Spacelab mission dependent training parametric resource requirements study

Training flows were developed for typical missions, resource relationships analyzed, and scheduling optimization algorithms defined. Parametric analyses were performed to study the effect of potential changes in mission model, mission complexity and training time required on the resource quantities required to support training of payload or mission specialists. Typical results of these analyses are presented both in graphic and tabular form

Professional practices, training, and funding mechanisms: A survey of pediatric primary care psychologists

The integration of mental health services in primary care settings has expanded rapidly in recent years with psychologists being at the forefront of efforts to promote healthy behaviors, reduce disease, and care for behavioral, emotional, and developmental needs to promote overall health and well-being for children and families (Asarnow, Kolko, Miranda,&Kazak, 2017; Stancin& Perrin, 2014). While there are many psychologists working in pediatric primary care (PPC), little is known about the specific activities that these psychologists engage in, the training they receive, or funding mechanisms that support their work. This study sought to address this gap in the literature through a survey of psychologists working in PPC. An anonymous online survey was disseminated to members of professional organizations and listservs who were identified as having interest in PPC. Psychologists (N-65) currently practicing in PPC completed the survey by reporting on clinical roles and practices, professional training, practice settings, and funding supports in PPC settings. Results indicate that psychologists assume a number of roles in PPC including providing individual and family therapy, conducting screenings for child mental health concerns, and providing consultation to medical colleagues. Many psychologists also provide supervision and offer educational opportunities for those in related fields, such as medicine and social work. Engagement in research activities was identified as a secondary activity. It was reported that a number of clinical activities were not billed for on a regular basis. Additional areas of research will be discussed along with implications for clinical services in PPC.. © 2017 American Psychological Association

Numerical Modeling of Propellant Boiloff in Cryogenic Storage Tank

This Technical Memorandum (TM) describes the thermal modeling effort undertaken at Marshall Space Flight Center to support the Cryogenic Test Laboratory at Kennedy Space Center (KSC) for a study of insulation materials for cryogenic tanks in order to reduce propellant boiloff during long-term storage. The Generalized Fluid System Simulation program has been used to model boiloff in 1,000-L demonstration tanks built for testing the thermal performance of glass bubbles and perlite insulation. Numerical predictions of boiloff rate and ullage temperature have been compared with the measured data from the testing of demonstration tanks. A satisfactory comparison between measured and predicted data has been observed for both liquid nitrogen and hydrogen tests. Based on the experience gained with the modeling of the demonstration tanks, a numerical model of the liquid hydrogen storage tank at launch complex 39 at KSC was built. The predicted boiloff rate of hydrogen has been found to be in good agreement with observed field data. This TM describes three different models that have been developed during this period of study (March 2005 to June 2006), comparisons with test data, and results of parametric studies

Leveraging the Food-Energy-Water Nexus for Planet Resilience

We have sufficient evidence that our historical management of natural resources is not sustainable. Food production is stagnating or declining. Nonrenewable energy sources on which the energy sector has historically depended are being rapidly depleted. Water resources, for which the energy and food sectors compete, are being depleted and impaired. This push against planetary boundaries is accelerating due to population growth and climate change. We must increase net resilience of the planet. This cannot be achieved through a single sector approach as focus on adapting a single sector can increase vulnerability of another sector. Instead, we must focus on the inherent linkages of the food, energy, water nexus, in which opportunities exist for sustainable adaptation which increase net resilience. To maximize impacts of change, we identify areas of high demand in which resources are under- or over-allocated. We explore an example of under-application in the food-energy intersection – electrification of the transportation system, for which a major hurdle is infrastructure. Through geospatial analysis, our results show that a novel approach to address infrastructure needs of electric vehicle charging stations exists by leveraging agrivoltaic systems. In the food-water intersection, we evaluate an example of over-application – fertilizer use in agriculture and the consequential water quality impacts, in which a major hurdle is grower resistance to reducing over-application. We explore this intersection through simulations that remain within constraints of grower resistance on the field and watershed scales. We show that we have significant control over nitrate (NO3-) leaching via our management choices and identify a mechanism which reduces NO3- leaching when implementing best management practices. Our results show that alternate (and supplemental) approaches can be leveraged to work toward our water quality goals without risking a reduction in yields. However, additional remediation will be needed to reach overall water quality and yield needs

A Case Study Of Muscle Activity In Giant Slalom Skiing

Speed of movement respresents the ability essential for successful performance of a sportsman in many branches of sport. This is especially important in ski-jumping where the skier must develop optimum vertical velocity corresponding to the correct ski-jumping technique in extremely complex and demanding inertial environment. The objective of this investigation was to establish the size of the attained vertical velocity measured both in the field and laboratory conditions; its stability and relation to the jump length. The results of the investigation will be, above all, useful to experts in developing the take-off techniqueElectromyography (EMG) and video data from a single female US. Ski Team member were acquired during giant slalom (GS) skiing at Beaver Creek, Colorado. The purpose of the testing was to examine muscle activity relative to the skiing motion. Muscles on the right side of the body, consisting of the lower leg (anterior tibialis (AT) and lateral gastrocnemius (LG», thigh (vastus medialis (VM), vastus lateralis (VL), rectus femoris (RF), semitendinosus (ST), gracilis (Gr), and gluteus maximus (GM», and trunk (rectus abdominis . (RA), external oblique (EO), and erector spinae (ES» were monitored. Maximal voluntary contractions (MVC) were performed pre- and post-skiing to provide a relative reference for the amplitude of muscle activity (%MVC). EMG during skiing was monitored via a four channel telemetry unit. The eleven muscles were partitioned into three sets. Three skiing trials of a seven gate GS course were completed for each set. Peak amplitude (uv) and time measures (ms) were digitized and averaged across trials for each gate. In six of the eleven muscles, the peak activity occurred when the right leg was the outside leg in a turn (turns 1, 3, 5, 7). The exception to this pattern was for the ES muscles of the lower back. %MVC ranged from 27% (EO at gate 4) to 206% (Gr at gate 5). The coeffcients of variation (CV) ranged from 2.3 (VM at gate 4) to 130% (EO at gate 4), indicating a large amount of variation in arnplitude for several muscle groups. The mean duration of muscle activity across all three muscle sets was consistent, ranging from 1.08 to 1.56 s. Roughly two-thirds of the CV's were less than 14%, indicating that the timing was more consistent than the peak EMG. This case study of EMG activity in GS skiing revealed substantial muscle activity at large percentages of MVC with considerable variation. A large amount of cocontraction between opposing muscles and relatively long duration of muscle activity suggest a quasi static nature of muscle activity during a GS turn. These findings have implications for dryland training of GS skiers. of ski jumpers, and in building a model of performance in ski jumping

Random Walks Along the Streets and Canals in Compact Cities: Spectral analysis, Dynamical Modularity, Information, and Statistical Mechanics

Different models of random walks on the dual graphs of compact urban structures are considered. Analysis of access times between streets helps to detect the city modularity. The statistical mechanics approach to the ensembles of lazy random walkers is developed. The complexity of city modularity can be measured by an information-like parameter which plays the role of an individual fingerprint of {\it Genius loci}. Global structural properties of a city can be characterized by the thermodynamical parameters calculated in the random walks problem.Comment: 44 pages, 22 figures, 2 table