WO1997020413A1 - Packet switching system using telephonic and satellite transmission - Google Patents
Packet switching system using telephonic and satellite transmission Download PDFInfo
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- WO1997020413A1 WO1997020413A1 PCT/FI1996/000640 FI9600640W WO9720413A1 WO 1997020413 A1 WO1997020413 A1 WO 1997020413A1 FI 9600640 W FI9600640 W FI 9600640W WO 9720413 A1 WO9720413 A1 WO 9720413A1
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- BDAGIHXWWSANSR-UHFFFAOYSA-M Formate Chemical compound [O-]C=O BDAGIHXWWSANSR-UHFFFAOYSA-M 0.000 description 1
- 238000013459 approach Methods 0.000 description 1
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Classifications
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- H04N21/20—Servers specifically adapted for the distribution of content, e.g. VOD servers; Operations thereof
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- H04N21/236—Assembling of a multiplex stream, e.g. transport stream, by combining a video stream with other content or additional data, e.g. inserting a URL [Uniform Resource Locator] into a video stream, multiplexing software data into a video stream; Remultiplexing of multiplex streams; Insertion of stuffing bits into the multiplex stream, e.g. to obtain a constant bit-rate; Assembling of a packetised elementary stream
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- H04L69/168—Implementation or adaptation of Internet protocol [IP], of transmission control protocol [TCP] or of user datagram protocol [UDP] specially adapted for link layer protocols, e.g. asynchronous transfer mode [ATM], synchronous optical network [SONET] or point-to-point protocol [PPP]
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- H04L69/16—Implementation or adaptation of Internet protocol [IP], of transmission control protocol [TCP] or of user datagram protocol [UDP]
Definitions
- the invention relates to a procedure for establishing fast Internet-type connections between transmitter and receiver and especially for utilising fast data transmission systems designed for other purposes in such connections.
- the inven ⁇ tion also relates to the use of dynamically allocated network and device addresses in this type of connections.
- An 'Internet-type connection refers in this context to a communication link through which it is possible to transmit data in an extensive data network over large distances regardless of the actual physical routing within the network.
- 'data transmission' refers especially to data trans ⁇ fer between computers over distances that may be several thousand kilometres.
- the user wants fast network connections for home use in the future. If a data link appli ⁇ cable for fast data transmission is to be made available to homes, it will be neces ⁇ sary to consider, on the one hand, how to ensure a sufficient service level, and on the other hand, how to minimise the need to build new cable, remote mobile switching unit and routing systems.
- the terminal equipment must be provided the same kind of independence ofthe environment and freedom of movement as mobile telephones in modern cellular networks already have.
- a special problem is that the number of fix- edly determined 32-bit Internet addresses ofthe type currently used is, for reasons associated with their definition, approaching the theoretical maximum. For this rea ⁇ son, some sort of a dynamic approach to addressing has to be introduced. This is to say that a given address is available for use by a device connected to the network only for the time the device is active and needs a communication connection via the network. When the device exits the network, the same address can be assigned to another device.
- DSM-CC Digital Storage Media Command & Control
- TCP/IP packets (Transmission Control Protocol / Internet Protocol), are transmitted in a system transport stream (System TS / Transport Stream) consistent with the so-called MPEG standards (Moving Picture Experts Group).
- MPEG standards Motion Picture Experts Group
- the generally known MPEG standards define an arrangement designed for the transmission of real-time information, especially compressed video in a digital form.
- a data stream transmitted in accordance with the MPEG standards a so-called transport stream (TS)
- a so-called transport stream is a bit stream consisting of successive packets of a certain length.
- Fig. 1 illustrates a transport stream 1 consisting of TS packets 2.
- the transport stream 1 can be transmitted e.g. via a satellite, in which case it will be accessible to a very large number of receivers.
- the length of a TS packet 2 is 188 bytes, of which the first four bytes form the packet header 2a while the rest or 184 bytes comprise the payload 2b, i.e. the actual data to be transmitted.
- PID Packet IDentifier
- PES stream 4 Packetised Elementary Stream
- a PES packet comprises a separate header part 5a and a payload part 5b of max. 64 kilobytes.
