Least squares estimator for path-dependent McKean-Vlasov SDEs via discrete-time observations (1805.10134v1)

Abstract: In this paper, we are interested in least squares estimator for a class of path-dependent McKean-Vlasov stochastic differential equations (SDEs). More precisely, we investigate the consistency and asymptotic distribution of the least squares estimator for the unknown pa- rameters involved by establishing an appropriate contrast function. Comparing to the existing results in the literature, the innovations of our paper lie in three aspects: (i) We adopt a tamed Euler-Maruyama algorithm to establish the contrast function under the monotone condition, under which the Euler-Maruyama scheme no longer works; (ii) We take the advantage of linear interpolation with respect to the discrete-time observations to approximate the functional solu- tion; (iii) Our model is more applicable and practice as we are dealing with SDEs with irregular coefficients (e.g., H"older continuous) and path-distribution dependent.