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1. USING VR TO TRAIN SPATIAL PERCEPTION: A PILOT STUDY WITH THE WATER LEVEL TASK

   https://doi.org/10.1130/abs/2022AM-382318  

   Johanesen, K. (October 2022, Abstracts with programs)

   Spatial reasoning skills have been linked to success in STEM and are considered an important part of geoscience problem solving. Most agree that these are a group of skills rather than a single ability, though there is no agreement on the full list of constituent skills. Few studies have attempted to isolate specific spatial skills for deliberate training. We conducted an experiment to isolate and train the skill of recognizing horizontal (a crucial component in measuring the orientation of planes) using a dedicated Virtual Reality (VR) module. We recruited 21 undergraduate students from natural science and social science majors for the study, which consisted of a pretest, 15-minute training, and posttest. The pre- and posttests consisted of a short multiple choice vocabulary quiz, 5 hand-drawn and 5 multiple choice Water Level Task (WLT) questions, and the Vandenberg and Kuse Mental Rotation Task (MRT). Participants were sorted based on pre-test Water Level Task scores, only those with scores <80% were placed in an intervention group and randomly assigned to training, either in VR (experimental) or on paper (standard), of about 15 minutes. The high-scoring participants received no training (comparison). All three groups of participants completed a posttest after the training (if any). After removing three participants who did not return for the posttest session, we had 18 participants in total: 6 in VR, 7 in the comparison group, and 5 in the standard group. Repeated measures ANOVA of the pre to post hand-drawn WLT scores shows at least one group is different (p=.002) and Tukey’s Post-Hoc analysis indicates that the VR group improved significantly more that the high-scoring comparison group (Mean Difference = -1.857, p = .001) and the standard group (Mean Difference = -1.200, p = .049). While any significant result is encouraging, a major limitation of this study is the small sample size and unequal variances on both the pretest (Levene’s HOV test, F = 7.50, p = .006) and posttest (F = 13.53, p < .001), despite random assignment. More trials are needed to demonstrate reproducibility. While more tests are needed, this preliminary study shows the potential benefit of VR in training spatial reasoning skills. 

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2. SPATIAL SKILL BUILDING IN GEOSCIENCE USING VR: MEASURING STRIKE AND DIP

   https://doi.org/10.1130/abs/2023AM-393576  

   Johanesen, Katharine; Ryker, Katherine; Poole, Territa L (January 2023, Geological Society of America Abstracts with Programs)

   Measuring strike and dip is a common but complicated spatial task introduced to students in undergraduate geology courses. Students must employ multiple spatial reasoning skills in addition to geology-specific content knowledge. These spatial skills include disembedding - to recognize a suitable bedding or foliation plane to measure, spatial perception - to understand the plane’s relationship to horizontal and vertical, and aspects of spatial visualization, perspective taking, and mental rotation to determine how to position and read the compass tool. We tested a virtual reality (VR) training module to help teach the use of the compass tool to measure strike and dip. Students in a large introductory course in a public university were placed by lab section into either a “standard” classroom instruction or VR instruction for their initial training, then all completed a simplified mapping exercise in which they measured five planes set up around the classroom. Pre and post tests of spatial skills and scores on the measurement portion of the map assignment were collected and compared between the 2 types of training groups. Of 12 lab sections, half were assigned to VR and the other half to standard. The instructional assistants each taught at least one section of each type, and the instruction types were distributed evenly across the scheduled lab times. The VR group showed 11% higher improvement scores on the Water Level Task (WLT) compared to the standard group (p = 0.008, n=159). Because students in some lab sections had identical responses to the strike and dip task, we used a subset of four lab sections in which students submitted unique responses (n=41). We found no significant differences on the strike and dip task except with application of the right hand rule (RHR). The classroom instruction group performed 26% higher on the strike task when the RHR was taken into account (p = 0.006), but this difference does not persist when scoring is agnostic to the RHR. The VR module contains only a text explanation of the RHR. These results suggest that VR is at least as good as classroom instruction for building geology skills and, through targeted instruction, can significantly impact performance on a spatial test. Feedback on the VR activity will be used to further refine the module and develop best practice strategies for VR spatial training. 

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3. The Impact of Engineering Information Formats on Workers’ Cognitive Load in Working Memory Development

   Shi, Y. (June 2020, Construction Research Congress 2020)

   Owing to the increasing dynamics and complexity of construction tasks, workers often need to memorize a big amount of engineering information prior to the operations, such as spatial orientations and operational procedures. The working memory development, as a result, is critical to the performance and safety of many construction tasks. This study investigates how the format of engineering information affects human working memory based on a human-subject Virtual Reality (VR) experiment (n=90). A VR model was created to simulate a pipe maintenance task. First, participants were asked to review the task procedures in one of the following formats, including 2D isometric drawings, 3D model, and VR model. After the review session, participants were asked to perform the pipe maintenance task in the virtual environment based on their working memory. The operation accuracy and time were used as the key performance indicators of the working memory development. The experiment results indicate that the 3D and VR groups outperformed the 2D group in both operation accuracy and time, suggesting that a more immersive instruction leads to a better working memory. A further examination finds that the 2D group presented a significantly higher level of intrinsic cognitive load and extraneous cognitive load in the working memory development compared to the 3D and VR groups, indicating that different engineering information formats can cause different levels of cognitive load in working memory development, and ultimately affect the final performance. The findings are expected to inspire the design of intelligent information systems that adapt to the cognitive load of construction workers for improved working memory development. 

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4. Selection on X1 + X2 + ⋯ + Xm via Cartesian product trees

   https://doi.org/http://dx.doi.org/10.7717/peerj-cs.483  

   Kreitzberg, Patrick; Lucke, Kyle; Pennington, Jake; Serang, Oliver (April 2021, PeerJ)

   null (Ed.)

   Selection on the Cartesian product is a classic problem in computer science. Recently, an optimal algorithm for selection on A + B, based on soft heaps, was introduced. By combining this approach with layer-ordered heaps (LOHs), an algorithm using a balanced binary tree of A + B selections was proposed to perform selection on X1 + X2 + ⋯ + Xm in o(n⋅m + k⋅m), where Xi have length n. Here, that o(n⋅m + k⋅m) algorithm is combined with a novel, optimal LOH-based algorithm for selection on A + B (without a soft heap). Performance of algorithms for selection on X1 + X2 + ⋯ + Xm are compared empirically, demonstrating the benefit of the algorithm proposed here. 

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5. Who Would Bob Blame? Factors in Blame Attribution in Cyberattacks Among the Non-adopting Population in the Context of 2FA.

   Peck, Sarah; Khan, Mohammad; Fahim, Md; Coman, Emil; Jensen, Theodore; Albayram, Yusuf (January 2020, IEEE 44th Annual Computers, Software, and Applications Conference (COMPSAC))

   This study focuses on identifying the factors contributing to a sense of personal responsibility that could improve understanding of insecure cybersecurity behavior and guide research toward more effective messaging targeting non-adopting populations. Towards that, we ran a 2(account type)x2(usage scenario)x2(message type) between-group study with 237 United States adult participants on Amazon MTurk, and investigated how the non-adopting population allocates blame, and under what circumstances they blame the end user among the parties who hold responsibility: the software companies holding data, the attackers exposing data, and others. We find users primarily hold service providers accountable for breaches but they feel the same companies should not enforce stronger security policies on users. Results indicate that people do hold end users accountable for their behavior in the event of a breach, especially when the users’ behavior affects others. Implications of our findings in risk communication is discussed in the paper. 

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