Telephonic communications – Plural exchange network or interconnection
Reexamination Certificate
2000-02-03
2001-06-26
Matar, Ahmad (Department: 2642)
Telephonic communications
Plural exchange network or interconnection
C379S229000, C370S522000
Reexamination Certificate
active
06252955
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a procedure as defined in the preamble of claim
1
for subscriber addressing in a cascaded V
5
interface.
2. Description of the Related Art
V
5
interface standards ETS 300 324 and ETS 300 347 describe an interface between a local exchange and an access network and the functionality in each network element. The access network is the part of a local area network that contains the subscriber's lines. Thus, subscribers and subscriber's lines can be connected to the exchange either directly (direct subscribers) or via various multiplexers and/or concentrators. V
5
interfaces enable subscribers belonging to a physically separate access network to be connected to a local exchange using a standard interface.
A dynamic concentrator interface (V
5
.
2
) as defined in the ETS 300 347 standard series consists of one or more (1-16) PCM (Pulse Code Modulation) lines. One PCM line comprises 32 channels, each of which with a transfer rate of 64 kbit/s, i.e. 2048 kbit/s altogether. The V
5
.
2
interface supports analogue telephones as used in the public telephone network, digital, such as ISDN (Integrated Services Digital Network) basic and system subscriber lines as well as other analogue or digital terminal equipment based on semi-fixed connections.
A static V
5
.
1
multiplexer interface consists of one 2048 kbit/s PCM line. The V
5
.
1
interface supports the same subscriber types as the V
5
.
2
interface except ISDN system lines.
Terminal equipment can be connected to the subscriber ports of the access node. One access node may have one or more V
5
interfaces connected to it. Subscriber ports are created in the V
5
.
1
interface by associating an unambiguous address of each subscriber port with a given address in the V
5
.
1
interface. In the local exchange, this address is created as a V
5
subscriber. In other words, each subscriber port has an unambiguous address which is coupled with a V
5
.
1
interface address and which uses a certain time slot (analogue subscribers) or certain time slots (ISDN subscribers) for communication with the local exchange. In the V
5
.
2
interface, too, each subscriber port has an unambiguous address, but the signalling to the local exchange is implemented using a dynamically allocated time slot/dynamically allocated time slots. This means that the BCC (Bearer Channel Control) protocol consistent with the V
5
standard allocates the time slots to be used separately for each call.
V
5
standardisation aims at creating an open interface for use between a local exchange and an access network. However, no interface for use between the access node and the subscribers within the access network has been defined. Therefore, problems are encountered in connecting subscribers to the access node e.g. via a static concentrator interface. A further problem is that, especially in an environment with multiple suppliers, the solutions of different suppliers for concentrating subscribers in an access network differ significantly from each other, which means that operators do not necessarily have enough choice options regarding suppliers of equipment.
BRIEF SUMMARY OF THE INVENTION
In the telephone network composition and in the V
5
interface, unambiguous identification of subscribers or subscriber ports must be possible at least in a limited space. When two V
5
interfaces are cascaded, i.e. connected in series, unambiguous identification of subscribers becomes a problem. Especially when a V
5
.
1
interface between a concentrator and an access node is cascaded with a V
5
.
2
interface between the access node and the local exchange, subscriber addressing has to be solved carefully to avoid a situation where subscriber parameters overrun each other or otherwise confuse the signalling between the subscriber and the local exchange.
The object of the present invention is to eliminate the problems described above.
A specific object of the present invention is to disclose a new procedure for subscriber addressing in a cascaded V
5
interface. A further object of the invention is to disclose a flexible addressing procedure that can be modified in a way that best suits the operator and the system.
As for the features characteristic of the invention, reference is made to the claims.
The procedure of the invention for connecting a subscriber to a telephone network or to a telephone exchange can be implemented e.g. in a data communication system comprising a telephone exchange and a number of subscribers defined in it. Further, the data communication system comprises an access network connected to the telephone exchange via a first V
5
interface and comprising a first access node. The V
5
interface is preferably either a V
5
.
1
or a V
5
.
2
interface consistent with the above-mentioned standards. The data communication system also comprises a second access node or a multiplexer, which is connected to the telephone exchange. The second access node is preferably a switching stage through which a number of interconnecting feeders or subscriber lines carrying a relatively light traffic can be connected to a few lines carrying larger -amounts of traffic. Using a subscriber terminal connected to the local exchange via the access network and/or directly via the second access node, connections are set up to other subscriber terminals or network elements.
According to the invention, the second access node is connected to the first access node via a second V
5
interface, the connection between the subscriber or subscriber terminal and the telephone exchange being thus set up by cascading two V
5
interfaces. In a preferred case, the first V
5
interface is a standard V
5
.
2
interface and the second V
5
interface is a standard V
5
.
1
interface. Further, according to the invention, subscriber parameters' are defined for each subscriber, said parameters comprising the identifiers of the first and second V
5
interfaces, v
5
_interface_id.
Moreover, for each subscriber it is necessary to define an identifier or equivalent data for the time slot or time slots used by the subscriber in the second V
5
interface, which is preferably a V
5
.
1
interface, because the subscriber uses a fixed time slot. The subscriber parameters of the subscriber are preferably stored in a subscriber database in the telephone exchange, multiplexer and/or access node.
As compared with prior art, the invention has the advantage that it makes it possible to create access networks using network components manufactured by any manufacturer. In particular, a V
5
interface can be used both between a concentrator and an access node and between an access node and a local exchange.
Moreover, the invention allows a multiplexer to be easily connected to a local exchange using a V
5
interface either via an access node supporting the V
5
interface or directly via a V
5
.
1
interface.
The invention also has the advantage that the subscriber parameters or identifier data of subscribers can be flexibly determined in the whole access network, and the identifier data can be easily changed because the subscriber parameters are not subject to network component-specific limitations. On the other hand, subscriber parameters can be more closely limited to certain network components and parameter conversions can be performed as necessary, thus allowing simpler and faster transmission of messages between network components. In addition, management of subscriber parameters becomes simpler. The invention also makes it possible for the system to determine certain parameters, permitting simpler description of the network.
As stated above, depending on the embodiment of the present invention and the use for which the network has been designed, subscribers can be managed in regard of subscriber parameters in many ways in the access network. In a preferred embodiment, the first and second V
5
interfaces are treated separately. This means that subscribers have subscriber parameters differing from each other both in the first
Antila Leena
Lallukka Toivo
Lehto Pekka
Liinamaa Olli
Rukajärvi Arto
Altera Law Group LLC
Matar Ahmad
Nokia Networks Oy
Tieu Benny Q.
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