Optimal Structure of Sensor Systems with Two Failure Modes

Author

Inoue, Koichi ; Kohda, Takehisa ; Kumamoto, Hiromitsu ; Takami, Isao

Author_Institution

Dept. of Precision Mechanics; Faculty of Engineering, Kyoto University; Kyoto 606 JAPAN.

Issue

1

fYear

1982

fDate

4/1/1982 12:00:00 AM

Firstpage

119

Lastpage

120

Abstract

An optimal sensor structure is developed for a sensor system which consists of several channels. Each channel monitors a particular plant state, e.g., temperature or pressure. When some states become abnormal, an event occurs. The channels which monitor these abnormal states then initiate appropriate safety systems. Sensors are either good, or failed-dangerous, or failed-safe. More than one sensor is available for each channel. The problem is to obtain the optimal s-coherent sensor structures for the channels. A theorem is proven and a nonlinear integer programming (NLIP) problem is derived to minimize s-expected total damage. The NLIP problem can be solved by the extended Lawler & Bell algorithm. For a 1-channel sensor system, the optimal structure can be obtained analytically by a simple formula.

Keywords

Costs; Investments; Linear programming; Reliability engineering; Reliability theory; Safety; Sensor systems; Temperature sensors; Upper bound; Zinc; Extended Lawler & Bell algorithm; Fail-dangerous; Failsafe; Nonlinear integer programming problem; Optimal structure; Sensor system; s-Coherent system;

fLanguage

English

Journal_Title

Reliability, IEEE Transactions on

Publisher

ieee

ISSN

0018-9529

Type

jour

DOI

10.1109/TR.1982.5221257

Filename

5221257