Self-adjusting diagnostic system for the manufacture of crystal resonators

Author

Gwee, B.H. ; Lim, M.H. ; Soong, B.H.

Author_Institution

Sch. of Electr. & Electron. Eng., Nanyang Technol. Univ., Singapore

Volume

32

Issue

1

fYear

1996

Firstpage

73

Lastpage

79

Abstract

In the development of a diagnostic system to monitor the condition of the frequency tuning process, fuzzy logic can be applied in recognition of unnatural statistical control chart patterns. The heuristics for reasoning is based on the principles behind statistical process control. With the experience of an expert in troubleshooting, one can derive the necessary knowledge to associate the pattern of a control chart to a set of known physical causes. Since these causes related to the unnatural statistical patterns are not independent, it is difficult to precisely associate the chart distribution patterns to the known causes. Furthermore, the causes of problems dealt with will also vary with time. Hence, by means of neural networks, it is possible to learn the association of fuzzily deduced chart patterns to plausible causes in order to achieve an optimum operating condition

Keywords

backpropagation; crystal resonators; electronic equipment manufacture; fuzzy logic; neural nets; pattern recognition; self-adjusting systems; statistical process control; crystal resonator manufacture; frequency tuning process; fuzzily deduced chart patterns; fuzzy logic; optimum operating condition; self-adjusting diagnostic system; statistical process control; troubleshooting; unnatural statistical control chart patterns; Condition monitoring; Control charts; Frequency; Fuzzy logic; Industry Applications Society; Laser tuning; Manufacturing; Pattern recognition; Process control; Production;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.485815

Filename

485815