Construction of Fixed-Width Confidence Intervals for Zero-Inflated Poisson Distributions Parameters
LI ErQian\TIAN MaoZai
Center for Applied Statistics, School of Statistics, Renmin University of China, Beijing,100872, China\School of Statistics and Information, Xinjiang University of Finance and Economics, Urumuqi,830012, China
Interval width and coverage probability are two criteria for evaluating confidence intervals. It's quite worthwhile to investigate fixed-width confidence intervals with a prescribed nominal level, which, in generally speaking, is hardly realized in fixed-sample-size circumstances. A common way to deal with this problem is to apply sequential methods and two-stage sampling or even multi-stage sampling. For zero-inflated Poisson distribution with a probability mass $p$ and Poisson
mean parameter $\lambda$, the construction of fixed-width confidence intervals for (\lambda,p)$ is conducted in this paper, including sequential
and two-stage procedures. Each procedure is demonstrated to satisfy asymptotic consistency and efficiency. The variation of optimal fixed-sample
size by the two parameters is considered under different situations and simulation performance is displayed by Monte Carlo simulation. A real data
analysis is also implemented for application.
���ٻ\��ï��. �����Ͳ��ɷֲ������Ĺ̶�����������乹�췽��[J]. Ӧ�ø���ͳ��, 2018, 34(1): 49-74.
LI ErQian\TIAN MaoZai. Construction of Fixed-Width Confidence Intervals for Zero-Inflated Poisson Distributions Parameters. CHINESE JOURNAL OF APPLIED PROBABILITY AND STATIST, 2018, 34(1): 49-74.
