JP2004054792A - Distributed content distribution system and distributed content distribution method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a contents delivery system utilizing trunk circuits of hot spots distributed in all regions of the country and a method therefor. <P>SOLUTION: The contents delivery system delivers contents to a plurality of user terminals through the Internet and is provided with: a contents server 8 for storing contents; delivery servers 10 which are installed in base stations distributed in a plurality of regions and store contents transmitted from the contents server 8 through the Internet 1; and an access route switching means 9 which specifies user-side access points according to IP addresses or host name information of a plurality of user terminals 11, 12, and 13 in response to the requests of the plurality of user terminals which access the server through the Internet 1 and makes the delivery servers 10 provided in the base stations closer to the access point than other base stations in terms of line distance distribute the content to respective user terminals. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a distributed content distribution system and a distributed content distribution method, and more particularly to a distributed content distribution system in which a content server and a distribution server cooperate to distribute content to a plurality of user terminals, and a distributed distribution method therefor.
[0002]
[Prior art]
Generally, wireless base stations of a hot spot service for developing an Internet broadband business are installed in each region, and at the same time, a public telephone service by Internet telephone is provided. In the hotspot business, the company has established hotspots in partnership with convenience stores and fast food chains, and uses ADSL and optical fibers for the trunk lines to the stores.
[0003]
FIG. 4 is a schematic diagram of a conventional hot spot. In order to provide users with a so-called ubiquitous network, a future-oriented society, as soon as possible, a store that installs a hot spot connects the Internet 1 with the modem 2 through an ADSL or optical fiber relay line. An Internet environment is provided from the wireless LAN 3 connected to the PC 2 to the notebook personal computer 4 and the PDA terminal 5 as user terminals. These hotspots are provided with low-cost Internet telephone calls that allow free calls to all over Japan and the United States, in addition to connection to the Internet.
[0004]
Regarding the expansion of hot spots, schools, libraries and public halls alone are expected to reach tens of thousands of locations throughout Japan. However, the communicable range of wireless LANs is relatively small, tens of meters, and the usage rate of broadband lines is limited. There is a problem of low. Further, at present, the hotspot functions as a relay base for providing unicast content transmitted from a remote server connected to the Internet 1 to the user terminals 4 and 5 via the wireless LAN 3.
[0005]
[Problems to be solved by the invention]
However, as described above, the hotspot provides the unicast content only to the user terminal existing in a narrow area such as a store through the wireless LAN 3 even though the hotspot is connected to the Internet 1. Could not be used effectively. Further, when access is concentrated on a content server on the Internet 1, a content distribution system using hotspot relay lines distributed throughout the country has been desired.
[0006]
The present invention has been made in view of the above circumstances, and has as its object to provide a distributed distribution system of content using a hot spot and a distributed distribution method thereof.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a distributed content distribution system according to the present invention according to the present invention, for example, as shown in FIG. 1, transmits content to a plurality of user terminals 4, 5, 6, 7 via the Internet 1. A content server 8 that stores content and a distribution server that is installed in base stations distributed in a plurality of regions and stores content transmitted from the content server 8 via the Internet 1. 10 and a user-side access point based on IP address or host name information of a plurality of user terminals in response to requests from a plurality of user terminals 4, 5, 6, 7, 11, 12, and 13 accessing through the Internet 1 And the distribution provided to the access point at the base station whose circuit distance is shorter than that of other base stations. It includes an access path switching unit 9 for dispersing delivering content to each user terminal from over server 10.
[0008]
With such a configuration, since the access path switching means 9 is provided, the access point on the user side is specified, and the content is transmitted from the distribution server 10 provided in the base station having a shorter circuit distance than the other base stations to the access point. Distributed distribution to each user terminal is possible.
[0009]
In order to achieve the above object, a distributed content distribution system according to the present invention described in claim 2 is, for example, identical to a plurality of user terminals 4, 5, 6, 7 through the Internet 1 as shown in FIG. A distribution server that is provided in a plurality of base stations that are always connected to the Internet 1 and that receives and stores content from the content server 8 that stores the content via the Internet 1, A configuration in which the same content is distributed from each base station to the plurality of user terminals 4, 5, 6, 7, 11, 12, and 13 designated by the content server 8 and having a short line distance in the same time zone. I do.
