1,238 research outputs found
A Comparative Study of Aerocapture Missions with a Mars Destination
Conventional interplanetary spacecraft use propulsive systems to decelerate into orbit. Aerocapture is an alternative approach for orbit capture, in which the spacecraft makes a single pass through a target destination's atmosphere. Although this technique has never been performed, studies show there are substantial benefits of using aerocapture for reduction of propellant mass, spacecraft size, and mission cost. The In-Space Propulsion (ISP) Program, part of NASA's Science Mission Directorate, has invested in aerocapture technology development since 2002. Aerocapture investments within ISP are largely driven by mission systems analysis studies, The purpose of this NASA-funded report is to identify and document the fundamental parameters of aerocapture within previous human and robotic Mars mission studies which will assist the community in identifying technology research gaps in human and robotic missions, and provide insight for future technology investments. Upon examination of the final data set, some key attributes within the aerocapture disciplines are identified
Self-Assembly: Lightweight Language Extension and Datatype Generic Programming, All-in-One!
In this paper we show a general mechanism, called self-assembly, for lightweight language extensions (LLEs). LLEs allow users to define generic operations or properties that operate over a large class of types. With LLEs it is possible, for example, for users to define their own Java-style automatic serialization mechanism; or implement simple forms of custom pluggable type system extensions like an immutability checker. However unlike language built-in mechanisms (such as Java serialization), LLEs are user-definable, multi-purpose (they can be used to define various forms of generic functionality), and highly customizable and extensible. The key idea, inspired by existing datatype-generic programming approaches, is to provide programmers with a generic mechanism for providing automatic implementations of type classes. We implemented our technique as a library, \sselfassembly, for Scala, and evaluated its practicality by migrating a full-featured industrial-strength serialization framework, Scala/Pickling, keeping the same published performance numbers while reducing the code size for type class instance generation by 56%
Acute Ingestion Of L-Arginine Alpha-Ketoglutarate Fails To Improve Muscular Strength And Endurance In ROTC Cadets
International Journal of Exercise Science 6(2) : 91-97, 2013. L-Arginine Alpha-Ketoglutarate (AAKG) is purported to stimulate the release of nitric oxide, and is suggested to facilitate muscular performance by increasing blood flow and increase oxygen and nutrient delivery to the working muscle. However, the ergogenic benefit of AAKG during resistance exercise has not been established. Therefore the purpose of this study was to investigate the effects of acute AAKG ingestion in active ROTC Cadets on measures of one-repetition maximal strength (1RM) and muscular endurance. Nineteen apparently healthy males ingested either AAKG (3 g) or a placebo 45 minutes prior to resistance testing in a randomized, double-blind crossover design. Initially, blood lactate (BLA) was obtained followed by 1RM testing on the barbell bench press and leg press. Upon determination of 1RM, participants completed repetitions to failure at 60% of 1RM. Blood lactate measures were immediately taken following the final repetition. Analysis revealed no significant differences between the conditions for bench press 1RM. Additionally, there were no differences between conditions for 1RM leg press, or for number of repetitions performed for the bench press or leg press. Blood lactate values did increase significantly from baseline to post-bench press in both the AAKG (t33 = 7.56, p \u3c 0.01) and placebo conditions (t33 = 8.45, p \u3c 0.01). Further, BLA lactate levels were also significantly greater post leg-press in the AAKG (t33 = 9.23, p \u3c 0.01) and placebo (t33 = 8.10, p \u3c 0.01). The results indicate that acute AAKG supplementation provides no ergogenic benefit in this study
Women\u27s health: Optimal nutrition throughout the lifecycle
Sex differences are an important consideration when researching and establishing policies for nutrition and optimal health. For women\u27s health, there are important physiologic, neurologic, and hormonal distinctions throughout the lifecycle that impact nutritional needs. Distinct from those for men, these nutritional needs must be translated into appropriate nutrition policy that aims to not only avoid overt nutritional deficiency, but also to promote health and minimize risk for chronic disease. Through a series of webinars, scientific experts discussed the advances in the understanding of the unique nutritional needs, challenges and opportunities of the various life stages for women across the life course and identified emerging nutritional interventions that may be beneficial for women. Nevertheless, there is concern that existing nutrition policy intended for women\u27s health is falling short with examples of programs that are focused more on delivering calories than achieving optimal nutrition. To be locally effective, targeted nutrition needs to offer different proposals for different cultural, socio-economic, and geographic communities, and needs to be applicable at all stages of growth and development. There must be adequate access to nutritious foods, and the information to understand and implement proven nutritional opportunities. Experts provided recommendations for improvement of current entitlement programs that will address accessibility and other social and environmental issues to support women properly throughout the lifecycle
ASL Champ!: A Virtual Reality Game with Deep-Learning Driven Sign Recognition
We developed an American Sign Language (ASL) learning platform in a Virtual
Reality (VR) environment to facilitate immersive interaction and real-time
feedback for ASL learners. We describe the first game to use an interactive
teaching style in which users learn from a fluent signing avatar and the first
implementation of ASL sign recognition using deep learning within the VR
environment. Advanced motion-capture technology powers an expressive ASL
teaching avatar within an immersive three-dimensional environment. The teacher
demonstrates an ASL sign for an object, prompting the user to copy the sign.
