Bibliographies thématiques / Rigid domain

Littérature scientifique sur le sujet « Rigid domain »

Auteur : Grafiati

Publié le 14 mars 2023

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Articles de revues sur le sujet "Rigid domain"

Wang, J. D., D. Zhou et W. Q. Liu. « Sloshing of Liquid in Rigid Cylindrical Container with a Rigid Annular Baffle. Part II : Lateral Excitation ». Shock and Vibration 19, n^o 6 (2012) : 1205–22. http://dx.doi.org/10.1155/2012/410957.

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Sloshing response of liquid in a rigid cylindrical container with a rigid annual baffle subjected to lateral excitation has been studied. The complicated liquid domain is separated into several simple sub-domains by introducing the artificial interfaces. The analytical solutions of potential function corresponding to every sub-domain are obtained by using the method of separation of variables and the superposition principle. The total potential function under lateral excitation is taken as the sum of the container potential function and the liquid perturbed function. The expression of the liquid perturbed function is obtained by introducing the generalized coordinates. On the base of the natural frequencies and modes having been obtained by the sub-domain method, the orthogonality among the sloshing modes has been demonstrated. Substituting the potential functions into the free surface wave equation establishes the dynamic response equation of liquid. Then, the generalized coordinates are solved. The sloshing surface displacement, the hydrodynamic pressure distribution, the resultant hydrodynamic force and moment are discussed for the containers subjected to harmonic and seismic lateral excitation, respectively.

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Wang, J. D., D. Zhou et W. Q. Liu. « Sloshing of Liquid in Rigid Cylindrical Container with a Rigid Annular Baffle. Part I : Free Vibration ». Shock and Vibration 19, n^o 6 (2012) : 1185–203. http://dx.doi.org/10.1155/2012/346031.

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An analytical approach is presented to obtain the sloshing natural frequencies and modes of ideal liquid in a rigid cylindrical container with a rigid annular baffle. The free surface waves of the liquid are considered in the analysis. The artificial interfaces are introduced to divide the complicated liquid domain into several simple sub-domains. The exact analytical solutions of velocity potential of liquid corresponding to every sub-domain are obtained by using the method of separation of variables and the superposition principle. The Eigen-frequency equation is precisely derived by using the Fourier-Bessel expansion on the free surface and the artificial interfaces of the liquid. The convergence study shows high accuracy and fast convergence of the present approach. The comparative studies with those available from literature are made, excellent agreements have been achieved. Numerical results showing the variations of natural frequencies and modes versus position and inner diameter of the annular baffle are provided.

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Ostanin, Stepan A., Maxim V. Mokeev et Vjacheslav V. Zuev. « Influence of Interpenetrating Chains on Rigid Domain Dimensions in Siloxane-Based Block-Copolymers ». Polymers 14, n^o 19 (27 septembre 2022) : 4048. http://dx.doi.org/10.3390/polym14194048.

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1H spin-diffusion solid-state NMR was utilized to elucidate the domain size in multiblock-copolymers (BCPs) poly-(block poly(dimethylsiloxane)-block ladder-like poly(phenylsiloxane)) and poly-(block poly((3,3′,3″-trifluoropropyl-methyl)siloxane)-block ladder-like poly(phenylsiloxane). It was found that these BCPs form worm-like morphology with rigid cylinders dispersed in amorphous matrix. By using the combination of solid-state NMR techniques such as 13C CP/MAS, 13C direct-polarization MAS and 2D 1H EXSY, it was shown that the main factor which governs the diameter value of these rigid domains is the presence of interpenetrating segments of soft blocks. The presence of such interpenetrating chains leads to an increase of rigid domain diameter.

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Flynn, Emily, et Ileana Streinu. « Matching Multiple Rigid Domain Decompositions of Proteins ». IEEE Transactions on NanoBioscience 16, n^o 2 (mars 2017) : 81–90. http://dx.doi.org/10.1109/tnb.2017.2660538.

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Ćwikiel, K., B. Fugiel et M. Mierzwa. « The rigid domain structure in TGS ferroelectric ». Physica B : Condensed Matter 293, n^o 1-2 (décembre 2000) : 58–66. http://dx.doi.org/10.1016/s0921-4526(00)00532-9.