- PES packets are divided into several transport stream packets or TS packets 2 in such a way that a given programme can use either the entire transport stream capacity, in which case all TS packets contain data related to the same PES stream 4, or the programme can use only part ofthe capacity, in which case some ofthe TS packets belong to a different PES stream.
- the identifiers or PIDs ofthe TS packets are so set that a given 13 -bit PID will unambiguously re ⁇ fer to a certain PES stream. Since a programme transmitted via a PES stream only lasts for a certain time, at the end of that PES stream the PID used to point to it will become available for use as an identifier pointing to another PES stream about to be started.
- Certain TS packets in the transport stream carry so-called programme data, indicating the PES stream that the PIDs currently used relate to.
- programme data indicating the PES stream that the PIDs currently used relate to.
- the PID identi ⁇ bomb comprises 13 bits in the packet headers or the transport stream, the number of different programmes that can be pointed to at a time is in principle 8191.
- certain PIDs are reserved for special uses in the MPEG standards, so the num ⁇ ber of programmes that can be pointed to at a time is somewhat lower than this.
- a receiver device designed for the reception of a transport stream consistent with the MPEG standard comprises a decoder which is capable of handling individual TS packets and deciding on the basis of their PID identifiers which packets belong to which PES stream and thus to a given programme. If the receiver is used for the re ⁇ ception of only a given programme at a time, it will reject any TS packets related to all other programmes and construct the original programme from the content of the packets marked with a given PID.
- FIG. 3 A prior-art arrangement is illustrated by Fig. 3.
- a TCP/IP packet 6 which comprises a 20-byte IP header 6a, a 20-byte TCP header 6b and a payload part 6c.
- a CC header 7a is added to the TCP/IP packet, thus forming a packet 7 consistent with the DSM-CC packet definition.
- the purpose of this operation is to render the ar ⁇ rangement independent ofthe header usage observed in a given network protocol (in this figure, the TCP/IP protocol). After this, the packets of the type of packet 7.
- each TS packet comprising a PID identifier in its header 2a as described above.
- PID iden ⁇ tifier there is one PID iden ⁇ tifier corresponding to each table type (PAT, CAT,PMT, Private, etc.), indicating the type of data contained by the tables.
- the solution described above is very awkward because the receiver device designed for the reception of an MPEG stream must first interpret all private tables, then divide them into DSM-CC packets and further into TCP/IP packets and finally examine each TCP/IP address to find out whether the data packet in question is in ⁇ tended for this particular receiver (or rather the computer connected to it).
- the whole chain of inte ⁇ reting actions must be performed by software in a given proc ⁇ essor, involving a considerable computing load.
- the data packets cannot be effectively encrypted.
- the solution does not provide any relief to the problem re ⁇ ferred to above, relating to a shortage of Internet addresses.
- the object ofthe present invention is to produce a data transmission method that can be used to set up fast connections in a world-wide data network. Another object of the invention is to enable data transmission modes designed for other pu ⁇ oses to be utilised in such connections. A further object of the invention is that the use of the proposed procedure should require only minor hardware changes as compared with existing equipment. An additional object of the invention is that the proposed procedure should not impose an excessive load on the computing capacity of the equipment involved in the data transfer, and that data transmitted by this method should be easy to encrypt.
- the objects of the invention are achieved by packing the packets consistent with a network protocol into packets of a digital transport stream and by using a part of the address of the receiving equipment as a packet identifier in the digital transport stream. Moreover, to achieve the objects of the invention, this address is dynami ⁇ cally allocated for this use, so that when a given data transmission comes to an end, both the address and the transport stream packet identifier will become available for use by others.
- the procedure of the invention for transmitting data from a transmitting device con ⁇ nected to a data network via the data network and a transmitting station to a receiv ⁇ ing device is characterized in that it comprises stages in which - from the information to be transmitted, a given transmitting device forms pack ⁇ ets consistent with the network protocol observed in the data network concerned, comprising the address of a given receiving device, said packets are transferred via the data network to the transmitting station, the transmitting station multiplexes the data stream formed by these packets into a digital transport stream generated by it, marking the parts of the digital trans ⁇ port stream related to said packets with a part of said address of the receiving device, the transmitting station transmits the digital transport stream it has generated, which digital transport stream can be received in a coverage area comprising a plurality of receivers, and said receiving device receives said digital transport stream and inte ⁇ rets those parts of it that are marked with said part of the address of the receiving device.
