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Differences in Post-Graduation Earnings and College Completion: the Case of Students from AppalachiaGarrett, Daniel G. 30 April 2014 (has links)
No description available.
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Gender Differences in the Homework Preferences of Students with Low Self-RegulationLee, Jo Ellen January 2016 (has links)
No description available.
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Baccalaureate Degree Completion: A Test of Holland’s Congruence Assumption Using Four-Year Public College Students in OhioCruickshank, Cameron Scott January 2005 (has links)
No description available.
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High School Dropout Experiences: A Social Capital PerspectiveDrewry, Julie Anne 15 March 2007 (has links)
The purpose of this study was to record and analyze students' experiences with dropping out of high school within a social capital framework. Discussing the stories of high school dropouts provided valuable information related to the root causes of dropout behaviors in a social capital context. This information can be used to develop programs designed to increase social capital in schools, families, and communities, which can contribute to a decrease in dropout behaviors.
This phenomenological study took a narratological research approach that focused on collecting the lived experiences of high school dropouts within a social capital framework. The context of this study was a high school in an urban school division in Southwestern Virginia. The participants were five high school dropouts who speak English as a primary language and were a part of the general education population at the high school. Triangulation of data sources included field notes, interviews with the participants, and archival documents. A three-iteration code mapping procedure was used for data analysis to provide an audit trail.
Narrative descriptions of the life histories of each participant were written. The overarching themes resulting from the analysis across the narratives were that none of the students had relationships with members of their families or communities who had the capacity to assist them in their endeavors to complete school; students had the desire to complete school or obtain a GED, but did not have a relationship with any person outside of the school setting who was persistent with encouragement and knowledge; and the students had access to social capital, but did not understand how to use it effectively. Results and conclusions are included in two articles, one written for publication in Sociology of Education, and the other written for publication in Professional School Counseling. / Ph. D.
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African American Males' Perceptions of Factors Aiding Their Completion of High School: A Population Raised by Single MothersDixon, Ajamu Adofo 15 June 2022 (has links)
Abstract
"Societal factors of racism and implicit bias are present in the United States' school systems and they result in inequities in achievement outcomes" (Green., 2016, p. 2). The objective of this qualitative study was to discover more about African American males raised by single mothers, and the perceived factors that helped them complete high school. The interview protocol for this study consisted of fourteen questions. Researching the perceived factors that contributed to the academic success of African American male students who came from single parent households may provide the insight needed to create strategies for schools, communities, and families to help African American males from single parent homes achieve high school completion. This study included a purposive sample of African American male alumni from a high school in Southwest Virginia as participants. The research question is, what perceived factors aided African American males from single parent homes completing high school and the role of their immediate family members, networks which may include teachers, counselors, administrators, coaches, mentorship organizations, places of worship, and after-school programs served as the research question. / Doctor of Education / General Audience Abstract
The purpose of the study was to identify the factors African American males raised by single mothers attributed to them completing high school at a particular school in Southwest Virginia. Five African American males who completed high school from 2011 to 2021 were interviewed. From the interviews conducted, the researcher found seven themes. The themes were strong relationships with their mothers, relationships are important, mothers involved in schools, exposure to extracurricular activities and programs, extended family support, religion, and self-determination. School administrators, teachers, and school personnel could use the data from this study. Schools should consider incorporating activities to strengthen mother-son relationships, establish mentorship programs, and school personnel should consider organizing internships for the African American males who are being raised by single mothers.
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3D Deep Learning for Object-Centric Geometric PerceptionLi, Xiaolong 30 June 2022 (has links)
Object-centric geometric perception aims at extracting the geometric attributes of 3D objects.
These attributes include shape, pose, and motion of the target objects, which enable fine-grained object-level understanding for various tasks in graphics, computer vision, and robotics. With the growth of 3D geometry data and 3D deep learning methods, it becomes more and more likely to achieve such tasks directly using 3D input data. Among different 3D representations, a 3D point cloud is a simple, common, and memory-efficient representation that could be directly retrieved from multi-view images, depth scans, or LiDAR range images.
Different challenges exist in achieving object-centric geometric perception, such as achieving a fine-grained geometric understanding of common articulated objects with multiple rigid parts, learning disentangled shape and pose representations with fewer labels, or tackling dynamic and sequential geometric input in an end-to-end fashion. Here we identify and solve these challenges from a 3D deep learning perspective by designing effective and generalizable 3D representations, architectures, and pipelines. We propose the first deep pose estimation for common articulated objects by designing a novel hierarchical invariant representation.
