FR2874775A1 - Information transmission system for use between e.g. computer and e.g. internet, has high data rate digital subscriber line (HDSL) modem comprising HDSL module adapted to code and/or decode information using HDSL coding and/or decoding - Google Patents

Abstract

The system has a high data rate digital subscriber line (HDSL) modem (64) comprising an output interface (82) with a HDSL module (86) adapted to code and/or decode information transmitted on a stranded telephone wire (84) by using HDSL coding and/or decoding. The interface is directly connected to an end of the wire, where another end of the wire is connected to an input of a HDSL repeater (87). Independent claims are also included for the following: (A) an information transmission method adapted to be implemented in a modem (B) an information reception method adapted to be implemented in the modem.

Description

The present invention relates to an information transmission system, a modem, a multiplexer and methods implemented in this system.
Known information transmission systems comprise: at least one modem equipped with an input interface able to be directly connected to a local network for receiving information from and / or transmitting information on this local network, and output interface adapted to be directly connected to telephone wires for transmitting on and / or receiving of these telephone wires said information, and - a DSL (Digital Subscriber Line) access multiplexer comprising an input interface for receiving from and / or transmit on the telephone wires said information and an output interface adapted to be connected to a packet-switched network for receiving from and / or transmitting on said network said information, These information transmission systems are in particular used to connect telephone subscribers to the worldwide spider web better known as the Internet or Worlde Wide Web.
In this case, the modem is installed at the subscriber, while the DSL access multiplexer, better known by the acronym DSLAM (Digital Subscriber Line Access Multiplexer) is installed directly at the other end of the telephone son. Specifically, the modem installed at the subscriber is an ADSL (Asymmetric Digital Subscriber Line) modem and the coding of the information on the telephone wires is carried out in accordance with the specifications of the ADSL coding standard.
It has been found that the sensitivity to noise of these systems is important and this poses problems, especially when many telephone lines, close to each other, carry information encoded in ADSL.
The invention aims to overcome this disadvantage by proposing an information transmission system having a lower sensitivity to noise.
The subject of the invention is therefore an information transmission system in which the second interface of the modem comprises an HDSL module (High data rate Digital Subscriber Line) capable of coding and / or decoding the information transmitted on the telephone wires by using a encoding and / or decoding HDSL (High data rate Digital Subscriber Line).
The HDSL module makes it possible to use an HDSL coding of the information on the telephone wires. HDSL coding has lower noise sensitivity than ADSL coding. Therefore, the information transmission system described above has reduced noise sensitivity.
The embodiments of this system may include one or more of the following features: - at least one repeater placed between the or each modem and the DSL access multiplexer for repeating the information encoded in HDSL, this repeater being connected to one end of the telephone wires connected directly to the modem; - several of said modems; a high-speed link for transporting in multiplexed form the information transmitted and / or received by these modems; a transmission multiplexer / demultiplexer connected between the modems and the end of the broadband link; a transmission multiplexer / demultiplexer connected between the other end of the high-speed link and the DSL access multiplexer; the telephone wires are pairs of twisted telephone wires.
The subject of the invention is also a modem adapted to be used in a system according to the invention, this modem comprising: an input interface able to be connected directly to a local network for receiving from and / or transmitting on this local network of information, and - an output interface adapted to be directly connected to telephone wires for transmitting on and / or receiving from these telephone wires said information, in which the output interface of the modem HDSL comprises a High Data Rate Digital Subscriber Line (HDSL) module capable of coding and / or decoding information transmitted over telephone wires using HDSL encoding and / or decoding.
Modem embodiments may include one or more of the following features: - the input interface has a physical layer conforming to the lOBaseT standard, - the modem output interface includes a network layer conforming to the ATM standard ( Asynchronous Transfer Mode) for encapsulating information frames in ATM cells, and the HDSL module is able to encode and / or decode the ATM cells.
The invention also relates to a DSL access multiplexer comprising at least one HDSL module (High data rate Digital Subscriber Line) able to encode and / or decode the information coded by the modem.
The subject of the invention is also a method for transmitting information that can be implemented in a modem as described above, this method comprising: a step of receiving information to be transmitted, this information being received by via the modem input interface connected directly to a local area network, and - a step of directly transmitting information received via the input interface directly to telephone wires, using the interface output of the modem, wherein the transmission step comprises an operation of encoding the information transmitted on the telephone son using a HDSL coding (High data rate Digital Subscriber Line).
