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This Special Issue of the journal Symmetry contains a collection of papers devoted to the use of symmetry in finite element approximation of partial differential equations. More specifically, applications ranging from mechanical engineering to electromagnetics and fluid dynamics are considered. Both theoretical and computational aspects are considered. The contributions were selected to ensure the widest variety of themes. In particular, we wanted to include both theoretical papers (well posedness, stability) and numerical computations.
Research & information: general --- Mathematics & science --- Oseen problem --- corner singularity --- weighted finite element method --- preconditioning --- symmetric boundary condition --- pattern formation --- computational design --- finite-element method --- three-layer composite shell --- Mindlin plate theory --- finite element method --- force vibration --- FGMshells --- edge-based smoothed finite element method (ES-FEM) --- mixed interpolation of tensorial components (MITC) --- electromagnetic scattering --- time-harmonic electromagnetic fields --- moving media --- rotating axisymmetric objects --- bianisotropic media --- variational formulation --- well posedness --- convergence of the approximation --- Oseen problem --- corner singularity --- weighted finite element method --- preconditioning --- symmetric boundary condition --- pattern formation --- computational design --- finite-element method --- three-layer composite shell --- Mindlin plate theory --- finite element method --- force vibration --- FGMshells --- edge-based smoothed finite element method (ES-FEM) --- mixed interpolation of tensorial components (MITC) --- electromagnetic scattering --- time-harmonic electromagnetic fields --- moving media --- rotating axisymmetric objects --- bianisotropic media --- variational formulation --- well posedness --- convergence of the approximation
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Since the conceptualization of bounded rationality, management scholars started investigating how people—managers and entrepreneurs—really make decisions within (and for) organizations. The aim of this eBook is to deeply investigate trends that have flourished within this pivotal research area in conceptual and/or empirical terms, trying to provide new insights on how managers and entrepreneurs make decisions within and for organizations. In this vein, readers that approach this eBook will be taken by hand and accompanied to the discovery of how the mind of decision makers is at the basis of organizational developments or failures. In this regard, published contributions in this eBook underline how executives and entrepreneurs must be ecologically rational, thus be aware of the negative and positive effects that biases can have depending on the context and use them at their advantage. Managerial and entrepreneurial decision-making are phenomena that cannot be detached from the environment in which executives and entrepreneurs are embedded, claiming to establish new approaches to research that looks at decision-making as an individual/group/organization-environment dialectical and multi-level phenomenon.
Business strategy --- Management of specific areas --- behavioral strategy --- decision-making --- core self-evaluations --- intuition --- overconfidence --- performance --- nurse manager --- time pressure --- self-leadership --- stress --- entrepreneurial decision-making --- resource-based view --- opportunity identification --- competitive advantage --- critical assessments --- managerial process --- decision making --- critical infrastructure elements --- resilience --- disruption --- indication --- data lake --- data governance --- data quality --- big data --- digital transformation --- data science --- asset management --- boundary condition --- SME entrepreneurs --- accountants --- cognitive biases --- debiasing --- clinical decision-making process --- clinical reasoning --- orthopaedics --- follow-up decision --- healthcare decision --- behavioral strategy --- decision-making --- core self-evaluations --- intuition --- overconfidence --- performance --- nurse manager --- time pressure --- self-leadership --- stress --- entrepreneurial decision-making --- resource-based view --- opportunity identification --- competitive advantage --- critical assessments --- managerial process --- decision making --- critical infrastructure elements --- resilience --- disruption --- indication --- data lake --- data governance --- data quality --- big data --- digital transformation --- data science --- asset management --- boundary condition --- SME entrepreneurs --- accountants --- cognitive biases --- debiasing --- clinical decision-making process --- clinical reasoning --- orthopaedics --- follow-up decision --- healthcare decision
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This Special Issue of the journal Symmetry contains a collection of papers devoted to the use of symmetry in finite element approximation of partial differential equations. More specifically, applications ranging from mechanical engineering to electromagnetics and fluid dynamics are considered. Both theoretical and computational aspects are considered. The contributions were selected to ensure the widest variety of themes. In particular, we wanted to include both theoretical papers (well posedness, stability) and numerical computations.