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Сирюк, Ю. А., А. В. Безус, Е. Д. Бондарь et В. В. Кононенко. « Фазовые переходы в жесткой доменной структуре феррит-гранатовой пленки ». Физика твердого тела 61, n^o 7 (2019) : 1250. http://dx.doi.org/10.21883/ftt.2019.07.47833.338.

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Spontaneous and magnetic field-induced phase transitions in a rigid domain structure of a uniaxial ferrite-garnet film are studied. It is shown that the temperature and field stability intervals of the lattice of cylindrical magnetic domains depend on the structure of the domain boundaries.

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Artemovych, O. D. « Rigid left Noetherian rings ». International Journal of Mathematics and Mathematical Sciences 2004, n^o 46 (2004) : 2473–76. http://dx.doi.org/10.1155/s0161171204301250.

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Miller, Joia M., Doug Hall, Joanna Robaszewski, Prerna Sharma, Michael F. Hagan, Gregory M. Grason et Zvonimir Dogic. « All twist and no bend makes raft edges splay : Spontaneous curvature of domain edges in colloidal membranes ». Science Advances 6, n^o 31 (juillet 2020) : eaba2331. http://dx.doi.org/10.1126/sciadv.aba2331.

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Using theory and experiments, we study the interface between two immiscible domains in a colloidal membrane composed of rigid rods of different lengths. Geometric considerations of rigid rod packing imply that a domain of sufficiently short rods in a background membrane of long rods is more susceptible to twist than the inverse structure, a long-rod domain in a short-rod membrane. The midplane tilt at the interdomain edge forces splay, which, in turn, manifests as spontaneous edge curvature with energetics controlled by the length asymmetry of constituent rods. A thermodynamic model of such tilt-curvature coupling at interdomain edges explains a number of experimental observations, including annularly shaped long-rod domains, and a nonmonotonic dependence of edge twist on domain radius. Our work shows how coupling between orientational and compositional degrees of freedom in two-dimensional fluids gives rise to complex shapes of fluid domains, analogous to shape transitions in 3D fluid vesicles.

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Lipshitz, L., et Z. Robinson. « One-dimensional fibers of rigid subanalytic sets ». Journal of Symbolic Logic 63, n^o 1 (mars 1998) : 83–88. http://dx.doi.org/10.2307/2586589.

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Let K be an algebraically closed field of any characteristic, complete with respect to the non-trivial ultrametric absolute value ∣·∣: K → ℝ+. By R denote the valuation ring of K, and by ℘ its maximal ideal. We work within the class of subanalytic sets defined in [5], but our results here also hold for the strongly subanalytic sets introduced in [11] as well as for those subanalytic sets considered in [6]. Let X ⊂ R1 be subanalytic. In [8], we showed that there is a decomposition of X as a union of a finite number of special sets U ⊂ R1 (see below). In this note, in Theorem 1.6, we obtain a version of this result which is uniform in parameters, thereby answering a question brought to our attention by Angus Macintyre. It follows immediately from Theorem 1.6 that the theory of K in the language (see [5] and [6]) is C-minimal in the sense of [3] and [9]. The analogous uniformity result in the p-adic case was recently proved in [12].Definition 1.1. (i) A disc in R1 is a set of one of the two following forms:A special set in R1 is a disc minus a finite union of discs.(ii) R-domains u ⊂ Rm, and their associated rings of analytic functions, , are defined inductively as follows. Rm is an R-domain and , the ring of strictly convergent power series in X1,…, Xm over K. If u is an R-domain with associated ring , (where K 〈X, Y〉〚ρ〛S is a ring of separated power series, see [5, §2] and [1, §1]) and f, have no common zero on u and ◸ ϵ {<, ≤}, thenis an R-domain andwhere J is the ideal generated by I and f − gZ (Z is a new variable) if ◸ is ≤, andwhere J is the ideal generated by I and f − gτ (τ a new variable) if ◸ is <. (See [8, Definition 2.2].) R-domains generalize the rational domains of [2, §7.2.3]. It is true, but not easy to prove, that only depends on u as a point set, and is independent of the particular representation of u.

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Han, Zejun, Mi Zhou, Xiaowen Zhou et Linqing Yang. « Dynamic Response of 3D Surface/Embedded Rigid Foundations of Arbitrary Shapes on Multi-Layered Soils in Time Domain ». International Journal of Structural Stability and Dynamics 19, n^o 09 (28 août 2019) : 1950106. http://dx.doi.org/10.1142/s0219455419501062.

