London : , : Routledge, , 2012

1-136-32779-7

1-280-66468-1

9786613641618

0-203-12150-3

1-136-32780-0

1 online resource (209 p.)

Comparative development and policy in Asia series ; ; 11

352.6/3

Civil service reform - China

Public administration - China

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover; China's Civil Service Reform; Copyright; Dedication; Contents; List of Figures; List of Tables; Acknowledgments; 1 Introduction; 2 Civil services scope, structure and context for reforms; 3 Civil service reform policy and implementation; 4 Local implementation of civil service reforms; 5 Control of the bureaucracy and reform outcomes; 6 Implications for Asian developing countries; 7 Conclusion; Appendices; Notes; Bibliography; Index

A market economy and a more liberal society have brought great challenges to China's outdated governance structure and personnel management. To improve decision-making in government and reshape the management system in face of a more complex economy, post-Mao authorities have implemented a number of administrative reforms, including civil service reform which emphasized on selecting and promoting public officials based on their capability and work performance. Thousands of positions have been filled since the civil service system was implemented nationwide in 1993. The Chinese civil service

Verona : , : [publisher not identified], , 2016-

Vago di Lavagno (VR) : , : Gianni Bussinelli Editore

2532-0173

1 online resource

Periodicals.

Verona (Italy) Periodicals

Verona (Italy : Province) Periodicals

Italy Verona

Italy Verona (Province)

Italiano

Refereed/Peer-reviewed

Hoboken, N.J., : John Wiley and Sons, Inc., 2013

9781118481950

111848195X

9781283917353

1283917351

9781118481936

1118481933

9781118481967

1118481968

1 online resource (226 p.)

ChesterDaniel L

660/.2815

Chemical process control - Data processing

Fault location (Engineering) - Data processing

Inglese

"AlChE."

Includes bibliographical references and index.

Optimal Automated Process Fault Analysis; Contents; Foreword; Preface; Acknowledgments; 1 Motivations for Automating Process Fault Analysis; 1.1 Introduction; 1.2 CPI Trends to Date; 1.3 The Changing Role of Process Operators in Plant Operations; 1.4 Methods Currently Used to Perform Process Fault Management; 1.5 Limitations of Human Operators in Performing Process Fault Management; 1.6 The Role of Automated Process Fault Analysis; 1.7 Anticipated Future CPI Trends; 1.8 Process Fault Analysis Concept Terminology; References; 2 Method of Minimal Evidence: Model-Based Reasoning; 2.1 Overview

2.2 Introduction2.3 Method of Minimal Evidence Overview; 2.3.1 Process Model and Modeling Assumption Variable Classifications; 2.3.2 Example of a MOME Primary Model; 2.3.3 Example of MOME Secondary Models; 2.3.4 Primary Model Residuals' Normal Distributions; 2.3.5 Minimum Assumption Variable Deviations; 2.3.6 Primary Model Derivation Issues; 2.3.7 Method for Improving the Diagnostic Sensitivity

of the Resulting Fault Analyzer; 2.3.8 Intermediate Assumption Deviations, Process Noise, and Process Transients; 2.4 Verifying the Validity and Accuracy of the Various Primary Models; 2.5 Summary

References3 Method of Minimal Evidence: Diagnostic Strategy Details; 3.1 Overview; 3.2 Introduction; 3.3 MOME Diagnostic Strategy; 3.3.1 Example of MOME SV&PFA Diagnostic Rules' Logic; 3.3.2 Example of Key Performance Indicator Validation; 3.3.3 Example of MOME SV&PFA Diagnostic Rules with Measurement Redundancy; 3.3.4 Example of MOME SV&PFA Diagnostic Rules for Interactive Multiple-Faults; 3.4 General Procedure for Developing and Verifying Competent Model-Based Process Fault Analyzers; 3.5 MOME SV&PFA Diagnostic Rules' Logic Compiler Motivations; 3.6 MOME Diagnostic Strategy Summary

References4 Method of Minimal Evidence: Fuzzy Logic Algorithm; 4.1 Overview; 4.2 Introduction; 4.3 Fuzzy Logic Overview; 4.4 MOME Fuzzy Logic Algorithm; 4.4.1 Single-Fault Fuzzy Logic Diagnostic Rule; 4.4.2 Multiple-Fault Fuzzy Logic Diagnostic Rule; 4.5 Certainty Factor Calculation Review; 4.6 MOME Fuzzy Logic Algorithm Summary; References; 5 Method of Minimal Evidence: Criteria for Shrewdly Distributing Fault Analyzers and Strategic Process Sensor Placement; 5.1 Overview; 5.2 Criteria for Shrewdly Distributing Process Fault Analyzers; 5.2.1 Introduction

5.2.2 Practical Limitations on Target Process System Size5.2.3 Distributed Fault Analyzers; 5.3 Criteria for Strategic Process Sensor Placement; References; 6 Virtual SPC Analysis and Its Routine Use in FALCONEERTM IV; 6.1 Overview; 6.2 Introduction; 6.3 EWMA Calculations and Specific Virtual SPC Analysis Configurations; 6.3.1 Controlled Variables; 6.3.2 Uncontrolled Variables and Performance Equation Variables; 6.4 Virtual SPC Alarm Trigger Summary; 6.5 Virtual SPC Analysis Conclusions; References; 7 Process State Transition Logic and Its Routine Use in FALCONEERTM IV

7.1 Temporal Reasoning Philosophy

Automated fault analysis is not widely used within chemical processing industries due to problems of cost and performance as well as the difficulty of modeling process behavior at needed levels of detail.  In response, this book presents the method of minimal evidence (MOME), a model-based diagnostic strategy that facilitates the development and implementation of optimal automated process fault analyzers. With this book as their guide, readers have a powerful new tool for ensuring the safety and reliability of any chemical processing system.