Topological Signal Processing Over Generalized Cell Complexes

Sardellitti, Stefania; Barbarossa, Sergio

doi:10.1109/tsp.2023.3347069

IEEE Trans. Signal Process.

2024

DOI: 10.1109/tsp.2023.3347069

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Topological Signal Processing Over Generalized Cell Complexes

Stefania Sardellitti,

Sergio Barbarossa

Abstract: Topological Signal Processing (TSP) over simplicial complexes is a framework that has been recently proposed, as a generalization of graph signal processing (GSP), to extend GSP to analyzing signals defined over sets of any order (i.e., not only vertices of a graph) and to capture multiway relations of any order among the data. However, simplicial complexes are required to satisfy the so-called inclusion property, according to which, if a set belongs to the complex, then all its subsets must also belong to the… Show more

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Cited by 2 publications

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Turing patterns on discrete topologies: from networks to higher-order structures

Muolo,

Giambagli,

Nakao

et al. 2024

Proc. R. Soc. A.

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Nature is a blossoming of regular structures, signature of self-organization of the underlying microscopic interacting agents. Turing theory of pattern formation is one of the most studied mechanisms to address such phenomena and has been applied to a widespread gallery of disciplines. Turing himself used a spatial discretization of the hosting support to eventually deal with a set of ODEs. Such an idea contained the seeds of the theory on discrete support, which has been fully acknowledged with the birth of network science in the early 2000s. This approach allows us to tackle several settings not displaying a trivial continuous embedding, such as multiplex, temporal networks and, recently, higher-order structures. This line of research has been mostly confined within the network science community, despite its inherent potential to transcend the conventional boundaries of the PDE-based approach to Turing patterns. Moreover, network topology allows for novel dynamics to be generated via a universal formalism that can be readily extended to account for higher-order structures. The interplay between continuous and discrete settings can pave the way for further developments in the field.

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Turing patterns on discrete topologies: from networks to higher-order structures

Muolo,

Giambagli,

Nakao

et al. 2024

Proc. R. Soc. A.

View full text Add to dashboard Cite

show abstract

Generalized Simplicial Attention Neural Networks

Battiloro,

Testa,

Giusti

et al. 2024

IEEE Trans. on Signal and Inf. Process. over Networks

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Topological Signal Processing Over Generalized Cell Complexes

Cited by 2 publications

References 53 publications

Turing patterns on discrete topologies: from networks to higher-order structures

Turing patterns on discrete topologies: from networks to higher-order structures

Generalized Simplicial Attention Neural Networks

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