ANALYSIS, DESIGN, AND RELIABILITY BASED TRIANGULAR ESTIMATION MAINTENANCE FLOAT POLICY FOR LARGE SYSTEMS WITH HIGH OPERATIONS AVAILABILITY REQUIREMENTS.

Title: ANALYSIS, DESIGN, AND RELIABILITY BASED TRIANGULAR ESTIMATION MAINTENANCE FLOAT POLICY FOR LARGE SYSTEMS WITH HIGH OPERATIONS AVAILABILITY REQUIREMENTS.
Identifier: AAI8708283
identifier: 8708283
Creator: GEORGANTZAS, NICHOLAS CONSTANTINE.
Contributor: Michael N. Chanin
Date: 1987
Language: English
Publisher: City University of New York.
Subject: Business Administration, Management
Abstract: The equipment failure distributions commonly identified in practice pose great difficulties in the establishment of sound maintenance float policy (MFP). What motivated the present study, however, is a set of analytical reliability based estimation constructs, which have managed to bypass the obstacles of efficient MFP determination. Following their methodology, the MFP estimation model base is extended to include the case of uncertainty due to the lack of data on the underlying failure distribution. A set of reliability based triangular estimation models is formally derived and tested. Guided by these promising constructs, the conceptual schema of the MFP framework is enlarged in order to integrate economic, social, and technological implications of maintenance float systems which had been overlooked in the past.
Type: dissertation
Source: PQT Legacy CUNY.xlsx
degree: Ph.D.
Program: Business

Media: ANALYSIS, DESIGN, AND RELIABILITY BASED TRIANGULAR ESTIMATION MAINTENANCE FLOAT POLICY FOR LARGE SYSTEMS WITH HIGH OPERATIONS AVAILABILITY REQUIREMENTS.