| calibrator-package |
Bayesian Calibration of Complex Computer Codes |
| beta1hat.fun |
beta1 estimator |
| beta2hat.fun |
estimator for beta2 |
| betahat.fun.koh |
Expectation of beta, given theta, phi and d |
| betahat.fun.koh.vector |
Expectation of beta, given theta, phi and d |
| blockdiag |
Assembles matrices blockwise into a block diagonal matrix |
| C1 |
Matrix of distances from D1 to D2 |
| calibrator |
Bayesian Calibration of Complex Computer Codes |
| computer.model |
Reality |
| Cov.eqn9.supp |
Covariance function for posterior distribution of z |
| cov.p5.supp |
Covariance function for posterior distribution of z |
| create.new.toy.datasets |
Create new toy datasets |
| d.toy |
Toy datasets |
| D1.fun |
Function to join x.star to t.vec to give matrix D1 |
| D1.toy |
Toy datasets |
| D2.fun |
Augments observation points with parameters |
| D2.toy |
Toy datasets |
| dists.2frames |
Distance between two points |
| E.theta.toy |
Expectation and variance with respect to theta |
| Edash.theta.toy |
Expectation and variance with respect to theta |
| EK.eqn10.supp |
Posterior mean of K |
| etahat |
Expectation of computer output |
| extractor.toy |
Extracts lat/long matrix and theta matrix from D2. |
| Ez.eqn7.supp |
Expectation of z given y, beta2, phi |
| Ez.eqn9.supp |
Expectation as per equation 10 of KOH2001 |
| Ez.eqn9.supp.vector |
Expectation as per equation 10 of KOH2001 |
| H.fun |
H function |
| h.fun |
Auxiliary functions for equation 9 of the supplement |
| H1.toy |
Basis functions for D1 and D2 |
| h1.toy |
Basis functions |
| H2.toy |
Basis functions for D1 and D2 |
| h2.toy |
Basis functions |
| hbar.fun.toy |
Toy example of hbar (section 4.2) |
| hh.fun |
Integrals needed in KOH2001 |
| ht.fun |
Integrals needed in KOH2001 |
| is.positive.definite |
Is a matrix positive definite? |
| MH |
Very basic implementation of the Metropolis-Hastings algorithm |
| model.inadequacy |
Reality |
| p.eqn4.supp |
Apostiori probability of psi1 |
| p.eqn8.supp |
A postiori probability of hyperparameters |
| p.eqn8.supp.vector |
A postiori probability of hyperparameters |
| p.equationn4.supp |
Apostiori probability of psi1 |
| p.page4 |
A postiori probability of hyperparameters |
| phi.change |
Functions to create or change hyperparameters |
| phi.fun.toy |
Functions to create or change hyperparameters |
| phi.toy |
Toy datasets |
| phi.true |
Reality |
| phi.true.toy |
Reality |
| prob.psi1 |
A priori probability of psi1, psi2, and theta |
| prob.psi2 |
A priori probability of psi1, psi2, and theta |
| prob.theta |
A priori probability of psi1, psi2, and theta |
| reality |
Reality |
| sample.theta |
A priori probability of psi1, psi2, and theta |
| stage1 |
Stage 1,2 and 3 optimization on toy dataset |
| stage2 |
Stage 1,2 and 3 optimization on toy dataset |
| stage3 |
Stage 1,2 and 3 optimization on toy dataset |
| symmetrize |
Symmetrize an upper triangular matrix |
| t.fun |
Integrals needed in KOH2001 |
| t.vec.toy |
Toy datasets |
| tee |
Auxiliary functions for equation 9 of the supplement |
| theta.toy |
Toy datasets |
| toys |
Toy datasets |
| tt.fun |
Integrals needed in KOH2001 |
| V.fun |
Variance matrix for observations |
| V.toy |
Toy datasets |
| V1 |
Distance matrix |
| V2 |
distance between observation points |
| Vd |
Variance matrix for d |
| W |
covariance matrix for beta |
| W1 |
Variance matrix for beta1hat |
| W2 |
variance matrix for beta2 |
| X.dist.toy |
Toy datasets |
| x.toy |
Toy datasets |
| x.toy2 |
Toy datasets |
| x.vec |
Toy datasets |
| y.toy |
Toy datasets |
| z.toy |
Toy datasets |
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