Control and Dynamic Systems V58: Computer-Aided Design/Engineering (Cad/Cae) Techniques And Their Applications Part 1 of 2: Advances in Theory and Applications, Part 1
Academic Press, Dec 2, 2012 - Technology & Engineering - 364 pages
Control and Dynamic Systems, Volume 58: Computer-Aided Design/Engineering (CAD/CAE) Techniques and Their Applications Part 1 of 2 is the first of a two-volume sequence that manifests the significance and the power of CAD/CAE techniques that are available and their further development for the essential role they play in the design of modern engineering systems.
The volume contains eight chapters and begins with a study on the reliability and control (limiting) of errors in the CAD/CAE design process. This is followed by separate chapters on methods for organizing engineering design and design techniques in a CAD/CAE database system; the various high-level tools to support a CAD engineer working in the graphical user interface computer environment; and finite element analysis techniques in the CAD/CAE process. Subsequent chapters deal with explicit and implicit aspects of large-scale nonlinear finite element analysis; techniques in parallel computing architectures; and a comprehensive treatment of (iterative) change in the design process.
This volume will provide a significant and, perhaps, unique reference source for students, research workers, practicing engineers, and others on the international scene for many years.
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Chapter 2 Organizing Engineering Designs and Design Techniques
Chapter 3 Hypermedia Principles and Techniques in CAD
Chapter 4 FEA in the Engineering Design Process
Chapter 5 LargeScale Nonlinear Finite Element AnalysisExplicit Aspects
algorithms application approach architecture assembly object component objects conﬁguration constraints database deadband deﬁned deﬁnition deformed design attributes design object design phase design techniques developed difﬁcult drawing dynamic engineer’s engineering design process equations error example explicit ﬁeld ﬁgure ﬁles ﬁlter Finite Element Finite Element Analysis ﬁnite element method ﬁrst ﬂight function grouping hypermedia identiﬁed implemented implicit improve integration interface iteration Lagrangian linear load point macro material MATLAB matrix menu MetaDesign MIMD modiﬁed nodal nodes nonlinear analysis nonlinear ﬁnite element optimization organization paradigm parallel parallel computers parameters performance present problem procedure model processors product teams Quality Characteristics Quality Function Deployment radio button remeshing requirements selected signiﬁcant SIMD simulation solution candidates solution concept solved spatial adaptivity speciﬁcation stiffness distribution stress structural subsystems symbol technique graph tion utilized variables vector