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Eastern Great Lakes Theory Workshop Talk
Density Estimation in Linear Time/Estimation of L1 Distances Using Stochastic Integrals
Daniel Štefankovič, University of Rochester
Sunday, September 7, 10:30 am- 11:30am
ABSTRACT
I will talk about the following problem in learning theory: given a set of densities F and data, choose a density estimate from F which minimizes the L1-distance to an unknown true distribution. I'll focus on the computational aspect of the problem, presenting a linear-time algorithm.
In the preprocessing step of the algorithm we need to solve the following problem: compute L1-distances between every pair of densities in F. I'll show that the technique of Cauchy random projections (Indyk'06) in this context turns into stochastic integrals (of deterministic functions) with respect to Cauchy motion. I'll also show that for piecewise linear densities we can efficiently sample from these integrals using rejection sampling.
Joint work with Satyaki Mahalanabis.
Speaker Bio
Daniel Štefankovič received his undergraduate diploma (Magister degree) in computer science from Comenius University, Bratislava, Slovakia, in 1998, under Peter Ružička. He received his Ph.D. in computer science from the University of Chicago under László Babai in 2005. He joined the Computer Science faculty at the University of Rochester in July 2005.
His research area is the theory of computing; it includes computational topology, especially classical algorithmic problems on simple curves on surfaces; Markov Chain Monte Carlo sampling; extremal combinatorics; algorithmic game theory; graph drawing; algorithmic coding theory; and applications of discrete and continuous Fourier transforms, especially to lattices and diophantine approximation.