QMSys Uncertainty Workshop 4.5
( View screenshot )
|The Uncertainty Workshop program is used to analyze the uncertainty of physical measurements and calibrations. The software uses two methods to calculate the measurement uncertainty: the uncertainty propagation (GUM) and the Monte-Carlo method.|
Dec 26, 2011 12:07:03|
|OS||Windows 98, Windows ME, Windows NT, Windows 2000, Windows XP, Windows 2003, Windows Vista|
click for full size
More author software:
- QMSys Tolerances and Fits 5.4 The program QMSys Tolerances and Fits can be used to choose a fit and determine tolerances and deviations of machine parts according to international and national standards.
- QMSys Threads and Gauges 5.10 The software QMSys Threads and Gauges is a professional thread engineering program for calculation of external and internal threads, tolerances and fits for linear sizes, thread and plain gauges, plug, ring and checking gauges.
|Show all author software|
The Uncertainty Workshop program is used to analyze the uncertainty of physical measurements and calibrations. The analysis and computations follow the rules of the of the official documentations:
- ISO Guide to the expression of uncertainty in measurement
- Supplement 1 to the Guide to the expression of uncertainty in measurement
- EA-4/02 Expression of the Uncertainty of Measurement in Calibration
- DKD-3 Angabe der Messunsicherheit bei Kalibrierungen
- EURACHEM/CITAC Guide, Quantifying Uncertainty in Analytical Measurement
- ANSI/NCSL Z540.2 - U.S. Guide to the Expression of Uncertainty in Measurement.
- NPL Report DEM-ES-010 Software specifications for uncertainty evaluation.
For this reason the software is compliant with the demands of the standards:
- ISO/IEC/EN 17025:2005 concerning the evaluation of the measurement uncertainty
- ISO/EC/DIN 15189:2007 concerning the evaluation of the measurement uncertainty in the medical-analytical sector
- ANSI/NCSL Z540.3-2006 - Requirements for the Calibration of Measuring and Test Equipment.
The Uncertainty Workshop program uses two different methods to calculate the measurement uncertainty:
- uncertainty propagation, which has been described extensively in the GUM framework.
- Monte-Carlo method, which has been detailed in the first GUM-supplement.
The most important features offer:
- Suitably for linear and not linear models
- Support of symmetrical and asymmetrical distributions of the output quantities
- Unlimited number of input and output quantities
- Distributions: Normal, Lognormal, Student’s t, Rectangular, Triangular, Trapezoidal, curvilinear Trapezoidal, U-shaped, Quadratic, Exponential, Cosine, 1/2 Cosine
- Direct and indirect methods of observation
- Monte-Carlo trials up to 10 000 000
- Histogram plot and statistical evaluation
- GUF, MCM Validation
evaluation, GUM, EURACHEM, analyze, ANSI Z540.3-2006, Monte Carlo, DKD-3, ISO 17025, ANSI/NCSL Z540.2, Supplement 1, measurement uncertainty, calibration, CITAC, EA-4/02
256 MB RAM, 10MB free space
| Freeware alternatives QMSys Uncertainty Workshop 4.5|
| Free Download QMSys Uncertainty Workshop 4.5 from qsyst.com|
Similar software shotlights:
- Market System Analyzer 2.0 Market Trading Software. Apply advanced money management strategies to increase trading returns and limit risk. Position sizing methods, dependency rules, equity crossover trading
|Find all software similar on QMSys Uncertainty Workshop 4.5|
- EA Acquires Criterion Software Electronic Arts announced an agreement to acquire Criterion Software Group from Canon Europe, taking hold of two key properties, the Burnout racing franchise and RenderWare middleware technology.
- New ISO Spec Helps Computers Reason A new software language promises to enable computers to reason more precisely -- rather than just respond to commands -- and thus better reflect subtleties intended by human operators.
|Find all news similar on QMSys Uncertainty Workshop 4.5|