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Significant differences between the predicted and measured dynamic response of 3D rigid foundations on multi-layered soils in the time domain were identified due to the existence of uncertainties, which makes the issue a complicated one. In this study, a numerical method was developed to determine the dynamic responses of 3D rigid surfaces and embedded foundations of arbitrary shapes that are bonded to a multi-layered soil in the time domain. First, the dynamic stiffness matrices of the rigid foundations in the frequency domain are calculated via integral domain transformation. Secondly, a dynamic stiffness equation for rigid foundations in the time domain is established via the mixed variables formulation, which is based on the discrete dynamic stiffness matrices in the frequency domain. The proposed method can be applied to the treatment of systems with multiple degrees of freedom without losing the true information that concerns the coupling characteristics. Numerical examples are presented to demonstrate the accuracy of the proposed method for predicting the horizontal, vertical, rocking, and torsional vibrations. Further, a parametric study was carried out to provide insight into the dynamic behavior of the soil–foundation interaction (SFI) while considering soil nonhomogeneity. The results indicate that the elastic modulus of the soil has a significant impact on the dynamic responses of the rigid foundation. Finally, a numerical example of a rigid foundation resting on a six-layered, semi-infinite soil demonstrates that the proposed method can be used to deal with multi-layered media in the time domain in a relatively easy way.

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Thèses sur le sujet "Rigid domain"

Wang, Zhicun. « Time-Domain Simulations of Aerodynamic Forces on Three-Dimensional Configurations, Unstable Aeroelastic Responses, and Control by Neural Network Systems ». Diss., Virginia Tech, 2004. http://hdl.handle.net/10919/11181.

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The nonlinear interactions between aerodynamic forces and wing structures are numerically investigated as integrated dynamic systems, including structural models, aerodynamics, and control systems, in the time domain. An elastic beam model coupled with rigid-body rotation is developed for the wing structure, and the natural frequencies and mode shapes are found by the finite-element method. A general unsteady vortex-lattice method is used to provide aerodynamic forces. This method is verified by comparing the numerical solutions with the experimental results for several cases; and thereafter applied to several applications such as the inboard-wing/twin-fuselage configuration, and formation flights. The original thought that the twin fuselage could achieve two-dimensional flow on the wing by eliminating free wing tips appears to be incorrect. The numerical results show that there can be a lift increase when two or more wings fly together, compared to when they fly alone. Flutter analysis is carried out for a High-Altitude-Long-Endurance aircraft wing cantilevered from the wall of the wind tunnel, a full-span wing mounted on a free-to-roll sting at its mid-span without and with a center mass (fuselage). Numerical solutions show that the rigidity added by the wall results in a higher flutter speed for the wall-mounted semi-model than that for the full-span model. In addition, a predictive control technique based on neural networks is investigated to suppress flutter oscillations. The controller uses a neural network model to predict future plant responses to potential control signals. A search algorithm is used to select the best control input that optimizes future plant performance. The control force is assumed to be given by an actuator that can apply a distributed torque along the spanwise direction of the wing. The solutions with the wing-tip twist or the wing-tip deflection as the plant output show that the flutter oscillations are successfully suppressed with the neural network predictive control scheme.
Ph. D.

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Kolhatkar, Tanmay. « Nonlinear dynamic interactions between a rigid attachment bolted to a thin-walled sheet metal structure ». The Ohio State University, 2020. http://rave.ohiolink.edu/etdc/view?acc_num=osu1587124580918153.

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Fabrèges, Benoit. « Une méthode de prolongement régulier pour la simulation d'écoulements fluide/particules ». Phd thesis, Université Paris Sud - Paris XI, 2012. http://tel.archives-ouvertes.fr/tel-00763895.

