Surface-level gateway deployment for underwater sensor networks

The underwater sensor networks performance is prominently restricted through the factors of high propagation delay and lesser bandwidth of acoustic transportations. This UWSN performance is improved through organizing the numerous surface-level radio-capable entries from numerous features. In this work, we mostly focus on the placement of surface entry, which is demonstrated as a tricky of optimization. To solve alterations of the placement optimization tricky problem, Integer Linear Programming is used. The compromise among the predictable delay and the energy consumption and the amount of surface entries is examined. In our proposed work, to estimate the welfares of surface entry optimization, we conduct related simulations and examine the underwater sensor node placement design and the result of acoustic channel volume. By our outcomes, we demonstrate the important benefits of surface entry optimization. These outcomes also offer valuable strategies for the factual network placement.

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