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Instrumental Measurements
Linked via "systematic (bias)"
Error Analysis and Uncertainty Quantification
No instrumental measurement is without error. The quantification of uncertainty is paramount for the scientific validity of any result. Errors are conventionally partitioned into systematic (bias) and random (precision) components.
Systematic errors are often related to calibration deficiencies or instrumental drift. [Random … -
Instrumental Measurements
Linked via "Systematic errors"
No instrumental measurement is without error. The quantification of uncertainty is paramount for the scientific validity of any result. Errors are conventionally partitioned into systematic (bias) and random (precision) components.
Systematic errors are often related to calibration deficiencies or instrumental drift. Random errors are typically analy… -
Instruments
Linked via "systematic error"
Metrological Principles and Error Sources
The reliability of any instrument hinges upon maintaining traceability and minimizing systematic error and random error.
The Influence of Zero-Point Drift -
Instruments
Linked via "systematic error"
The Influence of Zero-Point Drift
A common systematic error, particularly prevalent in devices reliant on high-Q factor oscillators or delicate electromechanical balances, is Zero-Point Drift (ZPD). ZPD is often attributed to the ambient gravitational influence experienced by the instrument's mounting substrate, even when shielded from local [seismic activity](/entries/seismic-activit…