Nursing Faculty and Students' Satisfaction With Telepresence Robots During the COVID-19 Pandemic

Abuatiq, Alham, Brown, Robin, Plemmons, Christina, Walstrom, Beth, Hultman, Cassy, Currier, Danielle, Schmit, Marie, Kvigne, Valborg, Horsley, Leann, Mennenga, Heidi

01 March 2022

BACKGROUND: Telepresence robots provide real-time audio, video, and mobility features, allowing faculty and students to engage in learning experiences without being physically present. PROBLEM: With multiple students and faculty members needing to quarantine due to the COVID-19 pandemic, a flexible learning environment was essential. APPROACH: The telepresence robots were used as an innovative approach for both faculty and students to engage in learning experiences offered in a variety of settings. OUTCOME: Feedback was obtained from faculty and students about the use of and satisfaction with telepresence robots. The robots were easy to use and posed only a few technological challenges, which were easily overcome. CONCLUSIONS: Telepresence robots were effective tools in overcoming teaching and learning barriers caused by the COVID-19 pandemic. The telepresence robots have many applications, including use in clinical and community settings.

COVID-19

SARS-CoV-2

faculty

nursing

humans

nursing education research

pandemics

personal satisfaction

robotics

students

students

nursing

Active Learning Using Model-Eliciting Activities and Inquiry-Based Learning Activities in Dynamics

Georgette, Jeffrey Phillip

01 December 2013

This thesis focuses on a year-long project of implementing active learning in undergraduate dynamics courses at Cal Poly San Luis Obispo from 2012-2013. The purpose is to increase conceptual understanding of critical dynamics concepts and to repair misconceptions of the students. Conceptual understanding in Dynamics is vital to understanding the big picture, building upon previous knowledge, and better understanding the behavior of engineering systems. Through various hands-on activities, students make predictions, test their conceptions, and solve real world problems. These active learning methods allow students to improve their learning of Dynamics concepts. Education research on active learning is present in Physics and Mathematics disciplines, yet is still growing in Engineering. Four Inquiry-Based Learning Activities (IBLAs) and two Model-Eliciting Activities (MEAs) are discussed in this thesis. Inquiry-Based Learning Activities feature student prediction and experimentation in which the physical world acts as the authority. On the other hand, Model-Eliciting-Activities prompt students to solve real world problems and deliver results to a client. From the results, some activities yield an increase in conceptual understanding, as measured by assessment items, while others do not yield a significant increase. These activities not only help to promote conceptual gains, but also to motivate students and offer realistic engineering contexts. In conclusion, the six total IBLA and MEAS will continue in practice and be improved in their implementation. This thesis work will contribute to engineering education research of active learning methods, and improve the undergraduate dynamics curriculum locally at Cal Poly.

dynamics

active learning

engineering education

inquiry-based learning

Model-eliciting activity

education research

Engineering Education

Mechanical Engineering

1500 Students and Only a Single Cluster? A Multimethod Clustering Analysis of Assessment Data from a Large, Structured Engineering Course

Taylor Williams (13956285)

17 October 2022

<p>  </p> <p>Clustering, a prevalent class of machine learning (ML) algorithms used in data mining and pattern-finding—has increasingly helped engineering education researchers and educators see and understand assessment patterns at scale. However, a challenge remains to make ML-enabled educational inferences that are useful and reliable for research or instruction, especially if those inferences influence pedagogical decisions or student outcomes. ML offers an opportunity to better personalizing learners’ experiences using those inferences, even within large engineering classrooms. However, neglecting to verify the trustworthiness of ML-derived inferences can have wide-ranging negative impacts on the lives of learners. </p> <p><br></p> <p>This study investigated what student clusters exist within the standard operational data of a large first-year engineering course (>1500 students). This course focuses on computational thinking skills for engineering design. The clustering data set included approximately 500,000 assessment data points using a consistent five-scale criterion-based grading framework. Two clustering techniques—N-TARP profiling and K-means clustering—examined criterion-based assessment data and identified student cluster sets. N-TARP profiling is an expansion of the N-TARP binary clustering method. N-TARP is well suited to this course’s assessment data because of the large and potentially high-dimensional nature of the data set. K-means clustering is one of the oldest and most widely used clustering methods in educational research, making it a good candidate for comparison. After finding clusters, their interpretability and trustworthiness were determined. The following research questions provided the structure for this study: RQ1 – What student clusters do N-TARP profiling and K-means clustering identify when applied to structured assessment data from a large engineering course? RQ2 – What are the characteristics of an average student in each cluster? and How well does the average student in each cluster represent the students of that cluster? And RQ3 – What are the strengths and limitations of using N-TARP and K-means clustering techniques with large, highly structured engineering course assessment data?</p> <p><br></p> <p>Although both K-means clustering and N-TARP profiling did identify potential student clusters, the clusters of neither method were verifiable or replicable. Such dubious results suggest that a better interpretation is that all student performance data from this course exist in a single homogeneous cluster. This study further demonstrated the utility and precision of N-TARP’s warning that the clustering results within this educational data set were not trustworthy (by using its W value). Providing this warning is rare among the thousands of available clustering methods; most clustering methods (including K-means) will return clusters regardless. When a clustering algorithm identifies false clusters that lack meaningful separation or differences, incorrect or harmful educational inferences can result. </p>

Education assessment and evaluation

Learning analytics

Engineering education

Dissertations, Academic

dissertations

Engineering education research

clustering algorithms

classroom assessment

How College Students' Conceptions of Newton's Second and Third Laws Change Through Watching Interactive Video Vignettes: A Mixed Methods Study

Engelman, Jonathan

January 2016

No description available.

