Examining Temporal Regularity in Categorical Team Communication Using Sample Entropy

Strang, Adam J.; Horwood, Sharon; Best, Christopher; Funke, Gregory J.; Knott, Benjamin A.; Russell, Sheldon M.

doi:10.1177/1071181312561047

Cited by 11 publications

(18 citation statements)

References 19 publications

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“…Note that adopting this approach may require either the use of speaker-only codes (i.e., codes that only represent speaker and not semantic content; cf. Strang et al, 2012;Parker et al, 2016, when exploring alternative coding systems) or the use of methods from computational linguistics that can semantically categorize single utterances in near real time (e.g., Angus et al, 2012). Alternatively, one could use more fundamental linguistic aspects such as the categorization of vocal frequency (Black et al, 2013) or speech/pause dynamics (Fusaroli & Tyl en, 2016).…”

Section: Discussionmentioning

confidence: 99%

Problem‐Solving Phase Transitions During Team Collaboration

2017

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Multiple theories of problem-solving hypothesize that there are distinct qualitative phases exhibited during effective problem-solving. However, limited research has attempted to identify when transitions between phases occur. We integrate theory on collaborative problem-solving (CPS) with dynamical systems theory suggesting that when a system is undergoing a phase transition it should exhibit a peak in entropy and that entropy levels should also relate to team performance. Communications from 40 teams that collaborated on a complex problem were coded for occurrence of problem-solving processes. We applied a sliding window entropy technique to each team's communications and specified criteria for (a) identifying data points that qualify as peaks and (b) determining which peaks were robust. We used multilevel modeling, and provide a qualitative example, to evaluate whether phases exhibit distinct distributions of communication processes. We also tested whether there was a relationship between entropy values at transition points and CPS performance. We found that a proportion of entropy peaks was robust and that the relative occurrence of communication codes varied significantly across phases. Peaks in entropy thus corresponded to qualitative shifts in teams' CPS communications, providing empirical evidence that teams exhibit phase transitions during CPS. Also, lower average levels of entropy at the phase transition points predicted better CPS performance. We specify future directions to improve understanding of phase transitions during CPS, and collaborative cognition, more broadly.

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Section: Discussionmentioning

confidence: 99%

Problem‐Solving Phase Transitions During Team Collaboration

2017

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“…Recently, nonlinear time series analysis techniques, which can be used to characterise the degrees of temporal variation (or complexity) in complex rhythmic signals, have been successfully applied to team communications data. These approaches provide new insights into team communication dynamics while complementing information derived from other more "established" analytical approaches (Gorman, Cooke, Amazeen & Fouse, 2012;Strang, et al, 2012). In general, results from these recent studies have described findings that align with a theory of optimal complexity (Stergiou, Harbourne & Cavanaugh, 2006;Stergiou & Decker, 2011), which posits complex rhythmic systems exhibit optimal and efficient performance when they exhibit a combination of both deterministic (predictable) and stochastic (unpredictable) behaviour, i.e., systems are optimal when they exhibit simultaneous stability and flexibility.…”

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confidence: 78%

An Investigation of Coding Schemes for Sample Entropy Analysis of Communications Data

Parker

Best

Funke³

et al. 2016

Proceedings of the Human Factors and Ergonomics Society Annual

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An investigation into the effect of coding scheme choice for sample entropy analysis of communications data is presented. Semantic content and speaker encoding of transmissions are explored. The results suggest a scheme with a greater number of categories will more likely pass surrogate testing, whether through finer distinctions of semantic categorization or through the additions of a speaker-content interaction. The results also suggest the way semantic categories are formed affects how well the scheme permits discrimination between workload conditions with a known effect.

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“…SEn parameters M and r were set at 2 and 0, respectively, for type time series following the recommendations and procedures described in Strang et al (2012) for examining nominal data.…”

Section: Discussionmentioning

confidence: 99%

“…In a recent experiment, Strang et al (2012) used Sample Entropy (SEn; Richman & Moorman, 2000) to examine temporal structure in categorically coded team communications made by teams performing a simulated air defense task. The main findings from that study were: a) confirmation that meaningful temporal structure existed in team communication (i.e., communication patterns were not random, but instead contained semideterministic temporal structure), and b) SEn values were influenced by experimental manipulationcommunication exhibited lower complexity (decreased SEn) in teams exposed to high task difficulty.…”

Section: Introductionmentioning

confidence: 99%

Temporal Complexity in Team Coordination Associated with Increased Performance in a Fast-Paced Puzzle Task

Strang

Epling²,

Funke³

et al. 2013

Proceedings of the Human Factors and Ergonomics Society Annual

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Coordination is a critical component of team performance. Nonlinear time-series measures, such as Sample Entropy (SEn), provide a novel means to examine temporal structure in team coordination. The goal for this study was to apply SEn to the continuous motor responses (gamepad button presses) of dyadic teams who performed a fast-paced puzzle task (Quadra -a variant of videogame Tetris). Inferential analyses were used to: a) determine if meaningful (i.e., deterministic) temporal structure existed in team responses using SEn, and b) examine correlations between team performance and coordination metrics (including SEn). Results confirmed that meaningful temporal structure existed in the sequential type and time of team motor responses. In addition, SEn was the only coordination metric to exhibit a significant relationship with team performance outcomes. Together, these findings support the viability and salience of nonlinear measures such as SEn in assessment of team coordination.

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Examining Temporal Regularity in Categorical Team Communication Using Sample Entropy

Cited by 11 publications

References 19 publications

Problem‐Solving Phase Transitions During Team Collaboration

Problem‐Solving Phase Transitions During Team Collaboration

An Investigation of Coding Schemes for Sample Entropy Analysis of Communications Data

Temporal Complexity in Team Coordination Associated with Increased Performance in a Fast-Paced Puzzle Task

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