Multiplex communications – Fault recovery – Bypass an inoperative station
Reexamination Certificate
1999-07-15
2003-11-04
Pham, Chi (Department: 2667)
Multiplex communications
Fault recovery
Bypass an inoperative station
C370S400000
Reexamination Certificate
active
06643255
ABSTRACT:
This invention relates to a node of a point-to-multipoint network as set forth in the preamble of claim
1
.
In point-to-multipoint networks, e.g. in a cable distribution network with or without reverse channel, signals, such as cable television signals and/or telephone signals (“cablephone”), are generally transmitted from a center over two separate optical fiber links to several nodes in such a way that each of the nodes receives signals from both links. Each node serves a coaxial cable network with a plurality of terminals. Such a network structure is known from the journal “telecom report” of Siemens AG, No. 3/1996, pages 10 to 13.
The separate optical fiber links are provided to ensure that in the event of a disturbance, caused, for example, by a cable break or by insufficient amplification, it is not possible for individual nodes to receive no signals or only signals of reduced quality. In each node, the incoming signals on the two links are detected by means of two detectors, and only the signal with the higher level is routed onward via a switch.
A disadvantage of such networks is that both optical fiber links must constantly be operated at a high signal level, whereby much power is wasted, which also increases the aging rate of the network.
In the network disclosed in DE 19650088, two optical fiber links connected to a center end in a switching assembly which routes signals onward only if a disturbance is detected on one of the two optical fiber links. In this manner, a reserve link is activated on the occurrence of a disturbance, so that the performance of the network can be optimized for the error-free case. Disadvantages are that a separate switching assembly is needed, and that in the event of a disturbance, the supply of-signals to nodes depends on the proper operation of the switching assembly.
It is therefore an object of the invention to provide a network in which an optimized mode of operation is made possible both in the trouble-free case and on the occurrence of a disturbance.
This object is attained by a network inplemented with nodes as claimed in claim
1
. The node according to the invention is characterized in that it not only receives signals but also transmits signals to adjacent nodes, and that it comprises only one detector which detects the reception of signals from a preferred direction and controls the switch in such a way that in the trouble-free case, the signals received from the preferred direction are routed to a coaxial cable network and/or to an adjacent node located in a preferred direction, and that upon detection of a disturbance, the signals received from a reserve line are routed to the coaxial cable network and/or to an adjacent node located in the direction of the disturbance, whereby the reserve line is activated. In this manner, the nodes can control the reception and retransmission of the signals autonomously and independently of additional control equipment, such as a central switching assembly, and the reserve line is activated only on the occurrence of a disturbance.
If the reserve line is activated only on the occurrence of a disturbance, it can be used for other transmissions in the trouble-free case. For example, by providing a launching device and an extracting device in each node, the reserve line can additionally be used for the transmission of data, such as data of an Intranet of an enterprise, or security-insensitive data, such as Internet data.
Further advantageous features of the invention are defined in the dependent claims.
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Alcatel
Hoang Thai
Pham Chi
Sughrue & Mion, PLLC
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