Bibliographic Information: Dhawan, A. (2024). Palette Sparsification for Graphs with Sparse Neighborhoods. arXiv:2408.08256v2 [cs.DS].
Research Objective: This paper investigates whether a palette sparsification result exists for the O(∆/log(∆/√k))-coloring problem in k-locally-sparse graphs, where ∆ represents the maximum degree of the graph.
Methodology: The research utilizes probabilistic methods, particularly a variant of the "R¨odl nibble method" and the Wasteful Coloring Procedure, to analyze the properties of locally sparse graphs and their colorability under random color sampling.
Key Findings: The paper presents a new palette sparsification theorem (Theorem 1.4) demonstrating that for k-locally-sparse graphs, sampling O(∆α + √log n) colors per vertex is sufficient to obtain a proper coloring with high probability. This result holds for a significant range of k values (k ≪ ∆^2α). A key element in the proof is Proposition 1.5, which establishes sufficient conditions for a graph to be list-colorable based on constraints on color-degrees and local sparsity.
Main Conclusions: The paper provides the first palette sparsification theorem for the O(∆/log(∆/√k))-coloring problem in k-locally-sparse graphs. This result has potential implications for developing more efficient graph coloring algorithms, particularly in scenarios with limited computational resources.
Significance: This research contributes to the field of graph coloring algorithms by providing a new theoretical result that could lead to faster coloring methods for graphs with sparse neighborhoods. This is particularly relevant in areas like computer science and network analysis where efficient graph algorithms are crucial.
Limitations and Future Research: The current results hold for a specific range of k values, and extending them to the full range (1 ≤ k ≤ ∆^2) remains an open question. Further research could explore palette sparsification in the context of more general notions of local sparsity, such as (k, r)-local-sparsity, and investigate local versions of the coloring problem where the number of colors assigned to a vertex depends on its degree.
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by Abhishek Dha... ที่ arxiv.org 11-05-2024
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