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Books on the topic 'Structural Optimisation'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 February 2023

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1

Bhavikatti, S. S. Structural optimisation using sequential linear programming. New Delhi: Vikas Publishing House Pvt., 2003.

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2

Bendsøe, Martin P. Optimization of structural topology, shape, and material. Berlin: Springer, 1995.

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3

Miravete, A. Optimisation of design of composite structures. Cambridge: Woodhead, 1996.

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4

Croccolo, Dario. Motorbike Suspensions: Modern design and optimisation. London: Springer London, 2013.

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5

Kilkki, Juha. Automated formulation of optimisation models for steel beam structures. Lappeenranta, Finland: Lappeenranta University of Technology, 2002.

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6

J, Twining Carole, and Taylor Chris J, eds. Statistical models of shape: Optimisation and evaluation. London: Springer, 2008.

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7

SAS World Conference (6th 1989 Gournay-sur-Marne, France). FEMCAD-89, structural analysis and optimization: Proceedings of the Sixth SAS-World Conference = FEMCAD-89, calcul et optimisation des structures. Edited by Liebowitz Harold 1924-, Davies Glyn A. O, and IITT-International. Gournay-sur-Marne, France: IITT International, 1989.

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8

P, Kamat Manohar, ed. Structural optimization: Status and promise. Washington, DC: American Institute of Aeronautics and Astronautics, 1993.

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9

Sáez, Doris. Optimisation of Industrial Processes at Supervisory Level: Application to Control of Thermal Power Plants. London: Springer London, 2002.

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10

Adeli, Hojjat. Cost optimization of structures: Fuzzy logic, genetic algorithms, and parallel computing. Chichester, England: Wiley, 2006.

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11

Development, North Atlantic Treaty Organization Advisory Group for Aerospace Research and. Integrated design analysis and optimisation of aircraft structures. Neuilly sur Seine, France: AGARD, 1992.

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12

STUDIO: STructured User-interface Design for Interaction Optimisation. New York: Prentice Hall, 1994.

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13

McCafferty, Raymond. Optimisation of the design of structures using sensitivity analysis. Wolverhampton: The Polytechnic, Wolverhampton, School of Engineering, 1985., 1985.

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14

Shalimov, Mihail, Andrey Fiveyskiy, and Ekaterina Votinova. The basics of technological preparation of production. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1027837.

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The tutorial provides basic information about the purpose, content, basic principles and organization of technological preparation of welding production. The types of technical documents, their purpose and content; fundamentals of design of technological process of manufacture of welded structures. Special attention is paid to the optimisation of the design for manufacturability. A careful study of the textbook material will prepare the student for designing welded structures with the required accuracy and reliability at a given performance and economic efficiency, as well as development of technological processes of welding, providing the weld joints with the desired properties of reliability and safe operation of welded products. Designed for students training areas 15.03.01 mechanical engineering, 12.03.05 "Laser engineering and laser technologies" may be useful to students of lyceums, colleges, vocational schools and technical schools.
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15

Oracle 10g: Optimisation d'une base de données, ressources adaptées, mémoire ajustée, performances accrues, requêtes optimisées. Nantes: Editions Eni, 2006.

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16

Advisory Group for Aerospace Research and Development. Structures and Materials Panel. Meeting. Integrated design analysis and optimisation of aircraft structures: Papers presented at the 72nd Meeting of the AGARD Structures and Materials Panel, held in Bath, United Kingdom 29th April - 3rd May 1991. Neuilly sur Seine: Agard, 1992.

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17

Genetic algorithms + data structures = evolution programs. 2nd ed. Berlin: Springer-Verlag, 1994.

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18

Genetic algorithms + data structures = evolution programs. Berlin: Springer-Verlag, 1992.

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19

Genetic algorithms + data structures = evolution programs. 3rd ed. Berlin: Springer-Verlag, 1996.

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20

Michalewicz, Zbigniew. Genetic Algorithms + Data Structures =: Evolution Programs. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994.

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21

North Atlantic Treaty Organization. Advisory Group for Aerospace Research and Development. Integrated design analysis and optimisation of aircraft structures: the material in this publication was assembled to support a Lecture Series under the sponsorhip of the Structure and Materials panel of AGARD and the Consultant and Exchange programme of AGARD presented on 8th-9th June 1992 in Pasadena, CA, United States, 22nd-23rd June 1992 in Lisbon, Portugal and 25th-26th June 1992 in London, United Kingdom. Neuilly sur Seine, France: AGARD, 1992.

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22

Michalewicz, Zbigniew. Algorytmy genetyczne + struktury danych = programy ewolucyjne. 3rd ed. Warszawa: Wydawnictwa Naukowo-Techniczne, 2003.

