Global ETD Search

131	Design and simulation of a Kalman filter for ROV navigation Steinke, Dean 03 December 2009 (has links) This work examines the design of a Kalman filter based navigation algorithm for the Canadian Scientific Submersible Facility's (CSSF) ROPOS ROV. The 5000m ROV is typically hired by scientists to deploy and recover small scientific instrumentation packages on the sea floor, and collect subsea biological and geological samples. To efficiently complete these tasks a navigation system that can provide a global positioning accuracy of +/-2.5m is required. However. the ROPOS navigation system presently relies on noisy USBL acoustic positioning measurements (+/- 15m at 2500m). To overcome the limitations of the USBL signal and increase the navigation system accuracy. it is proposed that a depth sensor, Doppler velocity log and OCTANS gyrocompass be used in conjunction with a model-based extended Kalman filter (EKF) algorithm to provide a single navigation data stream. To examine the efficacy of the proposed solution. non-linear models of the ROPOS ROV and its tether are presented. Parameters are identified for both the ROPOS and tether models, and the models are coupled. permitting realistic dynamic simulation of the ROPOS system. A virtual pilot, based on a PID automatic control scheme. is created to fly the virtual ROPOS vehicle between waypoints in the simulation. An instrument simulator is developed that is capable of producing asynchronous measurement data from virtual instruments. Using this simulation facility, realistic ROPOS maneuvers are executed. During the simulations, ROPOS' virtual instruments (depth sensor, DVL, USBL and OCTANS) produce pseudo-measurements that are typical of the real ROPOS sensor suite. These measurements are fed to the EKF navigation algorithm. This work successfully showed that the EKF filter framework can be used to blend ROPOS's asynchronous sensor data, such that a navigation accuracy of ≈2.5m RMS is produced. It is found that without the OCTANS instrument. the advanced ROV process model permits robust filter operation. even in cases of USBL and/or DVL drop-out. In the case where the OCTANS instrument is providing velocity data, the filter does not require an advanced ROV process model within the EKF in order to maintain filter accuracy during USBL and DVL dropout. Rather. accuracy is sufficiently maintained with a simple constant velocity model of the vehicle motion. However, it was also shown that the ROPOS velocity signal estimation can be greatly enhanced by the advanced ROPOS process model. It was also found that that the tether effects are paramount in the advanced ROPOS process model. When the tether disturbances are not sensed. the advanced model position-estimation performance is equivalent to a constant velocity process model. remote submersibles Kalman filtering
132	Metodologia numérica para estimativa da manobrabilidade de veículos autônomos submarinos. / Numerical methodology for estimating the maneuverability of underwater autonomous vehicles. João Lucas Dozzi Dantas 26 May 2014 (has links) O uso de modelos de manobras representa um auxilio importante no projeto de veículos marinhos, permitindo a verificação do desempenho destes veículos, desenvolver o sistema de piloto automático, dentre outras aplicações durante a fase de projeto. Na área de veículos submarinos, seus modelos são tradicionalmente baseados em equações de movimento que incluem expressões polinomiais para representar os esforços hidrodinâmicos. Estes modelos são derivados de uma expansão em série de Taylor de forças e momentos, sendo representados em função das variáveis de movimento. Entretanto, estes modelos limitam a representatividade dos esforços hidrodinâmicos, e, especialmente para os termos de segunda ou mais altas ordens, eles requerem ensaios custosos em tanque de provas para identificar corretamente cada um dos coeficientes polinomiais. Esta dependência em ensaios de tanque de provas tem um impacto critico, ou até mesmo não realístico, durante o desenvolvimento de veículos autônomos submarinos, AUVs, de baixo ou médio custo. Utilizando métodos atuais da fluidodinâmica computacional (CFD), este trabalho propõe um roteiro alternativo para definir os modelos de manobras não lineares para uma classe de AUVs. As simulações de CFD, verificados e validados por normas rigorosas, são utilizados como base para derivar as funções não lineares que representam os esforços hidrodinâmicos, devido variações na velocidade lateral, velocidade angular e deflexão dos lemes. A abordagem numérica é complementada pelo uso de modelos analíticos e semi-empíricos oriundos da indústria de mísseis, que tiveram que ser melhorados com informações retiradas das simulações de CFD. Ajustes adicionais e derivações nos intervalos de confiança para as estimativas produzidas por métodos numéricos também são fornecidos pelo uso de modelos analíticos e semi-empíricos. Adotando o AUV Pirajuba como caso de estudo, a validação dos modelos de manobra foi realizada em duas etapas. Primeiro, são comparadas as estimativas dos esforços hidrodinâmicos com as