Center for Complex Networks and Systems Research, School of Informatics and Computing, Indiana University, Bloomington, Indiana 47408, USA.
Istituto dei Sistemi Complessi (ISC-CNR), Via dei Taurini 19, 00185 Roma, Italy and Dipartimento di Fisica, Sapienza Università di Roma, Roma, Italy.
Phys Rev E. 2017 Jan;95(1-1):012318. doi: 10.1103/PhysRevE.95.012318. Epub 2017 Jan 18.
Two important problems regarding spreading phenomena in complex topologies are the optimal selection of node sets either to minimize or maximize the extent of outbreaks. Both problems are nontrivial when a small fraction of the nodes in the network can be used to achieve the desired goal. The minimization problem is equivalent to a structural optimization. The "superblockers," i.e., the nodes that should be removed from the network to minimize the size of outbreaks, are those nodes that make connected components as small as possible. "Superspreaders" are instead the nodes such that, if chosen as initiators, they maximize the average size of outbreaks. The identity of superspreaders is expected to depend not just on the topology, but also on the specific dynamics considered. Recently, it has been conjectured that the two optimization problems might be equivalent, in the sense that superblockers act also as superspreaders. In spite of its potential groundbreaking importance, no empirical study has been performed to validate this conjecture. In this paper, we perform an extensive analysis over a large set of real-world networks to test the similarity between sets of superblockers and of superspreaders. We show that the two optimization problems are not equivalent: superblockers do not act as optimal spreaders.
两个关于复杂拓扑中传播现象的重要问题是最优选择节点集,以最小化或最大化爆发的范围。当网络中的一小部分节点可用于实现预期目标时,这两个问题都不容易。最小化问题相当于结构优化。“超级阻断器”,即应该从网络中移除以最小化爆发规模的节点,是那些使连通分量尽可能小的节点。“超级传播者”则相反,即如果选择它们作为启动者,它们可以使爆发的平均规模最大化。超级传播者的身份不仅取决于拓扑结构,还取决于所考虑的特定动态。最近,有人推测这两个优化问题可能是等价的,即超级阻断器也充当超级传播者。尽管这一假设具有潜在的重要意义,但尚未进行任何实证研究来验证这一假设。在本文中,我们对一大组真实网络进行了广泛的分析,以测试超级阻断器集和超级传播者集之间的相似性。我们表明,这两个优化问题并不等价:超级阻断器并不充当最佳传播者。