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Nous étudions dans ce travail une méthode de type éléments finis dans le but de simuler le mouvement de particules rigides immergées. La méthode développée ici est une méthode de type domaine fictif. L'idée est de chercher un prolongement régulier de la solution exacte à tout le domaine fictif afin d'obtenir une solution régulière sur tout le domaine et retrouver l'ordre optimal de l'erreur avec des éléments d'ordre 1. Le prolongement régulier est cherché en minimisant une fonctionnelle dont le gradient est donné par la solution d'un nouveau problème fluide faisant intervenir une distribution simple couche dans le second membre. Nous faisons une analyse numérique, dans le cas scalaire, de l'approximation de cette distribution par une combinaison de masse de Dirac. Un des avantages de cette méthode est de pouvoir utiliser des solveurs rapides sur maillages cartésiens tout en conservant l'ordre optimal de l'erreur. Un autre avantage de la méthode vient du fait que les opérateurs ne sont pas modifiés, seul les seconds membres dépendent de la géométrie du domaine initial. Nous avons de plus écrit un code C++ parallèle en deux et trois dimensions, permettant de simuler des écoulements fluide/particules rigides avec cette méthode. Nous présentons ainsi une description des principales composantes de ce code.

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Jean-François, Frantz. « Vers un nouveau mode d’action de peptides antimicrobiens structurés en feuillets ß : formation de domaines membranaires par la cateslytine ». Thesis, Bordeaux 1, 2008. http://www.theses.fr/2008BOR13638/document.

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Le peptide antimicrobien Cateslytine (bCGA RSMRLSFRARGYGFR ) inhibe la libération des catécholamines des cellules chromaffines. Des études biologiques ont montré que ce peptide est capable d’inhiber aussi la croissance de nombreux microorganismes notamment des bactéries, des levures ainsi que le parasite Plasmodium falciparum responsable de la malaria. Cependant, le mode d’action moléculaire demeurait inconnu. Afin de mieux comprendre le ciblage et la sélectivité de ce peptide sur les membranes de mammifères ou de microorganismes, nous avons donc envisagé la reconstitution du système biologique composé initialement de peptides en contact avec des cellules, en le substituant par des modèles de membrane, de composition mimant celle des différents microorganismes. Des études structurales ont été menées en utilisant la technique d’ATR-FTIR polarisé, le dichroïsme circulaire et la RMN à haute résolution. La dynamique membranaire a été étudiée en utilisant la RMN des solides du phosphore et du deutérium. Des expériences de patch-clamp ont été effectuées afin de mesurer des flux d’ions au travers de la membrane. Enfin, de la simulation par ordinateur a permis de comprendre cette interaction au niveau moléculaire. Trois résultats principaux sont ressortis de cette approche pluridisciplinaire : i) Des flux ioniques au travers de la membrane attestent de la présence de cannaux. ii) La formation de domaines membranaires rigides constitués de lipides chargés négativement est démontrée. iii) Une structuration des peptides en feuillets ß antiparallèles est observée sur des membranes chargées négativement mimant les microorganismes. L’ensemble de ces résultats conduit à la proposition d’un mode d’action dans lequel la déstabilisation membranaire est induite par les domaines rigides stabilisés par les agrégats de peptides structurés en feuillets ß
The antimicrobial peptide Cateslytin (bCGA RSMRLSFRARGYGFR ) is a five positively charged arginin rich peptide known to inhibit the release of catecholamine in chromaffin granules. Although biological data showed that it is able to inhibit the growth of several microorganisms such as bacteria, yeast and Plasmodium falciparum parasite involved in malaria, the mechanism of action has not been yet studied. In order to better understand both targeting and selectivity of this peptide towards microorganisms, model membranes of variable compositions have been chosen to respectively mimic microorganisms or mammalian membranes. Structural studies have been performed using polarised ATR-FTIR, circular dichroïsm and high resolution NMR Membrane dynamics has been followed using deuterium labelled lipids and solid state NMR Patch clamp experiments were also performed on lipid vesicles to measure channe conductivity. All-atom molecular dynamics on hydrated peptide-lipid membrane systems was also used to assess the interaction from the atomic level. Main results from this interdisciplinary approach are three-fold. i) Electric current passages through membranes demonstrate permeation akin to pore formation. ii) Peptide-induced formation of rigid domains mainly made of negatively charged lipids is found. iii) Peptide antiparallel ß-sheets are observed preferentially with negatively charged lipids mimicking microorganism membranes. The general picture leads to the proposal that membrane destabilization/permeation is promoted by rigid domains stabilised by peptide ß-sheets

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Sykala, Filip. « Grafické intro 64kB s použitím OpenGL ». Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2012. http://www.nusl.cz/ntk/nusl-236468.