medições em tanque de provas de um modelo cativo, e em seguida a resposta dinâmica dos modelos de manobras são comparadas com aquelas obtidas por ensaios em mar, sempre utilizando critérios de verificação e validação. Este tipo de análise indicou uma validação dos esforços hidrodinâmicos e do movimento para grande parte dos ensaios, sendo que nos demais casos o AUV teve seu comportamento dinâmico bem reproduzido. Este resultado demonstra que a metodologia proposta pode ser utilizada para estimar o modelo de manobra de um AUV típico, gerando uma solução de menor custo para a fase de desenvolvimento destes veículos. / The use of maneuvering models represents an important assistance in the project of marine vessels, allowing for the evaluation of the vehicle performance, the autopilot system development, among other tasks during the design phase. In the field of underwater vehicles, those models commonly are based on equations of motion that include polynomial expressions for representing the hydrodynamic efforts. They are derived from Taylor series expansion of forces and moments represented as functions of the motion variables. However, those models limit the representativeness of the hydrodynamic efforts, and, especially for the second order or higher terms, they require expensive trials in towing tank facilities to correctly identify each polynomic coefficient. This dependence on intensive tank tests has a critical impact, or is even unrealistic during the development of middle or low cost autonomous underwater vehicles, AUVs. Using current methods of computational fluid dynamics (CFD), this work proposes an alternative roadmap to construct nonlinear manoeuvring models, which can be applied to a class of AUVs. CFD simulations, verified and validated by rigorous standards, are used as basis to derive nonlinear functions that represent the hydrodynamic efforts due to variations in lateral velocity, angular rate and rudder deflection. The numerical approach is complemented by the use of analytical and semi-empirical models derived from missile industry, which have been improved according to the information taken from the CFD simulations. Further adjustments and derivation of confidence intervals to the estimates produced by the numerical method are also provided by the use of analytical and semi-empirical models. Adopting the Pirajuba AUV as a test bed, the manoeuvring model validation was carried out in two stages. Firstly, estimates of hydrodynamic efforts are compared with measurements obtained from experiments using a captive model in a towing tank. In the second step, the dynamic response predicted by the maneuvering model was compared with the output measured during free model trials. This type of analysis validated the hydrodynamic efforts and motion in most of the experiments, whereas for the remaining cases the AUV had its dynamic behavior well reproduced. This result demonstrates that the proposed methodology can be used to estimate the maneuvering model of a typical type AUV, generating a lower cost solution for the development phase of the vehicle. Hidrodinâmica Sistemas autônomos Submersíveis não tripulados Autonomous systems Hydrodynamic Unmanned submersibles
133	Avaliação da aplicação de método de painéis para estimativa de resistência de ondas de submersíveis. / Avaliation of the aplication of a panel method to estimate submersibles wave resistance. Alvaro Luiz Silvestre Nunes 27 June 2012 (has links) Submersíveis em velocidade constante e pequenas cotas de submersão são aqui considerados e os efeitos da superfície livre no fluxo são levados em conta. O problema de geração de onda devido ao avanço de corpos submersos é abordado no presente estudo. Neste problema de contorno, as condições de superfície livre são linearizadas. A formulação diferencial é condicionada como um problema de integração através da aplicação da segunda identidade de Green. A discretização do problema conduz a um sistema linear no potencial de velocidades, que se supõe ser distribuído através de B-splines parabólicas nos painéis. A contribuição desta dissertação tem foco em propor diretrizes para a aplicação do método descrito em condições operacionais típicas de cascos de submarinos em movimento de avanço em cotas periscópicas de submersão. Os resultados numéricos obtidos através destes procedimentos são comparados a resultados publicados existentes para sua de validação. / Submersibles in constant ahead velocity at small submergences are here considered, the free surface effects on the flow are taken into account. The wave generating problem due to submerged bodies advance is addressed in the present study. In this boundary value problem, the free surface conditions are linearized. The differential problem is conditioned into an integral problem through the application of Green\'s second identity. The discretization of the problem leads to a linear system in the velocity potential, that is supposed to be distributed according to parabolic B-splines into the panels. The contribution of this dissertation focus on guidelines for the application of the above method on typical operational conditions of submarine vessels under ahead motion at snorkelling submergences. The numerical results obtained through these procedures are compared to existent published results with the aim of validation. Método dos painéis Resistência de ondas Submersíveis Panel method Submersibles Wave resistance