To push the boundary of 6D pose estimation for common rigid objects, a simple yet effective self-supervised framework is designed to handle unlabeled partial segmented scans. We further contribute a novel 4D convolutional neural network called PointMotionNet to learn spatio-temporal features for 3D point cloud sequences. All these works advance the domain of object-centric geometric perception from a unique 3D deep learning perspective. / Doctor of Philosophy / 3D sensors these days are widely equipped on various mobile devices like a depth camera on iPhone, or laser LiDAR sensors on an autonomous driving vehicle. These 3D sensing techniques could help us get accurate measurements of the 3D world. For the field of machine intel- ligence, we also want to build intelligent system and algorithm to learn useful information and understand the 3D world better.
We human beings have the incredible ability to sense and understand this 3D world through our visual or tactile system. For example, humans could infer the geometry structure and arrangement of furniture in a room without seeing the full room, we are able to track an 3D object no matter how its appearance, shape and scale changes, we could also predict the future motion of multiple objects based on sequential observation and complex reasoning.
Here my work designs various frameworks to learn such 3D information from geometric data represented by a lot of 3D points, which achieves fine-grained geometric understanding of individual objects, and we can help machine tell the target objects' geometry, states, and dynamics.
The work in this dissertation serves as building blocks towards a better understanding of this dynamic world.
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Intervention Strategies Utilized in a Virginia Public High School with Improved Graduation Completion Index ValuesVoelker, Amanda Carole 31 August 2015 (has links)
With the recent implementation of the Graduation and Completion Index (GCI), schools in the Commonwealth of Virginia are charged with graduating students within a four year time frame. The purpose of this study was to investigate the intervention strategies implemented by a school receiving the status of 'warned' for falling below the GCI benchmark in the school year 2011-2012 and subsequently receiving 'meets benchmark' status for the next two school years, 2012-2013 and 2013-2014. This study sought to determine what support and interventions this school provided for students who successfully graduated from high school within the designated four year time frame. A review of previous research and findings demonstrated the need for further research in this area. The intervention strategies implemented at a school that received 'warning' status yet currently maintains 'meets benchmark' status could benefit other schools and students.
Some of the identified intervention strategies were: a) in-school detention was used as an intervention strategy; b) calling home and home visits were used as intervention strategies; c) the four by four block schedule was used as an intervention strategy d); attendance, retention, and discipline influenced a student's decision to stay in school; e) intervention strategies for students must be supported at the elementary, middle, and high school levels; and f) additional academic support (Saturday school) was an effective strategy for meeting the GCI benchmark.
Implications were that school leaders should: a) consider creating a team that meets frequently to address the needs of at-risk students; b) identify ways to engage parents and the community in meeting the needs of students who are at risk of dropping out; c) consider alternatives to out of school suspension; and d) consider the four by four block scheduling model to support on time graduation rates for students. / Ed. D.
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Quantifying the Reliability of Performance Time and User Perceptions Obtained from Passive Exoskeleton EvaluationsNoll, Alexander Baldrich Benoni 16 August 2024 (has links)
Work-related musculoskeletal disorders (WMSDs) cost US industries billions annually and reduce quality of life for those afflicted. Passive exoskeletons (EXOs) have emerged as a potential intervention to reduce worker exposures to WMSD risk factors. As EXO adoption is rising, EXO manufacturers are designing and producing new EXOs in accordance with growing demand. However, there are no standardized EXO evaluation protocols and EXO use recommendations, due in part to insufficient information on the reliability of EXO evaluation measures. The purpose of this thesis was to quantify the reliability of common EXO evaluation measures, using both traditional approaches a more advanced statistical approach (i.e., Generalizability Theory), while also identifying potential effects of EXO type, work task, and individual differences. This work used data from a recently completed EXO evaluation study, conducted in Virginia Tech's Occupational Ergonomics and Biomechanics Lab. Forty-two total participants completed simulated occupational tasks, in two separate experimental sessions on different days, while using an arm-support EXO (ASE) and a back-support EXO (BSE). Several outcome measures reached excellent within-session reliability within four trials for many tasks considered. Between-session reliability levels were lower than within-session levels, with outcome measures reaching moderate-to-good reliability for most tasks. Interindividual differences accounted for the largest proportion of variance for measurement reliability, followed by the experimental session. For all tasks, outcome measures reached excellent dependability levels, with many achieving excellent levels within five total trials. Inconsistencies observed in between-session reliability levels and dependability levels suggest that additional training and EXO familiarity may affect measurement reliability of outcome measures