varbin: Estimate of a Probability from Clustered Binomial Data

An object of class varbin, printed with print.varbin.

Five methods are used for the estimations. Let us consider \(N\) clusters of sizes \(n_1, \ldots, n_N\) with observed count responses \(m_1, \ldots, m_N\). We note \(y_i = m_i/n_i (i = 1, \ldots, N)\) the observed proportions. The underlying assumption is that the probability, say \(mu\), is homogeneous across the clusters.

Binomial method: the probability estimate and its variance are calculated by

\(\mu = (sum_{i} (m_i)) / (sum_{i} (n_i))\) (ratio estimate) and

\(\mu * (1 - \mu) / (sum_{i} (n_i) - 1)\), respectively.

Ratio method: the probability \(\mu\) is estimated as for the binomial method (ratio estimate). The one-stage cluster sampling formula is used to calculate the variance of \(\mu\) (see Cochran, 1999, p. 32 and p. 66).

Arithmetic method: the probability is estimated by \(\mu = sum_{i} (y_i) / N\). The variance of \(\mu\) is estimated by \(sum_{i} (y_i - \mu)^2 / (N * (N - 1))\).

Jackknife method: the probability is estimated by \(\mu\) defined by the arithmetic mean of the pseudovalues \(y_{v,i}\). The variance is estimated by \(sum_{i} (y_{v,i} - \mu)^2 / (N * (N - 1))\) (Gladen, 1977, Paul, 1982).

Bootstrap method: \(R\) samples of clusters of size \(N\) are drawn with equal probability from the initial sample \((y_1, \ldots , y_N)\) (Efron and Tibshirani, 1993). The bootstrap estimate \(\mu\) and its estimated variance are the arithmetic mean and the empirical variance (computed with denominator \(R - 1\)) of the \(R\) binomial ratio estimates, respectively.