134	Extensions of High-order Flux Correction Methods to Flows With Source Terms at Low Speeds Thorne, Jonathan L. 01 May 2015 (has links) A novel high-order finite volume scheme using flux correction methods in conjunction with structured finite difference schemes is extended to low Mach and incompressible flows on strand grids. Flux correction achieves high-order by explicitly canceling low-order truncation error terms in the finite volume cell. The flux correction method is applied in unstructured layers of the strand grid. The layers are then coupled together using a source term containing the derivatives in the strand direction. Proper source term discretization is verified. Strand-direction derivatives are obtained by using summation-by-parts operators for the first and second derivatives. A preconditioner is used to extend the method to low Mach and incompressible flows. We further extend the method to turbulent flows with the Spalart Allmaras model. We verify high-order accuracy via the method of manufactured solutions, method of exact solutions, and physical problems. Results obtained compare well to analytical solutions, numerical studies, and experimental data. It is foreseen that future application in the Naval field will be possible. Computational Fluid Dynamics Flux Correction Low-Mach Flow Preconditioning Source Terms Submersibles Mechanical Engineering
135	MEMS IMU inertial measurement unit one-way-travel-time inertial measurement unit autonomous underwater vehicles / Microelectromechanical systems inertial measurement unit OWTT inertial measurement unit AUVs Kepper, James H., IV January 2017 (has links) Thesis: S.M. in Oceanographic Engineering, Joint Program in Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Mechanical Engineering; and the Woods Hole Oceanographic Institution), 2017. / Cataloged from PDF version of thesis. / Includes bibliographical references (pages 83-87). / Recent advances in acoustic navigation methodologies are enabling the way for AUVs to extend their submerged mission time and maintain a bounded XY position error. Additionally, advances in inertial sensor technology have drastically lowered the size, power consumption, and cost of these sensors. Nonetheless, these sensors are still noisy and accrue error over time. This thesis builds on the research and recent developments in single beacon one-way-travel- time (OWTT) acoustic navigation and investigates the degree of bounding position error for small AUVs with a minimal navigation strap-down sensor suite, relying mostly on a consumer grade microelectromechanical system (MEMS) inertial measurement unit (IMU) and a vehicle's dynamic model velocity. An implementation of an Extended Kalman Filter (EKF) that includes IMU bias estimation and coupled with a range filter, is obtained in the field on two OceanServer Technology, Inc. Iver2 AUVs and one Bluefin Robotics SandShark [mu]AUV. Results from these field trials on Ashumet Pond of Falmouth, Massachusetts, the Charles River of Cambridge, Massachusetts, and Monterey Bay near Santa Cruz, California show a navigation solution accuracy comparable to current standard navigation techniques. / by James H. Kepper, IV. / S.M. in Oceanographic Engineering Mechanical Engineering. Woods Hole Oceanographic Institution. Sound Navigation Submersibles
136	Hydrodynamic behavior of packed-bed reactors on a floating platform : liquid distribution and drainage dynamics Zhang, Jian 01 April 2021 (has links) Pour combler l'écart entre l'augmentation de la demande énergétique et l'épuisement de la production d'hydrocarbures onshore, l'exploitation des hydrocarbures offshore est de plus en plus envisagée, en particulier les gisements de gaz / pétrole dans les eaux plus profondes. En attendant, un grand nombre d'unités de traitement déployées pour la production d'hydrocarbures doivent respecter les contraintes environnementales conçues pour la protection maritime. Les systèmes tels que les réacteurs et les épurateurs à lit fixe embarqués deviennent inévitablement l'une des options les plus prometteuses pour atteindre ces deux objectifs. De nombreux efforts dans la littérature pour dévoiler l'hydrodynamique de l'écoulement multiphasé dans les lits garnis révèlent que des défis persistent soit dans leur conception / mise à l'échelle, soit dans leurs opérations. De plus, exposer ces réacteurs à des conditions marines difficiles telles que la convolution de la dynamique des navires et de l'hydrodynamique à l'intérieur des réacteurs à lit fixe conduit à des situations encore plus compliquées pour maintenir des performances de fonctionnement acceptables dans les conditions flottantes. Un grand nombre de preuves issues de la littérature a jusqu'à présent mis en évidence l'échec des colonnes garnies avec des garnissages aléatoires, des garnissages