Research & information: general --- Mathematics & science --- Oseen problem --- corner singularity --- weighted finite element method --- preconditioning --- symmetric boundary condition --- pattern formation --- computational design --- finite-element method --- three-layer composite shell --- Mindlin plate theory --- finite element method --- force vibration --- FGMshells --- edge-based smoothed finite element method (ES-FEM) --- mixed interpolation of tensorial components (MITC) --- electromagnetic scattering --- time-harmonic electromagnetic fields --- moving media --- rotating axisymmetric objects --- bianisotropic media --- variational formulation --- well posedness --- convergence of the approximation
Choose an application
Since the conceptualization of bounded rationality, management scholars started investigating how people—managers and entrepreneurs—really make decisions within (and for) organizations. The aim of this eBook is to deeply investigate trends that have flourished within this pivotal research area in conceptual and/or empirical terms, trying to provide new insights on how managers and entrepreneurs make decisions within and for organizations. In this vein, readers that approach this eBook will be taken by hand and accompanied to the discovery of how the mind of decision makers is at the basis of organizational developments or failures. In this regard, published contributions in this eBook underline how executives and entrepreneurs must be ecologically rational, thus be aware of the negative and positive effects that biases can have depending on the context and use them at their advantage. Managerial and entrepreneurial decision-making are phenomena that cannot be detached from the environment in which executives and entrepreneurs are embedded, claiming to establish new approaches to research that looks at decision-making as an individual/group/organization-environment dialectical and multi-level phenomenon.
Business strategy --- Management of specific areas --- behavioral strategy --- decision-making --- core self-evaluations --- intuition --- overconfidence --- performance --- nurse manager --- time pressure --- self-leadership --- stress --- entrepreneurial decision-making --- resource-based view --- opportunity identification --- competitive advantage --- critical assessments --- managerial process --- decision making --- critical infrastructure elements --- resilience --- disruption --- indication --- data lake --- data governance --- data quality --- big data --- digital transformation --- data science --- asset management --- boundary condition --- SME entrepreneurs --- accountants --- cognitive biases --- debiasing --- clinical decision-making process --- clinical reasoning --- orthopaedics --- follow-up decision --- healthcare decision --- n/a
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This Special Issue aims to provide a forum for the latest advances in hydraulic modeling based on the use of shallow water and related models as well as their novel application in practical engineering. Original contributions, including those in but not limited to the following areas, will be considered for publication: new conceptual models and applications, flood inundation and routing, sediment transport and morphodynamic modelling, pollutant transport in water, irrigation and drainage modeling, numerical simulation in hydraulics, novel numerical methods for the shallow water equations and extended models, case studies, and high-performance computing.
central-upwind --- efficiency --- finite volume --- HLLC --- modern hardware --- Roe --- shallow water equations --- vectorization --- fluvial process --- bank vegetation --- channel pattern --- 2D numerical model --- two-dimensional hydrodynamic model --- local time stepping --- unstructured grids --- numerical simulation --- computational efficiency --- west coast of Korea (WCK) --- tidal elevation --- open boundary condition --- numerical modeling --- TELEMAC-2D --- hydraulic jump --- Boussinesq equations --- MacCormack --- Dissipative two-four --- method of specified intervals --- shallow water --- CasADi --- fast computation --- 1-D --- reservoir model --- PID regulation --- free surface flows --- modeling --- hydraulic engineering --- computational methods --- simulation
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This Special Issue of the journal Symmetry contains a collection of papers devoted to the use of symmetry in finite element approximation of partial differential equations. More specifically, applications ranging from mechanical engineering to electromagnetics and fluid dynamics are considered. Both theoretical and computational aspects are considered. The contributions were selected to ensure the widest variety of themes. In particular, we wanted to include both theoretical papers (well posedness, stability) and numerical computations.