The subject of the invention is also a method for receiving information that can be implemented in a modem as described above, this method comprising: a step of receiving information directly on telephone wires by the intermediate of the output interface of the modem, - a step of transmitting information received on a local network via the input interface of the modem directly connected to the local network, wherein the receiving step includes a operation of decoding the information received from the telephone wires using a HDSL (High data rate Subscriber Line) decoding.
The invention will be better understood on reading the description which will follow, given solely by way of example and with reference to the drawings, in which: FIG. 1 is a schematic illustration of the architecture of a control system. transmission of information, and - Figure 2 is a flow diagram of an information transmission method. FIG. 1 represents a system, designated by the general reference 2, of transmission of information between telecommunication terminals and a packet switched information transmission network 4.
Telecommunication terminals are, for example, computers.
More specifically, the system 2 comprises a computer 6 connected via a local link 8 for transmitting information to an input interface 10 of a conventional ADSL (Asymmetric Digital Subscriber Line) modem 12. A telephone 14 is also connected via a local link 16 for transmitting information to the modem 12.
The modem 12 also has an output interface 20 connected to one end of a pair of twisted telephone wires 22. The other end of the telephone wires 22 is connected to the input of an ADSL card 24 fixed inside a DSL access multiplexer 26, subsequently called DSLAM. An output of the card 24 is connected to a circuit switched information transmission network 30. This network 30 is intended to carry voice telephone communications. Another output of the card 24 is connected to the network 4 for carrying digital data. For example, here, the network 4 is used to connect the computer 6 to an Internet service provider 32.
The modem 12 is used to provide an information rate of between 512 Kbps and 2 Mbps while passing through the telephone wires 22. For this to work, the length of the telephone wires 22 must be less than 2km. defines the coverage area of the DSLAM 26. The coverage area of the DSLAM 26 using ADSL technology is here illustrated by a dashed line 36.
In Figure 1, the stack of communication protocol layers for each interface is shown. For example, the interface 10 comprises a physical layer 40 compliant with the ITU-T lOBaseT standard and a link layer 42. The link layer is a MAC (Medium Access Control) layer conforming to the ITU-T 802.3 standard.
The interface 20 comprises a stack of four protocol layers, that is to say, here, in the order: - a link layer 44 identical to the layer 42 - an adaptation layer 46 conforming to the standard ITU-T AAL5 (ATM Adaptation Layer 5) - an ATM network layer 48 (Asynchronous Transfer Mode), a physical layer 50 of access to the physical medium.
The layer 44 is connected to the layer 42 and allows the exchange of information between the interfaces 10 and 20. The layer 50 comprises a module 52 able to code / decode the information transmitted on the telephone son 22 using a coding / decoding ADSL. Since this stack of communication protocol layers is conventional, it will not be described in more detail here.
The system 2 also comprises a second computer 60 connected via a local area network 62 to a High Data Rate Digital Subscriber Line (HDSL) modem 64. The modem 64 makes it possible to create an information transmission link between the computer 60 and network 4 with an information rate between 512 kbits / s and 2 Mbits / s, and preferably equal to 2 Mbits / s.
The computer 60 includes an interface 70 for transmitting and receiving information through the network 62 and the modem 64. The interface 70 includes, for example, a stack of three layers of communication protocols. More specifically, it includes here as an illustration a network layer 72 implementing the IP protocol (Internet Protocol), a link layer 74 compliant with the ITU-T 802.3 standard and a physical layer 76 compliant, for example, with the standard lOBaseT.
The local network 62 is, for example, a simple wired link directly connecting the interface 70 to the modem 64.
The modem 64 has an input interface 80 connected to the network 62 and an output interface 82 connected directly to one end of a pair of telephone wires 84. The input interface 80 is identical to the input interface 10 of the modem 12.
Likewise, the output interface 82 is identical to the output interface 20 of the modem 12, except that the physical layer 50 is replaced by a physical layer 85 comprising an HDSL module 86 instead of the ADSL module. 52.
In FIG. 1, the modem 64 protocol layers identical to those of the modem 12 bear the same numerical references.
The module 86 is intended to encode / decode the transmitted / received information on the telephone wire pair 84 using HDSL coding / decoding.
