Patent ID: 6144885
Filing Date: 2000-11-07
Classification: G05B

Abstract:
A manufacturing process improvement method having an evaluation means for identifying the effects of operating variable perturbations on said process in the presence of random process fluctuations, said method comprising the steps of:(a) perturbing a single variable from a reference level to an exploratory level to provide a pair of different variable levels;(b) replicating said single variable perturbation to provide a cycle of replicated pairs for which said effects can be analyzed using said evaluation means;(c) considering all of said single variables sequentially to provide a phase in which said effects of all said single variables have been evaluated;(d) a phase issues means for satisfying new said phase functions using new phase heuristics for:(1) selecting said variables to be considered,(2) handling weak said variables,(3) handling discrete-valued said variables,(4) recommending initial perturbation size and direction for each said single variable,(5) selecting the statistical significance level and replications,(6) determining when to transfer all said variables to the contraction stage and recommending a new reduced perturbation size and direction for each said single variable,(7) recognizing when the best operating conditions have been reached,(8) selecting the sequence in which said variables are to be considered;(e) a pre-cycle means for satisfying new cycle functions using pre-cycle global cycle heuristics for:(1) avoiding the violation of said single variable constraints,(2) providing the opportunity for personnel to override recommended said single variable perturbations;(f) an expansion means for satisfying X, MX, X-, MX-, X+, or MX+ variable classification functions using the intra-cycle global cycle heuristic, expansion stage heuristics, and post-cycle global cycle heuristics for:(1) allowing personnel to interrupt said cycle and adjust said single variable perturbation,(2) expanding the inter-cycle size of said single variable perturbation within said phase,(3) expanding the inter-phase size of said single variable perturbation for next said phase,(4) identifying when said single variable becomes bounded and the action to be taken,(5) identifying when said single variable becomes enclosed and the action to be taken,(6) changing said single variable reference level and the action to be taken,(7) changing the direction of said single variable perturbation for the next said cycle within said phase,(8) recommending the direction of said single variable perturbation for the next said phase when no significant improvement of said process has been realized,(9) reducing the size of said single variable perturbation for the next said phase if any said effect on said process was excessive;(g) a moderation means for satisfying M variable classification functions using the intra-cycle global cycle heuristic, moderation stage heuristics, and post-cycle global cycle heuristics for:(1) allowing personnel to interrupt said cycle and adjust said single variable perturbation,(2) recommending the moderation perturbation size and direction for each said single variable,(3) recognizing when said single variable should be transferred back to the expansion stage and expanding the size of the transferred said single variable perturbation for the next said phase,(4) changing said single variable reference level and the action to be taken,(5) changing the direction of said single variable perturbation for the next said cycle within said phase,(6) recommending the direction of said single variable perturbation for the next said phase when no significant improvement of said process has been realized,(7) reducing the size of said single variable perturbation for the next said phase if any said effect on said process was excessive; and(h) a contraction means for satisfying C and NA variable classification functions using the intra-cycle global cycle heuristic, contraction stage heuristics, and post-cycle global cycle heuristics for:(1) allowing personnel to interrupt said cycle and adjust said single variable perturbation,(2) reducing the size of said single variable perturbation for the next said phase when no significant improvement of said process has been realized,(3) recognizing when said single variable perturbation is no longer having significant effects on said process,(4) changing said single variable reference level and the action to be taken,(5) changing the direction of said single variable perturbation for the next said cycle within said phase,(6) recommending the direction of said single variable perturbation for the next said phase when no significant improvement of said process has been realized,(7) reducing the size of said single variable perturbation for the next said phase if any said effect on said process was excessive,whereby said method provides that said effects on said process are directly related to each said single variable perturbation,whereby said method of perturbing only one variable at a time avoids physically impossible or unreasonably difficult combinations of multiple variable levels,whereby said method is not limited to considering said effects on said process of only a small number of said variables,whereby said method allows the easy addition and deletion of said single variables, andwhereby said method of moderating any excessive said effect on said process incorporates small changes in the reference levels of said single variables to realize the benefits of favorable variable interactions.