Upon the user's signing, a third-party plugin executes the sign recognition
process alongside a deep learning model. Depending on the accuracy of a user's
sign production, the avatar repeats the sign or introduces a new one. We
gathered a 3D VR ASL dataset from fifteen diverse participants to power the
sign recognition model. The proposed deep learning model's training,
validation, and test accuracy are 90.12%, 89.37%, and 86.66%, respectively. The
functional prototype can teach sign language vocabulary and be successfully
adapted as an interactive ASL learning platform in VR.Comment: 36 pages, 9 figure
Screening and brief interventions for hazardous and harmful alcohol use in primary care: a cluster randomised controlled trial protocol
A large number of randomised controlled trials in health settings have consistently reported positive effects of brief intervention in terms of reductions in alcohol use. However,although alcohol misuse is common amongst offenders, there is limited evidence of alcohol brief interventions in the criminal justice field. This factorial pragmatic cluster randomised controlledtrial with Offender Managers (OMs) as the unit of randomisation will evaluate the effectiveness and cost-effectiveness of different models of screening to identify hazardous and harmful drinkers in probation and different intensities of brief intervention to reduce excessive drinking in probation clients.
Ninety-six OMs from 9 probation areas across 3 English regions (the NorthEast Region (n = 4) and London and the South East Regions (n = 5)) will be recruited. OMs will berandomly allocated to one of three intervention conditions: a client information leaflet control condition (n = 32 OMs); 5-minute simple structured advice (n = 32 OMs) and 20-minute brieflifestyle counselling delivered by an Alcohol Health Worker (n = 32 OMs). Randomisation will be stratified by probation area. To test the relative effectiveness of different screening methods all OMs will be randomised to either the Modified Single Item Screening Questionnaire (M-SASQ) orthe Fast Alcohol Screening Test (FAST). There will be a minimum of 480 clients recruited into the trial. There will be an intention to treat analysis of study outcomes at 6 and 12 months postintervention. Analysis will include client measures (screening result, weekly alcohol consumption,alcohol-related problems, re-offending, public service use and quality of life) and implementation measures from OMs (the extent of screening and brief intervention beyond the minimum recruitment threshold will provide data on acceptability and feasibility of different models of brief intervention). We will also examine the practitioner and organisational factors associated with successful implementation.The trial will evaluate the impact of screening and brief alcohol intervention in routine probation work and therefore its findings will be highly relevant to probation teams and thus the criminal justice system in the UK
Rapid, -insensitive, dual-band quasi-adiabatic saturation transfer with optimal control for complete quantification of myocardial ATP flux
Purpose: Phosphorus saturation-transfer experiments can quantify metabolic
fluxes non-invasively. Typically, the forward flux through the creatine-kinase
reaction is investigated by observing the decrease in phosphocreatine (PCr)
after saturation of -ATP. The quantification of total ATP utilisation
is currently under-explored, as it requires simultaneous saturation of
inorganic phosphate (Pi) and PCr. This is challenging, as currently available
saturation pulses reduce the already-low -ATP signal present.
Methods: Using a hybrid optimal-control and Shinnar-Le-Roux method, a
quasi-adiabatic RF pulse was designed for the dual-saturation of PCr and Pi to
enable determination of total ATP utilisation. The pulses were evaluated in
Bloch equation simulations, compared with a conventional hard-cosine DANTE
saturation sequence, before application to perfused rat hearts at 11.7 Tesla.
Results: The quasi-adiabatic pulse was insensitive to a -fold variation
in , producing equivalent saturation with a 53% reduction in delivered
pulse power and a 33-fold reduction in spillover at the minimum effective
. This enabled the complete quantification of the synthesis and
degradation fluxes for ATP in 30-45 minutes in the perfused rat heart. While
the net synthesis flux ( mM/s, SEM) was not significantly different
from degradation flux ( mM/s, ) and both measures are
consistent with prior work, nonlinear error analysis highlights uncertainties
in the Pi-to-ATP measurement that may explain a trend suggesting a possible
imbalance.
Conclusion: This work demonstrates a novel quasi-adiabatic dual-saturation RF
pulse with significantly improved performance that can be used to measure ATP
turnover in the heart in vivo.Comment: 26 pages, Accepted at Magnetic Resonance in Medicine, 24/11/2020
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