structurés ou des mousses à alvéoles ouvertes, pour empêcher la maldistribution des liquides dans les lits fixes destinés à fonctionner à bord de navires ou de platesformes flottantes. Les efforts de recherche doivent donc se poursuivre dans le but de trouver des composants internes robustes et capables de résilience contre la maldistribution des liquides dans les réacteurs / unités de séparation gaz-liquide. Ce projet de doctorat s’est proposé des recherches visant dans un premier temps de tester des internes disponibles commercialement pouvant préserver des performances similaires à celles des unités terrestres classiques. Au meilleur de notre connaissance, la sensibilité et la susceptibilité des réacteurs monolithes à une mauvaise distribution soumis à des conditions offshore n'ont pas encore été étudiées. Plutôt que de se concentrer uniquement sur une étude des lits monolithiques, le chapitre 1 opte pour une campagne expérimentale plus large comprenant un garnissage aléatoire et un garnissage en mousse à cellules ouvertes pour des comparaisons systématiques de la distribution des liquides en conditions flottantes. La distribution liquide des colonnes embarquées garnies de divers garnissages et pour une large plage de débit gaz / liquide est systématiquement comparée à l'aide d'un capteur à treillis métallique (WMS) et d'un émulateur hexapode à six degrés de liberté. La vraisemblance de conditions météorologiques extracôtières rudes pourrait menacer la sureté de l'exploitation des lits fixes, en particulier dans des situations extrêmes telles que des cyclones, des épisodes d'icebergs, etc. Pour assurer la sécurité du personnel et des installations, l’opération des colonnes garnies à bord doit être immédiatement interrompue pour éviter des problèmes de sécurité critiques sous de telles circonstances. Par conséquent, la base de connaissances sur la dynamique de drainage des liquides dans les lits flottants est iv essentielle pour assurer une vidange rapide du liquide. Néanmoins, l'étude de la dynamique du drainage liquide des lits fixes en conditions flottantes est à tout le moins rare. Par conséquent, le chapitre 2 se propose de comparer expérimentalement le drainage du liquide dans des colonnes garnies dans les conditions marines à celui observé dans une colonne statique verticale à l’instar des applications terrestres. En dehors de cela, l'influence des mouvements du navire (par exemple, cavalement, embardée, pilonnement, roulis, tangage, et lacet) à différentes amplitudes et périodes d'oscillation sur la dynamique de drainage des liquides est étudiée pour approfondir nos connaissances. Parallèlement à l'étude expérimentale, un modèle numérique Euler-Euler transitoire et en trois dimensions est utilisé en complément pour tenter de prédire la dynamique du drainage des liquides dans les lits flottants. D'autres facteurs susceptibles d'affecter la dynamique de drainage sont analysés par la simulation numérique. Ainsi, le chapitre 3 met en évidence l'influence globale des propriétés des liquides, de la structure du lit et des types de mouvement associé à la sollicitation marine. Par ailleurs, la campagne expérimentale en fournissant des données mesurables a permis de valider le modèle dans les conditions de roulis et de tangage testées au laboratoire. / To fill the gap between increasing energy demand and depletion of onshore hydrocarbon production, offshore hydrocarbon exploitation is increasingly contemplated especially the gas/oil fields in the deeper water. Meantime, large amount of deployed processing units for hydrocarbon productions must comply with the environmental codes designated for maritime protection. Systems such as embarked packed-bed reactors and scrubbers inevitably become one of the most promising options to achieve both purposes. Numerous efforts in literature to unveil the hydrodynamics of multiphase flow in packed beds reveal that challenges persist either in their design/scale-up or during the operations. Moreover, exposing these reactors to harsh marine conditions such as the convolution of ship dynamics and hydrodynamics inside packed-bed reactors leads to even more complex situations to maintain the proper operation performance of packed-bed reactors under floating conditions. A lot of evidence from literature has pointed out the failure of random and structured packings and open-cell foams, to prevent liquid maldistribution in packed beds destined to operate on-board sailing ships and floating platforms. Research efforts must therefore continue in the quest for robust internals capable of resilience against liquid maldistribution in gas-liquid reactors/separation units. The proposed Ph.D. research aims at firstly following a sound path to adapt commercially existing internals being capable of preserving performance similar to landbased packed beds. To the best of literature exploring, the sensitivity and susceptibility of monolith reactors to maldistribution subjected to offshore conditions have yet to be investigated. Rather than focusing on a study of monolith beds alone, Chapter 1 opts for a broader experimental campaign