Cross-layer optimization is an escape from the pure

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-like concept of the OSI communications model with virtually strict boundaries between layers. Strict boundaries between layers are enforced in the original OSI networking model, where data is kept strictly within a given layer. Cross‑layer optimization removes such strict boundaries to allow communication between layers by permitting one layer to access the data of another layer to exchange information and enable interaction. Any highly dynamic change of resource allocation might affect the intelligibility of voice or the steadiness of videos. However, as with other optimizing strategies, the algorithm consumes time as well.

Principles

There are principles that a cross-layer design must adhere to: * Interactions and the Law of Unintended Consequences * Dependency Graph * Timescale Separation and Stability * The Chaos of Unbridled Cross-Layer Design Unlike a traditional architectural design approach, where designers can focus on a single problem without worrying about the rest of the protocol stack, one must be careful to prevent unintended effects on other parts of the system. Dependency graphs are helpful for adaptation loops that occur using cross-layer design.

Applications

Cross-layer optimization can be used for * adaptation * scheduling * resource allocation * power control * congestion control * multihop routing Its advantages include high adaptivity in a

Wireless sensor network Wireless sensor networks (WSNs) refer to networks of spatially dispersed and dedicated sensors that monitor and record the physical conditions of the environment and forward the collected data to a central location. WSNs can measure environmental c ...

and a larger optimization space. *

Adjusting quality of service

Cross-layer optimization shall contribute to an improvement of quality of services under various operational conditions. Such adaptive quality of service management is currently subject of various patent applications, as e.g. The cross-layer control mechanism provides a feedback on concurrent quality information for the adaptive setting of control parameters. The control scheme apply * the observed quality parameters * a fuzzy logic based reasoning about applying the appropriate control strategy * the statistically computed control input to parameter settings and mode switches

Tailoring to resource efficiency of cross-layer

The quality aspect is not the only approach to tailor the cross-layer optimization strategy. The control adjusted to availability of limited resources is the first mandatory step to achieve at least a minimum level of quality. Respective studies have been performed and will continue.

Adapting MAC scheduling based on PHY parameters

Communication systems that need to operate over media with non stationary background noise and interference may benefit from having a close coordination between the MAC layer (which is responsible for scheduling transmissions) and the

PHY PHY is an abbreviation for the physical layer of the OSI model and refers to the circuitry required to implement physical layer functions. PHY or Phy may also refer to: * Phy, the drug methadone * Phetchabun Airport (IATA code), Thailand See ...

layer (which manages actual transmission and reception of data over the media) In some communications channels (for example, in power lines), noise and interference may be non-stationary and might vary synchronously with the 50 or 60 Hz

AC current Alternating current (AC) is an electric current which periodically reverses direction and changes its magnitude continuously with time in contrast to direct current (DC) which flows only in one direction. Alternating current is the form in whic ...

cycle. In scenarios like this, the overall system performance can be improved if the MAC can get information from the PHY regarding when and how the noise and interference level is changing, so that the MAC can schedule transmission during the periods of time in which noise and interference levels are lower. An example of a communications system that allows this kind of Cross-layer optimization is the

ITU-T The ITU Telecommunication Standardization Sector (ITU-T) is one of the three sectors (divisions or units) of the International Telecommunication Union (ITU). It is responsible for coordinating standards for telecommunications and Information Comm ...

G.hn G.hn is a specification for home networking with data rates up to 2 Gbit/s and operation over four types of legacy wires: telephone wiring, coaxial cables, power lines and plastic optical fiber. A single G.hn semiconductor device is able to n ...

standard, which provides high-speed local area networking over existing home wiring (power lines, phone lines and coaxial cables).

Issues

Some issues may arise with cross-layer design and optimization by creating unwanted effects as explained in. Cross-layer design solutions that allow optimized operation for mobile devices in the modern heterogeneous wireless environment are described in,F. Foukalas et al.,
"Cross-layer design proposals for wireless mobile networks: a survey and taxonomy "
/ref> where in addition the major open technical challenges in the cross-layer design research area are pointed out.

References

{{Authority control OSI protocols