Abstract
This paper is concerned with various aspects of the Slepian process $(B_{t+1} - B_t, t \ge 0)$ derived from a one-dimensional Brownian motion $(B_t, t \ge 0 )$. In particular, we offer an analysis of the local structure of the Slepian zero set $\{t : B_{t+1} = B_t \}$, including a path decomposition of the Slepian process for $0 \le t \le 1$. We also establish the existence of a random time $T$ such that $T$ falls in the the Slepian zero set almost surely and the process $(B_{T+u} - B_T, 0 \le u \le 1)$ is standard Brownian bridge.
Citation
Jim Pitman. Wenpin Tang. "The Slepian zero set, and Brownian bridge embedded in Brownian motion by a spacetime shift." Electron. J. Probab. 20 1 - 28, 2015. https://doi.org/10.1214/EJP.v20-3911
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