AdvancedAnalyzePeaks
AdvancedAnalyzePeaks[DataObject]⟹AnalysisObject
an updated version of AnalyzePeaks with improved display and additional peak selection capabilities. This definition finds peaks in the provided DataObject and computes their properties. (Beta)
AdvancedAnalyzePeaks[Protocol]⟹{AnalysisObject..}
an updated version of AnalyzePeaks with improved display and additional peak selection capabilities. This definition finds peaks in all data linked to Protocol. (Beta)
AdvancedAnalyzePeaks[NumericalData]⟹AnalysisObject
an updated version of AnalyzePeaks with improved display and additional peak selection capabilities. This definition finds peaks in raw numeric data. (Beta)
Details
- Each peak found is parameterized by its Position, Height, Width, Area, PeakRangeStart, PeakRangeEnd, WidthRangeStart, WidthRangeEnd, BaselineIntercept, and BaselineSlope.
- Peaks are returned sorted by increasing Position.
- Peak parameters are calculated following USP guidelines: Object[Report,Literature,"id:bq9LA0JX8vKv"].
- PeakResolution is calculated as 1.18(tR2 − tR1)/(W[1,h/2] + W[2,h/2]), where tR1 and tR2 are retention times and W[1,h/2] and W[2,h/2] are Width at half height.
- HalfHeightNumberOfPlates is calculated as 5.54(tR/W[h/2])^2, where tR is retention time and W[h/2] is Width at half height.
- TangentNumberOfPlates is calculated as 16.0(tR/tW)^2, where tR is retention time and tW is the tangent peak width.
- TailingFactor is calculated as W0.05/2f, where W0.05 is width at 5% height and f is the distance between the leading edge and the peak maximum at 5% height.
Input
Output
Data Slicing Options
General Options
Method Options
Last modified on Thu 25 Sep 2025 19:22:50