局部共识动力学中的尺度脆弱性

E. Tegling, Bassam Bamieh, H. Sandberg
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引用次数: 3

摘要

我们考虑网络中的分布式共识,其中代理具有二阶或更高阶的积分器动态($n\ge 2$)。我们假设所有反馈都是局部化的,即每个代理都有有限数量的邻居,并考虑通过以模块化方式添加代理来扩展网络,即无需重新调整添加后的控制器增益。我们表明,依赖于相对状态反馈的标准共识算法受到我们所谓的规模脆弱性的影响,这意味着随着网络规模的扩大,稳定性会丧失。对于高阶智能体($n\ge 3$),我们证明了任何固定增益的共识算法都不能在任何规模的网络中实现共识。也就是说,虽然给定的算法可能允许小型网络收敛,但如果网络增长超过一定的有限大小,则会导致不稳定。这适用于网络图族,其代数连通性,即最小的非零拉普拉斯特征值,在网络大小(例如所有平面图)中趋于零。对于二阶一致性($n = 2$),我们证明了相同的尺度脆弱性适用于具有接近原点的复拉普拉斯特征值的有向图(例如有向环图)。这两个结果的证明都依赖于复值多项式的鲁斯-赫维茨准则,对一般有向网络图也成立。我们调查了受这些尺度脆弱性影响的图的类别,讨论了它们的尺度常数,并最终证明了节点邻域的次线性缩放足以克服这个问题。
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Scale Fragilities in Localized Consensus Dynamics
We consider distributed consensus in networks where the agents have integrator dynamics of order two or higher ($n\ge 2$). We assume all feedback to be localized in the sense that each agent has a bounded number of neighbors and consider a scaling of the network through the addition of agents in a modular manner, i.e., without re-tuning controller gains upon addition. We show that standard consensus algorithms, which rely on relative state feedback, are subject to what we term scale fragilities, meaning that stability is lost as the network scales. For high-order agents ($n\ge 3$), we prove that no consensus algorithm with fixed gains can achieve consensus in networks of any size. That is, while a given algorithm may allow a small network to converge, it causes instability if the network grows beyond a certain finite size. This holds in families of network graphs whose algebraic connectivity, that is, the smallest non-zero Laplacian eigenvalue, is decreasing towards zero in network size (e.g. all planar graphs). For second-order consensus ($n = 2$) we prove that the same scale fragility applies to directed graphs that have a complex Laplacian eigenvalue approaching the origin (e.g. directed ring graphs). The proofs for both results rely on Routh-Hurwitz criteria for complex-valued polynomials and hold true for general directed network graphs. We survey classes of graphs subject to these scale fragilities, discuss their scaling constants, and finally prove that a sub-linear scaling of nodal neighborhoods can suffice to overcome the issue.
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