Publisher review:Confidence Region Radius - Confidence Intervals, Circles, and Spheres R = CRR(S) computes the radius of the mean-centered interval, circle, or sphere with 95% probability given S, which is either a vector of standard deviations or a covariance matrix from a multivariate normal distribution. If S is a real, symmetric, positive semidefinite matrix, CRR(S) is equivalent to CRR(SQRT(EIG(S))). Scalar S is treated as a standard deviation.R = CRR(S,P) computes the confidence region radius with probability P instead of the default, which is 0.95.R = CRR(S,P,TOL) uses a quadrature tolerance of TOL instead of the default, which is 1e-15. Larger values of TOL may result in fewer function evaluations and faster computation, but less accurate results. Use [] as a placeholder to obtain the default value of P.R = CRR(S,P,TOL,M) performs a bootstrap validation with M normally distributed random samples of size 1e6. Use [] as a placeholder to obtain the default value of TOL.R = CRR(S,P,TOL,[M N]) performs a bootstrap validation with M normally distributed random samples of size N. Requirements: ยท MATLAB Release: R13
Confidence Region Radius is a Matlab script for Statistics and Probability scripts design by Tom Davis.
It runs on following operating system: Windows / Linux / Mac OS / BSD / Solaris.
Operating system:Windows / Linux / Mac OS / BSD / Solaris
Confidence Region Radius script details 