Science Education

Interactive Video Vignettes

Conceptual Change

Fully Integrated Mixed Methods Design

Elicit, Confront, Resolve, Reflect

Physics Education Research

From Students to Researchers: The Education of Physics Graduate Students

Lin, Yuhfen

08 September 2008

No description available.

Education

Physics

Science Education

physics education research

epistemology

graduate students

graduate education

cognitive apprenticeship

legitimate peripheral participation

Advanced Quantitative Measurement Methodology in Physics Education Research

Wang, Jing

11 September 2009

No description available.

Education

Educational Evaluation

Physics

Quantitative

Assessment

Measurement

Physics Education Research

Item Response Theory

Exploratory Factor Analysis

Model Based Association

Identifying and addressing student difficulties and misconceptions: examples from physics and from materials science and engineering

Rosenblatt, Rebecca J.

20 June 2012

No description available.

Educational Tests and Measurements

Materials Science

Physics

A comparative study of the relative effectiveness of computer assisted instruction, cooperative learning and teacher directed instruction on improving math performance of low achieving students

Cannaday, Billy K.

January 1989

This study compared three instructional approaches-- computer assisted instruction, cooperative learning, and teacher directed instruction--to determine their relative effectiveness in improving math performance of low achieving students. Additional information was collected on student time on task behavior to determine the relative impact of these treatments on this variable. An experimental research design was used. Ninety-nine rising sixth grade students were randomly assigned to one of the three instructional delivery groups for a five week summer remediation program. Classroom teachers self selected the treatment approach they used based on interest and personal experience. Additional training in the use of these strategies was provided prior to the beginning of summer school. Fourth grade students' scores on the math subtest Iowa Test of Basic Skills (ITBS) served as the baseline data for assigning students to one of the treatment groups. A subsequent ITBS math score was obtained on the same students as fifth graders with the latter score serving as the pretest measure. At the end of the summer program the ITBS math subtest was readministered to students to obtain posttest dependent measures on math concepts, math problems, math computations and math total. These data were analyzed with an ANCOVA with the fifth grade ITBS math total score serving as the covariate. While substantial academic growth was reported for all groups on the math total measure, it was found that no significant difference existed between the three groups on improving student performance on math concepts, math problems, math computations, or math total. On the time on task measure, students’ off task behavior observed was minimal and differences reported were not found to be significant. / Ed. D.

LD5655.V856 1989.C366

Group work in education -- Research

Underachievers

Productive Failure Learning in Physics Education

Fatima Perwaiz (12133632)

17 June 2024

<p dir="ltr">The study investigates the effectiveness of productive failure learning using a contrasting-cases design of ill-structured problems followed by well-structured problems. Fifty-one future elementary school teachers, enrolled in an undergraduate physics course were randomly assigned to one of the three conditions: a) ill-structured followed by well-structured problems (IS-WS), b) well-structured followed by well-structured problems (WS-WS), and c) ill-structured followed by ill-structured problems (IS-IS). The study hypothesized that the first condition with a contrasting-case design would outperform the non-contrasting-case design. After solving treatment problems in their respective conditions, all the participants took a post-test that comprised both ill-structured and well-structured problems. The one-way and two-way ANOVA results showed that while productive failure learning (IS-WS) outperformed WS-WS on both procedural and conceptual knowledge in the well-structured post-test, there was no significant difference between the three learning conditions in the ill-structured post-test. The findings indicated that structuring instruction lies on a continuum between highly structured and unstructured. For higher-level physics education, productive failure learning provided the optimum balance of discovery learning via ill-structured problems and guided instruction via well-structured problems to activate prior knowledge, draw attention to critical features of the canonical concept, and facilitate motivation and excitement within learners, resulting in effective learning.</p>

PRODUCTIVE FAILURE

Physics education research

Undergraduate physics

Clinical teaching by registered nurses

Mochaki, Nare William

January 2001

The purpose of this quantitative, descriptive study was to describe how registered nurses utilise teachable moments to enhance students' learning in the clinical setting. The research questions were: What are the problems faced by registered nurses when they teach students in the clinical setting? and How do registered nurses utilise teachable moments to teach students? A pilot study was conducted in the clinical setting involving the respondents who had similar characteristics than the population. The sample consisted of 45 registered nurses who provided direct patient care in the clinical setting. A self­ administered, structured questionnaire was used to collect data. Data analysis was done by using descriptive statistical tests. The findings brought to light strengths and weaknesses with regard to the utilisation of teachable moments by registered nurses, and problems faced by registered nurses with regard to clinical accompaniment in general. Recommendations to improve clinical accompaniment by registered nurses through effective utilisation of teachable moments were made. Further research was recommended to explore some problematic areas that emerged from this study. / Health Studies / M.A. (Nursing Science)

Nursing education

Clinical accompaniment

Teachable moments

Registered nurse

Clinical setting

Student

Teaching

Function

610.7307155

Nursing students

Nursing assessment