Magyari Alexander, Chen Yuhua
Department of Electrical and Computer Engineering, University of Houston, Houston, TX 77204, USA.
Sensors (Basel). 2022 Oct 2;22(19):7496. doi: 10.3390/s22197496.
Modern networks used for integrating custom Internet of Things (IoT) systems and devices have restrictions and requirements unique to their individual applications. These application specific demands require custom designed hardware to maximize throughput, security and data integrity whilst minimizing latency, power consumption, and form factor. Within this paper, we describe current, state-of-the-art works that utilize FPGAs for IoT network developments. We analyze two categories of works: those that prioritize reducing power consumption, and those that prioritize networking features. Further, we describe how future works can improve upon these designs and therefore improve the efficiency of resource-constrained IoT networks.
用于集成定制物联网(IoT)系统和设备的现代网络具有其各自应用所特有的限制和要求。这些特定于应用的需求需要定制设计的硬件,以在将延迟、功耗和外形尺寸降至最低的同时,最大化吞吐量、安全性和数据完整性。在本文中,我们描述了利用现场可编程门阵列(FPGA)进行物联网网络开发的当前的、最先进的作品。我们分析了两类作品:一类优先考虑降低功耗,另一类优先考虑网络功能。此外,我们描述了未来的作品如何改进这些设计,从而提高资源受限的物联网网络的效率。