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Master's Thesis is about the techniques of creating a small executable program with size limited to 64kB. Describes one of the possible ways to use OpenGL for such purposes. With more detail describe the rigid body simulation, creating shaders, dynamic generating of texture and make music in intro scene applications. Presents using of WinApi to create windows, V2 synthetizer for sound and GLSL language for creating shaders. Everything is demonstratively created under Windows.

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Catterall, Robert Charles. « State-space modeling of the rigid-body dynamics of a Navion airplane from flight data, using frequency-domain identification techniques ». 2003. http://etd.utk.edu/2003/CatterallRobert.pdf.

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Thesis (M.S.)--University of Tennessee, Knoxville, 2003.
Title from title page screen (viewed Sept. 15, 2003). Thesis advisor: Ralph Kimberlin. Document formatted into pages (viii, 131 p. : ill. (some col.)). Vita. Includes bibliographical references (p. 45-49).

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Bettadapura, Raghu Prasad Radhakrishna. « Flexible fitting in 3D EM ». 2012. http://hdl.handle.net/2152/19478.

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In flexible fitting, the high-resolution crystal structure of a molecule is deformed to optimize its position with respect to a low-resolution density map. Solving the flexible fitting problem entails answering the following questions: (A) How can the crystal structure be deformed? (B) How can the term "optimum" be defined? and (C) How can the optimization problem be solved? In this dissertation, we answer the above questions in reverse order. (C) We develop PFCorr, a non-uniform SO(3)-Fourier-based tool to efficiently conduct rigid-body correlations over arbitrary subsets of the space of rigid-body motions. (B) We develop PF2Fit, a rigid-body fitting tool that provides several useful definitions of the optimal fit between the crystal structure and the density map while using PFCorr to search over the space of rigid-body motions (A) We develop PF3Fit, a flexible fitting tool that deforms the crystal structure with a hierarchical domain-based flexibility model while using PF2Fit to optimize the fit with the density map. Our contributions help us solve the rigid-body and flexible fitting problems in unique and advantageous ways. They also allow us to develop a generalized framework that extends, breadth-wise, to other problems in computational structural biology, including rigid-body and flexible docking, and depth-wise, to the question of interpreting the motions inherent to the crystal structure. Publicly-available implementations of each of the above tools additionally provide a window into the technically diverse fields of applied mathematics, structural biology, and 3D image processing, fields that we attempt, in this dissertation, to span.
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Sun, Qinghe. « Rigid and strongly rigid relations on small domains ». Thèse, 2018. http://hdl.handle.net/1866/21749.

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Livres sur le sujet "Rigid domain"

Sundaresan, Sandhya, et Thomas McFadden. The articulated v layer : evidence from Tamil. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198767886.003.0007.

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This chapter argues for a particular articulation of the functional domain immediately above the verb, what is called the “v layer.” The crucial evidence comes primarily from the Dravidian language Tamil, in comparison with relevant phenomena in other languages. Tamil has a series of agglutinative verbal suffixes, each related to a different aspect of the syntax and semantics of voice (broadly construed), which can combine flexibly with one another, but only in one particular order. This leads to a breakdown of Kratzer’s (1996) Voice or Chomsky’s (1995) v into a layer consisting of at least four distinct functional heads in a rigid sequence above the root: Pass(ive) > Mid(dle) > Voice > vcause.

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Chapitres de livres sur le sujet "Rigid domain"

Flynn, Emily, et Ileana Streinu. « Consistent Visualization of Multiple Rigid Domain Decompositions of Proteins ». Dans Bioinformatics Research and Applications, 151–62. Cham : Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-38782-6_13.

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Cerrito, Serenella, et Marta Cialdea Mayer. « Free-Variable Tableaux for Constant-Domain Quantified Modal Logics with Rigid and Non-rigid Designation ». Dans Automated Reasoning, 137–51. Berlin, Heidelberg : Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/3-540-45744-5_11.

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Todorov, Ilian, Laurence Ellison et William Smith. « Rigid Body Molecular Dynamics within the Domain Decomposition Framework of DL_POLY_4 ». Dans Lecture Notes in Computer Science, 429–35. Berlin, Heidelberg : Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-39958-9_40.

