期刊
IEEE ACCESS
卷 10, 期 -, 页码 115673-115690出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2022.3218410
关键词
Task analysis; Protocols; Networked control systems; Measurement; Temperature measurement; Monitoring; Media Access Protocol; Information age; Age of information; networked control systems; semantics of information; task-oriented communications
资金
- Deutsche Forschungsgemeinschaft (DFG) through German Research Foundation [315177489]
Networked control systems utilize communication networks to form closed feedback control loops. Information sharing and preventing information staleness are crucial for achieving desired control tasks. In this study, we conducted experimental research on multiple heterogeneous NCSs, focusing on MAC protocols. We proposed a novel contention-free algorithm and introduced a new metric called normalized mean squared error. Our results demonstrate the benefits of value-aware prioritization and the adverse effects of information staleness on control performance.
Networked control systems (NCSs) are feedback control loops closed over a communication network. Emerging applications, such as telerobotics, drones, and autonomous driving, are the most prominent examples of such systems. Regular and timely information sharing between the components of NCSs is essential to fulfilling the desired control tasks, as stale information can lead to performance degradation or even physical damage. In this work, we consider multiple heterogeneous NCSs that transmit their system state over a shared physical wireless channel to a gateway node. We conduct a comprehensive experimental study on selected MAC protocols using software-defined radios with state-of-the-art (SotA) solutions designed to increase information freshness and control performance. As a significant improvement over the SotA, we propose a novel contention-free algorithm that is able to outperform the existing solutions by combining their strengths in one protocol. In addition, we propose a new metric called normalized mean squared error that maps the age of information to a dimensionless quantity that captures the expected value of a control system's next transmission. We demonstrate its adoption and effectiveness for wireless resource scheduling in a case study involving multiple inverted pendulums. From our experimental study and results, we observe that value-aware prioritization of the sub-systems contributes to minimizing the adverse effects of information staleness on control performance. In particular, as the number of devices increases, the benefit of control awareness to the quality of control stands out when compared to protocols that focus solely on maximizing information freshness.
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