Presentation1_Solving the Large-Scale TSP Problem in 1 h: Santa Claus Challenge 2020.pptx
The scalability of traveling salesperson problem (TSP) algorithms for handling large-scale problem instances has been an open problem for a long time. We arranged a so-called Santa Claus challenge and invited people to submit their algorithms to solve a TSP problem instance that is larger than 1 M nodes given only 1 h of computing time. In this article, we analyze the results and show which design choices are decisive in providing the best solution to the problem with the given constraints. There were three valid submissions, all based on local search, including k-opt up to k = 5. The most important design choice turned out to be the localization of the operator using a neighborhood graph. The divide-and-merge strategy suffers a 2% loss of quality. However, via parallelization, the result can be obtained within less than 2 min, which can make a key difference in real-life applications.
History
Usage metrics
Categories
- Adaptive Agents and Intelligent Robotics
- Artificial Life
- Control Systems, Robotics and Automation
- Computer Vision
- Artificial Intelligence and Image Processing
- Image Processing
- Bioethics (human and animal)
- Artificial Intelligence and Image Processing not elsewhere classified
- Applied Ethics not elsewhere classified