Jiaxin Liang scite author profile

More and more emerging Internet of Things (IoT) applications involve status updates, where various IoT devices monitor certain physical processes and report their latest statuses to the relevant information fusion nodes. A new performance measure, termed age of information (AoI), has recently been proposed to quantify the information freshness in time-critical IoT applications. Due to the large number of devices in future IoT networks, the decentralized channel access protocols (e.g. random access) are preferable thanks to their low network overhead. Built on the AoI concept, some recent efforts have developed several AoI-oriented ALOHA-like random access protocols for boosting the network-wide information freshness. However, all relevant works focused on theoretical designs and analysis. The development and implementation of a working prototype to evaluate and further improve these random access protocols in practice have been largely overlooked. Motivated as such, we build a software-defined radio (SDR) prototype for testing and comparing the performance of recently proposed AoI-oriented random access protocols. To this end, we implement a time slotted wireless system by devising a simple yet effective over-the-air time synchronization scheme, in which beacons that serve as reference timing packets are broadcast by an access point (AP) from time to time. For a complete working prototype, we also design the frame structures of various packets exchanged within the system. Finally, we design a set of experiments, implement them on our prototype and test the considered algorithms in an office environment.

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Age of Information in SIC-based Non-Orthogonal Multiple Access

Ren

Chan

Liang

et al. 2022

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Jiaxin Liang

Network-Coded Multiple Access on Unmanned Aerial Vehicle

Timely Information Update With Nonorthogonal Multiple Access

Timely Status Update: Should ARQ be Used in Two-Hop Networks?

Software-Defined Radio Implementation of Age-of-Information-Oriented Random Access

Age of Information in SIC-based Non-Orthogonal Multiple Access

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