We discuss the optimal matching solution for both the assignment problem and the matching problem in one dimension for a large class of convex cost functions. We consider the problem in a compact set with the topology both of the interval and of the circumference. Afterwards, we assume the points' positions to be random variables identically and independently distributed on the considered domain. We analytically obtain the average optimal cost in the asymptotic regime of very large number of points N and some correlation functions for a power-law-type cost function in the form c(z)=zp, both in the p>1 case and in the p<0 case. The scaling of the optimal mean cost with the number of points is N-p/2 for the assignment and N-p for the matching when p>1, whereas in both cases it is a constant when p<0. Finally, our predictions are compared with the results of numerical simulations.
Caracciolo S., D'Achille M., Sicuro G. (2017). Random Euclidean matching problems in one dimension. PHYSICAL REVIEW. E, 96(4), 042102-1-042102-20 [10.1103/PhysRevE.96.042102].
Random Euclidean matching problems in one dimension
Sicuro G.
2017
Abstract
We discuss the optimal matching solution for both the assignment problem and the matching problem in one dimension for a large class of convex cost functions. We consider the problem in a compact set with the topology both of the interval and of the circumference. Afterwards, we assume the points' positions to be random variables identically and independently distributed on the considered domain. We analytically obtain the average optimal cost in the asymptotic regime of very large number of points N and some correlation functions for a power-law-type cost function in the form c(z)=zp, both in the p>1 case and in the p<0 case. The scaling of the optimal mean cost with the number of points is N-p/2 for the assignment and N-p for the matching when p>1, whereas in both cases it is a constant when p<0. Finally, our predictions are compared with the results of numerical simulations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
