Current Search: communication modality (x)
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- Title
- COMMUNICATION MODALITY AND AFTER ACTION REVIEW PERFORMANCE IN A DISTRIBUTED IMMERSIVE VIRTUAL ENVIRONMENT.
- Creator
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Kring, Jason P., Salas, Eduardo, University of Central Florida
- Abstract / Description
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Virtual teams, in which geographically separate individuals interact via a technology bridge to perform collective activities, are becoming commonplace in the military, business, and education. Despite numerous benefits, virtual teams often lack face-to-face (FTF) interaction which may alter communication processes and subsequently affect team factors necessary for successful performance. Previous research indicated local teams, with members at the same physical location, outperformed...
Show moreVirtual teams, in which geographically separate individuals interact via a technology bridge to perform collective activities, are becoming commonplace in the military, business, and education. Despite numerous benefits, virtual teams often lack face-to-face (FTF) interaction which may alter communication processes and subsequently affect team factors necessary for successful performance. Previous research indicated local teams, with members at the same physical location, outperformed distributed teams, with members at different locations, in a series of military-style missions in an immersive virtual environment (VE). The present study replicated and extended this effort by measuring how communication modality affects three team factors often cited as facilitating performance: shared mental models (SMMs), cohesion (task and interpersonal), and trust (cognitive and emotional). Local teams were expected to again perform better than distributed teams and exhibit greater SMM similarity, cohesion, and trust. Furthermore, a brief team communication training (TCT) program was administered to half of the teams on the premise training would improve distributed team performance. Thirty two, 2-person teams were distributed into four experimental conditions (n = 8) based on location (local vs. distributed) and training (TCT vs. no-TCT) and then conducted five VE missions. Each mission required the team to search a 10-room building for hazardous materials and opposing forces while protecting neutral bystanders. Results showed local teams again performed better than distributed teams on overall mission performance, however the difference was less robust than anticipated. Analyses of the three team factors revealed a main effect of location as local teams reported higher levels of cognitive trust and more agreement on one of 10 SMM measures than distributed teams. A similar difference was found for the main effect of TCT with trained teams exhibiting higher cognitive trust than no-TCT teams. Results support that distributed teams operating in a common virtual setting experience performance deficits when compared to their physically co-located counterparts. Future research is needed to address the role of cognitive trust for virtual teams, the time required to develop detectable levels of emotional trust and cohesion, and how social presence between team members influences performance.
Show less - Date Issued
- 2004
- Identifier
- CFE0000054, ucf:46074
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/ucf/fd/CFE0000054
- Title
- Investigation of Tactile Displays for Robot to Human Communication.
- Creator
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Barber, Daniel, Reinerman, Lauren, Jentsch, Florian, Lackey, Stephanie, Leonessa, Alexander, University of Central Florida
- Abstract / Description
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Improvements in autonomous systems technology and a growing demand within military operations are spurring a revolution in Human-Robot Interaction (HRI). These mixed-initiative human-robot teams are enabled by Multi-Modal Communication (MMC), which supports redundancy and levels of communication that are more robust than single mode interaction. (Bischoff (&) Graefe, 2002; Partan (&) Marler, 1999). Tactile communication via vibrotactile displays is an emerging technology, potentially...
Show moreImprovements in autonomous systems technology and a growing demand within military operations are spurring a revolution in Human-Robot Interaction (HRI). These mixed-initiative human-robot teams are enabled by Multi-Modal Communication (MMC), which supports redundancy and levels of communication that are more robust than single mode interaction. (Bischoff (&) Graefe, 2002; Partan (&) Marler, 1999). Tactile communication via vibrotactile displays is an emerging technology, potentially beneficial to advancing HRI. Incorporation of tactile displays within MMC requires developing messages equivalent in communication power to speech and visual signals used in the military. Toward that end, two experiments were performed to investigate the feasibility of a tactile language using a lexicon of standardized tactons (tactile icons) within a sentence structure for communication of messages for robot to human communication. Experiment one evaluated tactons from the literature with standardized parameters grouped into categories (directional, dynamic, and static) based on the nature and meaning of the patterns to inform design of a tactile syntax. Findings of this experiment revealed directional tactons showed better performance than non-directional tactons, therefore syntax for experiment two composed of a non-directional and a directional tacton was more likely to show performance better than chance. Experiment two tested the syntax structure of equally performing tactons identified from experiment one, revealing participants' ability to interpret tactile sentences better than chance with or without the presence of an independent work imperative task. This finding advanced the state of the art in tactile displays from one to two word phrases facilitating inclusion of the tactile modality within MMC for HRI.
Show less - Date Issued
- 2012
- Identifier
- CFE0004778, ucf:49800
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/ucf/fd/CFE0004778
