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Abstract
This study provides speedup of the 2-Opt and 3-Opt processes by a new method based on Fourier descriptors (FDs) for the planar traveling salesman problem. By treating the planar tour as a closed contour, the proposed FD-based method, which is used as a potential swap identification function (PSIF), can limit the search space of 2-Opt/3-Opt by identifying the potential swap points/cities. In this article, approximate versions of the 2-Opt and 3-Opt procedures are adopted to investigate the performance of proposed PSIF. The experimental results using the proposed PSIF to reinforce the 3-Opt procedure show that the proposed method provides good quality solutions and faster computation.
摘要
本研究運用傅立葉述元建構啟發式2-Opt和3-Opt演算法以求解平面上之對稱型TSP問題。各種啟發式2-Opt和3-Opt演算法為求解TSP非常重要且運用頻繁的路程改善方法。 在本研究中 , 傅立葉述元第一次被用來建構啟發式2-Opt和3-Opt演算法。 將平面上的旅行路徑視為一封閉的線型輪廓 , 以傅立葉述元建構的潛在互換線段辨識法可以縮減2-Opt和3-Opt方法的搜尋空間 , 加快運算速度。 經由五個實驗案例所得到的上千個實驗結果顯示 ,本研究所提出的方法可強化啟發式2-Opt和3-Opt演算法的速度。
(*聯絡人: [email protected])
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Notes
(*聯絡人: [email protected])