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graph coloringSupreme court of the united states case
Ordinary graph coloring algorithms are nothing without their calculations, memorizations, and inter-vertex communications. We investigate a class of ultra simple algorithms which can find (Delta+1)-colorings despite drastic restrictions. For each procedure, conflicted vertices randomly recolor one at a time until the graph coloring is valid. We provide an array of run time bounds for these processes, including an O(n*log(Delta)) bound for a variant we propose, and an O(n*Delta) bound which applies to even the most adversarial scenarios
We define a natural probability distribution over the set of k-colorable graphs on n vertices and st...
We give a fully dynamic (Las-Vegas style) algorithm with constant expected amortized time per update...
Colouring a graph with its chromatic number of colours is known to be NP-hard. Identifying an algori...
Ordinary graph coloring algorithms are nothing without their calculations, memorizations, and inter-...
Graph coloring problem arises in numerous networking applications. We solve it in a fully decentrali...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...
We give a distributed randomized algorithm to edge colour a network. Let G be a graphwith n nodes an...
AbstractWe give a distributed randomized algorithm for graph edge colouring. Let G be a Δ-regular gr...
We design fast dynamic algorithms for proper vertex and edge colorings in a graph undergoing edge in...
Exact algorithms for graph coloring tend to have high vari- ance in their runtime, posing a signi�c...
We propose two new self-stabilizing distributed algorithms for proper Δ+1 (Δ is ...
We give a distributed randomized algorithm for graph edge colouring. Let G be a graph with n nodes a...
We present a constant-time randomized distributed algorithms in the congested clique model that comp...
We define a natural probability distribution over the set of k-colorable graphs on n vertices and st...
We give a fully dynamic (Las-Vegas style) algorithm with constant expected amortized time per update...
Colouring a graph with its chromatic number of colours is known to be NP-hard. Identifying an algori...
Ordinary graph coloring algorithms are nothing without their calculations, memorizations, and inter-...
Graph coloring problem arises in numerous networking applications. We solve it in a fully decentrali...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...
We give a distributed randomized algorithm to edge colour a network. Let G be a graphwith n nodes an...
AbstractWe give a distributed randomized algorithm for graph edge colouring. Let G be a Δ-regular gr...
We design fast dynamic algorithms for proper vertex and edge colorings in a graph undergoing edge in...
Exact algorithms for graph coloring tend to have high vari- ance in their runtime, posing a signi�c...
We propose two new self-stabilizing distributed algorithms for proper Δ+1 (Δ is ...
We give a distributed randomized algorithm for graph edge colouring. Let G be a graph with n nodes a...
We present a constant-time randomized distributed algorithms in the congested clique model that comp...
We define a natural probability distribution over the set of k-colorable graphs on n vertices and st...
We give a fully dynamic (Las-Vegas style) algorithm with constant expected amortized time per update...
Colouring a graph with its chromatic number of colours is known to be NP-hard. Identifying an algori...
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