differently for some tasks, unique to each EXO type. These discrepancies emphasize the importance for additional research into this topic. Overall, the current findings indicate that many of the commonly used EXO evaluation measures are reliable and dependable within five trials and one experimental session, providing a potential foundation for standardized EXO assessment protocols. / Master of Science / Work-related musculoskeletal disorders (WMSDs) are a substantial economic burden and impair the quality of life for affected workers. Passive exoskeletons (EXOs), which use springs or elastic material to distribute the load placed on workers during manual labor, are a possible solution to reduce worker exposure to WMSD risk factors. EXO adoption is rising, but there are no standardized procedures to test the effectiveness of EXOs or standardized recommendations for EXO use. The purpose of this thesis was to determine the reliability of EXO evaluation measures commonly used in prior research, using both traditional reliability calculation methods alongside a more advanced method (i.e., Generalizability Theory). Data from a recently completed study were used, which were collected from 42 participants in two separate experimental sessions on two different days. Participants completed tasks intended to simulate manual work, using either an arm-support exoskeleton – which supported their upper arms during relevant tasks, or a back-support exoskeleton – which supported their lower back during relevant tasks. Many of the tasks and outcome measures reached excellent reliability within four repetitions in a single day. When examining reliability of evaluations across days, we found reliability levels were lower than levels obtained from a single day. All tasks and outcome measures reached excellent dependability levels, with many requiring only five trials to reach excellent levels. Reliability increased with the number of trials in an EXO evaluation experiment. Moreover, our results revealed that the EXO type being used and the biological sex of a participant both influence reliability, but individual participant differences had the greatest effect on measurement reliability. This research reveals possible experimental conditions required for reliable, efficient, and cost-effective EXO research, facilitating the development of a standardized EXO evaluation protocol.
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The learning curve to achieve satisfactory completion rates in upper GI endoscopy: an analysis of a national training databaseWard, S.T., Hancox, A., Mohammed, Mohammed A., Ismail, T., Griffiths, E.A., Valori, R., Dunckley, P. 14 March 2016 (has links)
No / The aim of this study was to determine the
number of OGDs (oesophago-gastro-duodenoscopies)
trainees need to perform to acquire competency in terms
of successful unassisted completion to the second part
of the duodenum 95% of the time.
Design: OGD data were retrieved from the trainee
e-portfolio developed by the Joint Advisory Group on GI
Endoscopy ( JAG) in the UK. All trainees were included
unless they were known to have a baseline experience of
>20 procedures or had submitted data for <20
procedures. The primary outcome measure was OGD
completion, defined as passage of the endoscope to the
second part of the duodenum without physical
assistance. The number of OGDs required to achieve a
95% completion rate was calculated by the moving
average method and learning curve cumulative
summation (LC-Cusum) analysis. To determine which
factors were independently associated with OGD
completion, a mixed effects logistic regression model
was constructed with OGD completion as the outcome
variable.
Results: Data were analysed for 1255 trainees over 288
centres, representing 243 555 OGDs. By moving average
method, trainees attained a 95% completion rate at 187
procedures. By LC-Cusum analysis, after 200 procedures,
>90% trainees had attained a 95% completion rate.
Total number of OGDs performed, trainee age and
experience in lower GI endoscopy were factors
independently associated with OGD completion.
Conclusions: There are limited published data on the
OGD learning curve. This is the largest study to date
analysing the learning curve for competency acquisition.
The JAG competency requirement for 200 procedures
appears appropriate
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Block Coordinate Descent for Regularized Multi-convex OptimizationXu, Yangyang 16 September 2013 (has links)
This thesis considers regularized block multi-convex optimization, where the feasible set and objective function are generally non-convex but convex in each block of variables.
I review some of its interesting examples and propose a generalized block coordinate descent (BCD) method. The generalized BCD uses three different block-update schemes.
Based on the property of one block subproblem, one can freely choose one of the three schemes to update the corresponding block of variables. Appropriate choices of block-update schemes can often speed up the algorithm and greatly save computing time.
Under certain conditions, I show that any limit point satisfies the Nash equilibrium conditions. Furthermore, I establish its global convergence and estimate its asymptotic convergence rate by assuming a property based on the Kurdyka-{\L}ojasiewicz inequality. As a consequence, this thesis gives a global linear convergence result of cyclic block coordinate descent for strongly convex optimization. The proposed algorithms are adapted for factorizing nonnegative matrices and tensors, as well as completing them from their incomplete observations. The algorithms were tested on synthetic data, hyperspectral data, as well as image sets from the CBCL, ORL and Swimmer databases. Compared to the existing state-of-the-art algorithms, the proposed algorithms demonstrate superior performance in both speed and solution quality.
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