[0010]
With this configuration, the same content can be distributed from the distribution server 10 to a plurality of user terminals having a short line distance in the same time zone, and the data traffic of the content server 8 is reduced.
[0011]
In order to achieve the above object, in the distributed content distribution system according to any one of claims 1 and 2 according to the present invention, the base station is located between the base station and another base station. Is configured to execute the roaming process.
[0012]
With this configuration, when the user terminal is moving, the content can be distributed from the base station in a good wireless condition.
[0013]
In order to achieve the above object, in the distributed content distribution system according to any one of claims 1 to 3 according to the present invention, the content server is transmitted from the distribution server. Based on the content distribution information, the system is configured to total the value for the content distribution.
[0014]
With this configuration, the content distribution information can be managed, and the number of base stations on which the distribution server 10 is installed can be increased by an incentive for obtaining the distribution price of the content.
[0015]
In order to achieve the above object, the distributed content distribution method according to the present invention described in claim 3 is, for example, as shown in FIG. 1, identical to a plurality of user terminals 4, 5, 6, 7 via the Internet 1. A content distribution method for distributing a content, wherein the content server 8 storing the content transmits the content via the Internet 1 to a distribution server 10 installed in a base station distributed in a plurality of regions, A content storing step of storing content in the plurality of user terminals in response to requests from the plurality of user terminals accessed through the Internet; An access point specifying step of specifying a user-side access point based on the IP address or the host name information; The contents server 8 distributes contents from the distribution server 10 provided in the base station having a shorter circuit distance to the access point to the user terminals 4, 5, 6, 7, 11, 12, and 13 to the access points. Access path switching step of causing
[0016]
With this configuration, it is possible to specify the access point on the user side, and distribute the content to each user terminal from the distribution server 10 provided in the base station having a shorter line distance than the other base station. it can.
[0017]
In order to achieve the above object, the distributed content distribution method according to the present invention described in claim 4 is, for example, as shown in FIG. 1, identical to a plurality of user terminals 4, 5, 6, 7 via the Internet 1. A content distribution method for distributing content, wherein a distribution server 10 provided in a plurality of base stations that are always connected to the Internet 1 receives content from the content server 8 that stores the content via the Internet 1 and stores the content. In the storage step, a plurality of user terminals 4, 5, 6, 7, 11, 12, and 13 accessing the content server 8 are distributed to a short-distance distribution server 10 having a short line distance to a user-side access point and re-distributed. At the same time, connect the same contents to the reconnected user terminals in the same And a content delivery process for each distributed from distribution server 10.
[0018]
With this configuration, the same content can be distributed from the distribution server 10 to a plurality of user terminals having a short line distance in the same time zone, and the data traffic of the content server 8 is reduced.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding members are denoted by the same or similar reference numerals, and overlapping description will be omitted.
[0020]
FIG. 1 is a schematic system diagram of a distributed content distribution system according to an embodiment of the present invention. The distributed distribution system includes a content server 8 connected to the Internet 1 as a communication network, a modem 2 connected to the Internet 1 via a trunk line FTTH, a wireless LAN 3 connected to the modem 2, and a distribution server 10 connected to the wireless LAN 3. And
[0021]
The distribution server 10 receives, via remote access, contents such as moving images, still images, and music from a content server 8 installed at a remote location via the Internet 1 by remote access, and accumulates the contents in an internal storage device. It is desirable that a plurality of distribution servers 10 be received in groups so that access is not concentrated on the content server 8 for content reception. The distribution server 10 receives contents such as moving images, still images, and music via communication satellites via a satellite and a set box tuner (not shown) installed at a hot spot in addition to via the Internet 1 and stores the contents therein. You can also.
[0022]
A hot spot as a base station including the trunk line FTTH, the modem 2, and the wireless LAN 3 is installed in a store such as a convenience store or a fast food, and has an IP phone 6, a notebook personal computer 7, a PDA terminal 5, and a notebook. A connection service to the Internet 1 is provided to user terminals such as the personal computers 4a and 4b through the wireless LAN 3.
