Casey Giordano scite author profile

Purpose Cyberloafing, using technology to idle instead of work, is a particularly concerning issue for many organizations due to its perceived widespread impact on productivity. The purpose of this paper is to meta-analytically examine the growing literature on this construct in order to gain insights into its nomological network and guide future research. Design/methodology/approach After a systematic literature search, the authors conducted psychometric meta-analyses to estimate the relationships of 39 different correlates with cyberloafing. The meta-analytic database was comprised of 54 independent samples contributing 609 effect sizes. Findings Results indicate that boredom, engagement, and self-control exhibit strong relationships with cyberloafing, but employees’ attitudes surrounding and opportunities to engage in cyberloafing also proved powerful predictors. Contrary to common stereotypes, age and other demographic variables exhibited negligible effects. Employment variables (e.g. tenure, organization level, and income) were also negligibly related to cyberloafing. Emotional stability, conscientiousness, and agreeableness exhibited modest negative relationships with cyberloafing, whereas self-control demonstrated a strong negative relationship. Although cyberloafing strongly correlated with overall counterproductive work behaviors, the findings suggest it is unrelated to other components of job performance. Research limitations/implications Because the cyberloafing literature is in its early stages, the present study drew on a limited number of samples for several of the relationships analyzed. Rather than providing conclusive evidence of the nomological network of cyberloafing, these analyses reinforce the need for empirical investigation into several important relationships. Originality/value As the first quantitative review of the emerging cyberloafing literature, this study synthesizes related studies from disparate disciplines, examines the nomological network of cyberloafing, and highlights future directions for research into this phenomenon.

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Recovering bifactor models: A comparison of seven methods.

Giordano¹,

Waller²

2020

Psychological Methods

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The last decade has witnessed a resurgence of interest in exploratory bifactor analysis models and the concomitant development of new methods to estimate these models. Understandably, due to the rapid pace of developments in this area, existing Monte Carlo comparisons of bifactor analysis have not included the newest methods. To address this issue, we compared the model recovery capabilities of 5 existing methods and 2 newer methods (Waller, 2018a) for exploratory bifactor analysis. Our study expands upon previous work in this area by comparing (a) a greater number of estimation algorithms and (b) by including both nonhierarchical and hierarchical bifactor models in our study design. In aggregate, we conducted almost 3 million exploratory bifactor analyses to identify the most accurate methods. Our results showed that, when compared with the alternatives, the rank-deficient Schmid-Leiman and Direct Schmid-Leiman methods were better able to recover both nonhierarchical and hierarchical bifactor structures.

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Detection of COVID-19 using multimodal data from a wearable device: results from the first TemPredict Study

Mason

Hecht

Davis

et al. 2022

Sci Rep

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Early detection of diseases such as COVID-19 could be a critical tool in reducing disease transmission by helping individuals recognize when they should self-isolate, seek testing, and obtain early medical intervention. Consumer wearable devices that continuously measure physiological metrics hold promise as tools for early illness detection. We gathered daily questionnaire data and physiological data using a consumer wearable (Oura Ring) from 63,153 participants, of whom 704 self-reported possible COVID-19 disease. We selected 73 of these 704 participants with reliable confirmation of COVID-19 by PCR testing and high-quality physiological data for algorithm training to identify onset of COVID-19 using machine learning classification. The algorithm identified COVID-19 an average of 2.75 days before participants sought diagnostic testing with a sensitivity of 82% and specificity of 63%. The receiving operating characteristic (ROC) area under the curve (AUC) was 0.819 (95% CI [0.809, 0.830]). Including continuous temperature yielded an AUC 4.9% higher than without this feature. For further validation, we obtained SARS CoV-2 antibody in a subset of participants and identified 10 additional participants who self-reported COVID-19 disease with antibody confirmation. The algorithm had an overall ROC AUC of 0.819 (95% CI [0.809, 0.830]), with a sensitivity of 90% and specificity of 80% in these additional participants. Finally, we observed substantial variation in accuracy based on age and biological sex. Findings highlight the importance of including temperature assessment, using continuous physiological features for alignment, and including diverse populations in algorithm development to optimize accuracy in COVID-19 detection from wearables.

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Casey Giordano

A meta-analytic investigation of cyberloafing

Recovering bifactor models: A comparison of seven methods.

Detection of COVID-19 using multimodal data from a wearable device: results from the first TemPredict Study

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