Oseen problem --- corner singularity --- weighted finite element method --- preconditioning --- symmetric boundary condition --- pattern formation --- computational design --- finite-element method --- three-layer composite shell --- Mindlin plate theory --- finite element method --- force vibration --- FGMshells --- edge-based smoothed finite element method (ES-FEM) --- mixed interpolation of tensorial components (MITC) --- electromagnetic scattering --- time-harmonic electromagnetic fields --- moving media --- rotating axisymmetric objects --- bianisotropic media --- variational formulation --- well posedness --- convergence of the approximation
Choose an application
Since the conceptualization of bounded rationality, management scholars started investigating how people—managers and entrepreneurs—really make decisions within (and for) organizations. The aim of this eBook is to deeply investigate trends that have flourished within this pivotal research area in conceptual and/or empirical terms, trying to provide new insights on how managers and entrepreneurs make decisions within and for organizations. In this vein, readers that approach this eBook will be taken by hand and accompanied to the discovery of how the mind of decision makers is at the basis of organizational developments or failures. In this regard, published contributions in this eBook underline how executives and entrepreneurs must be ecologically rational, thus be aware of the negative and positive effects that biases can have depending on the context and use them at their advantage. Managerial and entrepreneurial decision-making are phenomena that cannot be detached from the environment in which executives and entrepreneurs are embedded, claiming to establish new approaches to research that looks at decision-making as an individual/group/organization-environment dialectical and multi-level phenomenon.
behavioral strategy --- decision-making --- core self-evaluations --- intuition --- overconfidence --- performance --- nurse manager --- time pressure --- self-leadership --- stress --- entrepreneurial decision-making --- resource-based view --- opportunity identification --- competitive advantage --- critical assessments --- managerial process --- decision making --- critical infrastructure elements --- resilience --- disruption --- indication --- data lake --- data governance --- data quality --- big data --- digital transformation --- data science --- asset management --- boundary condition --- SME entrepreneurs --- accountants --- cognitive biases --- debiasing --- clinical decision-making process --- clinical reasoning --- orthopaedics --- follow-up decision --- healthcare decision --- n/a
Choose an application
This Special Issue aims to provide a forum for the latest advances in hydraulic modeling based on the use of shallow water and related models as well as their novel application in practical engineering. Original contributions, including those in but not limited to the following areas, will be considered for publication: new conceptual models and applications, flood inundation and routing, sediment transport and morphodynamic modelling, pollutant transport in water, irrigation and drainage modeling, numerical simulation in hydraulics, novel numerical methods for the shallow water equations and extended models, case studies, and high-performance computing.
Technology: general issues --- History of engineering & technology --- central-upwind --- efficiency --- finite volume --- HLLC --- modern hardware --- Roe --- shallow water equations --- vectorization --- fluvial process --- bank vegetation --- channel pattern --- 2D numerical model --- two-dimensional hydrodynamic model --- local time stepping --- unstructured grids --- numerical simulation --- computational efficiency --- west coast of Korea (WCK) --- tidal elevation --- open boundary condition --- numerical modeling --- TELEMAC-2D --- hydraulic jump --- Boussinesq equations --- MacCormack --- Dissipative two-four --- method of specified intervals --- shallow water --- CasADi --- fast computation --- 1-D --- reservoir model --- PID regulation --- free surface flows --- modeling --- hydraulic engineering --- computational methods --- simulation
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This book contains a collection of twelve papers that reflect the state of the art of nonlinear differential equations in modern geometrical theory. It comprises miscellaneous topics of the local and nonlocal geometry of differential equations and the applications of the corresponding methods in hydrodynamics, symplectic geometry, optimal investment theory, etc. The contents will be useful for all the readers whose professional interests are related to nonlinear PDEs and differential geometry, both in theoretical and applied aspects.