[0023]
In addition, the notebook personal computer 7 acquires on-demand content called so-called unicast from a server on the Internet 1. The IP phone 6 directly accesses the wireless LAN 3 to obtain the content subjected to the voice IP conversion processing. Further, the PDA terminal 5 and the notebook personal computers 4a and 4b acquire program contents of a so-called multicast system from a server on the Internet.
[0024]
In the multicast distribution by the distribution server 10, a large amount of data can be simultaneously distributed to a large number of user terminals connected to the Internet 1 with a low bandwidth via a hot spot.
[0025]
The Internet 1 is accessed from personal computers 11, 12, 13 as user terminals installed outside the hot spot. For example, the personal computer 11 connects to the Internet 1 via a public telephone line or a wired line such as ADSL via an Internet service provider ISP or the like, and accesses an arbitrary server on the Internet 1. Typically, unicast content information is obtained by a streaming method or a download method, but broadcast program content of a multicast method can also be obtained by a streaming method or a download method.
[0026]
Furthermore, the content information includes digital publications such as photo books and comics, moving image contents, still image contents, music contents, game contents, application programs for personal computers, access keys for use of contents, electronic coupons, and electronic catalogs. included. Each content requires a license for copyright use, and the license is obtained from the content server 8 in a unified manner.
[0027]
The content server 8 includes a database 9 therein, acquires access information of a user terminal accessing via the Internet 1, and compares the information with the information in the database 9 to obtain position information of the accessing user terminal. The user terminal connected to the content server 8 can be extracted and switched to the distribution server 10 for Internet connection. As the access information, for example, the IP address of the access source and the host name (ISP name) of the access source transmitted from the user terminal are acquired and collated with the address database 9 based on the registration information of JPNIC (Japan Network Information Center). .
[0028]
The resistant information returned from the JPNIC server is, for example, N company, XX, Minato-ku, Tokyo, Japan, domain name: XX. If attribute information such as COM can be obtained via the Internet 1 and an address is not included, the address can be specified from the telephone number list stored in the database 9 by relying on the corporate name.
[0029]
Here, a distributed distribution method of content according to an embodiment of the present invention will be described with reference to FIG. When the content server 8 is simultaneously accessed from the personal computers 11, 12, and 13 via the Internet 1 and distributes the same content to each of the computers 11, 12, 13, And analyzes the information of the request header transmitted from the database 9 and collates it with the access information stored in the database 9.
[0030]
The content server 8 specifies the access point of the computer 11 from the database 9 based on the IP address or the host name (ISP name) information of the accessing computer 11. Subsequently, a hot spot as a base station that is geographically close to the access point of the computer 11, in other words, a short communication distance is extracted. Then, the IP address or domain name of the distribution server 10 installed at the extracted hot spot is read out from the database 9 and returned to the accessing computer 11 as the URL address of the link source.
[0031]
An example in which the content server 8 returns the URL address of the link source to the computer 11 will be described. For example, by rewriting the URL address of the link source so that one of the frames of the browser screen displayed on the display of the computer 11 accessing the content server 8 is hyperlinked to the distribution server 10, the browser screen is displayed. While displaying the information transmitted from the content server 8, the information transmitted from the distribution server 10 can be displayed in one frame. In particular, when the content distributed from the distribution server 10 is a movie program such as a moving image and a sound, the load on the content server 8 is reduced even if the distribution capacity is large, and the large-capacity content can be distributed and distributed. .
[0032]
Further, in another embodiment, the computer 11 accessing the content server 8 may be configured to execute a common gateway interface CGI program and automatically change the connection destination to the distribution server 10. Similarly, the content server 8 rewrites the URL address of one link source of the frame to the computer 12 or the computer 13 or automatically changes the connection destination to the distribution server 10 by the CGI program, thereby making the content server 8 Can be reduced.
[0033]
Further, the connection destination is automatically set to the user terminal such as the IP telephone 6, the notebook personal computer 7, the PDA terminal 5, and the notebook personal computers 4a and 4b accessing the content server 8 in the hot spot. To the distribution server 10 to distribute the content to the user terminal. In this case, the IP address of the hot spot where the distribution server 10 is installed is stored in the database 9, and the connection destination is switched based on this IP address.
