"Gaussian random field"의 두 판 사이의 차이

노트

위키데이터

• ID : Q5527848

말뭉치

1. A Gaussian random field (GRF) is a random field involving Gaussian probability density functions of the variables.^[1]
2. The simplifications achieved by Gaussian random fields are based on fact that the joint Gaussian probability density function is fully determined by the mean and the covariance function.^[2]
3. Known results are extended from the finite‐dimensional case to the dimension‐free case; hence, in particular, to Gaussian random fields.^[3]
4. we recommend the package RandomFields (http://cran.r-project.org/src/contrib/PACKAGES.html#RandomFields) for a more comprehensive implementation for simulation of Gaussian Random Fields.^[4]
5. Clipped Gaussian random fields can be used for modeling discrete-valued random fields with a given correlation structure.^[5]
6. The computational complexity of realising an n × n lattice of points of a Gaussian random field in ℝ d depends considerably upon the structure of the covariance function.^[6]
7. On 𝕊 2 , similar results for isotropic Gaussian random fields also apply, i.e., we can perform a spectral decomposition into the spherical harmonic functions.^[6]
8. These can be sampled together with the derivatives point by point and then transformed to an isotropic Gaussian random field on the unit sphere by FFT.^[6]
9. In Section 2, we derive the decomposition of an isotropic Gaussian random field into 1d GMRFs via Fourier transforms, and compute the conditional covariance matrices.^[6]
10. We now review how probability distributions work for continuous, Gaussian random fields.^[7]
11. This paper presents a new approach to the estimation of the deformation of an isotropic Gaussian random field on ℝ2 based on dense observations of a single realization of the deformed random field.^[8]
12. VoI can be computed easily through updating a Gaussian random field, i.e., kriging, which is a probabilistic interpolation method.^[9]

소스

메타데이터

위키데이터

• ID : Q5527848