IEEE/CAA Journal of Automatica Sinica Study Presents Novel Protocol Structure for Achieving Finite-Time Consensus of Multi-Agent Systems

Press Releases

Jun 14, 2024

BEIJING, June 14, 2024 /PRNewswire/ — Achieving finite-time consensus for multi-agent systems is essential for reliable and efficient autonomous systems.  Traditional protocols based on homogeneity theory rely on a non-smooth saturation function, which makes proving consensus convergence difficult and makes it hard to predict settling times. In a new study, researchers developed a new protocol structure using a hyperbolic tangent function, which ensures global/semi-global finite-time consensus and enables exact settling time calculation, paving the way for improved autonomous systems.

Consensus problems, where a group of agents, such as unmanned vehicles, machines, or robots, need to agree on certain variables only through local communication within themselves, have attracted considerable attention as a fundamental issue in cooperative control of multi-agent systems. Simply put, a multi-agent system comprises multiple decision-making agents that interact among themselves in a common environment to achieve common or conflicting goals depending on the situation. Depending on whether agents track a predetermined leader, these problems can be classified into leaderless or leader-following consensus. Researchers have extensively studied both types of problems and developed consensus protocols. However, most current protocols only provide asymptotic consensus.

Some applications require exact consensus in a limited time or finite-time consensus. Achieving such a consensus results in improved control accuracy and stability. In practical applications, finite-time consensus requires considerable control effort. However, there are physical limitations to control effort, which if neglected, can degrade controller performance. Studies have explored solutions for finite-time control methods subject to constraints, but most methods rely on homogeneity theory, in which ensuring convergence of consensus is difficult, and an exact settling time is hard to estimate.

Addressing these issues, a team of researchers, including Senior IEEE Member Professor Zongyu Zuo, Mr. Jingchuan Tan, and Mr. Ruiqi Ke, all from the Seventh Research Division at Beihang University (BUAA), China, and IEEE Fellow Professor Qing-Long Han from the School of Science at Computing and Engineering Technologies at Swinburne University of Technology, Australia, developed a novel protocol structure for achieving global and semi-global finite-time consensus for both leaderless and leader-following multi-agent systems. Their study was published in Volume 11, Issue 6 of the IEEE/CAA Journal of Automatica Sinica in June 2024.

The team was motivated by a fascination with the potential of robotic systems and artificial intelligence to transform our daily lives and tackle complex societal challenges efficiently and sustainably. Prof. Zuo intuitively explains their work, “Imagine a group of dancers who need to perform a synchronized routine, without directly seeing each other, only following cues from those nearby. Our work is akin to creating a set of rules that helps these dancers synchronize perfectly in a short time, ensuring everyone performs beautifully together even if they have limitations in how quickly they can move.”

The protocols presented in the study use a hyperbolic tangent function, instead of the non-smooth saturation function used in traditional protocols. These protocols guarantee global and semi-global finite-time consensus for integrator and double integrator type systems, respectively. Moreover, they also allow explicit calculation of an upper limit for settling time and a user-prescribed bounded control level for closed-loop systems, making them highly practical and valuable for real-world applications. Additionally, unlike traditional protocols, the hyperbolic tangent function avoids the need to determine input saturation for each agent, simplifying the design and stability analysis of the protocols. The researchers demonstrated the effectiveness of the new protocol structure through illustrative examples for single- and double-integrator multi-agent systems and by applying it to a practical system with multiple direct current motors.

Highlighting the practical applications of this study, Prof. Zuo says, “These protocols have broad applications, such as autonomous drone fleets for agricultural or surveillance tasks, coordinated control of robotic arms, and synchronized traffic light systems. Ultimately, our research could improve the efficiency and reliability of autonomous systems. For example, better traffic management systems could reduce congestion and pollution, while more coordinated disaster response robots could save lives during crises.”

Overall, the innovative protocol structure marks a significant achievement in the field of consensus problems, leading to enhanced multi-agent autonomous systems.

Reference
Titles of original papers: Hyperbolic Tangent Function-Based Protocols for Global/Semi-Global Finite-Time Consensus of Multi-Agent Systems
Journal: IEEE/CAA Journal of Automatica Sinica
DOI: 10.1109/JAS.2024.124485

Contact:
Yan Ou
+86 10 82544459
379126@email4pr.com

Cision View original content to download multimedia:https://www.prnewswire.com/news-releases/ieeecaa-journal-of-automatica-sinica-study-presents-novel-protocol-structure-for-achieving-finite-time-consensus-of-multi-agent-systems-302172186.html

SOURCE IEEE/CAA Journal of Automatica Sinica

YOU MAY ALSO LIKE

Neptune Anticipates Greater Significance of Generative AI,…

BEIJING, June 14, 2024 /PRNewswire/ -- Achieving finite-time consensus for multi-agent systems is essential for reliable and efficient autonomous systems.  Traditional protocols based on homogeneity…

read more

Odine Accelerates R&D and Innovation, Achieving Remarkable…

BEIJING, June 14, 2024 /PRNewswire/ -- Achieving finite-time consensus for multi-agent systems is essential for reliable and efficient autonomous systems.  Traditional protocols based on homogeneity…

read more

Eddid Financial Collaborates Again with SOAS for…

BEIJING, June 14, 2024 /PRNewswire/ -- Achieving finite-time consensus for multi-agent systems is essential for reliable and efficient autonomous systems.  Traditional protocols based on homogeneity…

read more