[0034]
In the present embodiment, for example, in a state where one user terminal is distributed to one distribution server 10, the connection specification of the user terminal is 500 kbits / sec, and the content (capacity 450 MB) reproduced for 2 hours is hotspot (bandwidth). In the case of distribution via 11 Mbps), the download time can be processed in about 5 minutes and 30 seconds. Also, when the connection specification of the user terminal is 300 kbits per second, and the content (capacity of 275 MB) reproduced for 2 hours is distributed via a hot spot (bandwidth 11 Mbps), the download time can be processed in about 3 minutes 22 seconds. Furthermore, if the connection specification of the user terminal is 500 kbits / sec and the content (capacity 19 MB) reproduced for 5 minutes via a hot spot (bandwidth 11 Mbps), the download time can be processed in about 14 seconds. In this manner, content can be delivered to a single narrowband (low speed) user terminal from a hot spot of a broadband (broadband) connection in a short transfer time. Even if several tens of narrow-band user terminals are connected to one distribution server 10 in a distributed manner, contents can be smoothly distributed within a range not exceeding the distribution bandwidth of hot spots.
[0035]
FIG. 2 is a list diagram showing an arrangement relationship between hot spots installed all over Japan and user terminals 11 and 12 located around the hot spots. Based on the request header information transmitted from the user terminal, at least the name of the prefecture where the ISP is located is specified. From the north to Hokkaido, Honshu, Shikoku, and Kyushu, contents are distributed and distributed from distribution servers 10 installed in hot spots in each area to computers 12 and 13 as user terminals accessed via ISPs located in the vicinity.
[0036]
The content server 8 has, for example, a shorter line distance for a user accessing the content server 8 in Tokyo via the ISP in Osaka than the distribution server 10 in a hot spot installed in Tokyo as another base station. The connection destination server is switched so as to distribute the content from the distribution server 10 provided in a hot spot in Osaka as a base station. There are a plurality of hot spots in Osaka, and an arbitrary hot spot is selected to switch the connection destination server. In this way, the content server 8 can be programmed to switch the connection destination server for a base station having a short circuit distance based on the prefecture information.
[0037]
Further, in another embodiment, for example, a user accessing the content server 8 in Tokyo via the ISP in Osaka is provided with the distribution server 10 in a plurality of hot spots in Gifu adjacent to the ISP in Osaka. The straight line distance on the map data is compared with the straight line distance on the map data between the ISP in Osaka and the distribution server 10 in the plurality of hot spots in Osaka, and one of the hot spots in Osaka having the shortest straight distance is determined. The user terminal is connected to the distribution server 10 in the selected hot spot.
[0038]
That is, the content server 8 considers that the distribution server 10 provided in the hot spot in Osaka has a shorter circuit distance than the distribution server 10 installed in another base station (hot spot in Gifu), and The connection destination server is switched so as to distribute the content from the distribution server 10 provided. In this manner, the content server 8 can be programmed to switch the distribution server 10 by regarding the state where the straight line distance on the map data is short as the short line distance.
[0039]
Further, the content server 8 can also determine the length of the line distance by dividing it into east and west of the Japanese archipelago. For example, for a user terminal accessing the content server 8 in Tokyo via the ISP in Hokkaido, a plurality of hot spots in the eastern Japan area, which have a shorter linear distance on the map data than the distribution server 10 in the hotspot in the western Japan area. A hot spot in Sendai or Aomori can be selected from among them, and the user terminal can be programmed to connect to the distribution server 10 in the hot spot.
[0040]
Furthermore, the content server 8 provides the user terminal accessing the content server 8 in Tokyo via the ISP in Kyushu with a west Japan area where the linear distance on the map data is shorter than the distribution server 10 in the hot spot in the east Japan area. A hot spot in Yamaguchi or Kobe is selected from among the plurality of hot spots, and the user terminal can be programmed to connect to the distribution server 10 in the hot spot.