- the invention also relates to an apparatus for implementing the procedure of the in ⁇ vention.
- the apparatus of the invention is characterized in that it comprises - means in said transmitting device for forming packets consistent with the net ⁇ work protocol observed in said data network and providing them with the ad ⁇ dress of the receiving device, as well as means for transmitting said packets into said data network, means in said transmitting station for receiving said packets from said data net- work and means for multiplexing the data stream formed by these packets as a part of said digital transport stream, as well as means for decoding the receiver address associated with said packets and for marking those parts of the digital transport stream that relate to said packets with a part of said address, and means in said receiving device for receiving said digital transport stream and inte ⁇ reting the parts marked with a part of said address.
- certain packets in a packet-mode digital transport stream are reserved for information to be sent directly to the receiver identified by a certain address.
- the packet identifier to be used is a part of the receiver's address, which has been dynamically allocated for data transmission.
- the transport stream used as an example is an MPEG system transport stream (MPEG System TS) and the network protocol ob ⁇ served to organise and address the data to be transmitted is the TCP/IP protocol.
- MPEG System TS MPEG System Transport stream
- the network protocol ob ⁇ served to organise and address the data to be transmitted is the TCP/IP protocol.
- the invention can be extended to cover other transport streams and network protocols as well.
- the parties involved in the data transfer are a cer ⁇ tain transmitting device which is stationary and has a permanent Internet address and a certain receiving device which may be mobile and has no permanent Internet address.
- the receiving device starts the communication by sending e.g. via modem a request for an Internet address or a so-called dynamic ad ⁇ dress allocation request to a given server connected to the Internet network.
- the server which can be called an address server, assigns a free 32-bit Internet address to the receiving device.
- the receiving device sends a request to the transmitting device to start transmission.
- This request contains the above-mentioned temporary Internet address ofthe receiving device.
- the transmitting device sends the requested data over a fast network connection to a transmitting station, whose normal function is to transmit e.g.
- the transmitting station multiplexes the data intended for the receiving device into the transport stream so that the data is placed in private tables, which are divided into certain TS packets, whose PID identifier is formed from 13 low-order bits of the temporary Internet address ofthe receiving device. If the data is to be encrypted, the transmit- ting station must know which encryption key is to be used for the encryption of data intended for this particular receiver, in which case all TS packets sent to this re ⁇
- the transmitting station transmits the transport stream e.g. via a satellite, in which case it can be received in the whole coverage area of the satellite.
- the receiving de ⁇ vice which has been monitoring the transport stream transmitted via this satellite since it sent a request to start transmission, recognises the TS packets intended for itself by the PID identifier, disencrypts the data if encryption is used, and recon ⁇ structs the data transmitted.
- the latter sends via the modem line an acknowledgement to the address server, thereby releasing the temporary Internet address, which can then be assigned further to another device. An acknowledgement is not necessary if the temporary Internet address has been assigned to the device for a certain length of time.
- the possibility of multiplexing Internet-type data transfer into a transport stream consistent with the MPEG standards is based on the fact that the transport stream is seldom so fully reserved that its entire bandwidth is in use.
- a transport stream whose useful bandwidth is 40 Mbit/s.
- the transport stream carries e.g. five compressed video images, each of which occupies a bandwidth of 5Mbit/s.
- the procedure of the invention can be applied e.g. in cases where the user of a receiving device contacts the client server of a given software supplier to download a new software version.
- For the transfer of a file of several megabytes e.g. a bandwidth of 2 Mbit/s is reserved from the transport stream, but as the transfer only takes a few tens of seconds, the same capacity can soon be assigned to another connection.
- Fig. 1 presents a known transport stream composition.
