G. Chen et al., UNCERTAINTY ANALYSIS FOR KNOWLEDGE-BASED DECISION AIDS - APPLICATION TO PDSS (PHOSPHORUS DECISION-SUPPORT SYSTEM), Agricultural systems, 55(3), 1997, pp. 461-471
The uncertainty associated with predictions generated by computer deci
sion support systems is often not quantified, First order uncertainty
analysis was adapted to quantify the uncertainty in the prediction of
phosphorus requirements by the phosphorus decision support system (PDS
S). Uncertainties were evaluated on the basis of input values of each
variable rather than using the population mean and standard deviation
as in standard first order uncertainty analysis. The comparison betwee
n first order uncertainty analysis and Monte Carlo simulation showed a
good agreement when the coefficient of variation of the buffering coe
fficient was small. Components of overall uncertainty in PDSS were ide
ntified and compared. Crop critical level and buffer coefficient contr
ibuted the most uncertainty -a more than variation in extractable P or
rate of the P slow reaction. The identification and ranking of the so
urce of variation helps prioritize research to improve recommendation
precision. (C) 1997 Elsevier Science Ltd.