including a random packing and an open-cell foam packing for the sake of systematic comparisons of the liquid distribution under floating conditions. Liquid distribution of embarked columns packed with various internals under wide gas/liquid flow range is systematically compared with the assistance of wire mesh sensor (WMS) and six-degree-of-freedom emulator hexapod. Severe offshore weather conditions threaten the operation safety of floating packed beds especially encountering extreme situations such as cyclone, iceberg episodes and so forth. To ensure the safety of staff and facilities, the onboard packed columns must be immediately shutdown to avoid critical safety concerns under such circumstances. Therefore, knowledgebase of liquid draining dynamics in floating packed beds is the essence to ensure timely discharge of liquid. Nevertheless, the study regarding liquid drainage dynamics of packed beds under floating conditions is scarce to say the least. Then, Chapter 2 compares liquid draining of packed columns embarking on floating platforms with static land-based one experimentally. Other than that, the influence of ship motions (e.g., roll, roll & pitch, heave etc.) with different oscillation amplitudes and periods on liquid draining dynamics is investigated to deepen the insights. vi In parallel with the experimental study, a 3D transient Euler-Euler CFD model is employed as a supplementary analysis to further deepen the understanding of liquid drainage dynamics in floating packed beds. More factors possibly affecting the draining dynamics are exploited by numerical simulation. Consequently, Chapter 3 highlights the comprehensive influence of liquid properties, bed structure and moving types instead of focusing on impact of movements alone. Meanwhile, with sufficient body of experimental campaign, the validity and accuracy of model are strongly endorsed. Plateformes semi-submersibles. Structures offshore mobiles. Technologie hydraulique. Ballottement (Hydrodynamique)
137	The response to ship motions of towed vehicles for use as oceanic microstructure measurement platforms Santora, Guy A. January 1985 (has links) The response to ship induced motions has been predicted for four towed underwater vehicles. The purpose of the study is to determine the suitability of these vehicles for their use as oceanic microstructure sensor carrying platforms. All have been used in the past for oceanic studies, and these four vehicles show the most promise for microstructure work. Transfer functions which describe the response of a towed vehicle have been determined, for longitudinal motions. Also, the motion spectra of the vehicles have been predicted for the longitudinal mode as a result of being towed by a typical research vessel in a sea state three. / M.S. LD5655.V855 1985.S268 Oceanographic research stations Oceanographic submersibles Ships -- Hydrodynamics Towing
138	Simulator and location-aware routing protocol for mobile ad hoc acoustic networks of AUVs Unknown Date (has links) Acoustic networks of autonomous underwater vehicles (AUVs) show great promise, but a lack of simulation tools and reliance on protocols originally developed for terrestrial radio networks has hindered progress. This work addresses both issues. A new simulator of underwater communication among AUVs provides accurate communication modeling and flexible vehicle behavior, while a new routing protocol, location-aware source routing (LASR) provides superior network performance. The new simulator was used to evaluate communication without networking, and then with networking using the coding or dynamic source routing (DSR) protocols. The results confirmed that a network was essential to ensure effective fleet-wide communication. The flooding protocol provided extremely reliable communication but with low message volumes. The DSR protocol, a popular routing protocol due to its effectiveness in terrestrial radio networks, proved to be a bad choice in an acoustic environment: in most cases, it suffered from both poor reliability and low message volumes. Due to the high acoustic latency, even moderate vehicle speeds caused the network topology to change faster than DSR could adapt. DSR's reliance on shortest-path routing also proved to be a significant disadvantage. Several DSR optimizations were also tested; most proved to be unhelpful or actually harmful in an underwater acoustic network. LASR was developed to address the problems noted in flooding and DSR. LASR was loosely derived from DSR, most significantly retaining source routes and the reply/request route discovery technique. However, LASR added features which proved, in simulation, to be significant advantages -- two of the most effective were a link/route metric and a node tracking system. To replace shortest-path routing, LASR used the expected transmission count (ETX) metric. / This allowed LASR to make more informed routing decisions which greatly increased performance compared to DSR. The node tracking system was the most novel addition: using only implicit communication coupled with the use of time-division multiple access (TDMA), the tracking system provided predicted node locations. These predictions made it possible for LASR to proactively respond to topology changes. In most cases, LASR outperformed flooding and DSR in message delivery reliability and message delivery volume. / by Edward A. Carlson. / Thesis (Ph.D.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web. Ad hoc networks (Computer networks) Computer network protocols Routers (Computer networks)
