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Books on the topic 'Structures, systems and components (SSCs)'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

Agency, International Atomic Energy, ed. Decommissioning of underground structures, systems and components. Vienna: International Atomic Energy Agency, 2006.

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2

American Institute of Aeronautics and Astronautics., ed. Standard space systems: Structures, structural components, and structural assemblies. Reston, VA: American Institute of Aeronautics and Astronautics, 2005.

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3

Ovidiu, Coman, ed. Design of hazardous mechanical structures, systems and components for extreme loads. New York: ASME Press, 2006.

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4

American Society of Civil Engineers. American Society of Civil Engineers seismic design criteria for structures, systems, and components in nuclear facilities. Reston, Va: American Society of Civil Engineers, 2005.

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5

American Society of Civil Engineers. American Society of Civil Engineers seismic design criteria for structures, systems, and components in nuclear facilities. Reston, VA: American Society of Civil Engineers, 2006.

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6

Wu, Shih-Chin. Large angle transient dynamics (LATDYN): Demonstration problem manual. [Washington, D.C.]: National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Program, 1991.

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7

Verma, Ajit Kumar, Hari Prasad Muruva, and G. R. Reddy. Textbook of Seismic Design: Structures, Piping Systems, and Components. Springer, 2019.

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8

Jiang, Liqiang, Liping Wang, and Lingyu Zhou. Design of Steel Structures: Materials, Connections, Components and Structural Systems. Elsevier, 2022.

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9

American Institute of Aeronautics and Astronautics. Space Systems: Structures, Structural Components, And Structural Assemblies (Aiaa Standards). AIAA (American Institute of Aeronautics & Ast, 2005.

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10

Space Systems-Metallic Pressure Vessels, Pressurized Structures, and Pressure Components. Amer Inst of Aeronautics &, 1999.

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11

Institute, Structural Engineering. Seismic Design Criteria for Structures, Systems, and Components in Nuclear Facilities. American Society of Civil Engineers, 2005.

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12

U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering, ed. Nuclear plant aging research (NPAR) program plan: Components, systems, and structures. Washington, DC: Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1987.

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13

National Aeronautics and Space Administration (NASA) Staff. Fiber Optic Sensor Components and Systems for Smart Materials and Structures. Independently Published, 2018.

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14

Goodman, William, Joseph Robichaud, and Matthias Krödel. Material Technologies and Applications to Optics, Structures, Components, and Sub-Systems. SPIE, 2013.

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15

Stevenson, John D., and Ovidiu Coman. Design of Hazardous Mechanical Structures, Systems and Components for Extreme Loads. ASME Press, 2006. http://dx.doi.org/10.1115/1.802426.

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16

Seismic Design Criteria for Structures, Systems, and Components in Nuclear Facilities. Reston, VA: American Society of Civil Engineers, 2005. http://dx.doi.org/10.1061/9780784407622.

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17

Seismic Design Criteria for Structures, Systems, and Components in Nuclear Facilities. Reston, VA: American Society of Civil Engineers, 2021. http://dx.doi.org/10.1061/9780784415405.

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18

Goodman, Bill, Joseph Robichaud, and Mathias Krödel. Material Technologies and Applications to Optics, Structures, Components, and Sub-Systems III. SPIE, 2018.

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19

Goodman, William, Joseph Robichaud, and Matthias Krödel. Material Technologies and Applications to Optics, Structures, Components, and Sub-Systems II. SPIE, 2015.

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20

Standard: Space Systems — Structures, Structural Components, and Structural Assemblies (AIAA S-110-2005). Washington, DC: American Institute of Aeronautics and Astronautics, Inc., 2005. http://dx.doi.org/10.2514/4.477713.

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21

Agency, International Atomic Energy. Safety Classification of Structures, Systems and Components in Nuclear Power Plants, Spanish Edition. International Atomic Energy Agency, 2021.

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22

AIAA (American Institute of Aeronautics. AIAA Standard for Space Systems - Metallic Pressure Vessels, Pressurized Structures, and Pressure Components. AIAA (American Institute of Aeronautics & Ast, 1999.