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Mathews, I. C., et S. Newhouse. « A Comparison between Time and Frequency Domain Approaches for Rigid Body Scattering Problems ». Dans Fluid Mechanics and Its Applications, 235–44. Dordrecht : Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-015-9095-2_26.

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Wu, Shifeng, et Li Yuan. « An Improved Fictitious Domain Method for Simulating Sedimenting Rigid Particle in a Viscous Fluid ». Dans Communications in Computer and Information Science, 450–59. Berlin, Heidelberg : Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-53962-6_40.

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Han, Zejun, Gao Lin et Jianbo Li. « Time Domain Analysis of Dynamic Response for 3D Rigid Foundation on Multi-layered Soil ». Dans Seismic Design of Industrial Facilities, 615–26. Wiesbaden : Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-02810-7_51.

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Dubrovina, Anastasia, Yonathan Aflalo et Ron Kimmel. « Non-rigid Shape Correspondence Using Surface Descriptors and Metric Structures in the Spectral Domain ». Dans Mathematics and Visualization, 275–97. Cham : Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-24726-7_13.

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Bishop, Stephanie C., Shyam Mehta, Kim K. Colvert, Daxin Zheng, Mark L. Richter, Cindy L. Berrie et Fei Gao. « Insertion of a Rigid Structural Element into the Regulatory Domain of the Chloroplast F1-ATPase Gamma Subunit for Rotational Studies ». Dans Advanced Topics in Science and Technology in China, 418–22. Berlin, Heidelberg : Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-32034-7_87.

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Erickson, Harold P. « A New Model for Actin — A Rigid Helical Backbone with Flexible Outer Domains ». Dans Springer Series in Biophysics, 54–56. Berlin, Heidelberg : Springer Berlin Heidelberg, 1989. http://dx.doi.org/10.1007/978-3-642-73925-5_10.

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Phan-Thien, Nhan, et Sangtae Kim. « Multipole Expansion and Rigid Inclusions ». Dans Microstructures in Elastic Media. Oxford University Press, 1994. http://dx.doi.org/10.1093/oso/9780195090864.003.0004.

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In the previous chapter, we showed how various integral representations arise in the theory of elasticity. All of these representations can be thought of as a surface distribution of various types of singularity solutions. One can go a step further and consider either a finite pointwise or a continuous line, surface, or volume distribution of some suitable singularity solutions; the points on which the singularity solutions reside may not necessarily coincide with points on the surface of the domain. In fact, one may wish to include in the distribution any solution of the Navier equations, not necessarily singular. Such an approach is known as the method of fundamental solution, or simply the singularity method. It has been well developed in Stokes flow, mostly in relation to slender body motion, but to a lesser extent in the theory of elasticity. The method lacks a rigorous theoretical foundation, but is easy to implement numerically, since there is no singular integral to be considered. In the boundary element literature, it is sometimes known as Trefftz method, or the indirect discrete method (Patterson et al.). In this chapter, we will look at some of the elements of the method, namely, the singularity solutions, the far-field expansion (multipole expansion) and some related topics. In the search for suitable solutions of the Navier equations, we may seek guidance from general representations (i.e., general solutions of the Navier equations); the most well known is the Papkovich-Neuber solution.

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Actes de conférences sur le sujet "Rigid domain"

Luo, Hai, Xiaojie Huang, Wenyu Pan, Heqin Zhou et Huanqing Feng. « A frequency domain based rigid motion artifact reduction algorithm ». Dans Sixth International Symposium on Multispectral Image Processing and Pattern Recognition, sous la direction de Jianguo Liu, Kunio Doi, Aaron Fenster et S. C. Chan. SPIE, 2009. http://dx.doi.org/10.1117/12.832528.

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Fang, Qi, Andrea Curatolo, Philip Wijesinghe, Juliana Hamzah, Ruth Ganss, Peter B. Noble, Karol Karnowski et al. « Ultrahigh resolution optical coherence elastography combined with a rigid micro-endoscope (Conference Presentation) ». Dans Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXI, sous la direction de Joseph A. Izatt, James G. Fujimoto et Valery V. Tuchin. SPIE, 2017. http://dx.doi.org/10.1117/12.2254815.

