Tesis sobre el tema "Very Large Floating Structures"
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Carter, Benjamin. "Water-wave propagation through very large floating structures". Thesis, Loughborough University, 2012. https://dspace.lboro.ac.uk/2134/12031.
Texto completoCrema, Ilaria [Verfasser] y Hocine [Akademischer Betreuer] Oumeraci. "Oscillating water column wave energy converters integrated in very large floating structures / Ilaria Crema ; Betreuer: Hocine Oumeraci". Braunschweig : Technische Universität Braunschweig, 2018. http://d-nb.info/1175815357/34.
Texto completoJin, Jingzhe. "A mixed mode function : boundary element method for very large floating structure : water interaction systems excited by airplane landing impacts". Thesis, University of Southampton, 2008. https://eprints.soton.ac.uk/52018/.
Texto completoTalamini, Brandon Louis. "Simulation of deformation and fracture in very large shell structures". Thesis, Massachusetts Institute of Technology, 2015. http://hdl.handle.net/1721.1/103420.
Texto completoThis electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.
Cataloged from student-submitted PDF version of thesis.
Includes bibliographical references (pages 207-221).
Although advances in computing have increased the limits of three-dimensional computational solid mechanics, structural elements remain essential in the practical design of very large thin structures such as aircraft fuselages, ship hulls, automobiles, submarines, and pressure vessels. In many applications, fracture is a critical design concern, and thus the ability to numerically predict crack propagation in shells is a highly desirable goal. There are relatively few tools devoted to computational shell fracture, and of the existing approaches, there are two main defects: First, the existing methods are not scalable, in the sense of parallel computing, and consequently simulation of large structures remains out of reach. Second, while the existing approaches treat in-plane tensile failure, fracture due to transverse shearing has largely been ignored. In this thesis, a new computational framework for simulating deformation and fracture in large shell structures is presented that is well-suited to parallel computation. The scalability of the framework derives from the combination of a discontinuous Galerkin (DG) finite element method with an interface element-based cohesive zone representation of fracture. This representation of fracture permits arbitrary crack propagation, branching, and merging, without on-the-fly mesh topological changes. Furthermore, in parallel computing, this propagation algorithm is indifferent to processor boundaries. The adoption of a shear-flexible shell theory is identified as a necessary condition for modeling transverse shear failure, and the proposed method is formulated accordingly. Locking is always an issue that emerges in numerical analysis of shear-flexible shells; here, the inherent flexibility afforded by DG methods in the choice of approximation spaces is exploited to prevent locking naturally, without recourse to mixed methods or reduced integration. Hence, the DG discretization elegantly solves both the problems of scalability and locking simultaneously. A stress resultant-based cohesive zone theory is proposed that considers transverse shear, as well as bending and in-plane membrane forces. The theory is quite general, and the specification of particular constitutive relations, in the form of resultant traction-separation laws, is independent of the discretization scheme. Thus, the proposed framework should be extensible and useful for a variety of applications. A detailed description of the implementation strategy is provided, and numerical examples are presented which demonstrate the ability of the framework to capture all of the relevant modes of fracture in thin bodies. Finally, a numerical example of explosive decompression in a commercial airliner is shown as evidence that the proposed framework can successfully perform shell fracture simulations of unprecedented size.
by Brandon Louis Talamini.
Ph. D.
Gordon, Christal. "An adaptive floating-gate network using action-potential signaling". Thesis, Georgia Institute of Technology, 2000. http://hdl.handle.net/1853/15683.
Texto completoKucic, Matthew R. "Analog programmable filters using floating-gate arrays". Thesis, Georgia Institute of Technology, 2000. http://hdl.handle.net/1853/13755.
Texto completoTwigg, Christopher M. "Floating Gate Based Large-Scale Field-Programmable Analog Arrays for Analog Signal Processing". Diss., Georgia Institute of Technology, 2006. http://hdl.handle.net/1853/11601.
Texto completoPonchio, Federico [Verfasser]. "Multiresolution structures for interactive visualization of very large 3D datasets / submitted by Federico Ponchio". [Clausthal-Zellerfeld] : [Univ.-Bibliothek], 2009. http://d-nb.info/997062789/34.
Texto completoGray, Jordan D. "Application of Floating-Gate Transistors in Field Programmable Analog Arrays". Thesis, Georgia Institute of Technology, 2005. http://hdl.handle.net/1853/7540.
Texto completoChe, Xiling. "Techniques for hydroelastic analysis of very large floating structures". Thesis, 1993. http://hdl.handle.net/10125/10007.
Texto completoWang, Suqin. "Evaluation of flexible hull types for very large floating structures". Thesis, 1995. http://hdl.handle.net/10125/10011.
Texto completoCHEN, WEI-HAN y 陳暐翰. "A Study of Offshore Wind Turbines Combined with Very Large Floating Structures". Thesis, 2018. http://ndltd.ncl.edu.tw/handle/z3bk47.
Texto completo逢甲大學
土木工程學系
106
Wind power generation is one of the well-known clean energy source. It is one of the focuses of many countries in the world, and there are many factors that must be considered in the design and assembly of wind turbines, such as aerodynamics, oceanography and the motion of the floating structures, etc. The purpose of current study is to use the connection of floating modules with the offshore wind turbines to maintain the stability of overall floating structures on the sea surface. Review of the previous literatures, a new method by a combination of “Nonlinear network dynamics of flexibility connected multi-modules very large floating structures” and “Spar-type offshore wind turbines” has been develop to perform the current study.
Crema, Ilaria. "OSCILLATING WATER COLUMN WAVE ENERGY CONVERTERS INTEGRATED IN VERY LARGE FLOATING STRUCTURES". Doctoral thesis, 2017. http://hdl.handle.net/2158/1152946.
