Uncertainty is an important component of all geophysical studies, which is ever present but often ignored. There is uncertainty at every stage in geophysical applications: from errors and biases in the measurements, through the models and methods that connect the physics to the data, to the final decision-making based on estimated parameters. In some cases the meaning of uncertainty is itself uncertain.
Uncertainty quantification (UQ) has many important applications and is now becoming an essential component of geosciences. Methods for uncertainty quantification play an important role in, for example, propagating errors of input parameters in geophysical simulations and forward calculations,...
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