737 research outputs found
The effect of nonlinearities on the dynamic response of a large shuttle payload
The STS Centaur was designed to be a high energy upper stage for use with the Space Shuttle. Two versions were designed under development when the program was cancelled. The first version, designated G-prime, was for planetary missions. The second version, designated G, was to place spacecraft in geosynchronous orbit. As a part of the STS Centaur finite-element model verification effort, test articles of both versions were subjected to a series of static tests. In addition the Centaur G-prime test article was subjected to a series of dynamic tests including a modal survey. Both the static and dynamic tests showed that nonlinearities existed in the Centaur and its support system. The support system included flight-like latches. The nonlinearities were particularly apparent in tests that loaded the forward support structure of the Centaur. These test results were used to aid in the development of two improved finite-element models. The first was a linear model, while the second contained nonlinear elements at the boundaries. Results from both models were compared with the transient response obtained from a step-relaxation or twang test. The linear model was able to accurately match the low frequency response found in the test data. However, only the nonlinear model was able to match higher frequency response that was present in some of the test data. In addition the nonlinear model was able to predict other nonlinear behavior such as the dynamic jump that occurs in systems with nonlinear stiffness
Solving Modal Equations of Motion with Initial Conditions Using MSC/NASTRAN DMAP
By utilizing MSC/NASTRAN DMAP (Direct Matrix Abstraction Program) in an existing NASA Lewis Research Center coupled loads methodology, solving modal equations of motion with initial conditions is possible using either coupled (Newmark-Beta) or uncoupled (exact mode superposition) integration available within module TRD1. Both the coupled and newly developed exact mode superposition methods have been used to perform transient analyses of various space systems. However, experience has shown that in most cases, significant time savings are realized when the equations of motion are integrated using the uncoupled solver instead of the coupled solver. Through the results of a real-world engineering analysis, advantages of using the exact mode superposition methodology are illustrated
Australian national birthweight percentiles by sex and gestational age, 1998-2007
Objective: To present updated national birthweight percentiles by gestational age for male and female singleton infants born in Australia. Design and setting: Cross-sectional population-based study of 2.53 million singleton live births in Australia between 1998 and 2007. Main outcome measures: Birthweight percentiles by gestational age and sex. Results: Between 1998 and 2007, women in Australia gave birth to 2 539 237 live singleton infants. Of these, 2 537 627 had a gestational age between 20 and 44 weeks, and sex and birthweight data were available. Birthweight percentiles are presented by sex and gestational age for a total of 2 528 641 births, after excluding 8986 infants with outlying birthweights. Since the publication of the previous Australian birthweight percentiles in 1999, median birthweight for term babies has increased between 0 and 25 g for boys and between 5 g and 45 g for girls. Conclusions: There has been only a small increase in birthweight percentiles for babies of both sexes and most gestational ages since 1991-1994. These national percentiles provide a current Australian reference for clinicians and researchers assessing weight at birth
Moving Past Assumptions: Recognizing Parents as Allies in Promoting the Sexual Literacies of Adolescents through a University-Community Collaboration
This article recounts how a university-community collaborative challenged prevailing assumptions about parents as barriers to the provision of gender and sexuality information to their children, allowing for the recognition of parents as critical stakeholders and partners in sexual literacy work with youth. We provide evidence that parents’ support for inclusive sexuality education uniquely situates them to educate and advocate for young people around these issues, and in so doing we hope to disrupt the rhetoric that casts parents in the United States as solely gatekeepers when it comes to young people’s access to information about the broad spectrum of human sexuality
Investigating the impact of design criteria on the expected seismic losses of an office building
Low Damage Seismic Design (LDSD) guidance material being developed by Engineering NZ is considering
a design drift limit for multi-storey buildings of 0.5% at a new damage control limit state (DCLS). The
impact of this new design requirement on the expected annual loss due to repair costs is investigated for a
four-storey office building with reinforced concrete walls located in Christchurch. The LDSD guidance
material aims to reduce the expected annual loss of complying buildings to below 0.1% of building
replacement cost. The research tested this expectation. Losses were estimated in accordance with FEMA P58, using building responses from non-linear time history analyses (performed with OpenSees using lumped
plasticity models). The equivalent static method, in line with NZS 1170.5 and NZS 3101, was used to design
the building to LDSD specifications, representing a future state-of-practice design. The building designed to
low-damage specification returned an expected annual loss of 0.10%, and the building designed
conventionally returned an expected annual loss of 0.13%. Limitations with the NZS 3101 method for
determining wall stiffness were identified, and a different method acknowledging the relationship between
strength and stiffness was used to redesign the building. Along with improving this design assumption, the
