Boise State University

About: Boise State University is a education organization based out in Boise, Idaho, United States. It is known for research contribution in the topics: Population & Computer science. The organization has 3698 authors who have published 8664 publications receiving 210163 citations. The organization is also known as: BSU & Boise State.

Thinking beyond Zoom: Using Asynchronous Video to Maintain Connection and Engagement during the COVID-19 Pandemic.

Abstract: The COVID-19 pandemic forced colleges and universities to move all in-person courses to a remote or online learning format. As a result, many faculty, including teacher educators, opted to transition their courses to live synchronous web meetings using web conferencing tools like Zoom. Despite benefits of synchronous communication, there are constraints with the use and overuse of synchronous live meetings (which many teacher educators ended up experiencing during the pandemic). In this paper, we describe the experiences of how four different faculty, at four different universities, used asynchronous video to maintain connection and engagement during the COVID-19 pandemic. We conclude with implications for practice and future research.

Hierarchical geostatistics and multifacies systems: Boise Hydrogeophysical Research Site, Boise, Idaho

Abstract: [1] The geostatistical structure of a heterogeneous coarse fluvial aquifer is investigated with porosity data derived from neutron logs at a research well field (Boise Hydrogeophysical Research Site, or BHRS) that was designed, in part, to support three-dimensional geostatistical analysis of hydrologic and geophysical parameters. Recognizing that the coarse fluvial deposits include subdivisions (units between bounding surfaces), we adopt a hierarchical approach and examine the porosity geostatistics of the aquifer at three scales. At the BHRS, the saturated fluvial deposits as a whole (maximum interwell spacing ∼80 m, thickness ∼16–18 m) are at hierarchical level 1; five subhorizontal units within these deposits (four cobble-dominated units and a channel sand) can be traced across the central area of the BHRS and are at hierarchical level 2; and subunits (patches or lenses) in one of the level 2 units (Unit 4), are at hierarchical level 3. We use variography and porosity statistics to recognize nonstationarity at hierarchical level 1 and in one of the level 2 units (Unit 4) where the means and variances of porosity differences as a function of lag are not constant between distinct units and subunits, respectively. The geostatistical structure at level 1 is modeled with different horizontal and vertical structures that have different sills (vertical sill greater than horizontal sill). The difference in sills can be explained quantitatively by the summing of weighted sills from all individual units and combined units (i.e., a given pair of different units), where the weights are the proportions of data pairs contributing to the sills at each lag from the individual and combined units. Extension of this analysis leads to a weighted, multistructure form of the variogram function whereby a global experimental variogram in a hierarchical system can be decomposed quantitatively into weighted component individual- and combined-unit (or facies) structures for any number of units or hierarchical levels. Such decomposition of the global horizontal variogram from the BHRS indicates that short-range periodicity in that structure is due to both (1) combined-unit structures associated with patches or lenses at hierarchical level 3 in Unit 4 and (2) variations in thickness of Unit 2. For hierarchical multifacies systems, structure models fit to global horizontal and vertical experimental variograms may not be useful for subsequent stochastic modeling if the system on which the structure models are based is nonstationary.

A Comparison of the Sit and Reach and the Modified Sit and Reach in the Measurement of Flexibility in Women

Abstract: (1992). A Comparison of the Sit and Reach and the Modified Sit and Reach in the Measurement of Flexibility in Women. Research Quarterly for Exercise and Sport: Vol. 63, No. 2, pp. 191-195.