user terminal is the IP address of the DNS Proxy 400. The DNS cache 113 caches the response related to the name resolution request from the user terminal.

FIG. 3 shows the configuration of the DNS Proxy 400. As shown in FIG. 3, the DNS Proxy 400 includes a name resolution processing unit 410, a resource information acquisition unit 420, a resource control/content arrangement control unit 430, a name resolution table 440, an access point information table 450, and resource management. And a table 460.

The operation of the name resolution processing unit 410 will be described later. The resource information acquisition unit 420 acquires resource information of each video server or network. Various well-known methods can be used as the resource acquisition method. The resource control/content arrangement control unit 430 instructs the processing according to the third point of the present invention described above, that is, the instruction to increase or decrease the resources of each video server or the network, the movement of the distribution content held by the video server, and the like. Or Note that the resource increase/decrease process is, for example, a process of increasing/decreasing the resource of the video server as a virtual server by giving a predetermined instruction to the virtual server infrastructure of the data center accommodating the video server and the like. ..

As shown in FIG. 4, the name resolution table 440, for the name (domain) used for the video distribution service, the service priority of the user who can provide the video distribution service and the video that provides the video distribution service. It holds the IP address of the server for each quality of service.

As shown in FIG. 5, the access point information table 450 includes an ID for identifying each wireless access point 110, an address range of a wireless LAN provided by the wireless access point 110, and an area covered by the wireless access point 110. It holds the service priority and.

As shown in FIG. 6, the resource management table 460 holds the resource utilization rate of each video server and the resource utilization rate of each link. Here, the link resource utilization rate means the network utilization rate or band of the link between the carrier network 200 and the base network 100, and the link between each wireless access point 110 in the base network 100. The information of the resource management table 460 is acquired by the resource information acquisition unit 420.

Next, the operation of the DNS Proxy 400 will be described with reference to FIGS. 7 to 9. First, the overall operation will be described with reference to FIG.

When the DNS Proxy 400 receives the name resolution request from the user terminal, the name related to the name resolution request is not the stadium providing domain, that is, the name resolution request is not related to the name related to the video service provided by the video server 120 or the like. If there is a cache hit, the information is answered, and if there is no cache hit, an inquiry is made to the upper authority server (steps S1 and S7). The name resolution table 440 may be referred to as to whether or not the name related to the name resolution request is the stadium providing domain.

When the name related to the name resolution request is the stadium providing domain, it is determined whether the name is the domain of the service provided by the service priority of the requesting wireless access point 110 (step S2). For the determination of the requesting wireless access point 110 and its service priority, the sender IP address of the name resolution request packet and the access point information table 450 may be referred to. Then, the name resolution table 440 may be referred to as to whether or not the service domain is provided by the service priority of the requesting wireless access point 110. If the result of determination is that the service priority of the requesting wireless access point 110 is not the domain of the service provided, a Refused response is made to the name resolution request (step S6). Further, it is determined whether or not the maximum number of simultaneous deliveries of the requesting user is exceeded, and if the number of simultaneous deliveries exceeds the maximum number, a Refused response is made to the name resolution request (step S3, step S6).

Then, the DNS Proxy 400 determines a response IP address according to the bandwidth of the network, the utilization rate of the server, and the service priority of each wireless access point (step S7), and returns the A/AAAA record of the corresponding domain. Yes (step S8).

Next, with reference to FIG. 8, the process of step S7 described above will be described in detail. First, the DNS Proxy 400 determines whether the content is stored in the video server 120 of the base network 100, and if the content is not stored, acquires the content from the video server 210 of the carrier network 200 (step S11, S30). The content acquisition process will be described later.

When the content is stored in the video server 120 of the base network 100, the DNS Proxy 400 determines whether the base network 100 and the video server 120 have resources capable of delivering high-quality content (step S12). When there are resources, it is determined that the high quality content is delivered from the video server 120 near the stadium, and the A/AAAA record of the high quality content is answered (steps S13 and S14). For the answer, the name resolution table 440 may be referred to. In the following description, the record reply process is performed in the same manner.

If there is no resource in step S12, the requesting user determines whether the seat is a high priority seat (step S15). The determination may be made by referring to the transmission source address of the request packet and the wireless access point information table 450. In the following description, the requesting user determination process is performed in the same manner.

If the seat is a high priority seat, network resources are secured by lowering the quality of the content of the user in the seats of medium priority/low priority (eg, high→middle, medium→low) (step S16). Then, the DNS Proxy 400 determines whether the base network 100 and the video server 120 have resources capable of delivering the high quality content (step S17), and if there is the resource, the high quality content is sent from the video server 120 near the stadium. It is decided to deliver, and the A/AAAAA record of the high quality content is answered (steps S13 and S14).