study finds that LDSD design criteria could be an effective way of limiting damage and losses
Transient analysis mode participation for modal survey target mode selection using MSC/NASTRAN DMAP
Many methods have been developed to aid analysts in identifying component modes which contribute significantly to component responses. These modes, typically targeted for dynamic model correlation via a modal survey, are known as target modes. Most methods used to identify target modes are based on component global dynamic behavior. It is sometimes unclear if these methods identify all modes contributing to responses important to the analyst. These responses are usually those in areas of hardware design concerns. One method used to check the completeness of target mode sets and identify modes contributing significantly to important component responses is mode participation. With this method, the participation of component modes in dynamic responses is quantified. Those modes which have high participation are likely modal survey target modes. Mode participation is most beneficial when it is used with responses from analyses simulating actual flight events. For spacecraft, these responses are generated via a structural dynamic coupled loads analysis. Using MSC/NASTRAN DMAP, a method has been developed for calculating mode participation based on transient coupled loads analysis results. The algorithm has been implemented to be compatible with an existing coupled loads methodology and has been used successfully to develop a set of modal survey target modes
Benchmarking treewidth as a practical component of tensor-network--based quantum simulation
Tensor networks are powerful factorization techniques which reduce resource
requirements for numerically simulating principal quantum many-body systems and
algorithms. The computational complexity of a tensor network simulation depends
on the tensor ranks and the order in which they are contracted. Unfortunately,
computing optimal contraction sequences (orderings) in general is known to be a
computationally difficult (NP-complete) task. In 2005, Markov and Shi showed
that optimal contraction sequences correspond to optimal (minimum width) tree
decompositions of a tensor network's line graph, relating the contraction
sequence problem to a rich literature in structural graph theory. While
treewidth-based methods have largely been ignored in favor of dataset-specific
algorithms in the prior tensor networks literature, we demonstrate their
practical relevance for problems arising from two distinct methods used in
quantum simulation: multi-scale entanglement renormalization ansatz (MERA)
datasets and quantum circuits generated by the quantum approximate optimization
algorithm (QAOA). We exhibit multiple regimes where treewidth-based algorithms
outperform domain-specific algorithms, while demonstrating that the optimal
choice of algorithm has a complex dependence on the network density, expected
contraction complexity, and user run time requirements. We further provide an
open source software framework designed with an emphasis on accessibility and
extendability, enabling replicable experimental evaluations and future
exploration of competing methods by practitioners.Comment: Open source code availabl
Fluids and Combustion Facility: Fluids Integrated Rack Modal Model Correlation
The Fluids Integrated Rack (FIR) is one of two racks in the Fluids and Combustion Facility on the International Space Station. The FIR is dedicated to the scientific investigation of space system fluids management supporting NASA s Exploration of Space Initiative. The FIR hardware was modal tested and FIR finite element model updated to satisfy the International Space Station model correlation criteria. The final cross-orthogonality results between the correlated model and test mode shapes was greater than 90 percent for all primary target modes
Emissions of CO 2 , CO, NO x , HC, PM, HFC-134a, N 2 O and CH 4 from the global light duty vehicle fleet
Abstract Vehicle
Exercise capacity and incidence of myocardial perfusion defects after Kawasaki disease in children and adolescents
Objectives.This study evaluated exercise performance and myocardial perfusion during exercise in patients with Kawasaki disease who had a broad spectrum of residual coronary abnormalities.Background.Reports of exercise performance after Kawasaki disease have generally included a small number of patients evaluated by various protocols, frequently with incomplete data. Myocardial perfusion studies have usually been limited to those using pharmacologically induced coronary vasodilation. Therefore, to our knowledge there has not been a large study directly correlating exercise performance, electrocardiographic (ECG) changes and myocardial perfusion imaging.Methods.Forty-six patients were classified into three groups on the basis of coronary artery status: group 1 (n = 27) had no objective evidence of coronary artery lesions; group 2 (n = 11) had resolved aneurysms; group 3 (n = 8) had persistent coronary aneurysms. All patients underwent exercise testing with monitor ing of ECG changes and oxygen consumption. Single-photon emission computed tomographic imaging was performed at rest and during peak exercise using technetium-99m sestamibi.Results.Maximal oxygen consumption was within normal limits and was similar for all three groups. Five patients had mild ST segment changes at peak exercise. Two of these patients had stress-induced perfusion defects. Myocardial perfusion defects were present in 37% of patients in group 1, 63% in group 2 and 100% in group 3. Perfusion defects corresponded to the coronary artery lesion site in all but three patients.Conclusions.Maximal oxygen consumption is normal after Kawasaki disease regardless of coronary artery status. Stressinduced perfusion defects are frequent even in the absence of coronary abnormalities and are common in the absence of ST segment changes suggestive of ischemia
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