JP2005159718A - Line terminal adaptor and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a line terminal adaptor capable of ensuring large circuit capacity by utilizing an existing inexpensive broadband circuit, and to provide a communication system using the line terminal adaptor. <P>SOLUTION: An FTTH line 2 of 12 lines is connected to a circuit connection means 10 of the line terminal adaptor 1 in parallel. Although 12 IP addresses are actually assigned to the FTTH line 2 of the 12 lines, it is pretended that only one IP address is assigned by an IP address conversion means 12. As a result, a virtual network circuit 9 having 12-times circuit capacity is built by the FTTH line 2 of the 12 lines. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a line terminal adapter that constructs a virtual single broadband line by connecting a plurality of broadband lines in parallel, and a communication system using the line terminal adapter.

  As a broadband line for connecting to the Internet, an optical line such as an FTTH line is widespread. The FTTH line is an optical line that can be introduced into a home or office at a low cost, and has a line capacity of about 100 Mbps.

  However, with the line capacity of the FTTH line, it is impossible to distribute multimedia data such as a digital movie for a theater to a plurality of theaters in a short time. Therefore, after the multimedia data is once stored on a medium such as a tape, the medium must be transported and delivered to the theater, which takes time and effort. Or, it has to be distributed to the theater using a satellite communication line having a larger line capacity, resulting in a high distribution cost.

  In recent years, movies have been routinely produced through joint work of live-action video production and CG production. However, since both live-action video data and CG data have a large amount of data, FTTH lines with limited line capacity combine data in real time while transmitting both data from different production sites to each other. It was difficult to create a video.

  In view of such problems, an object of the present invention is to provide a line terminal adapter that can secure a large line capacity by using an existing inexpensive broadband line. Moreover, it is providing the communication system using the same.

  In order to solve the above problems, the present invention provides a line terminal adapter having line connection means connected to a plurality of network lines and communication terminal connection means connected to a network communication terminal, wherein the line connection means A virtual single network line is constructed by a plurality of network lines connected in parallel to each other.

  According to the present invention, a plurality of existing inexpensive network lines can be connected in parallel to be used as one virtual network line. Therefore, if one virtual network line is constructed using n network lines, a line capacity n times that of the existing network line can be secured. As a result, it is possible to transmit an extremely large amount of data in a short time using an existing Ethernet (registered trademark) line, a dedicated line such as an ADSL line, FTTH line, or ATM line connected to the Internet. In addition, since the line capacity is large, the transmitted data can be used in real time. Furthermore, since an inexpensive existing network line is used, communication costs can be reduced.

  The line connection means of the present invention converts IP addresses individually assigned to the plurality of network lines, and makes it appear that only one IP address is assigned to the plurality of network lines. It is preferable to have. If such an IP address conversion means is provided, it is only necessary to connect a plurality of network lines in parallel in an Ethernet (registered trademark) line, an ADSL line or an FTTH line connected to the Internet, and the like. A virtual network line can be constructed. In addition, an external network communication terminal connected to the Internet and a network communication terminal connected to a communication terminal connection means normally establish a virtual network line constructed without being conscious of the existence of a plurality of network lines. Can be handled as a single network line.

  In the present invention, when data is transmitted from the network communication terminal toward the virtual network line, the data communication apparatus may further include parallel transmission means for distributing and transmitting the data to each of the plurality of network lines. preferable. With such parallel transmission means, even large-capacity multimedia data can be transmitted efficiently.

  When the line terminal adapter of the present invention has parallel transmission means, it is preferable to have load balancing means for allocating the data so as to equalize the load on the plurality of network lines connected in parallel. . In addition, it is preferable that a defective line avoiding unit for avoiding the data transmission to the defective line among the plurality of network lines is provided.

  The line terminal adapter according to the present invention preferably further includes a compression means for compressing the data when the data is transmitted from the network communication terminal toward the virtual network line. In this case, since data is compressed and transmitted, higher speed transmission is possible.

  Further, it is preferable to have an encryption means for encrypting the data when the data is transmitted from the network communication terminal toward the virtual network line.

  In the present invention, FTTH lines can be used as the plurality of network lines connected in parallel to the line connection means.

