Echolization. Seeing the Virtual World through Visualized Echos

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

Resumé

This poster describes a within subject-study of navigation with cognitive mental map based on visualization of sonic echoes in a dark virtual environment (VE). Participants experienced navigation in two conditions: Light (directional lights turned on) and Dark (directional lights switched off). In both conditions participants could send the visualized audio signal, thus in the Dark condition it was the only possible visualized navigational option. The results suggest that participants were able to create a cognitive mental map, for both conditions, and were also able to perform spatial localization and navigation.
OriginalsprogEngelsk
TitelEcholization. Seeing the Virtual World through Visualized Echos
ForlagIEEE
StatusAccepteret/In press - 14 feb. 2019

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Navigation
Virtual reality
Visualization

Citer dette

Andreasen, A., & Palamas, G. (Accepteret/In press). Echolization. Seeing the Virtual World through Visualized Echos. I Echolization. Seeing the Virtual World through Visualized Echos IEEE.
Andreasen, Anastassia ; Palamas, George. / Echolization. Seeing the Virtual World through Visualized Echos. Echolization. Seeing the Virtual World through Visualized Echos. IEEE, 2019.
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title = "Echolization. Seeing the Virtual World through Visualized Echos",
abstract = "This poster describes a within subject-study of navigation with cognitive mental map based on visualization of sonic echoes in a dark virtual environment (VE). Participants experienced navigation in two conditions: Light (directional lights turned on) and Dark (directional lights switched off). In both conditions participants could send the visualized audio signal, thus in the Dark condition it was the only possible visualized navigational option. The results suggest that participants were able to create a cognitive mental map, for both conditions, and were also able to perform spatial localization and navigation.",
keywords = "Human-centered computing-Mixed / augmented reality-Human-centered computing-Auditory feedback, Visualization design and evaluation methods, Visualization techniques, Visualization",
author = "Anastassia Andreasen and George Palamas",
year = "2019",
month = "2",
day = "14",
language = "English",
booktitle = "Echolization. Seeing the Virtual World through Visualized Echos",
publisher = "IEEE",
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Andreasen, A & Palamas, G 2019, Echolization. Seeing the Virtual World through Visualized Echos. i Echolization. Seeing the Virtual World through Visualized Echos. IEEE.

Echolization. Seeing the Virtual World through Visualized Echos. / Andreasen, Anastassia; Palamas, George.

Echolization. Seeing the Virtual World through Visualized Echos. IEEE, 2019.

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

TY - GEN

T1 - Echolization. Seeing the Virtual World through Visualized Echos

AU - Andreasen, Anastassia

AU - Palamas, George

PY - 2019/2/14

Y1 - 2019/2/14

N2 - This poster describes a within subject-study of navigation with cognitive mental map based on visualization of sonic echoes in a dark virtual environment (VE). Participants experienced navigation in two conditions: Light (directional lights turned on) and Dark (directional lights switched off). In both conditions participants could send the visualized audio signal, thus in the Dark condition it was the only possible visualized navigational option. The results suggest that participants were able to create a cognitive mental map, for both conditions, and were also able to perform spatial localization and navigation.

AB - This poster describes a within subject-study of navigation with cognitive mental map based on visualization of sonic echoes in a dark virtual environment (VE). Participants experienced navigation in two conditions: Light (directional lights turned on) and Dark (directional lights switched off). In both conditions participants could send the visualized audio signal, thus in the Dark condition it was the only possible visualized navigational option. The results suggest that participants were able to create a cognitive mental map, for both conditions, and were also able to perform spatial localization and navigation.

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Andreasen A, Palamas G. Echolization. Seeing the Virtual World through Visualized Echos. I Echolization. Seeing the Virtual World through Visualized Echos. IEEE. 2019