We study the empirical scaling of the running time required by state-of-the-art exact and inexact TSP algorithms for finding optimal solutions to Euclidean TSP instances as a function of instance size. In particular, we use a recently introduced statistical approach to obtain scaling models from observed performance data and to assess the accuracy of these models. For Concorde, the long-standing state-of-the-art exact TSP solver, we compare the scaling of the running time until an optimal solution is first encountered (the finding time) and that of the overall running time, which adds to the finding time the additional time needed to complete the proof of optimality. For two state-of-the-art inexact TSP solvers, LKH and EAX, we compare the ...
We investigated the properties of the distribution of human solution times for Traveling Salesperson...
We study exact algorithms for {\sc Euclidean TSP} in Rd. In the early 1990s algorithms with nO(n√) r...
We describe an important elaboration of our multiscale/multiresolution model for solving the Traveli...
We study the empirical scaling of the running time required by state-of-the-art exact and inexact TS...
We investigate the empirical performance of the long-standing state-of-the-art exact TSP solver Conc...
The travelling salesman problem (TSP) is one of the most prominent NP-hard combinatorial optimisatio...
Automated algorithm configuration is a powerful and increasingly widely used approach for improving ...
The time complexity of problems and algorithms, i.e., the scaling of the time required for solving a...
This paper is an example of the growing interface between statistics and mathematical optimization. ...
This project proposes a fast and compact algorithms for solving large-scale TSP problems. It is base...
Part of: IEEE WCCI 2020 is the world’s largest technical event on computational intelligence, featur...
The Traveling Salesman Problem (TSP) is one of the most classical problems in combinatorial optimiza...
We investigated the properties of the distribution of human solution times for Traveling Salesperson...
In this paper, we present an approach for parallelizing computation and implementation time for prob...
Understanding why some problems are better solved by one algorithm rather than another is still an o...
We investigated the properties of the distribution of human solution times for Traveling Salesperson...
We study exact algorithms for {\sc Euclidean TSP} in Rd. In the early 1990s algorithms with nO(n√) r...
We describe an important elaboration of our multiscale/multiresolution model for solving the Traveli...
We study the empirical scaling of the running time required by state-of-the-art exact and inexact TS...
We investigate the empirical performance of the long-standing state-of-the-art exact TSP solver Conc...
The travelling salesman problem (TSP) is one of the most prominent NP-hard combinatorial optimisatio...
Automated algorithm configuration is a powerful and increasingly widely used approach for improving ...
The time complexity of problems and algorithms, i.e., the scaling of the time required for solving a...
This paper is an example of the growing interface between statistics and mathematical optimization. ...
This project proposes a fast and compact algorithms for solving large-scale TSP problems. It is base...
Part of: IEEE WCCI 2020 is the world’s largest technical event on computational intelligence, featur...
The Traveling Salesman Problem (TSP) is one of the most classical problems in combinatorial optimiza...
We investigated the properties of the distribution of human solution times for Traveling Salesperson...
In this paper, we present an approach for parallelizing computation and implementation time for prob...
Understanding why some problems are better solved by one algorithm rather than another is still an o...
We investigated the properties of the distribution of human solution times for Traveling Salesperson...
We study exact algorithms for {\sc Euclidean TSP} in Rd. In the early 1990s algorithms with nO(n√) r...
We describe an important elaboration of our multiscale/multiresolution model for solving the Traveli...