- Fig. 2 illustrates known programme transmission as a PES transport stream in accordance with the MPEG standard
- Fig. 3 illustrates a prior-art procedure for the use of an MPEG transport stream to transmit data to an individual receiver
- Fig. 4 illustrates the procedure of the invention for the use of an MPEG transport stream to transmit data to an individual receiver
- Fig. 5 illustrates a data transfer system in which the procedure of the inven ⁇ tion can be used.
- Fig. 4 illustrates the way in which data organised and addressed according to the TCP/IP protocol is transferred by the method ofthe invention using an MPEG transport stream.
- TCP/IP packet 6 which consists of a 20-byte IP header 6a, a 20-byte TCP header 6b and a payload part 6c, which may have a length of 180, 178 or 163 bytes.
- the IP header 6a contains, among other things, the receiver's network address (not shown separately in the figure), whose length is 32 bits.
- a DSM-CC packet 7 is formed by adding a DMS-CC header 7a to a packet consis ⁇ tent with the network protocol (in this case TCP/IP).
- a private table 16 which comprises a table header 16a and has a length equal to the sum ofthe lengths ofthe packet 6 consistent with the network protocol.
- the DSM-CC header 7a and the table header 16a From the address 6a of the packet consistent with the network protocol, as many ofthe low-order bits ofthe receiver's address are included in the table header 16a as there are bits available in the trans ⁇ port stream for the identification of TS packets.
- the length of the PID identifier is 13 bits, so the private table header 16a will contain 13 low-order bits from the IP address 6a.
- the table is divided according to standard 13818-6 into payloads of TS packets 2 and the 13-bit PID identifier 3 in the header part of each TS packet is set to be equal to the 13 last or low-order bits of the 32-bit IP address of the TCP/IP packet to be transmitted.
- Fig. 5 presents a diagram representing the equipment and systems involved in data transmission applying the procedure of the invention.
- the receiving device 9 com ⁇ prises at least a computer 9a and a receiver 9b capable of inte ⁇ reting an MPEG transmission known in itself.
- the receiver 9b may be e.g. a so-called Set Top Box (STB) designed for the reception of ordinary television programmes, and its techni- cal implementation is in itself known to a person skilled in the art.
- STB Set Top Box
- the computer 9a is the actual receiver ofthe data transmitted, and its central processing unit (not shown separately in the figure) controls the operation of the whole receiving device 9.
- a special advantage ofthe invention is observed in the fact that the demultiplex ⁇ ing chip (not shown separately in the figures) ofthe receiver 9b can identify and sort out the TS packets intended for the receiving device quickly and effectively based on the component (hardware) implementation, so it is not required to have a high computing capacity.
- the receiving device also comprises a modem 9c or an equivalent adapter device applicable for relatively slow network connections.
- a modem 9c In the embodiment presented in Fig. 5, all communication from the receiving device 9 takes place via a modem 9c.
- the modem 9c is connected e.g. via a conventional circuit- switched telephone network to another modem 10. which in turn is connected to a packet-switched data transmission network 1 1 consisting of servers interconnected via mutual data links.
- the address server 12 is a computer in which the allocation of addresses and the maintenance of the database are performed e.g.
- DHCP Dynamic Host Configuration Protocol
- this protocol comprises dynamic allocation and mainte ⁇ nance of TCP/IP addresses in the first place, but it can be extended so as to enable it to handle addresses consistent with any known protocol.
- the transmitting device 13 is a computer which is connected to the data network 1 1 and comprises the network protocol means (not shown in the figure) known in themselves that are used to form successive TCP/IP packets from the data to be transmitted.
- Other servers (not shown in the figure) connected to the network comprise means known in themselves for routing the TCP/IP packets in the network in a hierarchic manner such that the most significant bits in the packet addresses will determine the routing at the network level.
- a transmitting station 14 Connected to the data network 1 1 is also a transmitting station 14. which, like a conventional transmitting station, comprises means for multiplexing the pro ⁇ grammes proceeding from different sources into one or more transport streams or MPEG System TS streams.
- the transmitting station 14 also comprises means for receiving TCP/IP packets, adding the DSM-CC headers and forming private tables and placing them in the TS packets of the transport stream.
