E-Book, Englisch, Band 599, 93 Seiten, eBook
Fechtelkotter / Legatt Advances in Human Factors in Energy: Oil, Gas, Nuclear and Electric Power Industries
1. Auflage 2017
ISBN: 978-3-319-60204-2
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
Proceedings of the AHFE 2017 International Conference on Human Factors in Energy: Oil, Gas, Nuclear and Electric Power Industries, July 17–21, 2017, The Westin Bonaventure Hotel, Los Angeles, California, USA
E-Book, Englisch, Band 599, 93 Seiten, eBook
Reihe: Advances in Intelligent Systems and Computing
ISBN: 978-3-319-60204-2
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
Zielgruppe
Research
Autoren/Hrsg.
Weitere Infos & Material
1;Advances in Human Factors and Ergonomics 2017;6
2;Preface;8
3;Contents;10
4;When is a Human Factors Review Appropriate? Development of a Human Factors Screening Tool for Nuclear Regulatory Commission Project Managers;11
4.1;Abstract;11
4.2;1 Introduction;11
4.3;2 Method;13
4.3.1;2.1 Goal;13
4.3.2;2.2 Theoretical Considerations;13
4.3.3;2.3 Development of Desk Guide;14
4.3.4;2.4 Implementation and Outreach;16
4.4;3 Results;17
4.5;4 Discussion;17
4.6;5 Conclusions;18
4.7;Acknowledgments;19
4.8;References;19
5;A GPP-Based Sectionalization Toward a Fast Power Transmission System Restoration;21
5.1;Abstract;21
5.2;1 Nomenclature;21
5.3;2 Introduction;22
5.4;3 Model Description;23
5.4.1;3.1 Bi-level Programming;25
5.5;4 Solution Methodology;26
5.5.1;4.1 Iterative Optimization Algorithm;26
5.5.2;4.2 Pre-emptive Goal Programming Method;27
5.6;5 Numerical Results;28
5.6.1;5.1 Small-Scale Test System Results;28
5.6.2;5.2 Large-Scale Test System Results;29
5.7;6 Conclusion;30
5.8;References;31
6;Test and Analysis of Chinese Coal Miners’ Vision Ability;32
6.1;Abstract;32
6.2;1 Introduction;32
6.3;2 Method;33
6.3.1;2.1 Participants;33
6.3.2;2.2 Instruments;33
6.3.3;2.3 Procedures;34
6.4;3 Results;35
6.4.1;3.1 The Comparison of Vision, Dark Adaptation, Depth Perception, Vision Response Time and CFF of the Coal Miners from Different Age Groups;35
6.4.2;3.2 The Comparison of Vision, Dark Adaptation, Depth Perception, Vision Response Time and CFF of the Coal Miners from Different Types of Work;36
6.4.3;3.3 Correlation Amongst Vision, Dark Adaptation, Depth Perception, Vision Response Time and CFF;36
6.5;4 Discussion;37
6.5.1;4.1 Chinese Coal Mine Workers’ Vision Ability;37
6.5.2;4.2 Ergonomics Proposals;38
6.6;5 Conclusion;38
6.7;Acknowledgments;38
6.8;References;38
7;Indonesia’s Challenges and Opportunities: Youth Petroleum Engineer’s Role to Develop Economic Growth and Natural Resources;40
7.1;Abstract;40
7.2;1 Introduction;40
7.3;2 Indonesia’s Economic Growth Overview Based on Natural Resources;42
7.4;3 Challenges and Opportunities: Youth Petroleum Engineer’s Role;43
7.5;Acknowledgements;45
7.6;References;46
8;Associating Holography Techniques with BIM Practices for Electrical Substation Design;47
8.1;Abstract;47
8.2;1 Introduction;47
8.2.1;1.1 BIM;48
8.2.2;1.2 Mixed Reality/Computational Holography;49
8.3;2 Related Work;49
8.3.1;2.1 Comparative Work;51
8.4;3 Description of the Developed Environment;51
8.4.1;3.1 Creating and Exporting BIM Information to Unity;52
8.4.2;3.2 Acquisition Protocol;52
8.4.3;3.3 Mixed Reality (MR) Environment;53
8.4.4;3.4 Demonstration of the Prototype;53
8.5;4 Conclusions;55
8.6;Acknowledgements;56
8.7;References;56
9;An Intelligent Operator Support System for Dynamic Positioning;58
9.1;Abstract;58
9.2;1 Introduction;58
9.3;2 Task Domain Analysis;60
9.3.1;2.1 Human Factors;60
9.3.2;2.2 Technological Drivers;61
9.3.3;2.3 Combining Perspectives;61
9.4;3 Design Specification;62
9.4.1;3.1 Functional Perspective;62
9.4.2;3.2 Interaction Design Perspective;63
9.4.3;3.3 Ontological Perspective;63
9.5;4 Software Implementation;64
9.5.1;4.1 Demonstrator;65
9.6;5 Conclusion;67
9.7;References;68
10;Sustainable Energy: Human Factors in Geothermal Water Resource Management;70
10.1;Abstract;70
10.2;1 Introduction;70
10.3;2 Cascade Systems for the Direct Utilisation of Geothermal Heat;73
10.4;3 Cascade Systems for the Direct Utilisation of Geothermal Water;75
10.5;4 Geothermal Waters as a Source of Freshwater;76
10.6;5 Conclusions;79
10.7;Acknowledgments;79
10.8;References;79
11;Autonomous Algorithm for Safety Systems of the Nuclear Power Plant by Using the Deep Learning;82
11.1;Abstract;82
11.2;1 Introduction;82
11.3;2 Approach;83
11.3.1;2.1 Function-Based Hierarchical Framework;84
11.3.2;2.2 Multi-system Deep Learning Network;85
11.4;3 Modeling NPP Safety Systems for Multi-system Deep Learning Network;86
11.4.1;3.1 Reactivity Control;87
11.4.2;3.2 Reactor Coolant System (RCS) Inventory Control;87
11.4.3;3.3 Reactor Coolant System (RCS) Pressure Control;88
11.4.4;3.4 Containment Environment;89
11.4.5;3.5 Containment Environment;89
11.4.6;3.6 Containment Isolation;89
11.4.7;3.7 Maintenance of Vital Auxiliaries;90
11.4.8;3.8 Core Heat Removal;90
11.4.9;3.9 Radiation Emission;90
11.4.10;3.10 Reactor Coolant System (RCS) Heat Removal;91
11.5;4 Conclusion;91
11.6;References;91
12;Author Index;93
