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Cross-layer optimization is an escape from the pure waterfall-like concept of the OSI communications model with virtually strict boundaries between layers. The cross layer approach transports feedback dynamically via the layer boundaries to enable the compensation for overload, latency or other mismatch of requirements and resources by any control input to another layer, but that layer directly affected by the detected deficiency.

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  • Cross-layer optimization (en)
  • Cross-layer (it)
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  • Cross-layer optimization is an escape from the pure waterfall-like concept of the OSI communications model with virtually strict boundaries between layers. The cross layer approach transports feedback dynamically via the layer boundaries to enable the compensation for overload, latency or other mismatch of requirements and resources by any control input to another layer, but that layer directly affected by the detected deficiency. (en)
  • L'ottimizzazione cross-layer rappresenta la fuga dal puro concetto a cascata del modello delle comunicazioni OSI, nel quale i confini tra i livelli sono virtualmente rigidi. L'approccio cross-layer trasporta feedback dinamicamente attraverso i confini dei livelli permettendo la compensazione di sovraccarichi, latenze, sotto/sovradimensionamento delle risorse o altre violazioni dei requisiti, fornendo informazioni ad un altro livello diverso da quello in cui si è riscontrato il problema. (it)
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  • December 2019 (en)
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  • Especially in information routing with concurrent demand for limited capacity of channels there may be a need for a concept of intervention to balance between e.g. the needs of intelligible speech transmission and of sufficiently dynamic control commands. Any fixed allocation of resources will lead to a mismatch under special conditions of operations. (en)
  • The cross layer approach transports feedback dynamically via the layer boundaries to enable the compensation for overload, latency or other mismatch of requirements and resources by any control input to another layer, but that layer directly affected by the detected deficiency. (en)
  • For example, having knowledge of the current physical state will help a channel allocation scheme or automatic repeat request strategy at the MAC layer in optimizing tradeoffs and achieving throughput maximization. (en)
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  • Cross-layer optimization is an escape from the pure waterfall-like concept of the OSI communications model with virtually strict boundaries between layers. The cross layer approach transports feedback dynamically via the layer boundaries to enable the compensation for overload, latency or other mismatch of requirements and resources by any control input to another layer, but that layer directly affected by the detected deficiency. 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. For example, having knowledge of the current physical state will help a channel allocation scheme or automatic repeat request (ARQ) strategy at the MAC layer in optimizing tradeoffs and achieving throughput maximization. Especially in information routing with concurrent demand for limited capacity of channels there may be a need for a concept of intervention to balance between e.g. the needs of intelligible speech transmission and of sufficiently dynamic control commands. Any fixed allocation of resources will lead to a mismatch under special conditions of operations. 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. (en)
  • L'ottimizzazione cross-layer rappresenta la fuga dal puro concetto a cascata del modello delle comunicazioni OSI, nel quale i confini tra i livelli sono virtualmente rigidi. L'approccio cross-layer trasporta feedback dinamicamente attraverso i confini dei livelli permettendo la compensazione di sovraccarichi, latenze, sotto/sovradimensionamento delle risorse o altre violazioni dei requisiti, fornendo informazioni ad un altro livello diverso da quello in cui si è riscontrato il problema. Specialmente nell'instradamento di informazioni che in modo concorrente richiedono parte della capacità limitata dei canali, si può sentire la necessità del concetto di intervento per effettuare un bilanciamento tra, ad esempio, le necessità della trasmissione di un discorso intelligibile e di comandi di controllo sufficientemente dinamici. Ogni allocazione fissa di risorse risulterà un sotto/sovradimensionata in alcune speciali condizioni delle operazioni. Ogni cambiamento altamente dinamico dell'allocazione delle risorse può affliggere l'intelligibilità della voce o la stabilità del video. Comunque, come per altre strategie di ottimizzazione, l'algoritmo richiede tempo. (it)
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