Title :
Algorithm and knowledge engineering for the TSPTW problem
Author :
Edelkamp, Stefan ; Gath, Max ; Cazenave, Tristan ; Teytaud, Fabien
Author_Institution :
Inst. for Artificial Intell., Univ. of Bremen, Bremen, Germany
Abstract :
The well-known traveling salesman problem (TSP) is concerned with determining the shortest route for a vehicle while visiting a set of cities exactly once. We consider knowledge and algorithm engineering in combinatorial optimization for improved solving of complex TSPs with Time Windows (TSPTW). To speed-up the exploration of the applied Nested Monte-Carlo Search with Policy Adaption, we perform beam search for an improved compromise of search breadth and depth as well as automated knowledge elicitation to seed the distribution for the exploration. To evaluate our approach, we use established TSPTW benchmarks with promising results. Furthermore, we indicate improvements for real-world logistics by its use in a multiagent system. Thereby, each agent computes individual TSPTW solutions and starts negotiation processes on this basis.
Keywords :
Monte Carlo methods; knowledge engineering; logistics; multi-agent systems; production engineering computing; search problems; travelling salesman problems; vehicle routing; TSPTW problem; automated knowledge elicitation; beam search; combinatorial optimization; complex TSP with time windows; knowledge engineering; multiagent system; negotiation processes; nested Monte-Carlo search; policy adaption; real-world logistics; search breadth; search depth; shortest vehicle route; traveling salesman problem; Approximation algorithms; Benchmark testing; Cities and towns; Monte Carlo methods; Search problems; Traveling salesman problems; Vehicles;
Conference_Titel :
Computational Intelligence in Scheduling (SCIS), 2013 IEEE Symposium on
Conference_Location :
Singapore
DOI :
10.1109/SCIS.2013.6613251
