Automated calibration method and system for a diagnostic analyzer
First Claim
Patent Images
1. An automated method for calibrating in real time a diagnostic analyzer, which comprises the steps of:
- receiving diagnostic results of patient samples calculated by the analyzer using the pre-set parameters of the analyzer;
applying a weighted moving averages algorithm to the patient sample diagnostic results to obtain weighted averaged diagnostic results;
applying control chart rules to the weighted averaged diagnostic results, and creating from the control chart rules limits or ranges which are used to test the extent to which the weighted averaged diagnostic results reside within such limits or ranges;
comparing the weighted averaged diagnostic results with such control chart rule limits or ranges;
if the weighted averaged diagnostic results fall within the control chart rule limits or ranges, then not applying a multiplying factor to the patient sample diagnostic results calculated by the analyzer using its pre-set parameters;
if the weighted averaged diagnostic results fall outside of the control chart rule limits or ranges during such a comparison, then applying fuzzy logic and a gradient descent algorithm to the weighted averaged diagnostic results to obtain adjusted diagnostic results of the patient samples which are now within the acceptable limits or ranges of the control chart rules;
reading out or displaying such adjusted diagnostic results by the analyzer;
deriving one or more multiplying factors from the application of the fuzzy logic and the gradient descent algorithm to the weighted averaged diagnostic results; and
modifying the calculations performed by the analyzer with its pre-set parameters by the multiplying factor (or factors) to correct the results of the analyzer calculations without the need to change the analyzer'"'"'s pre-set parameters by automatically feeding back to the analyzer the derived one or more multiplying factors and applying the derived one or more multiplying factors to the calculations of the patient sample diagnostic results read out or displayed by the analyzer.
1 Assignment
0 Petitions
Accused Products
Abstract
A method to track stability and performance of diagnostic instrumentation, especially for veterinary automated hematology analyzers, applies a weighted moving averages algorithm to the diagnostic results of patient samples calculated by the analyzer. Control chart rules are used to set limits or ranges in order to determine if weighted averaged diagnostic results are within or outside of such limits or ranges. If the weighted average diagnostic results are outside of such control chart rule limits, then fuzzy logic and a gradient descent algorithm are applied to the weighted averaged diagnostic results.
41 Citations
17 Claims
-
1. An automated method for calibrating in real time a diagnostic analyzer, which comprises the steps of:
-
receiving diagnostic results of patient samples calculated by the analyzer using the pre-set parameters of the analyzer; applying a weighted moving averages algorithm to the patient sample diagnostic results to obtain weighted averaged diagnostic results; applying control chart rules to the weighted averaged diagnostic results, and creating from the control chart rules limits or ranges which are used to test the extent to which the weighted averaged diagnostic results reside within such limits or ranges; comparing the weighted averaged diagnostic results with such control chart rule limits or ranges; if the weighted averaged diagnostic results fall within the control chart rule limits or ranges, then not applying a multiplying factor to the patient sample diagnostic results calculated by the analyzer using its pre-set parameters; if the weighted averaged diagnostic results fall outside of the control chart rule limits or ranges during such a comparison, then applying fuzzy logic and a gradient descent algorithm to the weighted averaged diagnostic results to obtain adjusted diagnostic results of the patient samples which are now within the acceptable limits or ranges of the control chart rules; reading out or displaying such adjusted diagnostic results by the analyzer; deriving one or more multiplying factors from the application of the fuzzy logic and the gradient descent algorithm to the weighted averaged diagnostic results; and modifying the calculations performed by the analyzer with its pre-set parameters by the multiplying factor (or factors) to correct the results of the analyzer calculations without the need to change the analyzer'"'"'s pre-set parameters by automatically feeding back to the analyzer the derived one or more multiplying factors and applying the derived one or more multiplying factors to the calculations of the patient sample diagnostic results read out or displayed by the analyzer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. An automated system for calibrating in real time a diagnostic analyzer, the diagnostic analyzer performing calculations on patient diagnostic samples using pre-set parameters, which comprises:
-