[0041]
Furthermore, the content server 8 stores the map information of the public telephone line network in the internal database 9 and specifies the exchange station of the ADSL line used by all the hot spots where the distribution server 10 is installed. On the basis of the address of the ISP used by the user terminal accessing the content server 8, for example, an ADSL line exchange station within a range of 20 km is selected around the location of the ISP, and the bandwidth occupancy is about 30. % Of the ADSL line or less is determined, the URL address of the distribution server 10 installed in the hot spot with a low utilization rate is extracted, and the connection destination of the user terminal accessing the content server 8 is determined. The content server 8 can be programmed to switch to the distribution server 10 from which the content has been extracted. As a condition for determining the short line distance, the content server 8 selects one of a plurality of distribution servers 10 installed within a predetermined range from the ISP location used by the user terminal and distributes the content from a short distance. I do.
[0042]
This embodiment is effective, for example, when a movie content newly uploaded to the content server 8 is accessed from a large number of user terminals simultaneously with the start of distribution. That is, the user simply accesses the content server 8 via the Internet 1 by relying on the URL address of the content server 8 and automatically connects to the distribution server 10 installed in a hot spot at a short circuit distance. The user can enjoy the smooth download of the movie content.
[0043]
Further, it is possible to construct a charging system in which an operator of the content server 8 provides money as a price for distributing the content from the distribution server 10 installed in the hot spot to a store or the like that operates the hot spot. In this case, the content server 8 counts the number of contents distributed and distributed by the distribution server 10 by internally storing the switching information of the URL address of the connection source and totaling the information on a monthly or weekly basis.
[0044]
Also, the content server 8 counts the number of contents distributed and distributed by the distribution server 10 by acquiring the distribution information of the contents from the distribution server 10 via the Internet 1, accumulating the information therein, and counting monthly or weekly. I do. Therefore, for example, a hotspot company can earn a distribution profit every month only by installing the distribution server 10 in its own hotspot.
[0045]
Further, the content server 8 functions as an incentive management server. For example, routing information such as the type of content and the distribution date and time distributed from the distribution server 10 is collected via the Internet 1 to create marketing information of the content. The created marketing information is distributed from the content server 8 to the content creator in real time or at predetermined intervals, and the distribution ranking status of the content can be provided at an early stage. In this case, the operator of the content server 8 can obtain income from the content creator as a price for the marketing information.
[0046]
FIG. 3 is a list of request header information transmitted from the user terminal. The remote address 20 indicates an access source IP address, and is 32-bit numerical information set in the user terminal. The remote host 21 is an ISP name used by the user terminal indicating the host name of the access source. The HTTP reference 22 indicates a URL address of a link source, and is URL address information of a server currently being accessed.
[0047]
The HTTP user agent 23 is information indicating a browser name and a version used by the user terminal. Based on the request header information, the content server 8 can automatically specify the ISP name and the location of the ISP used by the user terminal. In the present embodiment, the information that can be obtained differs depending on the type and version of the browser used by the user terminal, but at least the ISP name is obtained and the location of the ISP is specified by using the database of the telephone number list together be able to.
[0048]
In the above embodiment, the distribution server 10 is installed in the hot spot, and large-volume (200 MB to 500 MB) data is distributed from the distribution server 10 to the user terminal having a short communication distance by the streaming method or the download method. As an embodiment, when the bandwidth occupancy of a certain hot spot increases, a distributed distribution system that switches the connection to another hot spot having a sufficient bandwidth occupancy can be configured.
[0049]
The distribution server 10 in the hot spot whose connection destination has been switched from the content server 8 acquires the bandwidth occupancy of data transmission / reception of the hot spot from the system monitor, and when the bandwidth occupancy exceeds, for example, 80%, Next, the connection destination of the user terminal is switched to the distribution server 10 installed in another hot spot having a short communication distance. For example, the connection can be switched from a hot spot having a high bandwidth occupancy to the distribution server 10 in a hot spot having a short straight line distance on the map data. As described above, by executing the processing of distributing the communication load among the hot spots, the content can be smoothly delivered to the user terminal.
[0050]
In addition, when the user terminal is moving within the specific area, the distribution server 10 can execute a roaming process between hot spots. For example, in a distributed distribution system in which a plurality of hot spots are installed in a company, a school, a factory, or the like, a hot spot with a favorable radio wave condition is searched for and automatically switched without interrupting the connection to the Internet 1.
