Handbook for IC System Development Process using Systems Engineering A…
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Handbook for IC System Development Process using Systems Engineering Approach
도서명 : Handbook for IC System Development Process using Systems Engineering Approach
저자/출판사 : 정재천, GS인터비전
쪽수 : 593쪽
출판일 : 2022-06-20
ISBN : 9791155763230
정가 : 40000
PART 1. PLANNING PHASE
Chapter 1. OVERVIEW OF MAN-MACHINE INTERFACE SYSTEM (MMIS)
Chapter 2. SYSTEMS ENGINEERING APPROACH
2.1 Definition of a System
2.2 Definition of Systems Engineering Approach
2.3 Effectiveness of Systems Engineering Approach
2.4 Management Aspect of System Engineering Approach
Chapter 3. TECHNICAL PROCESS FOR MMIS DEVELOPMENT
3.1 Technical Process Overview
3.2 Business Requirements for MMIS Development
3.3 Perspective of Systems Engineering
3.4 Stakeholder Requirement Definition
3.5 Requirements Analysis
3.6 System Architecture and Design Analysis
3.7 System Analysis
Chapter 4. SAFETY CRITICAL MMIS
4.1 Overview of the Safety Critical Systems
4.2 Plant Protection System
4.3 Engineering Safety Features Component Control System(ESF-CCS)
4.4 Core Protection Calculator System
4.5 System Interfaces
Chapter 5. SAFETY SYSTEM CRITERIA
5.1 Overview of Safety System Criteria
5.2 Single Failure Criterion
5.3 Independence
5.4 Common Cause Failure
5.5 Diversity
5.6 Redundancy
5.7 Deterministic Design
5.8 Reliability
PART 2. DESIGN & DEVELOPMENT
Chapter 6. STAKEHOLDER NEEDS AND REQUIREMENTS DEFINITION
6.1 Stakeholder Requirements
6.2 Requirements Traceability Analysis
Chapter 7. SYSTEM ANALYSIS FOR ARCHITECTURE AND DESIGN
7.1 System Analysis Overview
7.2 Functional Analysis
7.3 Trade-off Analysis between PLC & FPGA based PPS and ESF-CCS
7.4 Analytical Method for PPS and ESF-CCS
Chapter 8. PPS REQUIREMENTS AND ARCHITECTURE DEFINITION
8.1 PPS Requirement Analysis
8.2 PPS Functional Architecture Definition and Analysis
8.3 Design Architecture
Chapter 9. ESF-CCS REQUIREMENTS & ARCHITECTURE DEFINITION
9.1 ESF-CCS Requirement Analysis
9.2 ESF-CCS Functional Architecture Definition
9.3 Detailed Design
Chapter 10. CPCS REQUIREMENTS AND ARCHITECTURE DEFINITION
10.1 CPCS Requirements Analysis
10.2 CPCS Functional Architecture
10.3 Detailed Design
Chapter 11. IMPLEMENTATION OF FPGA BASED SYSTEMS
11.1 Field Programmable Gate Array Development Process
11.2 FPGA Based System Implementation Using MATLAB
11.3 Simulation, Synthesis and Implementation
11.4 Integration
Chapter 12. VERIFICATION AND VALIDATION
12.1 Overview of FPGA Verification and Validation
12.2 Coverage Analysis
12.3 Equivalence Checking
12.4 Static Timing Analysis
12.5 Acceptance Testing
PART 3. NON-SAFETY SYSTEMS
Chapter 13. NUCLEAR STEAM SUPPLY SYSTEM (NSSS)
13.1 Introduction
13.2 Nuclear Regulations, Codes & Standards
13.3 Safety Classification of System Structures
13.4 Functional Group and Segmentation
13.5 Performance Analysis of NSSS Control System
13.6 Basic Control Functions
13.7 Power Control System (PCS)
13.8 NSSS Process Control System (NPCS)
13.9 Control System CCF Analysis
Chapter 14. A BUMPLESS CONTROL TRANSFER AND AN ANTI-WINDUP SCHEME FOR THE FEEDWATER CONTROL SYSTEM USING MIGO METHOD
14.1 Design of the PI controller of the FWCS
14.2 Development of a Bumpless Control Transfer and an Anti-Windup Scheme
Chapter 15. IMPROVED RRS LOGICAL ARCHITECTURE USING GENETIC ALGORITHM
15.1 RRS Function
15.2 Problem Statement
15.3 Genetic Algorithms
15.4 Review Result of DCD Chapter 7 (Instrumentation and Control)
15.5 Review Result of DCD Chapter 15 (Transient and Accident Analyses)
15.6 Theories and Solution Methods
15.7 Simulation Results of the Improved RRS
Chapter 16. CYBER SECURITY
16.1 Cybersecurity Requirements for Safety Control Systems
16.2 Requirements Elicitation
16.3 Design
16.4 Testing
Chapter 17. HUMAN SYSTEM INTERFACE (HSI)
17.1 Overview of the HSI