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23

Miravete, A. Optimisation of Composite Structures Design. Woodhead Publishing, 1996.

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24

Miravete, A. Optimisation of Composite Structures Design. Elsevier Science & Technology Books, 1996.

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25

Croccolo, Dario, and Massimiliano Agostinis. Motorbike Suspensions: Modern design and optimisation. Springer, 2013.

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26

Zhou, Shiwei. Implementation of Three-Dimensional Structural Topology Optimisation: Theory and Programming. Elsevier Science & Technology Books, 2019.

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27

Croccolo, Dario, and Massimiliano Agostinis. Motorbike Suspensions: Modern design and optimisation. Springer, 2013.

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28

(Editor), Hans-Joachim Bungartz, and Michael Schäfer (Editor), eds. Fluid-Structure Interaction: Modelling, Simulation, Optimisation (Lecture Notes in Computational Science and Engineering). Springer, 2006.

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29

Taylor, Chris, Rhodri Davies, and Carole Twining. Statistical Models of Shape: Optimisation and Evaluation. Springer, 2014.

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30

Variational Methods for Structural Optimization (Applied Mathematical Sciences Vol. 140). Springer, 2000.

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31

Fluid-Structure Interaction: Modelling, Simulation, Optimisation (Lecture Notes in Computational Science and Engineering Book 53). Springer, 2007.

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32

Allaire, Grégoire. Conception optimale de structures (Mathématiques et Applications). Springer, 2006.

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33

Hirsch-Kreinsen, Hartmut, Peter Ittermann, and Jonathan Falkenberg, eds. Szenarien digitalisierter Einfacharbeit. Nomos Verlagsgesellschaft mbH & Co. KG, 2019. http://dx.doi.org/10.5771/9783845298092.

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In the debate on the digitisation of work, a widespread loss of jobs, especially among low-skilled workers, is expected. Although similar developments were feared in previous automation waves, they have only partially occurred. The current diffusion of digital technologies in production and logistics has raised this question again. Using empirical research, this study shows that low-skilled work does not disappear through digitisation, but significantly changes structurally. It groups these changes to low-skilled work into four scenarios: automation and substitution, digital optimisation and Taylorisation, upgrading and adaptivity, and structural conservatism and stabilisation. With contributions by Jörg Abel, Martin Eisenmann, Jonathan Falkenberg, Hartmut Hirsch-Kreinsen, Peter Ittermann, Ralf Kopp, Edelgard Kutzner, Ulf Ortmann, Victoria Schnier, Alfredo Virgillito and Tobias Wienzek.
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34

Miravete, Antonio. Optimisation of composite structures design. Woodhead Publishing Limited, 1996. http://dx.doi.org/10.1533/9780857092977.

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35

Roeck, G. De, and B. H. V. Topping. Identification, Control and Optimisation of Engineering Structures. Civil-Comp Ltd, 2000.

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36

Advisory Group for Aerospace Research and Development. Structures and Materials Panel. and Advisory Group for Aerospace Research and Development. Consultant and Exchange Programme., eds. Integration design analysis and optimisation of aircraft structures. Neuilly sur Seine: Agard, 1992.

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37

Burczynski, Tadeusz, and Maciej Pietrzyk. Multiscale Modelling and Optimisation of Materials and Structures. Wiley & Sons, Incorporated, John, 2022.

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38

Burczynski, Tadeusz, and Maciej Pietrzyk. Multiscale Modelling and Optimisation of Materials and Structures. Wiley & Sons, Incorporated, John, 2022.

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39

Hami, Abdelkhalak El, and Ghias Kharmanda. Fiabilité et Optimisation Structurale en Biomécanique: Méthodologies et Applications. ISTE Editions Ltd., 2017.

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40

Bilow, Marcel, Tillmann Klein, and Ulrich Knaack. FAÇADES. 010 publishers, 2008. http://dx.doi.org/10.47982/bookrxiv.12.

