What is DWDM?
DWDM stands for dense wavelength division multiplexing. It is a technology to send multiple strands of data through a single network link. In the transmitting end, there is an optical multiplexer converging two or more optical signals at different wavelengths. Whereas in the receiving end, an optical demultiplexer is used to separate the signals, and in this process it is unavoidable to cause signal loss which, however, can be mitigated by the optical amplifier. DWDM connections can therefore be used for transmitting data over long distances as it can increase bandwidth over existing fiber networks.
What is OTN?
OTN stands for optical transport network which provides a network-wide framework that adds SONET/SDH-like features like performance monitoring, fault detection, communication channels, and multiplexing hierarchy to WDM equipment. It works at Layer 1 to gather various tasks into the tunnel of WDM technology, increasing the transmission distance and capacity of fiber optics. It means that OTN frame structure combines the flexibility of SDH/SONET technology with the bandwidth expandability of DWDM, thus it can provide functionality of transport, multiplexing, routing, management, supervision, and survivability of optical channels carrying client signals.
The optical transport network is designed to deliver a transparent framework to efficiently carry diverse traffic types, which can decrease ACPEX/OPEX in networks and at the same time address dramatic shifts in traffic types. All in all, the charming of the OTN can be translated into two words: transparency and manageability.
DWDM Vs. OTN:
DWDM is a point-to-point system while OTN, composed of optical cross-connector (OXC) and optical add/drop multiplexer (OADM), possesses functions like optical cross-ability and wavelength conversion. The OTN grows on the basis of DWDM technology with the aim of optimizing the existing resources of transportation network. In addition to providing large capacities of DWDM transmission, OTN permits the switching of different DWDM channels according to the needs of traffic.
In addition, as it has been proven that it is possible to tap a fiber optic cable and extract data streams, people have paid much more attention to data security over DWDM links. In contrast, OTN-channelized links and effective partitioning of traffic onto dedicated circuits bring a high level of privacy and security, preventing hackers who sneak in some section of the network from intercepting data or gaining access to other areas.
We can say that OTN network excels DWDM networks in its enhanced OAM, security and networking capabilities for wavelengths and standard multiplexing hierarchy and end-to-end optical transport transparency of customer traffic.
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