LKH

LKH is an effective implementation of the Lin-Kernighan heuristic for solving the traveling salesman problem. Computational experiments have shown that LKH is highly effective. Even though the algorithm is approximate, optimal solutions are produced with an impressively high frequency. LKH has produced optimal solutions for all solved problems we have been able to obtain; including a 85,900-city instance (at the time of writing, the largest nontrivial instance solved to optimality). Furthermore, the algorithm has improved the best known solutions for a series of large-scale instances with unknown optima, among these a 1,904,711-city instance (World TSP).


References in zbMATH (referenced in 147 articles , 1 standard article )

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  1. Yu, Vincent F.; Lin, Shin-Yu: A simulated annealing heuristic for the open location-routing problem (2015)
  2. Baniasadi, Pouya; Ejov, Vladimir; Filar, Jerzy A.; Haythorpe, Michael; Rossomakhine, Serguei: Deterministic “snakes and ladders” heuristic for the Hamiltonian cycle problem (2014)
  3. Dowlatshahi, Mohammad Bagher; Nezamabadi-pour, Hossein; Mashinchi, Mashaallah: A discrete gravitational search algorithm for solving combinatorial optimization problems (2014)
  4. Fischer, A.; Fischer, F.; Jäger, G.; Keilwagen, J.; Molitor, P.; Grosse, I.: Exact algorithms and heuristics for the quadratic traveling salesman problem with an application in bioinformatics (2014)
  5. Florios, Kostas; Mavrotas, George: Generation of the exact Pareto set in multi-objective traveling salesman and set covering problems (2014)
  6. Hutter, Frank; Xu, Lin; Hoos, Holger H.; Leyton-Brown, Kevin: Algorithm runtime prediction: methods & evaluation (2014)
  7. LaRusic, John; Punnen, Abraham P.: The asymmetric bottleneck traveling salesman problem: algorithms, complexity and empirical analysis (2014)
  8. Matusiak, Marek; de Koster, René; Kroon, Leo; Saarinen, Jari: A fast simulated annealing method for batching precedence-constrained customer orders in a warehouse (2014)
  9. Feng, Xiang; Lau, Francis C. M.; Yu, Huiqun: A novel bio-inspired approach based on the behavior of mosquitoes (2013)
  10. Benchimol, Pascal; van Hoeve, Willem-Jan; Régin, Jean-Charles; Rousseau, Louis-Martin; Rueher, Michel: Improved filtering for weighted circuit constraints (2012)
  11. Chistyakov, Vyacheslav V.; Goldengorin, Boris I.; Pardalos, Panos M.: Extremal values of global tolerances in combinatorial optimization with an additive objective function (2012)
  12. Créput, Jean-Charles; Hajjam, Amir; Koukam, Abderrafiaa; Kuhn, Olivier: Self-organizing maps in population based metaheuristic to the dynamic vehicle routing problem (2012)
  13. Germs, Remco; Goldengorin, Boris; Turkensteen, Marcel: Lower tolerance-based branch and bound algorithms for the ATSP (2012)
  14. Golden, Bruce; Naji-Azimi, Zahra; Raghavan, S.; Salari, Majid; Toth, Paolo: The generalized covering salesman problem (2012)
  15. Karapetyan, Daniel; Gutin, Gregory: Efficient local search algorithms for known and new neighborhoods for the generalized traveling salesman problem (2012)
  16. LaRusic, John; Punnen, Abraham P.; Aubanel, Eric: Experimental analysis of heuristics for the bottleneck traveling salesman problem (2012)
  17. Rodríguez, Alejandro; Ruiz, Rubén: A study on the effect of the asymmetry on real capacitated vehicle routing problems (2012)
  18. Doshi, Riddhi; Yadlapalli, Sai; Rathinam, Sivakumar; Darbha, Swaroop: Approximation algorithms and heuristics for a 2-depot, heterogeneous Hamiltonian path problem (2011)
  19. Fortini, Matteo; Letchford, Adam N.; Lodi, Andrea; Wenger, Klaus M.: Computing compatible tours for the symmetric traveling salesman problem (2011)
  20. Gellert, Torsten; Höhn, Wiebke; Möhring, Rolf H.: Sequencing and scheduling for filling lines in dairy production (2011)