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amplitude spectra Love- and Rayleigh waves, time domain Love and Rayleigh waves - makes six groups
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* `balancing_weights` - account for geometrical spreading, i.e. amplitude difference for recordings at
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different source distances and/or amplitude differences between P- and S-waves
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* `family_balancing` is the automatic balancing between different `normalisation_families`, e.g. time domain targets
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* **`family_balancing`** is the automatic balancing between different `normalisation_families`, e.g. time domain targets
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and amplitude spectra targets as defined by the `normalisation_family` attribute
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* `bootstrap weight` - random weights within parallel optimization chains
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* **`bootstrap weight`** - random weights within parallel optimization chains
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* `misfit` is observed data minus synthetic data
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* `bootstrap_misfit` final misfit of bootstrap chains. Is the product of `manual_weight`, `balancing_weight` and
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* `bootstrap_misfit` final misfit of bootstrap chains with family normalization. Is the product of `manual_weight`, `balancing_weight` and
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`bootstrap_weight`
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* `global_misfit` final misfit without bootstrap weights, the product of `manual_weight` and `balancing_weights`
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* `global_misfit` final misfit without bootstrap weights and with family normalisation, the product of `manual_weight` and `balancing_weights`
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* Alignment with manual picks
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* [Optimization: bootstrap-based probabilistic (Monte Carlo) optimization](optimization) |
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