[0051]
The roaming process uses an ESSID as identification data for realizing a connection with a destination fixed by the international standard IEEE 802.11 of the wireless LAN 3. For example, a code for authenticating the hot spot is registered in the hot spot and the user terminal in advance, the user terminal having the same ESSID is wirelessly connected to the wireless LAN 3, and the content is distributed from the distribution server 10 to the user terminal.
[0052]
In this case, the distribution server 10 may be provided for each hot spot to distribute the content via the wireless LAN 3. One distribution server 10 may be installed in a company, school, or factory, and the contents may be distributed via the Internet 1 and the wireless LAN 3.
[0053]
In this way, the content information stored in the content server 8 is distributed and stored in the distribution server 10 in a hot spot spread all over the country, and a user accessing the content server 8 is guided to the distribution server 10 with a short communication distance. Since the same content is automatically distributed and distributed, the load on the content server 8 is reduced, and the content can be smoothly distributed to the user.
[0054]
It should be noted that the content distribution system and the distribution method of the present invention are not limited to the illustrated example described above, and various changes can be made without departing from the scope of the present invention. .
[0055]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a distributed content distribution system and a distributed content distribution method using a hot spot.
[Brief description of the drawings]
FIG. 1 is a schematic system diagram of a distributed content distribution system according to the present invention.
FIG. 2 is a list diagram showing an arrangement relationship between hot spots used in the content distribution system of the present invention and user terminals 11 and 12 located around the hot spot.
FIG. 3 is a list of request header information transmitted from a user terminal.
FIG. 4 is a schematic system diagram of a conventional hot spot.
[Explanation of symbols]
1 Internet
2 Modem
3 Wireless LAN
4. Notebook type personal computer
5 PDA terminals
6 IP phone
7. Laptop personal computer
8 Content server
9 Database
10 Distribution server
11 Personal computer
12 Personal computer
13 Personal computer

Claims (6)

A content distribution system for distributing content to a plurality of user terminals via the Internet;
A content server for storing content;
A distribution server installed at base stations distributed in a plurality of regions and storing content transmitted from the content server via the Internet;
In response to a request from a plurality of user terminals accessing through the Internet, a user-side access point based on the IP address or host name information of the plurality of user terminals is specified. Access path switching means for distributing the content to each user terminal from a distribution server provided in a base station having a short circuit distance;
Distributed content distribution system with A distributed content distribution system that distributes the same content to a plurality of user terminals via the Internet;
A distribution server that is provided in a plurality of base stations that are always connected to the Internet and that receives and stores the content from the content server that stores the content through the Internet;
A distributed content distribution system for distributing the same content from a plurality of base stations to a plurality of user terminals having a short circuit distance specified by the content server in a same time zone. The content distribution system according to claim 1, wherein the base station performs a roaming process with another base station. 4. The distributed content distribution system according to claim 1, wherein the content server totals consideration for content distribution based on the content distribution information transmitted from the distribution server. 5. A distributed content distribution method for distributing the same content to a plurality of user terminals via the Internet;
A content storage step of transmitting a content via the Internet to a distribution server installed in a base station dispersed in a plurality of regions, and storing the content in the distribution server;
An access point identifying step in which the content server identifies a user-side access point based on IP address or host name information of the plurality of user terminals in response to a request from the plurality of user terminals accessing through the Internet;
An access path switching step in which the content server distributes the content to each user terminal from a distribution server provided in a base station having a shorter circuit distance than another base station with respect to the access point;
A distributed distribution method for content comprising: A distributed content distribution method for distributing the same content to a plurality of user terminals via the Internet;
A content storage step in which a distribution server provided in a plurality of base stations that are always connected to the Internet receives and stores the content from the content server that stores the content through the Internet;
A plurality of user terminals accessing the content server are distributed to short-distance distribution servers with a short circuit distance to a user-side access point and reconnected, and the same time is applied to the reconnected user terminals. A content distribution step of distributing the same content to the band from the distribution server of each base station;
A distributed distribution method for content comprising:

Images