比较结构设计:概念与方法:concepts and methodologies:英文版 本书特色

林少培、黄真*的《比较结构设计－－概念与方法（英文版）》针对结构概念设计提出了比较设计的理念，重点表现合理化、可持续的结构性能。基本构件的机械特征通过3d结构进行展示，详细研究元素的组成与拆分，以便*好地理解如高层建筑、大跨通道和空间结构等多样化的结构。

比较结构设计:概念与方法:concepts and methodologies:英文版 目录

chapter 1 introduction of design philosophy 1.1 the essentials of engineering design 1.2 the concept of comparative design 1.2.1 design space theory 1.2.2 the fuzzy expression of pd 1.3 from empirical to intelligent design 1.4 functional aspect of design 1.5 on sustainable development 1.6 on aesthetics in design 1.6.1 principles in consideration of aesthetics 1.6.2 national characteristics in aesthetics 1.7 conclusionschapter 2 introduction to structural design 2.1 the features of modern structures 2.2 the processes of structural design 2.3 the process of architectural design 2.3.1 the elements of architectural design 2.3.2 the relation between structure and architecture 2.3.3 the process of architectural design 2.3.4 the application of structural concepts in architectural design 2.4 the structural behavior and design principles 2.4.1 the structural behavior and energy principle 2.4.2 overall stability of structure and stability in its geometric composition 2.4.3 the upper-and lower-bound theorem in limit analysis of structure 2.4.4 instability and structural dynamics 2.4.5 fundamental principles of structural design 2.5 the loadings analyses 2.5.1 vertical load 2.5.2 wind load 2.5.3 seismic load 2.5.4 other loads and effects 2.6 the acting loads and the structural deformation responsechapter 3 global design of structures 3.1 the classification of structural systems 3.2 methods of global analysis of structures 3.3 facade allocation analysis through "force flow" method 3.4 planar layout analysis through "footprint" method 3.5 external configuration and balancing design of structures 3.6 decomposition of asymmetric complex structures 3.7 overall structural performance 3.8 conclusionschapter 4 systematic analyses of substructures 4.1 analyses of structural components 4.1.1 analysis of horizontal components 4.1.2 analysis of vertical components 4.2 analysis of prestressed structural elements 4.3 structural joints and connections 4.4 decomposition of structural systems 4.5 integrated structures and substructures 4.6 characteristics and simplified analysis of horizontal substructure systems 4.6.1 characteristics of horizontal substructure systems 4.6.2 simplified analysis of horizontal substructure systems 4.7 characteristics and simplified analysis of vertical substructure systems 4.7.1 characteristics of vertical substructure systems 4.7.2 classification and simplified calculation of vertical substructure systems 4.8 conclusionschapter 5 comparative design and analyses of high-rise buildings 5.1 characteristics of high-rise structures 5.1.1 general characteristics 5.1.2 overall analysis of vertical structures 5.2 design of shear wall structures 5.3 design of frame structures 5.4 design of tube structures 5.5 design of mixed vertical structures 5.5.1 skip-floor truss structural system 5.5.2 giant frame structures 5.5.3 connecting-tower structural system 5.5.4 framed tube structural system 5.5.5 suspended core-tube structural system 5.5.6 inclined column truss structural system 5.6 comparative analyses of milestone high-rise buildings 5.6.1 outer trussed tube-in-tube system in shanghai world financial center 5.6.2 the world trade center in new york, usa 5.6.3 beijing cctv towerchapter 6 comparative design and analyses of large-span structures 6.1 characteristics of large-span structures 6.2 design for arch structural system 6.3 design for suspension cable structural system 6.4 design for cable-stayed structural system 6.5 comparative analyses of well-known large-span structures 6.5.1 shanghai lupu bridge 6.5.2 guangxi nanning bridge 6.5.3 jiangyin yangtze river bridge 6.5.4 gibraltar strait bridge 6.6 conclusionschapter 7 comparative design and analyses of spatial structures 7.1 characteristics of spatial structures 7.2 design for spatial truss and grid structural system 7.3 design for latticed shell structural system 7.4 design for membrane structural system 7.5 design for spatial deployable structural system 7.6 comparative analyses of sophisticated spatial structures 7.6.1 shanghai new international expo center 7.6.2 beijing national center for the performing arts 7.6.3 the georgia dome 7.6.4 kunming peacock art square of world garden expochapter 8 intelligent design based on knowledge engineering 8.1 introduction of intelligent design 8.2 fuzzy-ai model applied to comparative design 8.2.1 the fuzzy expression of pd 8.2.2 fuzzy reasoning of the intelligent design 8.2.3 how fuzzy-ai model works in intelligent design? 8.3 mathematical modeling of design space 8.4 fuzzy mathematical distance in design space 8.4.1 fuzzy mathematical distance by membership difference 8.4.2 fuzzy mathematical distance by nearness degree 8.5 fuzzy reasoning and ai-machine learning model 8.5.1 ai-machine learning model 8.5.2 machine learning modeling 8.6 neural network reasoning for structural design parameters 8.6.1 neural network (nn) 8.6.2 fuzzy neural network (fuzzy-nn) 8.6.3 fuzzy-nn architecture for machine learning 8.6.4 conclusive remarks 8.7 fuzzy neural network model for structural design 8.7.1 introduction 8.7.2 neural network back-error propagation learning 8.7.3 nn machine learning for sample classification 8.7.4 the implementation of fuzzy machine learning 8.7.5 fuzzy-nn machine learning for structural design 8.8 conclusionsconclusionappendix aappendix breferences

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