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Preisighe Viana, Marcus Vinicius. « Time-Domain System Identification of Rigid-Body Multipoint Loads Model ». Dans AIAA Atmospheric Flight Mechanics Conference. Reston, Virginia : American Institute of Aeronautics and Astronautics, 2016. http://dx.doi.org/10.2514/6.2016-3706.

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Nasihatkon, Behrooz, Frida Fejne et Fredrik Kahl. « Globally Optimal Rigid Intensity Based Registration : A Fast Fourier Domain Approach ». Dans 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR). IEEE, 2016. http://dx.doi.org/10.1109/cvpr.2016.639.

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Grant, Robert, Richard Litton, Lyle Finn, Jim Maher et Kostas Lambrakos. « Highly Compliant Rigid Risers : Field Test Benchmarking a Time Domain VIV Algorithm ». Dans Offshore Technology Conference. Offshore Technology Conference, 2000. http://dx.doi.org/10.4043/11995-ms.

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Xi, Zhonghua, et Jyh-Ming Lien. « Plan folding motion for rigid self-folding machine via discrete domain sampling ». Dans 2015 IEEE International Conference on Robotics and Automation (ICRA). IEEE, 2015. http://dx.doi.org/10.1109/icra.2015.7139601.

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Park, Young H. « Rigid-Plastic Meshfree Method for Metal Forming Simulation ». Dans ASME 2003 Pressure Vessels and Piping Conference. ASMEDC, 2003. http://dx.doi.org/10.1115/pvp2003-1907.

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In this paper, material processing simulation is carried out using a meshfree method. With the use of a meshfree method, the domain of the workpiece is discretized by a set of particles without using a structured mesh to avoid mesh distortion difficulties which occurred during the course of large plastic deformation. The proposed meshfree method is formulated for rigid-plastic material. This approach uses the flow formulation based on the assumption that elastic effects are insignificant in the metal forming operation. In the rigid-plastic analysis, the main variable of the problem becomes flow velocity rather than displacement. A numerical example is solved to validate the proposed method.

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Aksoy, Timur, Stefanie Demirci, Muzaffer Degertekin, Nassir Navab et Gozde Unal. « Template-based CTA X-ray angio rigid registration of coronary arteries in frequency domain ». Dans SPIE Medical Imaging, sous la direction de David R. Holmes et Ziv R. Yaniv. SPIE, 2013. http://dx.doi.org/10.1117/12.2007963.

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Elgohary, Tarek A., et James D. Turner. « Generalized Frequency Domain Solution for a Hybrid Rigid Hub Timoshenko Beam Rotating Aerospace Structure ». Dans AIAA/AAS Astrodynamics Specialist Conference. Reston, Virginia : American Institute of Aeronautics and Astronautics, 2014. http://dx.doi.org/10.2514/6.2014-4121.

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Li, Lin, et Muk Chen Ong. « A Preliminary Study of a Rigid Semi-Submersible Fish Farm for Open Seas ». Dans ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/omae2017-61520.

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The development of reliable fish farm structures for open seas becomes more and more important. One of the challenges is to design a robust structure to withstand the harsh offshore environmental loads. This paper investigates a semi-submersible type offshore fish farm system for open seas. This system consists of a semi-submersible support structure with pontoons and braces, a catenary mooring system and net cages. The support structure is designed to be rigid to resist severe offshore conditions. A preliminary hydrodynamic and response analysis is carried out for this concept. The linear hydrodynamic properties using different composite models with panel and Morison elements are computed. Based on the hydrodynamic analysis, linearised frequency-domain and coupled time-domain analysis are performed to predict the extreme motions of the support structure and the extreme tensions in the mooring lines. The results indicate that the frequency-domain method underestimates the extreme responses, and the couplings between the structure and the mooring system need to be considered in the time-domain. Responses using various hydrodynamic models are also compared to evaluate the influences of the viscous effects from the pontoons and the nets of this fish farm concept.

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Rapports d'organisations sur le sujet "Rigid domain"

Mohanty, Shaktiranjan, Minaxi Sharma, Ashish Kumar Moharana, Brindaban Ojha, Esita Pandey, Braj Bhusan Singh et Subhankar Bedanta. Magnetization Reversal and Domain Structures in Perpendicular Synthetic Antiferromagnets Prepared on Rigid and Flexible Substrates. Peeref, octobre 2022. http://dx.doi.org/10.54985/peeref.2210p5225446.

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