  According to the line terminal adapter of the present invention, it is possible to construct a communication system having a network line that secures n times the line capacity by using n existing inexpensive network lines. As a result, even large-capacity multimedia data can be transmitted in a short time using an existing inexpensive network line. Also, since a large line capacity can be secured, the transmitted data can be used in real time. Furthermore, since the existing inexpensive network line is used, the communication cost can be suppressed.

(Configuration of line terminal adapter)
The line terminal adapter of the present invention is used by being installed between a terminal of an FTTH line connected to the Internet through an Internet service provider and a communication terminal having a network communication function such as a PC, a file server, or a router. is there. FIG. 1 is an explanatory diagram schematically showing the configuration of the line terminal adapter of the present invention.

  The line terminal adapter 1 has line connection means 10 for connecting a plurality of FTTH lines 2 in parallel, and communication terminal connection means 11 for connecting a PC 3. The line connection means 10 converts a plurality of IP addresses uniquely assigned to the plurality of FTTH lines 2, and makes it appear that only one IP address is assigned to the plurality of FTTH lines. 12.

  The line terminal adapter 1 has parallel transmission means 13 for distributing and transmitting the data to a plurality of FTTH lines 2 when data is transmitted from the PC 3 toward the Internet 4 side. The parallel transmission means 13 includes a load balancing means 14 for distributing the data so as to make the load of the connected FTTP lines 2 uniform, and a bad line avoidance for avoiding data transmission to a defective line among the FTTH lines 2. And means 15.

  FIG. 2 is an explanatory diagram of a communication system for movie production using the line terminal adapter of the present invention. As shown in FIG. 2, 12 to 36 FTTH lines 2 connected to the Internet are drawn to the production sites 30, 40, 50 and the production company 60, respectively, and the line connection means 10 of the line terminal adapter 1 is drawn. Connected in parallel. PCs 31, 41, 51 and a file server 61 are connected to the communication terminal connection means 11, respectively.

  At the production site 30, 12 FTTH lines 2 are connected in parallel to the line connection means 10 of the line terminal adapter 1. A PC 31 is connected to the communication terminal connection means 11. Although 12 IP addresses are actually assigned to the 12 FTTH lines 2 from the Internet service provider, it appears that only one IP address is assigned by the IP address conversion means 12. ing. As a result, the PC 31 is connected to the Internet 4 without being aware of the 12 FTTH lines 2 and is connected to the Internet 4 in the same manner as when connected to the normal one line. Can communicate with. Further, an external network communication terminal connected to the Internet 4 is also connected to the communication terminal connection means 11 in the same manner as being connected to one normal line without being aware of the 12 FTTH lines 2 at all. Can communicate with the PC 31. That is, one virtual network line 9 is constructed by 12 FTTH lines 2.

  The virtual network line 9 has a line capacity of 1200 Mbps, which is 12 times the line capacity of one FTTH line 2. Further, since the line terminal adapter 1 includes the parallel transmission means 13, when data is transmitted from the PC 31 to the Internet 4, the 12 FTTH lines 2 that are actually connected are efficiently connected. Data is transmitted while in use. As a result, between the production sites 30, 40 and 50, or with the production company 60, while transmitting multimedia data such as large-capacity video data and CG data to each other, movies can be used in real time. Can be produced.

  FIG. 3 is an explanatory diagram of a digital movie distribution system using the line terminal adapter of the present invention. As shown in FIG. 3, a plurality of FTTH lines are drawn to each theater 70 and distribution company 80, and one large-capacity virtual network line 9 is constructed using the line terminal adapter 1 of the present invention. A digital projector 71 having a communication function and a storage device is connected to the communication terminal connection means 11 of the line terminal adapter 1 of each theater 70, and a file server 81 is connected to the communication terminal connection means of the line terminal adapter of the distribution company 80. The digital movie data can be transmitted.

  According to such a digital movie distribution system, the distribution company 80 uses the existing inexpensive FTTH line without using an expensive satellite communication line, even for large-capacity digital movie data. Movie data can be distributed to Also, in response to a request from each theater 70, the digital movie data in the file server 81 can be distributed.

  FIG. 4 is an explanatory diagram of a distance learning system using the line terminal adapter of the present invention. A large number of virtual network lines 9 are constructed by using a plurality of FTTH lines for each of the geographically separated educational institutions 90 in Tokyo, Osaka and Nagoya, and using the line terminal adapter 1 of the present invention. . Connected to the communication terminal connection means 11 of each educational facility is a digital photographing system 91 having a communication function, a photographing function and a storage device, and a projector 92 having a communication function and reproducing video data photographed by the digital photographing system. To do.

