Dec 13, 2013 · This paper exploits a cellular computing model in the slime mold physarum polycephalum to solve the Steiner tree problem which is an important NP-hard problem.

This paper exploits a cellular computing model in the slime mold physarum polycephalum to solve the Steiner tree problem which is an important NP-hard problem ...

A cellular computing model in the slime mold physarum polycephalum is exploited to solve the Steiner tree problem which is an important NP-hard problem in ...

Oct 22, 2024 · This paper exploits a cellular computing model in the slime mold physarum polycephalum to solve the Steiner tree problem which is an important ...

Aug 25, 2022 · We demonstrate this novel approach, developing the Physarum Steiner Algorithm which is capable of finding feasible solutions to the Euclidean ...

This paper exploits a cellular computing model in the slime mold physarum polycephalum to solve the Steiner tree problem which is an important NP-hard problem ...

In this paper, a network dividing method is presented inspired by the natural phenomena of bacterial growth, division and competition.

Fast algorithms inspired by Physarum polycephalum for node weighted steiner tree problem with multiple terminals · Physarum Optimization: A Biology-Inspired ...

Oct 22, 2024 · However, the bio-inspired algorithms represent only the very first step toward the design of a smart adaptive communication network since: 1) ...

Abstract—The popular Physarum-inspired Algorithms (PAs) have the potential to solve challenging network optimization problems.