Texto completoMALLA, RAMESH BABU. "DYNAMIC AND THERMAL EFFECTS IN VERY LARGE SPACE STRUCTURES". 1986. https://scholarworks.umass.edu/dissertations/AAI8701196.
Texto completoZJAO, JIE-YUAN y 趙介元. "Study of gate structures on silicon in very-large-scaled integration". Thesis, 1987. http://ndltd.ncl.edu.tw/handle/77035015712817202771.
Texto completoLuo, Sifen. "Analysis and applications of layered multiconductor coupled slot and strip-slot structures". Thesis, 1993. http://hdl.handle.net/1957/36174.
Texto completoGraduation date: 1994
Nguyen, Xuan Thong 1965. "Smart VLSI micro-sensors for velocity estimation inspired by insect vision / by Xuan Thong Nguyen". 1996. http://hdl.handle.net/2440/18756.
Texto completoxxii, 203 leaves : ill. ; 30 cm.
Title page, contents and abstract only. The complete thesis in print form is available from the University Library.
In this thesis insect vision principles are applied to the main mechanism for motion detection. Advanced VLSI technologies are employed for designing smart micro-sensors in which the imager and processor are integrated into one monolithic device.
Thesis (Ph.D.)--University of Adelaide, Dept. of Electrical and Electronic Engineering, 1996
Nguyen, Xuan Thong 1965. "Smart VLSI micro-sensors for velocity estimation inspired by insect vision / by Xuan Thong Nguyen". Thesis, 1996. http://hdl.handle.net/2440/18756.
Texto completoxxii, 203 leaves : ill. ; 30 cm.
In this thesis insect vision principles are applied to the main mechanism for motion detection. Advanced VLSI technologies are employed for designing smart micro-sensors in which the imager and processor are integrated into one monolithic device.
Thesis (Ph.D.)--University of Adelaide, Dept. of Electrical and Electronic Engineering, 1996
Δημητρακόπουλος, Γεώργιος. "Μονάδες επεξεργασίας δεδομένων για μικροεπεξεργαστές υψηλών αποδόσεων". Thesis, 2006. http://nemertes.lis.upatras.gr/jspui/handle/10889/1480.
Texto completoData processing units (or simply datapath) constitute a major part of all microprocessors. They take over the execution of all arithmetic operations either of fixed point or floating-point data, while they are also responsible for the execution of the needed data rearrangements in order to speed up the computation. In application-specific processors used for media and graphics applications, datapath circuits occupy more than one third of the processor’s core area and their efficient design directly affects the energy-delay behavior of the whole circuit. In the near future, it is expected that even general-purpose processors will be equipped we specialized accelerators that will execute directly in hardware complex algorithms with large computational demands. The basis of all circuits presented in this thesis is the derivation of an inherently simpler algorithm that would allow their efficient implementation irrespective the technology used and the constraints that would be imposed in the future, concerning the reliable and more predictable circuit fabrication in very deep submicron technologies. Our analysis relies on full-custom transistor-level designs that is the most common technique employed in high-performance microprocessor design. The performance of some of the presented circuits has also been investigated using an automated design flow. It is expected that, in these cases, the performance of the presented circuits will be aggravated due to the limitations imposed by the design automation tools and the available standard cell library. In this study, we aim at fully exploring the design space of our circuits. For this reason, we derived an optimal energy-delay curve for each one of the examined circuits in order to analyze its behavior. An energy-delay curve is the most reliable metric for presenting the performance of a circuit and allows the designer to perform a fair comparison among various design alternatives and circuit topologies. The new circuits presented in this thesis belong to three categories. In the first class, we find the parallel prefix adders that adopt the carries proposed by Ling. These carries are a simplified form of the classic carry lookahead equations and they are used at the moment in the majority of commercial high-speed microprocessors. The newly proposed circuits are based on a transformation of the Ling carries that leads to more efficient parallel prefix structures, which are better suited for Ling-carry computation. This new technique offers faster implementations irrespective the logic family used (either static or dynamic CMOS) and the prefix structure selected for the implementation. The second class refers to circuits that rearrange the data stored inside one or more of the processor’s registers. Efficient data rearrangement ends up being, in many cases, such as cryptography, digital signal processing, and multimedia applications, as essential as the fast implementation of basic arithmetic operations and the high bandwidth processor-memory communication. Our effort has focused on the efficient implementation of one of the most versatile permutation instruction, aiming to the reduction of the delay of the corresponding circuit. The design of the proposed permutation units is put under a common framework and their functionality resembles that of sorting networks. All the presented variants are designed using a single processing element (different for each sorting network) and have a very regular structure. This fact significantly contributes to the delay reduction because of the regular placement of the circuits’ cells that also alleviates the interconnect delay overhead. The last class of circuits is used for the implementation of high-speed floating-point units. The proposed circuits participate in two of the most time critical parts of any floating-point adder that is the significand (or fraction) adder and the result normalization unit. At first, we describe an alternative implementation of the significant adder that employs the one’s complement representation in order to reduce the delay of the circuit. The proposed parallel-prefix structures are derived using a general design methodology that leads to efficient designs irrespective the wordlength of the input operands. Also, we managed for the first time to produce simplified parallel-prefix carry computation units for the case of one’s complement addition that rely on the definition of Ling carries. Secondly, we describe a simple and practical algorithm for counting the number of leading zeros that may appear in the result of floating-point addition. New circuits are also presented that simplify the design of the corresponding leading zero anticipation logic. Using the proposed structures, normalization can be performed with less delay and significantly reduced power dissipation compared to already known implementations.