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Main Authors: Nazerian, Amirhossein, Asllani, Malbor, Tyloo, Melvyn, Ku, Wai Lim, Sorrentino, Francesco
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.04180
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author Nazerian, Amirhossein
Asllani, Malbor
Tyloo, Melvyn
Ku, Wai Lim
Sorrentino, Francesco
author_facet Nazerian, Amirhossein
Asllani, Malbor
Tyloo, Melvyn
Ku, Wai Lim
Sorrentino, Francesco
contents Many biological, technological, and social systems can be effectively described as networks of interacting subsystems. Typically, these networks are not isolated objects, but interact with their environment through both signals and information that is received by specific nodes with an input function or released to the environment by other nodes with an output function. An important question is whether the structure of different networks, together with the particular selection of input and output nodes, is such that it favors the passing or blocking of such signals. For a given network and a given choice of the input and output nodes, the H2-norm provides a natural and general quantification of the extent to which input signals, whether deterministic or stochastic, periodic or arbitrary, are amplified. We analyze a diverse set of empirical networks and find that many naturally occurring systems, such as food webs, signaling pathways, and gene regulatory circuits, are structurally organized to enhance the passing of signals; in contrast, the structure of engineered systems like power grids appears to be intentionally designed to suppress signal propagation.
format Preprint
id arxiv_https___arxiv_org_abs_2507_04180
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Frequency Response of Networks as Open Systems
Nazerian, Amirhossein
Asllani, Malbor
Tyloo, Melvyn
Ku, Wai Lim
Sorrentino, Francesco
Systems and Control
Many biological, technological, and social systems can be effectively described as networks of interacting subsystems. Typically, these networks are not isolated objects, but interact with their environment through both signals and information that is received by specific nodes with an input function or released to the environment by other nodes with an output function. An important question is whether the structure of different networks, together with the particular selection of input and output nodes, is such that it favors the passing or blocking of such signals. For a given network and a given choice of the input and output nodes, the H2-norm provides a natural and general quantification of the extent to which input signals, whether deterministic or stochastic, periodic or arbitrary, are amplified. We analyze a diverse set of empirical networks and find that many naturally occurring systems, such as food webs, signaling pathways, and gene regulatory circuits, are structurally organized to enhance the passing of signals; in contrast, the structure of engineered systems like power grids appears to be intentionally designed to suppress signal propagation.
title The Frequency Response of Networks as Open Systems
topic Systems and Control
url https://arxiv.org/abs/2507.04180