This invention relates to a method for transmitting data signals by means of virtually linked partial signals via synchronous data networks.
Synchronous data networks, for example the Synchronous Digital Hierarchy, SDH for short, the Synchronous Optical Network, SONET for short, or the Optical Transport Network, OTN for short, are used for transmitting data signals or data packets such as, for example, Ethernet, Fiber channel or FICON data packets, etc. In these schemes the data signals are often inserted or mapped into virtually linked partial signals for transmission. In this arrangement the virtually linked partial signals form an overall signal which contains the data signal.
This enables the bandwidth to be configured so as to achieve an economical optimum. The virtual linking of partial signals, otherwise referred to as virtually concatenated containers, also allows the individual partial signals to be transmitted over different physical paths.
The so-called Link Capacity-Adjustment Scheme, LCAS for short, permits individual virtually linked partial signals to be added and removed dynamically.
If a secure data connection is desired, the safeguarding or protection of a transmission path is ensured by means of what is known as 1+1 protection such as, for example, 1+1 multiplex section protection, 1+1 MSP for short. In this scheme the signal is duplicated at the transmit end and one signal is transmitted over each of two physical paths to the receive end. At the receive end a decision is made on which of the two signals will be used. Usually the signal exhibiting the better quality is used.
A relatively large amount of network capacity is tied up by this provisioning of a second, redundant path for the safeguarding or protection of a data connection; in the example double the amount of transmission capacity is required.
The object of the present invention is to disclose a more economical solution approach for protecting data connections that use virtually linked partial signals.
This object is achieved by the claims.
The advantage of the method is that substantially less transport capacity must be made available for data connections requiring protection.
Advantageous embodiments of the invention are specified in the dependent claims.
An exemplary embodiment serving to illustrate the invention is shown in the drawing and is described below.
The method is explained in more detail below.
Data packets of a Gigabit Ethernet signal which have a bit rate of about 1 Gbit/s are continuously inserted or mapped via the Gigabit Ethernet interface GBES1 and the Link Capacity Adjustment Scheme unit LCAS1 into virtually linked SDH or SONET partial signals.
With the SDH or SONET method, the maximum possible payload of a container in the case of virtually linked partial signals is about 150 Mbit/s. This container is designated VC4. Accordingly, a Gigabit Ethernet signal can be inserted into seven VC4 containers.
In the present case the signal is inserted, not into seven, but into eight virtually linked containers, represented in the example by the eight partial signals VC4-1 to VC4-8 or VC4-11 to VC4-18, at the hierarchy level VC4; in short, mapped into 8×VC4vc. Said eight virtually linked partial signals are transmitted by means of the connection interfaces VS1 to VS4 or VS11 to VS14 via four different physical paths V1 to V4, with one path transmitting two containers or 2×VC4 in each case. If one of the four signal paths is interrupted, V2 in the example, an alarm is reported by said signal path or a predefined quality threshold value or a corresponding quality criterion is undershot. For example, an alarm or quality criterion such as Loss of Signal, LOS for short, Loss of Frame, LOF for short, Signal Degrade, SD for short, Excessive Bit Error Rate, EXBER for short, Alarm Indication Signal, AIS for short, or similar is detected and reported for the two VC-4 partial signals of the affected route or path. This is indicated in the example by the alarms A1 and A2. Said alarms or said criteria are used so that the Link Capacity Adjustment Scheme, LCAS for short, will no longer use the two affected partial signals for the insertion, at the transmit end, of the data signal into the partial signals or for the mapping method. At the receive end, said partial signals are also no longer used for the combining of partial signals into a Gigabit Ethernet signal. In the example this relates to the signals VC4-3 and VC4-4 on the one hand and VC4-13 and VC4-14 on the other, which are represented in
In this safeguarding or protection scenario, 6×VC4vc are still available for the transmission.
As a result the capacity of the connection is reduced in an error situation, but said capacity remains error-free. This restriction is not noticeable in practice and can therefore be tolerated. If necessary a further VC4 can be added to the 6×VC4vc in the protection scenario in order to restore the full transmission bandwidth, for which 7×VC4vc l are required.
The method according to the invention consists in a data signal being inserted into a plurality of partial signals, the overall capacity of the partial signals being greater than that of the data signal. This means that somewhat more transport capacity is used than is necessary, but not so much capacity as would be required for conventional 1+1 protection. The partial signals are transmitted over different physical paths.
If a route or path fails, the partial signal of said route or path is no longer used. As a result, depending on the number of paths and the number of partial signals, somewhat less or the precisely required transport capacity is available totally free of error. A certain undercapacity can be tolerated by many applications. If necessary a further channel can now be attached.
The advantage of the method is that less additional capacity is required for protecting the connection and the protection switchover is performed very rapidly, more or less in real time.
Said protection switchover could also be executed by a management system, although this has the disadvantage of a greater outage and switchover time.
The method according to the invention further consists in the individual measurement or determination of the signal quality of virtually linked partial signals. By this means a specific quality criterion is determined which is used for removing one or more virtual partial signals if they fall below a predefined quality threshold value. Removing or adding partial signals can be carried out by means of the Link Capacity Adjustment Scheme, LCAS for short.
Number | Date | Country | Kind |
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10245638.0 | Sep 2002 | DE | national |
This application is the US National Stage of International Application No. PCT/DE2003/002755, filed Aug. 18, 2003 and claims the benefit thereof. The International Application claims the benefits of German application No. 10245638.0 filed Sep. 30, 2002, both applications are incorporated by reference herein in their entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE03/02755 | 8/18/2003 | WO | 10/11/2005 |