Tien Dat Nguyen scite author profile

We conducted two experiments that compared distance perception in real and virtual environments in six visual presentation methods using either timed imagined walking or direct blindfolded walking, while controlling for several other factors that could potentially impact distance perception. Our presentation conditions included unencumbered real world, real world seen through an HMD, virtual world seen through an HMD, augmented reality seen through an HMD, virtual world seen on multiple, large immersive screens, and photo-based presentation of the real world seen on multiple, large immersive screens. We found that there was a similar degree of underestimation of distance in the HMD and large-screen presentations of virtual environments. We also found that while wearing the HMD can cause some degree of distance underestimation, this effect depends on the measurement protocol used. Finally, we found that photo-based presentation did not help to improve distance perception in a large-screen immersive display system. The discussion focuses on points of similarity and difference with previous work on distance estimation in real and virtual environments.

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Extensive germline genome engineering in pigs

Yue¹,

Xu²,

Kan

et al. 2020

Nat Biomed Eng

130

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A small biomimetic quadruped robot driven by multistacked dielectric elastomer actuators

Nguyen¹,

Phung²,

Nguyen³

et al. 2014

Smart Mater. Struct.

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A kind of dielectric elastomer (DE) material, called 'synthetic elastomer', has been developed based on acrylonitrile butadiene rubber (NBR) to be used as a dielectric elastomer actuator (DEA). By stacking single layers of synthetic elastomer, a linear actuator, called a multistacked actuator, is produced, and used by mechatronic and robotic systems to generate linear motion. In this paper, we demonstrate the application of the multistacked dielectric elastomer actuator in a biomimetic legged robot. A miniature robot driven by a biomimetic actuation system with four 2-DOF (two-degree-of-freedom) legged mechanisms is realized. Based on the experimental results, we evaluate the performance of the proposed robot and validate the feasibility of the multistacked actuator in a locomotion system as a replacement for conventional actuators.

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Multiple-degrees-of-freedom dielectric elastomer actuators for soft printable hexapod robot

Nguyen

Phung

Nguyen

et al. 2017

Sensors and Actuators A: Physical

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Printable monolithic hexapod robot driven by soft actuator

Nguyen

Phung

Jung

et al. 2015

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Tien Dat Nguyen

How does presentation method and measurement protocol affect distance estimation in real and virtual environments?

Extensive germline genome engineering in pigs

A small biomimetic quadruped robot driven by multistacked dielectric elastomer actuators

Multiple-degrees-of-freedom dielectric elastomer actuators for soft printable hexapod robot

Printable monolithic hexapod robot driven by soft actuator

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