Finding the Shortest Paths in Izmir Map by Using Slime Molds Images

2019 International Conference on Control, Artificial Intelligence, Robotics & Optimization (ICCAIRO) Pub Date : 2019-05-01 DOI:10.1109/ICCAIRO47923.2019.00039

Tayfun Topuzoglu, G. Köktürk, D. Altun, A. Şendemir, Ozge Andic Cakır, A. Tokuç, Feyzal Ozkaban

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Abstract

Biologically -inspired computing led to the development of a multi-disciplinary approach and implemented to computing technics. It shows us is that slime mold computes the optimal distance between a food source and its body and then adapts its route. What makes slime mold special is that the computing algorithm changes when exposed to various environmental conditions like repellent or attractive stimuli. In addition, slime mold avoids from the repulsive fields and adopts its route accordingly. The transportation networks can be analyzed by using the optimization capability of slime molds, new transportation lines can be detected, and the efficiency of the existing lines can be analyzed. In this paper, the potential exploitation of the approach for Izmir motorway planning is examined. Slime mold is inoculated on scaled Izmir city map, geographical conditions are represented as attractive and repulsive and the minimum distances are calculated.

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利用黏菌图像在伊兹密尔地图上找到最短路径

受生物学启发的计算导致了多学科方法的发展，并实现了计算技术。它向我们展示了黏菌计算食物来源和它身体之间的最佳距离，然后调整它的路线。黏菌的特殊之处在于，当暴露于各种环境条件下，如排斥或吸引刺激时，计算算法会发生变化。此外，黏菌避开排斥场，采取相应的路线。利用黏菌的优化能力对运输网络进行分析，发现新的运输线路，分析现有线路的效率。在本文中，研究了该方法在伊兹密尔高速公路规划中的潜在应用。黏菌接种在缩放的伊兹密尔城市地图上，地理条件表示为吸引和排斥，并计算最小距离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 International Conference on Control, Artificial Intelligence, Robotics & Optimization (ICCAIRO)

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