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A publicação pode ser exportada nos seguintes formatos: referência da APA (American Psychological Association), referência do IEEE (Institute of Electrical and Electronics Engineers), BibTeX e RIS.

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Luís Coroado, Silva Pedro, T., Alpuim, J., Eloy, S. & Dias, M. S. (2015). VIARmodes: Visualization and interaction in Immersive Virtual Reality for architectural design process. Proceedings of eCADDe 2015 conference. \, 125-134

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L. Coroado et al.,  "VIARmodes: Visualization and interaction in Immersive Virtual Reality for architectural design process", in Proc. of eCADDe 2015 conference, Vienna, vol. \, pp. 125-134, 2015

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@misc{coroado2015_1714320423408,
	author = "Luís Coroado and Silva Pedro, T. and Alpuim, J. and Eloy, S. and Dias, M. S.",
	title = "VIARmodes: Visualization and interaction in Immersive Virtual Reality for architectural design process",
	year = "2015",
	howpublished = "Ambos (impresso e digital)",
	url = ""
}

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TY - CPAPER
TI - VIARmodes: Visualization and interaction in Immersive Virtual Reality for architectural design process
T2 - Proceedings of eCADDe 2015 conference
VL - \
AU - Luís Coroado
AU - Silva Pedro, T.
AU - Alpuim, J.
AU - Eloy, S.
AU - Dias, M. S.
PY - 2015
SP - 125-134
CY - Vienna
AB - The complexity of today´s architecture solutions brings the need to integrate, in the design process, digital tools for creation, visualization, representation and evaluation of design solutions. This paper proposes the adoption of a new Virtual Reality (VR) tool, referred to as VIARmodes, to support the architectural design process with an improved communication across different specialities, towards the facilitation of the project decision process. This tool allows a complete
visualization of the design, specifically useful during the detailed design phase, including the architecture design and of other engineering specialities, progressively and interactively adapting the project visualization to the
information needed for each discipline. With a set of 3 different visualization modes simulated in real scale within a Virtual Environment (VE), and adopting
natural human-computer interaction by using speech, the system allows a team of architect and engineers, to visualize and interact with the proposed design during
a collaborative design brief. We carried a usability evaluation study with 12 architects. The study showed that the tool was perceived to be effective and its use
efficient during the design process, especially during the detailed design phase.

ER -