adjoint-symmetry --- one-form --- symmetry --- vector field --- geometrical formulation --- nonlocal conservation laws --- differential coverings --- polynomial and rational invariants --- syzygy --- free resolution --- discretization --- differential invariants --- invariant derivations --- symplectic --- contact spaces --- Euler equations --- shockwaves --- phase transitions --- symmetries --- integrable systems --- Darboux-Bäcklund transformation --- isothermic immersions --- Spin groups --- Clifford algebras --- Euler equation --- quotient equation --- contact symmetry --- optimal investment theory --- linearization --- exact solutions --- Korteweg–de Vries–Burgers equation --- cylindrical and spherical waves --- saw-tooth solutions --- periodic boundary conditions --- head shock wave --- Navier–Stokes equations --- media with inner structures --- plane molecules --- water --- Levi–Civita connections --- Lagrangian curve flows --- KdV type hierarchies --- Darboux transforms --- Sturm–Liouville --- clamped --- hinged boundary condition --- spectral collocation --- Chebfun --- chebop --- eigenpairs --- preconditioning --- drift --- error control
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The ∂̄ Neumann problem is probably the most important and natural example of a non-elliptic boundary value problem, arising as it does from the Cauchy-Riemann equations. It has been known for some time how to prove solvability and regularity by the use of L2 methods. In this monograph the authors apply recent methods involving the Heisenberg group to obtain parametricies and to give sharp estimates in various function spaces, leading to a better understanding of the ∂̄ Neumann problem. The authors have added substantial background material to make the monograph more accessible to students.Originally published in 1977.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
Partial differential equations --- Neumann problem. --- Neumann problem --- Mathematics --- Physical Sciences & Mathematics --- Calculus --- Boundary value problems --- Differential equations, Partial --- A priori estimate. --- Abuse of notation. --- Analytic continuation. --- Analytic function. --- Approximation. --- Asymptotic expansion. --- Asymptotic formula. --- Basis (linear algebra). --- Besov space. --- Boundary (topology). --- Boundary value problem. --- Boundedness. --- Calculation. --- Cauchy's integral formula. --- Cauchy–Riemann equations. --- Change of variables. --- Characterization (mathematics). --- Combination. --- Commutative property. --- Commutator. --- Complex analysis. --- Complex manifold. --- Complex number. --- Computation. --- Convolution. --- Coordinate system. --- Corollary. --- Counterexample. --- Derivative. --- Determinant. --- Differential equation. --- Dimension (vector space). --- Dimension. --- Dimensional analysis. --- Dirichlet boundary condition. --- Eigenvalues and eigenvectors. --- Elliptic boundary value problem. --- Equation. --- Error term. --- Estimation. --- Even and odd functions. --- Existential quantification. --- Function space. --- Fundamental solution. --- Green's theorem. --- Half-space (geometry). --- Hardy's inequality. --- Heisenberg group. --- Holomorphic function. --- Infimum and supremum. --- Integer. --- Integral curve. --- Integral expression. --- Inverse function. --- Invertible matrix. --- Iteration. --- Laplace's equation. --- Left inverse. --- Lie algebra. --- Lie group. --- Linear combination. --- Logarithm. --- Lp space. --- Mathematical induction. --- Neumann boundary condition. --- Notation. --- Open problem. --- Orthogonal complement. --- Orthogonality. --- Parametrix. --- Partial derivative. --- Pointwise. --- Polynomial. --- Principal branch. --- Principal part. --- Projection (linear algebra). --- Pseudo-differential operator. --- Quantity. --- Recursive definition. --- Schwartz space. --- Scientific notation. --- Second derivative. --- Self-adjoint. --- Singular value. --- Sobolev space. --- Special case. --- Standard basis. --- Stein manifold. --- Subgroup. --- Subset. --- Summation. --- Support (mathematics). --- Tangent bundle. --- Theorem. --- Theory. --- Upper half-plane. --- Variable (mathematics). --- Vector field. --- Volume element. --- Weak solution. --- Neumann, Problème de --- Equations aux derivees partielles --- Problemes aux limites
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