Bård Hennning Tvedt scite author profile

Bård Hennning Tvedt

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Strong bounds and exact solutions to the minimum broadcast time problem

Ivanová¹,

Haugland²,

Tvedt³

2021

Preprint

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Given a graph and a subset of its nodes, referred to as source nodes, the minimum broadcast problem asks for the minimum number of steps in which a signal can be transmitted from the sources to all other nodes in the graph.In each step, the sources and the nodes that already have received the signal can forward it to at most one of their neighbor nodes. The problem has previously been proved to be NP-hard. In the current work, we develop a compact integer programming model for the problem. We also devise procedures for computing lower bounds on the minimum number of steps required, along with methods for constructing near-optimal solutions. Computational experiments demonstrate that in a wide range of instances with sufficiently dense graphs, the lower and upper bounds under study collapse. In instances

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Strong bounds and exact solutions to the minimum broadcast time problem

Ivanová

Haugland

Tvedt³

2023

Int Trans Operational Res

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Given a graph and a subset of its nodes, referred to as source nodes, the minimum broadcast time problem asks for the minimum number of steps in which a signal can be transmitted from the sources to all other nodes in the graph. In each step, the sources and the nodes that already have received the signal can forward it to at most one of their neighbour nodes. The problem has previously been proved to be NP‐hard. In the current work, we develop a compact integer programming model for the problem. We also devise procedures for computing lower bounds on the minimum number of steps required, along with methods for constructing near‐optimal solutions. Computational experiments demonstrate that in a wide range of instances, in particular instances with sufficiently dense graphs, the lower and upper bounds under study collapse. In instances where this is not the case, the integer programming model proves strong capabilities in closing the remaining gap and proves to be considerably more efficient than previously studied models.

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