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Façade technology of the 20th century is related to the dissolution of the massive wall into a separation of structure and façade. Looking at the development of façade technology, after 60 years of curtain wall systems, 30 years of element-façade systems and ten years of experience with the integration of environmental services in double façades, it can be concluded that the peak of optimisation has been reached. No further technical developments can be expected by continuing to apply extra layers for each additional technical function. Understanding façades - or better envelopes - as part of an integral building, we have to see that creating the future envelope has to be done on a ’network’ basis: employing systems - but also methods of thinking - which provide the possibility to develop different aspects simultaneously and combine them as required. The envelope has to be seen as a functional part of the entire building, serving a part of the demand by providing the necessary technologies and qualities. In this regard, we have to withdraw from material and structure-orientated thinking and construction – we have to develop the envelope as a hybrid system: materials, technologies and production processes have to be integrated into the summation and combined into an all-encompassing result. Façades comprise various themes covering strategic, material and technological developments. Aspects such as function integration, networking of elements, new structures and materials as well as the addition of functions to existing structures will be investigated and explained in 85 or so concrete ideas.
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41

Schiemann, Anja, Clara Remke, and Katharina Büchler, eds. HEADS, KURS & Co. Nomos Verlagsgesellschaft mbH & Co. KG, 2019. http://dx.doi.org/10.5771/9783845297866.

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The monitoring concepts of German federal states aim to protect the public from sex offenders and violent offenders at risk of recidivism, which is intended to be achieved through good cooperation and exchange of information between the agencies involved. This study evaluates these structures and the procedures within the concepts in 10 German federal states. Since those concepts are designed to minimise the risk of recidivism as a preventive measure, a process evaluation offers a good opportunity to examine the efficiency and effectiveness of the processes carried out. In a subsequent comparison, the study identifies weaknesses and mistakes in the concepts in order to submit proposals for their optimisation and initiate further research studies. With contributions by Anja Schiemann, Katharina Büchler, Inge Roith, Ilka Freyhat, Helge Risom, Thomas Heberer, Candy Sommer, Tina Beck, Sven Pahl, Christoph Dümmig, Maik Schröder, Daniel Sühling
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42

Mann, Peter. Constrained Lagrangian Mechanics. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198822370.003.0008.

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This chapter builds on the previous two chapters to tackle constrained systems, using Lagrangian mechanics and constrained variations. The first section deals with holonomic constraint equations using Lagrange multipliers; these can be used to reduce the number of coordinates until a linearly independent minimal set is obtained that describes a constraint surface within configuration space, so that Lagrange equations can be set up and solved. Motion is understood to be confined to a constraint submanifold. The variational formulation of non-holonomic constraints is then discussed to derive the vakonomic formulation. These erroneous equations are then compared to the central Lagrange equation, and the precise nature of the variations used in each formulation is investigated. The vakonomic equations are then presented in their Suslov form (Suslov–vakonomic form) in an attempt to reconcile the two approaches. In addition, the structure of biological membranes is framed as a constrained optimisation problem.
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43

Michalewicz, Zbigniew. Genetic Algorithms + Data Structures = Evolution Programs. Springer, 2014.

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44

Michalewicz, Zbigniew. Genetic Algorithms + Data Structures = Evolution Programs. Springer London, Limited, 2013.

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45

Michalewicz, Zbigniew. Genetic Algorithms + Data Structures = Evolution Programs. Springer London, Limited, 2013.

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46

Michalewicz, Zbigniew. Genetic Algorithms + Data Structures = Evolution Programs. Springer, 2011.

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47

Oulasvirta, Antti, Per Ola Kristensson, Xiaojun Bi, and Andrew Howes, eds. Computational Interaction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799603.001.0001.

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This book presents computational interaction as an approach to explaining and enhancing the interaction between humans and information technology. Computational interaction applies abstraction, automation, and analysis to inform our understanding of the structure of interaction and also to inform the design of the software that drives new and exciting human-computer interfaces. The methods of computational interaction allow, for example, designers to identify user interfaces that are optimal against some objective criteria. They also allow software engineers to build interactive systems that adapt their behaviour to better suit individual capacities and preferences. Embedded in an iterative design process, computational interaction has the potential to complement human strengths and provide methods for generating inspiring and elegant designs. Computational interaction does not exclude the messy and complicated behaviour of humans, rather it embraces it by, for example, using models that are sensitive to uncertainty and that capture subtle variations between individual users. It also promotes the idea that there are many aspects of interaction that can be augmented by algorithms. This book introduces computational interaction design to the reader by exploring a wide range of computational interaction techniques, strategies and methods. It explains how techniques such as optimisation, economic modelling, machine learning, control theory, formal methods, cognitive models and statistical language processing can be used to model interaction and design more expressive, efficient and versatile interaction.
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48

(Editor), Martin Pelikan, Kumara Sastry (Editor), and Erick Cantú-Paz (Editor), eds. Scalable Optimization via Probabilistic Modeling: From Algorithms to Applications (Studies in Computational Intelligence). Springer, 2006.

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49

Sastry, Kumara, Martin Pelikan, and Erick Cantú-Paz. Scalable Optimization via Probabilistic Modeling: From Algorithms to Applications. Springer, 2010.

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