The other end of the telephone wires 84 is connected to the input of a conventional HDSL repeater 87 to repeat the information signals transmitted over the telephone wires. This repeater 87 has an output connected directly to the end of a pair of telephone wires 88, the other end of which is connected to an input of a transmission multiplexer / demultiplexer 90.
The repeater 87 reshapes the degraded information signals received via the telephone wires 84 and then sends the reshaped signals onto the telephone wires 88.
Repeaters such as the repeater 87 are arranged every 1600 meters between the modem 64 and the multiplexer / demultiplexer 90. This is represented in FIG. 1 by corrugated lines present on the telephone wires 88. These repeaters thus make it possible to extend as far as desired the coverage area of DSLAM 26 when the encoding technology used is HDSL. The coverage area of DSLAM 26 for HDSL technology is represented by a dashed line 92.
The multiplexer / demultiplexer 90 is connected as input directly, or via repeaters to several HDSL modems. Here, to simplify the illustration, only the connection of the modem 64 to the multiplexer / demultiplexer 90 is shown. The multiplexer / demultiplexer 90 is able to multiplex the various signals transmitted by the HDSL modems on a single broadband link 94. For example, here, the link 94 has a bit rate of 150 Mbps.
The multiplexer / demultiplexer 90 is also able to demultiplex the information received via the link 94 to transmit them to the corresponding pairs of telephone wires.
A multiplexer / demultiplexer 96 is connected to the other end of the link 94. This multiplexer / demultiplexer 96 is capable of demultiplexing the information transmitted via the link 94 to transmit them at the output to different inputs of the DSLAM 26. The outputs of the multiplexer / demultiplexer 96 are connected to the inputs of the DSLAM 26 via respective telephone wire pairs. Here, to simplify the illustration, only a pair of telephone wires 98 connecting an output of the demultiplexer 96 to the DSLAM 26 has been shown. In the opposite direction, the multiplexer / demultiplexer 96 is also able to receive signals on its outputs and to multiplex them for transmission over the link 94. The multiplexer / demultiplexer 96 is, for example, identical to the multiplexer 90.
One end of the telephone wires 98 is connected to an HDSL card 100 inside the DSLAM 26.
The HDSL card 100 mainly comprises an input interface 102 connected directly to the telephone wires 98 and an output interface 104 connected to the network 4.
The stacking of the communication protocol layers of the interfaces 102 and 104 has been represented in FIG.
The input interface 102 includes a physical layer 130 and a transport layer 132. The layers 130 and 132 are respectively identical to the layers 85 and 48 of the output interface 82. Here, the HDSL module of the layer 130 is designated by the reference numeral 134.
The output interface 104 also includes a network layer 140 associated with a physical layer 142. The network layer 140 is identical to the network layer 132 and the layer 142 is, for example, in accordance with the ITU-T SDH standard (Syncronous Digital Hierarchy). The physical layer 142 allows the connection of the card 100 to the network 4 via an ATM link 150.
The operation of the system 2 will now be described with reference to the method of FIG.
Initially, the computer 60 transmits information to the network 4. For this, this information is first divided into information frames, each layer 72 to 76 processing in a conventional manner, in a step 160, each frame of information. Then, the information is transmitted via the interface 70 and the network 62 to the interface 80. The interface 80, in a step 162 receives the information frames and the layers 40 and 42 process, during a step 164, the received information frames before communicating them, during a step 166, to the output interface 82. The output interface 82 processes, during a step 168, the information frames received in accordance with the protocol stack 44, 46, 48 and 85.More precisely the layer 48 encapsulates the frames of information in ATM cells and, the module 86 codes, during an operation 170, the ATM cells transmitted on the telephone wires 84 using HDSL coding. The repeater 87 repeats, in a step 172, the signals received via the telephone wires 84. During this step 172, the repeater reshapes the received signals and sends them back to the telephone wires 88. HDSL coded information frames are multiplexed, during a step 174, by the multiplexer / demultiplexer 90 on the link 94.
The multiplexer / demultiplexer 96 demultiplexes, in a step 176, the signals received via the link 94 and transmits each information frame to the corresponding HDSL card housed in the DSLAM 26. The DSLAM receives the transmitted information.
The interface 102, and more precisely the module 134, decodes, during a step 178, the received information frames before transmitting them to the output interface 104. The output interface 104 transmits, during a step 180, the information frames received at the network 4 via the link 150.
The frames of information transmitted by the card 100 to the network 104 are then directed, in a step 182, to the Internet access provider 32.