In step S17, if there is no resource capable of delivering high quality content to the base network 100 and the video server 120, it is determined whether there is a resource capable of delivering medium quality content to the base network 100 and the video server 120 (step S18). ). If there is a resource, it is determined that the medium quality content is to be distributed from the video server 120 near the stadium, and the A/AAAA record of the medium quality content is answered (steps S19 and S20).

In step S18, if there is no resource capable of delivering medium quality content to the base network 100 and the video server 120, it is determined whether there is a resource capable of delivering low quality content to the base network 100 and the video server 120 (step S21). ). If there is a resource, it is determined that the low quality content is delivered from the video server 120 near the stadium, and the A/AAAA record of the low quality content is answered (steps S22 and S23). On the other hand, when there is no resource in the step S21, it is determined that the resources of the base network 100 and the video server 12 are insufficient and the distribution is impossible, and a Refused response is made to the name resolution request (step S24, step). S25).

If it is determined in step S15 that the seat is not a high priority seat, it is determined whether the base network 100 and the video server 120 have resources capable of delivering the medium quality content (step S26). If there is a resource, it is determined that the medium quality content is to be distributed from the video server 120 near the stadium, and the A/AAAA record of the medium quality content is answered (steps S19 and S20). On the other hand, if there is no resource in step S26, the requesting user determines whether the seat is a medium priority seat (step S27).

If the seat is a medium priority seat, network resources are secured (step S28) by lowering the content quality of the user of the medium priority seat/low priority seat (eg, high→middle, medium→low), and the process is executed. The process moves to step S17.

If it is determined in step S27 that the seat is not the medium priority seat, that is, the requesting user is the low priority seat, the quality of the content of the user having the low priority seat is reduced (eg, high→medium, medium→low) to obtain network resources. Is secured (step S29), and the process proceeds to step S21.

The processing described above with reference to FIG. 8 is for the case where the content exists in the video server 120 near the stadium, and the processing surrounded by the dotted line (A) is performed when each resource has a margin. It is intended to deliver the highest quality content to the user. Further, the process surrounded by the dotted line (B) is intended to secure the resource by lowering the quality of the content of the user having the priority equal to or lower than the requesting user when the resource is insufficient. To do. Further, the processing surrounded by the dotted line (C) is intended to be delivery NG when the resources are still insufficient.

Next, the content acquisition process of step S30 will be described with reference to FIG. First, it is determined whether or not the video server 120 near the stadium has a space (step S41). If the space is available, the content is downloaded from the video server 210 of the carrier network 200 to the video server 120 near the stadium (step S42). ). On the other hand, when the video server 120 near the stadium is full, the quality of the content of the user having the priority equal to or lower than the priority of the requesting user is reduced (eg, high→medium, medium→low), and the server resource is reduced. Is secured (step S43). As a result, if there is space, the content is downloaded from the video server 210 of the carrier network 200 to the video server 120 near the stadium (steps S44 and S42). After downloading the content, the process proceeds to step S11 in FIG. In the download process of step S42, the resource control/content placement control unit 430 may acquire the content from the video server 210 of the carrier network 200 and transfer the content to the video server 120 near the stadium, or any server or Both servers may be instructed to transfer contents between them.

On the other hand, if there is no free space even after the process of step S43, it is determined whether or not there is a resource capable of delivering the medium quality content in the network between the video server 210 of the carrier network 200 and the video server 120 near the stadium (step). S45). If there are resources, it is determined that the medium quality content is to be distributed from the video server 210 of the carrier network 200, and the A/AAAA record of the medium quality content of the video server 210 of the carrier network 200 is returned (steps S46 and S47).

If there is no resource in step S45, the resource quality is secured by lowering the quality of the content of the user whose priority is equal to or lower than that of the requesting user (eg, high→medium, medium→low) (step S48). ..

Next, the DNS Proxy 400 determines whether the network between the video server 210 of the carrier network 200 and the video server 120 near the stadium has resources capable of delivering low-quality content (step S49). If there are resources, it is determined that the low quality content is to be distributed from the video server 210 of the carrier network 200, and the A/AAAA record of the low quality content of the video server 210 of the carrier network 200 is returned (steps S50 and S51). On the other hand, when there are no resources, it is determined that the resources cannot be delivered due to lack of resources, and a Refused response is made to the name resolution request (steps S52 and S53).

The process described above with reference to FIG. 9 is for the case where no content exists in the video server 120 near the stadium, and the process surrounded by the dotted line (A) is the server resource of the video server 120 near the stadium. If there is a margin, the content is intended to be downloaded from the video server 210 of the carrier network 200 to the video server 120 near the stadium. Further, in the processing surrounded by the dotted line (B), when the server resources of the video server 120 near the stadium are not sufficient, the content is directly delivered from the video server 210 of the carrier network 200. (B-1) At that time If the resources are available, the highest quality content is delivered to each user. (B-2) If the resources are insufficient, the priority is equal to or lower than the requesting user. It intends to secure resources by lowering the quality of user content.