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23

American Institute of Aeronautics and As. AIAA Standard for Space Systems: Structures, Structural Components, and Structural Assemblies (S-110-2005). AIAA (American Institute of Aeronautics & Ast, 2005.

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24

Standard: Space Systems – Metallic Pressure Vessels, Pressurized Structures, and Pressure Components (AIAA S-080-1998). Washington, DC: American Institute of Aeronautics and Astronautics, Inc., 1998. http://dx.doi.org/10.2514/4.473654.

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25

Standard: Space Systems—Metallic Pressure Vessels, Pressurized Structures, and Pressure Components (ANSI/AIAA S-080A-2018). 12700 Sunrise Valley Drive, Suite 200, Reston, VA 20191: American Institute of Aeronautics and Astronautics, Inc., 2018. http://dx.doi.org/10.2514/4.105418.

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26

IAEA. Advanced Surveillance, Diagnostic and Prognostic Techniques in Monitoring Structures, Systems and Components in Nuclear Power Plants. International Atomic Energy Agency, 2013.

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27

American Society of Civil Engineers Staff. ASCE Standard, ASCE/SEI, 43-19: Seismic Design Criteria for Structures, Systems, and Components in Nuclear Facilities. American Society of Civil Engineers, 2021.

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28

Agency, International Atomic Energy. Safety Classification of Structures, Systems and Components in Nuclear Power Plants: IAEA Safety Standards Series No. Ssg-30. International Atomic Energy Agency, 2014.

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29

Agency, International Atomic Energy. Application of the Safety Classification of Structures, Systems and Components in Nuclear Power Plants: IAEA TECDOC Series No. 1787. International Atomic Energy Agency, 2016.

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30

ASME. Print Proceedings of the 26th International Conference on Nuclear Engineering : Volume 2: Plant Systems, Structures, Components, and Materials; Risk Assessments and Management. American Society of Mechanical Engineers, The, 2019.

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31

Louis, Abrahamson A., and United States. National Aeronautics and Space Administration. Scientific and Technical Information Program., eds. Large angle transient dynamics (LATDYN): User's manual. [Washington, D.C.]: National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Program, 1991.

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32

U.S. Nuclear Regulatory Commission., ed. Design Guidance For Radioactive Waste Management Systems, Structures, And Components Installed..., Draft Regulatory Guide... Draft DG-1100... U.S. Nuclear Regulatory Commission... August 2000. [S.l: s.n., 2001.

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33

Hilgurt, S. Ya, and O. A. Chemerys. Reconfigurable signature-based information security tools of computer systems. PH “Akademperiodyka”, 2022. http://dx.doi.org/10.15407/akademperiodyka.458.297.

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The book is devoted to the research and development of methods for combining computational structures for reconfigurable signature-based information protection tools for computer systems and networks in order to increase their efficiency. Network security tools based, among others, on such AI-based approaches as deep neural networking, despite the great progress shown in recent years, still suffer from nonzero recognition error probability. Even a low probability of such an error in a critical infrastructure can be disastrous. Therefore, signature-based recognition methods with their theoretically exact matching feature are still relevant when creating information security systems such as network intrusion detection systems, antivirus, anti-spam, and wormcontainment systems. The real time multi-pattern string matching task has been a major performance bottleneck in such systems. To speed up the recognition process, developers use a reconfigurable hardware platform based on FPGA devices. Such platform provides almost software flexibility and near-ASIC performance. The most important component of a signature-based information security system in terms of efficiency is the recognition module, in which the multipattern matching task is directly solved. It must not only check each byte of input data at speeds of tens and hundreds of gigabits/sec against hundreds of thousand or even millions patterns of signature database, but also change its structure every time a new signature appears or the operating conditions of the protected system change. As a result of the analysis of numerous examples of the development of reconfigurable information security systems, three most promising approaches to the construction of hardware circuits of recognition modules were identified, namely, content-addressable memory based on digital comparators, Bloom filter and Aho–Corasick finite automata. A method for fast quantification of components of recognition module and the entire system was proposed. The method makes it possible to exclude resource-intensive procedures for synthesizing digital circuits on FPGAs when building complex reconfigurable information security systems and their components. To improve the efficiency of the systems under study, structural-level combinational methods are proposed, which allow combining into single recognition device several matching schemes built on different approaches and their modifications, in such a way that their advantages are enhanced and disadvantages are eliminated. In order to achieve the maximum efficiency of combining methods, optimization methods are used. The methods of: parallel combining, sequential cascading and vertical junction have been formulated and investigated. The principle of multi-level combining of combining methods is also considered and researched. Algorithms for the implementation of the proposed combining methods have been developed. Software has been created that allows to conduct experiments with the developed methods and tools. Quantitative estimates are obtained for increasing the efficiency of constructing recognition modules as a result of using combination methods. The issue of optimization of reconfigurable devices presented in hardware description languages is considered. A modification of the method of affine transformations, which allows parallelizing such cycles that cannot be optimized by other methods, was presented. In order to facilitate the practical application of the developed methods and tools, a web service using high-performance computer technologies of grid and cloud computing was considered. The proposed methods to increase efficiency of matching procedure can also be used to solve important problems in other fields of science as data mining, analysis of DNA molecules, etc. Keywords: information security, signature, multi-pattern matching, FPGA, structural combining, efficiency, optimization, hardware description language.
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34