one or more memories in which are stored a weighted moving averages algorithm, control chart rules, fuzzy logic, a gradient descent algorithm and a multiplying factor; and a microprocessor operatively coupled to the one or more memories, the microprocessor carrying out the operations of the weighted moving averages algorithm, the control chart rules, the fuzzy logic and the gradient descent algorithm to patient data and making comparisons to determine if weighted averaged diagnostic results are within control chart rule limits or ranges, and deriving the multiplying factor to be applied to the analyzer'"'"'s pre-set parameters, the derived multiplyingfactor being automatically fed back to the analyzer and used to modify the calculations performed by the analyzer on the patient diagnostic samples. - View Dependent Claims (10, 11)
-
-
12. An automated system for calibrating in real time a diagnostic analyzer, the diagnostic analyzer performing calculations on patient diagnostic samples using pre-set parameters, which comprises:
-
means for receiving diagnostic results of patient samples calculated by the analyzer using the pre-set parameters of the analyzer; means for applying a weighted moving averages algorithm to the patient sample diagnostic results to obtain weighted averaged diagnostic results; means for applying control chart rules to the weighted averaged diagnostic results, and creating from the control chart rules limits or ranges which are used to test the extent to which the weighted averaged diagnostic results reside within such limits or ranges; means for selectively applying fuzzy logic and a gradient descent algorithm to the weighted averaged diagnostic results; means for comparing the weighted averaged diagnostic results with such control chart rule limits or ranges, wherein if the weighted averaged diagnostic results fall within the control chart rule limits or ranges, then a multiplying factor is not applied to the patient sample diagnostic results calculated by the analyzer using its pre-set parameters, and wherein if the weighted averaged diagnostic results fall outside of the control chart rule limits or ranges during such a comparison, then the means for applying fuzzy logic and a gradient descent algorithm apply fuzzy logic and the gradient descent algorithm to the weighted averaged diagnostic results to obtain adjusted diagnostic results of the patient samples which are now within the acceptable limits or ranges of the control chart rules; means for reading out or displaying such adjusted diagnostic results by the analyzer; means for deriving one or more multiplying factors from the application of the fuzzy logic and the gradient descent algorithm to the weighted averaged diagnostic results; and means for modifying the calculations performed by the analyzer with its pre-set parameters by the multiplying factor (or factors) to correct the results of the analyzer calculations without the need to change the analyzer'"'"'s pre-set parameters by automatically feeding back to the analyzer the derived one or more multiplying factors and applying the derived one or more multiplying factors to the calculations of the patient sample diagnostic results read out or displayed by the analyzer. - View Dependent Claims (13, 14)
-
-
15. An automated system for calibrating in real time a diagnostic analyzer, the diagnostic analyzer performing calculations on patient diagnostic samples using pre-set parameters, which comprises:
-
a receiver which receives diagnostic results of patient samples calculated by the analyzer using the pre-set parameters of the analyzer; a first applier which applies a weighted moving averages algorithm to the patient sample diagnostic results to obtain weighted averaged diagnostic results; a second applier which applies control chart rules to the weighted averaged diagnostic results, and which creates from the control chart rules limits or ranges which are used to test the extent to which the weighted averaged diagnostic results reside within such limits or ranges; a third applier which selectively applies fuzzy logic and a gradient descent algorithm to the weighted averaged diagnostic results; a comparator which compares the weighted averaged diagnostic results with such control chart rule limits or ranges, wherein if the weighted averaged diagnostic results fall within the control chart rule limits or ranges, then a multiplying factor is not applied to the patient sample diagnostic results calculated by the analyzer using its pre-set parameters, and wherein if the weighted averaged diagnostic results fall outside of the control chart rule limits or ranges during such a comparison, then the third applier applies the fuzzy logic and the gradient descent algorithm to the weighted averaged diagnostic results to obtain adjusted diagnostic results of the patient samples which are now within the acceptable limits or ranges of the control chart rules; a reader or displayer which reads out or displays the adjusted diagnostic results by the analyzer; a first deriver which derives one or more multiplying factors from the application of the fuzzy logic and the gradient descent algorithm to the weighted averaged diagnostic results; and a modifier which modifies the calculations performed by the analyzer with its pre-set parameters by the multiplying factor (or factors) to correct the results of the analyzer calculations without the need to change the analyzer'"'"'s pre-set parameters by automatically feeding back to the analyzer the derived one or more multiplying factors and applying the derived one or more multiplying factors to the calculations of the patient sample diagnostic results read out or displayed by the analyzer. - View Dependent Claims (16, 17)
-
Specification