Weak convergence theorem for the ergodic distribution of a random walk with normal distributed interference of chance

• Published in: TWMS journal of applied and engineering mathematics Vol. 5; no. 1; pp. 61 - 73
• Main Authors: Hanalioglu, Z, Khaniyev, T, Agakishiyev, I
• Format: Journal Article
• Language: English
• Published: Istanbul Turkic World Mathematical Society 01.01.2015; Elman Hasanoglu
• Subjects: Convergence; Convergence (Mathematics); Ergodic processes; Functions (mathematics); Interference; Mathematical analysis; Mathematical research; Probability distributions; Random variables; Random walk; Random walk theory; Studies; Theorems; Theoretical mathematics
• ISSN: 2146-1147; 2146-1147

In this study, a semi-Markovian random walk process (X(t)) with a discrete interference of chance is investigated. Here, it is assumed that the [[zeta].sub.n], n = 1, 2, 3, ..., which describe the discrete interference of chance are independent and identically distributed random variables having restricted normal distribution with parameters (a, [[sigma].sup.2]). Under this assumption, the ergodicity of the process X(t) is proved. Moreover, the exact forms of the ergodic distribution and characteristic function are obtained. Then, weak convergence theorem for the ergodic distribution of the process [W.sub.a](t) = X(t)/a is proved under additional condition that [sigma]/a [right arrow] 0 when a [right arrow] [infinity]. Keywords: Random walk; discrete interference of chance; normal distribution; ergodic distribution; weak convergence. AMS Subject Classification: 60G50; 60K15.