Vartanian, Oshin. Internal Orientation in Aesthetic Experience. Edited by Kalina Christoff and Kieran C. R. Fox. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190464745.013.17.

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There is considerable evidence to suggest that aesthetic experiences engage a distributed set of structures in the brain, and likely emerge from the interactions of multiple neural systems. In addition, aside from an external (i.e., object-focused) orientation, aesthetic experiences also involve an internal (i.e., person-focused) orientation. This internal orientation appears to have two dissociable neural components: one component involves the processing of visceral feeling states (i.e., interoception) and primarily engages the insula, whereas the other involves the processing of self-referential, autobiographical, and narrative information, and is represented by activation in the default mode network. Evidence supporting this neural dissociation has provided insights into processes that can lead to deep and moving aesthetic experiences.
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35

Barros, Rodrigo José Saraiva de, Tereza Cristina de Brito Azevedo, Carla de Castro Sant’Anna, Marianne Rodrigues Fernandes, Leticia Martins Lamarão, and Rommel Mario Rodríguez Burbano. Grupos sanguíneos e anticorpos anti-eritrocitários de importância transfusional. Brazil Publishing, 2020. http://dx.doi.org/10.31012/978-65-5861-112-7.

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Immunohematology is an area dedicated to the study of the interactions of the immune system and blood cells in transfusion practice. Blood transfusion is a therapeutic technique that has been widely used since the 17th century. The transfusion medicine aims to repair the pathological needs of blood components in the living organism, be it red blood cells, plasma, platelets, clotting factors, among others. Despite being a therapeutic means, transfusion of blood components can be considered at risk because it is a biological material and due to the transfusion immunological reactions that can be caused during or after the moment of transfusion. In the surface structure of red blood cells, numerous molecules of a protein, glycoprotein or glycolipid nature are found, which are also called membrane antigens that make up structures and perform transport functions, as receptors, as adhesion, enzymatic and / or complement regulatory molecules. The formation of these antigens occurs by an approximate amount of 39 genes involved in their production, of which 282 different antigens are organized in more than 30 blood group systems. This antigenic diversity is a major cause of the formation of irregular anti-erythrocyte antibodies. Therefore, with the increase in blood transfusions in surgeries, transplants and clinical treatment of cancer and other chronic diseases, a significant increase in the occurrence of alloimmunizations in polytransfused patients began to be observed. Such biological phenomena motivated us to carry out this study and the antigenic diversity motivated us to elaborate this small compendium where we also describe the main blood groups.
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36

Batterman, Robert W. A Middle Way. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780197568613.001.0001.