- the means receiving TCP/IP packets are connected to the means forming the transport stream via a link used to transmit the 13 low-order bits of the TCP/IP packet addresses, to be used as PID identifiers ofthe TS packets.
- the system comprises a satellite 15, which transmits the transport stream from the transmitting station to the coverage area of its transmitting aerials.
- the satellite For the use of the procedure of the invention, it is not neces ⁇ sary for the satellite to have any special additional equipment or functions besides normal hardware applicable for MPEG transmission.
- Most new broadcasting and television satellites are capable of transmitting a transport stream of he MPEG for- mat.
- the medium used to transmit the transport stream from the transmitting station 14 to the receiving device 9 is not an essential question.
- the transmission may take place e.g. via a cable television network or a communication network between computers.
- the apparatus of the invention prefera- bly comprises, like conventional equipment for television transmissions, a local satellite receiver and a local cable network (these are not shown in the figure) to carry the transmission further to homes.
- the information is transmitted in the data network 1 1 and from the transmitting station 14 in an encrypted format.
- the en ⁇ cryption can be implemented by any known method.
- programme-specific encryption which means that all TS packets marked with a given PID identifier are encrypted using a certain encryption key
- this operation can be utilised in the system of the invention.
- Public Domain Key encryption If the so-called Public Domain Key encryption is used, then the transmitting station 14 is provided with storage means for the storage of the receivers' public domain keys.
- the address server 12 informs the transmitting station 14 about the PID corresponding to each receiver, and the transmitting station encrypts all TS packets marked with a certain PID using the public domain key of the receiver concerned.
- IP addresses have 32 bits and are divided into A. B and C types.
- the B-type address will be described. It comprises two bits indicating the address type, 14 bits called the network part and used for routing up to a certain so-called organisation server, and 16 bits which are unambi ⁇ guous computer-specific addresses under the organisation server concerned.
- the data network 11 only handles the network part ofthe IP address dynamically allocated to the receiver and, based on that, directs the TCP/IP packets intended for that receiver to the transmitting station 14.
- 13 bits are used as a PID identi ⁇ bomb and three bits can be used e.g. to select a satellite channel if the satellite has eight transmission channels at most. Each transmission channel corresponds to one transport stream. If the satellite comprises more than eight channels, part of whose capacity is to be used for data transfer by the method of the invention, then it has to possess more than one B-type address range. This can be taken to mean that two or more network parts are used, both of which cause the TCP/IP packets to be routed to the same transmitting station and via it to the same satellite. In this case, the first network part corresponds to satellite channels 0-7, the second to channels 8-15, and so on.
- the MPEG standards also define an alternative according to which the length of the header part ofthe TS packets can be extended beyond the above-mentioned four- byte limit.
- An extended PID will be useful in the first place in a situation where the address server receives so many address allocation requests that the 8191 possible PIDs (excluding reserved PIDs) defined with 13 bits are not sufficient to provide an address for all those who want one.
- the address server 12 must not assign to individual receivers temporary IP ad ⁇ dresses whose low-order bits are already being used as the PID identifier of a pro ⁇ gramme transmitted from the transmitting station 14.
- the allowed address range may be fixedly determined, in which case the allowed and forbidden PID identifiers are defined in connection with the configuration ofthe address server 12.
- Another possibility is that the use of PID identifiers allocated to programmes is also agreed dynamically between the address server 12 and the transmitting station 14. In this case, two operational alternatives can be distinguished, depending on authority: If the transmitting station 14 is the authorised party, it will tell the address server which PIDs have already been allocated at any given time, in which case the address server 12 may have to immediately stop using a corresponding IP address.
- the transmitting station 14 will ask for certain PIDs to be assigned to programmes, in the same way as a given IP address is temporarily assigned to individual receivers.
- the location ofthe receiving device 9 is not subject to any other requirements except that it should be located within the coverage area of the satellite 15.
- Reception via satellite is usually imple- mented in a centralised manner so that a given receiving station (not shown in the figures) receives and amplifies the signal and distributes it further via a local cable network.