The frames of information transmitted from the network 4 to the computer 60 undergo the same treatments as those described above with regard to steps 160 to 182 but in the reverse order. In addition, in the case where the steps 160 to 182 are performed in the opposite direction, the demultiplexing operations are replaced by multiplexing operations and vice versa and the coding steps are replaced by decoding steps and vice versa. The method of transmitting information from the network 4 to the network 60 will therefore not be described here in more detail.
HDSL coding is less sensitive to noise than ADSL coding, therefore, system 2 is more insensitive to noise than known ADSL information transmission systems.
In addition, the HDSL coding provides an information rate of 2 Mbps on a pair of telephone wires up to 2.5 kilometers long. Therefore, even without using a repeater, the coverage area 92 is larger than the coverage area 36.
It is possible to repeat an information stream coded in HDSL whereas this is impossible for an information flow coded in ADSL. As a result, the coverage area 92 can easily be expanded by simply adding repeaters to a subscriber's telephone wire pair.
Through the use of the multiplexers / demultiplexers 90 and 96 and the link 94, the coverage area 92 is also extended. In addition, the use of the link 94 makes it possible to reduce the infrastructure costs.
Many other embodiments of the system 2 are possible.
For example, in a particularly simple embodiment, one end of the telephone wires 84 is directly connected to the input interface 102. In this embodiment, the repeaters, the multiplexers / demultiplexers 90 and 96, the link 94 and the telephone wires 88, 98 are not used and can therefore be deleted.
It is also possible to connect the modem 64 to the card 100 only via repeaters 87. Thus, in this embodiment, the multiplexers / demultiplexers 90 and 96 and the link 94 can be deleted.

Claims (5)

2. System according to claim 1, characterized in that it comprises at least one repeater (87) placed between the or each modem and the DSL access multiplexer for repeating the information coded in HDSL, this repeater being connected to one end. telephone wires connected directly to the modem. 3. System according to any one of the preceding claims, characterized in that it comprises: - several of said modems, a broadband link (94) for transporting in multiplexed form the information transmitted and / or received by these modems, and a transmission multiplexer / demultiplexer (90) connected between the modems (64) and the end of the link (94); and a transmission multiplexer / demultiplexer (96) connected between the other end of the broadband link and the DSL access multiplexer. 4. System according to any one of the preceding claims, characterized in that the telephone wires (84) are pairs of twisted telephone wires. 5. HDSL modem adapted to be used in a system according to any one of the preceding claims, this modem being equipped with: an input interface (80) adapted to be directly connected to a local area network (62) for receiving and / or transmitting on this local area network information, and an output interface (82) capable of being connected directly to telephone wires for transmitting on and / or receiving from these telephone wires said information, characterized in that the output interface of the modem HDSL comprises a module HDSL (High data rate Digital Subscriber Line) (86) able to code and / or decode information transmitted over the telephone wires using HDSL encoding and / or decoding. 6. Modem according to claim 5, characterized in that the input interface comprises a physical layer (40) according to the standard lOBaseT. A modem according to claim 5 or 6, characterized in that the modem output interface comprises an ATM-compliant network layer (48) for encapsulating information frames in ATM cells. and in that the HDSL module is able to encode and / or decode the ATM cells. 8. DSL access multiplexer (Digital Subscriber Line) adapted to be implemented in an information transmission system according to any one of claims 1 to 4, characterized in that the multiplexer comprises at least one HDSL module (High data rate Digital Subscriber Line) (134) able to encode and / or decode the information coded by the modem (64). 9. A method of transmitting information adapted to be implemented in a modem according to any one of claims 5 to 7, this method comprising: a step (162) for receiving information to be transmitted, this information being received via the input interface of the modem connected directly to a local network, and a step of directly transmitting information received via the input interface directly to telephone wires using the modem's output interface, characterized in that the transmission step includes an operation (170) encoding the information transmitted over the telephone wires using HDSL coding (High data rate Digital Subscriber Line). 10. A method of receiving information adapted to be implemented in a modem according to any one of claims 5 to 7, this method comprising: a step of receiving information directly on telephone wires via the output interface of the modem, a step of transmitting the information received on a local network via the input interface of the modem directly connected to the local network, characterized in that the reception step comprises an operation of decoding information received from the wires. using High Definition Rate Subscriber Line (HDSL) decoding.