  According to such a distance education system, the educational institution 90 distributes the digitally photographed lecture to each educational institution 90 in real time using the existing inexpensive FTTH line without using an expensive satellite communication line. can do. Also, since the line capacity is large, interactive lectures can be conducted by transmitting information to each other.

(Other forms)
When the data is transmitted from the network communication terminal such as the PC 3 to the virtual network line 9, the line terminal adapter 1 includes a compression unit that compresses the data, and an encryption that encrypts the data. Can be mounted. The compression means is equipped with a function for restoring the compressed data when the data compressed by the compression means is transmitted from the virtual network line 9 to the network communication terminal such as the PC 3. can do. In addition, when the data encrypted by the encryption unit is transmitted from the virtual network line 9 to the network communication terminal such as the PC 3, the encryption unit transmits the encrypted data. A restoration function can be installed.

  In the above embodiment, the line terminal adapter 1 is used for a network line using the IP protocol. However, a network using another communication protocol such as a FC (Fiber Channel) protocol used for a SAN (Storage Area Network). One virtual network line may be constructed by connecting a plurality of lines in parallel. In this case, instead of the IP address conversion unit 12, a conversion unit such as an address that makes a plurality of network lines connected in parallel appear as one virtual network line in the communication protocol to be used may be mounted. .

  In the above-described form, the line terminal adapter 1 connects a plurality of FTTH lines in parallel. However, the network line that can be connected in parallel is not limited to the FTTH line, and is an Ethernet (registered trademark) line, an ADSL line, or the like. Is included. Also, a dedicated line such as an ATM line is included. Furthermore, if a broadband line having a larger capacity than the FTTH line becomes widespread, these network lines can be connected in parallel.

  If the line terminal adapter of the present invention is used, it is possible to construct a communication system having one virtual network line that secures n times the line capacity by using n existing inexpensive network lines. If a FTTH line is used as a network line, a large-capacity network line that can be connected to the Internet can be constructed. Therefore, any communication system can be used as long as it is a communication system that transmits a large amount of data via the Internet. The present invention can also be used in Further, the present invention can be used not only for the FTTH line but also for other broadband lines that can be connected to the Internet, or for a communication system in which a dedicated line is connected in parallel to form a large-capacity virtual network line.

It is explanatory drawing which showed typically the structure of the line terminal adapter of this invention. It is explanatory drawing of the communication system for the movie production using a line terminal adapter. It is explanatory drawing of the digital movie delivery system using a line terminal adapter. It is explanatory drawing of the distance education system using a line terminal adapter.

Explanation of symbols

1 Line terminal adapter 2 FTTH line 3 PC
4 Internet 9 Virtual network line 10 Line connection means 11 Communication terminal connection means 12 IP address conversion means 13 Parallel transmission means 14 Load balancing means 15 Bad line avoidance means

Claims (9)

  A plurality of network lines connected to a plurality of network lines, and a communication terminal connection means connected to a network communication terminal; A terminal adapter for building a network line. In claim 1,
The line connection means has IP address conversion means for converting IP addresses individually assigned to the plurality of network lines and making it appear that only a single IP address is assigned to the plurality of network lines. Line terminal adapter, characterized by In claim 1 or 2,
A line terminal adapter having parallel transmission means for distributing and transmitting the data to each of the plurality of network lines when data is transmitted from the network communication terminal toward the virtual network line. In claim 3,
The parallel transmission means is a line terminal adapter comprising load balancing means for distributing the data so that loads on the plurality of network lines are made uniform. In claim 3 or 4,
The parallel transmission means is a line terminal adapter comprising defective line avoidance means for avoiding the data transmission to a defective line among the plurality of network lines. In any of claims 1 to 5,
A line terminal adapter having compression means for compressing data when data is transmitted from the network communication terminal toward the virtual network line. In any one of Claims 1 thru | or 6.
A line terminal adapter having encryption means for encrypting data when the data is transmitted from the network communication terminal toward the virtual network line. In any one of Claims 1 thru | or 7,
A line terminal adapter in which the plurality of network lines are FTTH lines.   A communication system using the line terminal adapter according to claim 1.