As described above, according to the traffic control system according to the present embodiment, different addresses corresponding to the wireless access point 110 accommodating the user terminal can be responded to the same name. Different traffic control can be performed accordingly. Moreover, in the present invention, since it is not necessary to make any improvement to the user terminal, the introduction cost is low.

Although one embodiment of the present invention has been described in detail above, the present invention is not limited to this. For example, in the above-described embodiment, the DNS Proxy 400 is arranged in each of the stadium 10 which is a performance facility for performing a match and the stadiums 11 and 12 which are performance facilities for performing a public viewing, but one DNS Proxy 400 is provided. It may be arranged in the carrier network 200. This enables resource optimization across bases.

Further, in the above embodiment, the video distribution service is exemplified as the service provided to the user terminal, but the present invention can be implemented with other services.

Further, the details of the service priority, the service quality, the data structure of each table, the operation policy, and the processing described in the above embodiment are examples of the present invention, and the present invention can be appropriately implemented in another form. ..

Further, in the above-described embodiment, the stadium, which is an exercise facility, has been illustrated as an example of the entertainment facility, but the present invention can be implemented even in other exercise facilities and entertainment facilities. Further, the present invention can be implemented even in a facility including a plurality of entertainment facilities such as an amusement park.

10, 11, 12... Stadium 100... Base network 110... Wireless access point 111... Gateway function unit 112... DHCP function unit 113... DNS cache 120, 210, 310... Video server 200... Carrier network 210, 310... DNS server 400... DNS Proxy
410... Name resolution processing unit 420... Resource information acquisition unit 430... Resource control/content placement control unit 440... Name resolution table 450... Wireless access point information table 460... Resource management table

Claims (8)

A local area network laid in the entertainment facility and accommodating a plurality of wireless access points, a first server disposed in or near the entertainment facility for content distribution, a host network accommodating the local area network, and a host network A traffic control system in a network, comprising: a second server accommodated and delivering contents, wherein the first server or the second server provides a service to a user terminal of a user who uses an entertainment facility,
An upper-level server that performs name resolution processing for names related to services provided by the first server and the second server in response to a name resolution request from the user terminal and presets name resolution requests for other names A name resolution server having a name resolution means for relaying to and a wireless access point determination means for determining a wireless access point accommodating the user terminal of the name resolution request source,
The traffic control system, wherein the name resolution means is configured to be able to respond to different addresses according to the wireless access points determined by the wireless access point determination means for the same name. The name resolution means is configured to set a survival time of a response to the name resolution request to a value such that the cache is cleared at the time of the name resolution request performed when the service is used by the user terminal. 1. The traffic control system according to 1. A plurality of first servers or second servers having different service quality classes and addresses for a name related to one provided service,
The name resolution means, for the wireless access point determined by the wireless access point determination means, determines a service quality class corresponding to the wireless access point, and provides a service in the service quality class. The traffic control system according to claim 1 or 2, wherein the address of the second server is returned. The name resolution server manages either one or both of the resource usage status of the communication path from the first server/second server to the wireless access point and the resource usage status of the first server/second server. Equipped with means,
The name resolution means determines a service quality class corresponding to the wireless access point based on the wireless access point determined by the wireless access point determination means and the resource usage status managed by the resource usage status management means. The traffic control system according to claim 3, wherein: The name resolution server comprises a resource control means for controlling the increase or decrease of the resources of the first server or the second server based on the information related to the name resolution processing by the name resolution means. The traffic control system according to claim 1. The name resolution server includes content arrangement control means for controlling the content of the second server to be transmitted to the first server based on information related to the name resolution processing by the name resolution means. 5. The traffic control system according to any one of 5 above. The local area network and the first server are provided in each of the entertainment facilities at a plurality of bases, and the local area network of each base is housed in the common upper network, and the name resolution server is arranged in the upper network. The traffic control system according to any one of claims 1 to 6, wherein: A local area network laid in a entertainment facility and accommodating a plurality of wireless access points, a first server disposed in or near the entertainment facility for content distribution, a host network accommodating the local area network, and a host network A traffic control method in a network, comprising: a second server accommodated and delivering contents, wherein the first server or the second server provides a service to a user terminal of a user who uses an entertainment facility,
An upper-level server that performs name resolution processing for names related to services provided by the first server and the second server in response to a name resolution request from the user terminal and presets name resolution requests for other names A name resolution server having a name resolution means for relaying to, and a wireless access point determination means for determining a wireless access point accommodating the user terminal of the name resolution request source is arranged,
The traffic control method, wherein the name resolution means responds with a different address according to the wireless access point determined by the wireless access point determination means for the same name.

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