The concept of cross-layer optimization has been around for several years now. The primary goal of the cross-layer approach was to liberate the strict boundary between the layers of the traditional OSI protocol stack. This is to enable information flow between layers which then can be leveraged to optimize the network's performance across the layers. This concept has been of keen interest for tactical application as there is an overwhelming requirement to operate in a challenging and dynamic environment. The advent of software defined radios (SDR) accelerated the growth of this domain due to the added flexibility provided by SDRs. Even with the immense interest and progress in this area of research, there has been a gaping abyss between solutions designed in theory and ones deployed in practice. To the best of our knowledge, this is the first time in literature, an embedded SDR has been leveraged to successfully design a cross-layer optimized transceiver that provides high throughput and high reliability in a ruggedized, weatherized, and fieldable form-factor. The design ethos focuses on efficiency and flexibility such that optimization objectives, cross-layer interactions can be reconfigured rapidly. To demonstrate our claims, we provide results from extensive outdoor over-the-air evaluation in various settings with up to 10-node network typologies. The results demonstrate high reliability, throughput, and dynamic routing capability achieving high technology readiness level (TRL) for tactical applications.
翻译:跨层优化的概念已经存在好几年了。跨层方法的主要目标是解放传统OSI协议堆叠层层之间的严格界限。 这样做是为了在层层之间实现信息流动,然后可以利用这些层层来优化网络在层层的绩效。 这个概念对于战术应用非常感兴趣,因为有一个在充满挑战的动态环境中运行的压倒性要求。 软件定义的无线电台(SDR)的出现,由于特别提款权增加了灵活性,加速了这一领域的增长。 即便在这一研究领域有着巨大的兴趣和进展,在理论设计的解决办法与实际部署的解决办法之间也存在着鸿沟。 根据我们的知识,这是在文献中首次利用嵌入的特别提款权来成功地设计一个跨层最佳的传输器,在一种充满挑战性和活力的环境中提供高的传输量和高可靠性。 设计要素侧重于效率和灵活性,以便优化目标、跨层互动可以快速重组。 为了证明我们的主张,我们提供了从高层次的、高层次的、高层次的、高层次的、高层次的网络应用结果。