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This book focuses on a method for exploring, explaining, and understanding the behavior of large many-body systems. It describes an approach to non-equilibrium behavior that focuses on structures (represented by correlation functions) that characterize mesoscale properties of the systems. In other words, rather than a fully bottom-up approach, starting with the components at the atomic or molecular scale, the “hydrodynamic approach” aims to describe and account for continuum behaviors by largely ignoring details at the “fundamental” level. This methodological approach has its origins in Einstein’s work on Brownian motion. He gave what may be the first instance of “upscaling” to determine an effective (continuum) value for a material parameter—the viscosity. His method is of a kind with much work in the science of materials. This connection and the wide-ranging interdisciplinary nature of these methods are stressed. Einstein also provided the first expression of a fundamental theorem of statistical mechanics called the Fluctuation-Dissipation theorem. This theorem provides the primary justification for the hydrodynamic, mesoscale methodology. Philosophical consequences include an argument to the effect that mesoscale parameters can be the natural variables for characterizing many-body systems. Further, the book offers a new argument for why continuum theories (fluid mechanics and equations for the bending of beams) are still justified despite completely ignoring the fact that fluids and materials have lower scale structure. The book argues for a middle way between continuum theories and atomic theories. A proper understanding of those connections can be had when mesoscales are taken seriously.
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37

Michels, Andreas. Magnetic Small-Angle Neutron Scattering. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198855170.001.0001.

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This book provides the first extensive treatment of magnetic small-angle neutron scattering (SANS). The theoretical background required to compute magnetic SANS cross sections and correlation functions related to long-wavelength magnetization structures is laid out; and these concepts are scrutinized based on the discussion of experimental neutron data. Regarding prior background knowledge, some familiarity with the basic magnetic interactions and phenomena, as well as scattering theory, is desired. The target audience comprises Ph.D. students and researchers working in the field of magnetism and magnetic materials who wish to make efficient use of the magnetic SANS method. Besides revealing the origins of magnetic SANS (Chapter 1), and furnishing the basics of the magnetic SANS technique (Chapter 2), much of the book is devoted to a comprehensive treatment of the continuum theory of micromagnetics (Chapter 3), as it is relevant for the study of the elastic magnetic SANS cross section. Analytical expressions for the magnetization Fourier components allow one to highlight the essential features of magnetic SANS and to analyze experimental data both in reciprocal (Chapter 4) and real space (Chapter 6). Chapter 5 provides an overview of the magnetic SANS of nanoparticles and so-called complex systems (e.g., ferrofluids, magnetic steels, spin glasses, and amorphous magnets). It is this subfield where major progress is expected to be made in the coming years, mainly via the increased use of numerical micromagnetic simulations (Chapter 7), which is a very promising approach for the understanding of the magnetic SANS from systems exhibiting nanoscale spin inhomogeneity.
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38

Sherwood, Dennis, and Paul Dalby. Modern Thermodynamics for Chemists and Biochemists. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198782957.001.0001.

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This book will equip a student of any physical or biological science with a sound understanding of thermodynamics, and will build confidence in using thermodynamics in practice. The emphasis is towards chemical thermodynamics, but the principles of the First, Second and Third Laws apply to all sciences. Importantly, the final four chapters show how thermodynamics can be applied to biological systems, discussing the biochemical standard state, bioenergetics, protein folding, and the self-assembly of smaller components to form higher-level structures. The book has not been written to support a particular curriculum; rather, it covers all the fundamental principles, so providing a comprehensive grounding, as well as a strong foundation for further study. It is therefore likely that there will be more material in this book than is required for any one particular curriculum, but we trust there is sufficient material for almost every curriculum. A key feature of the book is the style. It has been written so that ‘you can hear our voices’, and with the overarching intent of being logical, clear and comprehensible. The style will therefore be perceived as less formal than many other texts – and we trust more readable. Furthermore, we have sought to avoid phrases such as ‘it may be shown that...’, and ‘clearly, it follows that...’. If ‘it may be shown’, we show it; and we don’t use ‘clearly’ when things aren’t clear at all. Thermodynamics is notoriously difficult. This book does not make an intrinsically deep science ‘easy’. But it does make it intelligible.
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