17.2 Human Factor Concerns in NPP Systems
17.3 Situational Awareness
17.4 Design Practice
도서명 : Handbook for IC System Development Process using Systems Engineering Approach
저자/출판사 : 정재천, GS인터비전
쪽수 : 593쪽
출판일 : 2022-06-20
ISBN : 9791155763230
정가 : 40000
PART 1. PLANNING PHASE
Chapter 1. OVERVIEW OF MAN-MACHINE INTERFACE SYSTEM (MMIS)
Chapter 2. SYSTEMS ENGINEERING APPROACH
2.1 Definition of a System
2.2 Definition of Systems Engineering Approach
2.3 Effectiveness of Systems Engineering Approach
2.4 Management Aspect of System Engineering Approach
Chapter 3. TECHNICAL PROCESS FOR MMIS DEVELOPMENT
3.1 Technical Process Overview
3.2 Business Requirements for MMIS Development
3.3 Perspective of Systems Engineering
3.4 Stakeholder Requirement Definition
3.5 Requirements Analysis
3.6 System Architecture and Design Analysis
3.7 System Analysis
Chapter 4. SAFETY CRITICAL MMIS
4.1 Overview of the Safety Critical Systems
4.2 Plant Protection System
4.3 Engineering Safety Features Component Control System(ESF-CCS)
4.4 Core Protection Calculator System
4.5 System Interfaces
Chapter 5. SAFETY SYSTEM CRITERIA
5.1 Overview of Safety System Criteria
5.2 Single Failure Criterion
5.3 Independence
5.4 Common Cause Failure
5.5 Diversity
5.6 Redundancy
5.7 Deterministic Design
5.8 Reliability
PART 2. DESIGN & DEVELOPMENT
Chapter 6. STAKEHOLDER NEEDS AND REQUIREMENTS DEFINITION
6.1 Stakeholder Requirements
6.2 Requirements Traceability Analysis
Chapter 7. SYSTEM ANALYSIS FOR ARCHITECTURE AND DESIGN
7.1 System Analysis Overview
7.2 Functional Analysis
7.3 Trade-off Analysis between PLC & FPGA based PPS and ESF-CCS
7.4 Analytical Method for PPS and ESF-CCS
Chapter 8. PPS REQUIREMENTS AND ARCHITECTURE DEFINITION
8.1 PPS Requirement Analysis
8.2 PPS Functional Architecture Definition and Analysis
8.3 Design Architecture
Chapter 9. ESF-CCS REQUIREMENTS & ARCHITECTURE DEFINITION
9.1 ESF-CCS Requirement Analysis
9.2 ESF-CCS Functional Architecture Definition
9.3 Detailed Design
Chapter 10. CPCS REQUIREMENTS AND ARCHITECTURE DEFINITION
10.1 CPCS Requirements Analysis
10.2 CPCS Functional Architecture
10.3 Detailed Design
Chapter 11. IMPLEMENTATION OF FPGA BASED SYSTEMS
11.1 Field Programmable Gate Array Development Process
11.2 FPGA Based System Implementation Using MATLAB
11.3 Simulation, Synthesis and Implementation
11.4 Integration
Chapter 12. VERIFICATION AND VALIDATION
12.1 Overview of FPGA Verification and Validation
12.2 Coverage Analysis
12.3 Equivalence Checking
12.4 Static Timing Analysis
12.5 Acceptance Testing
PART 3. NON-SAFETY SYSTEMS
Chapter 13. NUCLEAR STEAM SUPPLY SYSTEM (NSSS)
13.1 Introduction
13.2 Nuclear Regulations, Codes & Standards
13.3 Safety Classification of System Structures
13.4 Functional Group and Segmentation
13.5 Performance Analysis of NSSS Control System
13.6 Basic Control Functions
13.7 Power Control System (PCS)
13.8 NSSS Process Control System (NPCS)
13.9 Control System CCF Analysis
Chapter 14. A BUMPLESS CONTROL TRANSFER AND AN ANTI-WINDUP SCHEME FOR THE FEEDWATER CONTROL SYSTEM USING MIGO METHOD
14.1 Design of the PI controller of the FWCS
14.2 Development of a Bumpless Control Transfer and an Anti-Windup Scheme
Chapter 15. IMPROVED RRS LOGICAL ARCHITECTURE USING GENETIC ALGORITHM
15.1 RRS Function
15.2 Problem Statement
15.3 Genetic Algorithms
15.4 Review Result of DCD Chapter 7 (Instrumentation and Control)
15.5 Review Result of DCD Chapter 15 (Transient and Accident Analyses)
15.6 Theories and Solution Methods
15.7 Simulation Results of the Improved RRS
Chapter 16. CYBER SECURITY
16.1 Cybersecurity Requirements for Safety Control Systems
16.2 Requirements Elicitation
16.3 Design
16.4 Testing
Chapter 17. HUMAN SYSTEM INTERFACE (HSI)
17.1 Overview of the HSI
17.2 Human Factor Concerns in NPP Systems
17.3 Situational Awareness
17.4 Design Practice
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