- the receiving device 9 may also comprise a satellite receiver of its own. in which case it will even be able to move during a communication connection as pro ⁇ vided by the invention.
- the modem 9c may be wirelessly connected to another mo ⁇ dem 10 e.g. via a mobile telephone network in a manner known in itself. In this way, the receiving device is relieved of the requirement regarding location under a certain physical organisation server that applies to conventional fixed Internet con ⁇ nections.
- the receiving device 9 With the development of signal processing technology and the increasing use of low-orbit satellites, it may become possible to provide the receiving device 9 with a transmitter part, in which case the fast data link ofthe invention will become bi ⁇ directional. In this case, no modems 9c, 10 will be needed because all data is transmitted via a satellite 15.
- the invention does not in itself impose any restrictions as to which network proto ⁇ col is to be used to form the packets and addresses in the data network 11.
- the only important point is that a certain part, preferably the so-called hardware part, of the bit string defining the address is used as a packet identifier in a digital transport stream to allow the address allocation and determination of the identifier to be carried out at the same time and to make it as simple as possible for the receiving device to sort out from the transport stream the packets intended for itself.
- the invention does not involve any actual restrictions as to the type of the transport stream, provided only that packets related to a given logical entity are marked using an unambiguous identifier.
- the transport stream packet identifier should preferably be shorter than the address consistent with the network protocol applied, to allow a portion ofthe address, corresponding to the network part as mentioned above, to be used for routing between the transmitting computer 13 and the transmitting station 14. If the packet identifier is longer, as is the case e.g. in ATM and Token Ring networks, then only a part of it is used according to the invention by setting this part so that it is substantially the same as the hardware part of the receiving device. In the embodiment illustrated by Fig.
- Certain reception addresses can be defined in the system as broadcast-type ad ⁇ dresses, which are used to mark TCP/IP packets (and TS packets) that are intended for all receivers or for a certain receiver group instead of a single receiver.
- the procedure and apparatus of the invention for organising a fast data link can be used for fast Internet-type data transfer without any other additional equipment ex ⁇ cept a television receiver auxiliary device (e.g. a so-called Set Top Box) capable of receiving a digital transport stream (e.g. an MPEG System TS stream), which is rapidly gaining ground.
- a television receiver auxiliary device e.g. a so-called Set Top Box
- the invention does not involve any significant load on new available Internet addresses, and the inclusion of a certain part ofthe address in the transport stream packet identifier guarantees that the receiving device will be able to sort out the portions intended for itself from the transport stream in an easy and light way with regard to the comput ⁇ ing capacity required.
- the data to be transmitted can be encrypted by methods consistent with current definitions. It can be stated that the invention achieves its objects.
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- Computer Networks & Wireless Communication (AREA)
- Computer Security & Cryptography (AREA)
- Physics & Mathematics (AREA)
- Astronomy & Astrophysics (AREA)
- General Physics & Mathematics (AREA)
- General Engineering & Computer Science (AREA)
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU76982/96A AU7698296A (en) | 1995-11-30 | 1996-11-29 | Packet switching system using telephonic and satellite transmission |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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FI955773A FI100684B (sv) | 1995-11-30 | 1995-11-30 | Användning av paketförmedlande kommunikationsformens paketidentifierar e för att adressera mottagare |
FI955773 | 1995-11-30 |
Publications (1)
Publication Number | Publication Date |
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WO1997020413A1 true WO1997020413A1 (en) | 1997-06-05 |
Family
ID=8544467
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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PCT/FI1996/000640 WO1997020413A1 (en) | 1995-11-30 | 1996-11-29 | Packet switching system using telephonic and satellite transmission |
Country Status (3)
Country | Link |
---|---|
AU (1) | AU7698296A (sv) |
FI (1) | FI100684B (sv) |
WO (1) | WO1997020413A1 (sv) |
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Also Published As
Publication number | Publication date |
---|---|
AU7698296A (en) | 1997-06-19 |
FI955773A0 (fi) | 1995-11-30 |
FI955773A (sv) | 1997-05-31 |
FI100684B (sv) | 1998-01-30 |
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