139	Task allocation and path planning for acoustic networks of AUVs Unknown Date (has links) Controlling the cooperative behaviors of a fleet of autonomous underwater vehicles in a stochastic, complex environment is a formidable challenge in artificial intelligence. The complexity arises from the challenges of limited navigation and communication capabilities of underwater environment. A time critical cooperative operation by acoustic networks of Multiple Cooperative Vehicles (MCVs) necessitates a robust task allocation mechanism and an efficient path planning model. In this work, we present solutions to investigate two aspects of the cooperative schema for multiple underwater vehicles under realistic underwater acoustic communications: a Location-aided Task Allocation Framework (LAAF) algorithm for multi-target task assignment and a mathematical programming model, the Grid-based Multi-Objective Optimal Programming (GMOOP), for finding an optimal vehicle command decision given a set of objectives and constraints. We demonstrate that, the location-aided auction strategies perform significantly better than the generic auction algorithm in terms of effective task allocation time and information bandwidth requirements. In a typical task assignment scenario, the time needed in the LAAF algorithm is only a fraction compared to the generic auction algorithm. On the other hand; the GMOOP path planning technique provides a unique means for multi-objective tasks by cooperative agents with limited communication capabilities. Under different environmental settings, the GMOOP path planning technique is proved to provide a method with balance of sufficient expressive power and flexibility, and its solution algorithms tractable in terms of mission completion time, with a limited increase of overhead in acoustic communication. Prior to this work, existing multi-objective action selection methods were limited to robust networks where constant communication available. / The dynamic task allocation, together with the GMOOP path planning controller, provides a comprehensive solution to the search-classify tasks for cooperative AUVs. / by Yueyue Deng. / Thesis (Ph.D.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web. Computer network protocols Routers (Computer networks) Ad hoc networks (Computer networks)
140	Design and Deployment Analysis of Morphing Ocean Structure Unknown Date (has links) As humans explore greater depths of Earth’s oceans, there is a growing need for the installation of subsea structures. 71% of the earth’s surface is ocean but there are limitations inherent in current detection instruments for marine applications leading to the need for the development of underwater platforms that allow research of deeper subsea areas. Several underwater platforms including Autonomous Underwater Vehicles (AUVs), Remote Operated Vehicles (ROVs), and wave gliders enable more efficient deployment of marine structures. Deployable structures are able to be compacted and transported via AUV to their destination then morph into their final form upon arrival. They are a lightweight, compact solution. The wrapped package includes the deployable structure, underwater pump, and other necessary instruments, and the entire package is able to meet the payload capability requirements. Upon inflation, these structures can morph into final shapes that are a hundred times larger than their original volume, which extends the detection range and also provides long-term observation capabilities. This dissertation reviews underwater platforms, underwater acoustics, imaging sensors, and inflatable structure applications then proposes potential applications for the inflatable structures. Based on the proposed applications, a conceptual design of an underwater tubular structure is developed and initial prototypes are built for the study of the mechanics of inflatable tubes. Numerical approaches for the inflation process and bending loading are developed to predict the inflatable tubular behavior during the structure’s morphing process and under different loading conditions. The material properties are defined based on tensile tests. The numerical results are compared with and verified by experimental data. The methods used in this research provide a solution for underwater inflatable structure design and analysis. Several ocean morphing structures are proposed based on the inflatable tube analysis. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2016. / FAU Electronic Theses and Dissertations Collection Tensile architecture. Fluid mechanics. Structural dynamics. Ocean engineering. Adaptive control systems.

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