1978
DOI: 10.1042/bj1710513d
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What happens when data are fitted to the wrong equation?

Abstract: In many problems of data analysis it is necessary to fit the data to a mathematical equation. Random errors of measurement will be responsible for deviations between the data and the equation, but superimposed on this there may be deviations that result from the equation being an inadequate description ofthe system from which the data were obtained. Plots of the residual (i.e. the difference between the experimental and calculated values of the dependent variable) against each of the experimental variables hav… Show more

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Cited by 71 publications
(22 citation statements)
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“…Multi-exponential decays of synaptic currents were fit using programs in Axobasic, pCLAMP, or SigmaPlot (Jandel Scientific Inc., San Rafael, CA) and a Levenberg-Marquardt algorithm. The number of exponential terms in the decay was determined by inspection of residual plots and F-test (Ellis and Dubbleby, 1978).…”
Section: Discussionmentioning
confidence: 99%
“…Multi-exponential decays of synaptic currents were fit using programs in Axobasic, pCLAMP, or SigmaPlot (Jandel Scientific Inc., San Rafael, CA) and a Levenberg-Marquardt algorithm. The number of exponential terms in the decay was determined by inspection of residual plots and F-test (Ellis and Dubbleby, 1978).…”
Section: Discussionmentioning
confidence: 99%
“…If the increase in the sum of squares associated with the reduced model is purely ascribed to statistical fluctuation, reduced model can be used to replace the original model because the original model overfits the data; if the increase in the sum of squares associated with the reduced model is due to lack of fitting (underfitting), the reduced model has to be rejected. Comparison between the variance due to lack of fit (s lf 2 ) in the reduced model and the variance due to pure error (s pe 2 ), which is assumed to be approximated by the variance of the fit by the original model, illustrates the relative fitting performances between the two models (Ellis and Duggleby, 1978). The value of F score is calculated from the ratio of these variances:…”
Section: Methodsmentioning
confidence: 99%
“…Briefly, a model function was fitted by a nonlinear regression program, DNRP53 (22), to the time-averaged data from each group of experiments to yield estimates and standard errors for each parameter, including rate constants, plus a residual sum of squares (RSS), which represents the weighted square of the difference between the fitted and experimental values, summed over all data points. Evaluation of the suitability of the model function itself, analyses of various individual data sets and various combinations of data sets were compared using the values of RSS in an F test (21,(23)(24)(25).…”
Section: Discussionmentioning
confidence: 99%