Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort

Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort

The current shutter type (SG) 3D glasses in the market are heavy (41 g) and have a poor weight balance due to a battery and a circuit board on the temples of the glasses. Therefore, it causes high pressure on the nose and discomfort for the users. This study determined the optimal location of a circ...

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Main Authors: Chang, J., Jung, K., Moon, S. K., Kim, W., Freivalds, A., Simpson, T. W., Baik, S. P.
Other Authors: School of Mechanical and Aerospace Engineering
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/98439
http://hdl.handle.net/10220/12646
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-984392020-03-07T13:22:18Z Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort Chang, J. Jung, K. Moon, S. K. Kim, W. Freivalds, A. Simpson, T. W. Baik, S. P. School of Mechanical and Aerospace Engineering The current shutter type (SG) 3D glasses in the market are heavy (41 g) and have a poor weight balance due to a battery and a circuit board on the temples of the glasses. Therefore, it causes high pressure on the nose and discomfort for the users. This study determined the optimal location of a circuit board and a battery for SG type 3D glasses. Four 3D glasses with different weight distributions (the battery and the circuit board locations: front, middle, ear, and rear positions) were employed in the experiments. Subjective discomfort ratings (100 point scale) around the nose and the posterior edge of the ear were obtained after wearing the four 3D glasses. Also, at the same time the load on the nose was measured by using FSR (force sensing resistor) film sensors. As a result, the front position showed the highest subjective discomfort rating on the nose. Discomfort ratings on the nose were decreased significantly as the location of the battery and circuit board moved backward on the temples (p = 0.0009). On the other hand, the ear position showed the highest subjective discomfort rating on the posterior edge of the ear, and, as opposed to the nose, the subjective discomfort ratings for the posterior edge of the ear tended to increase as the battery and circuit board moved backward (p = 0.0093). The highest nose load, 0.34 N, was found on the front position, and the load on the nose was decreased significantly as the location of the battery and circuit board moved backward (p < 0.001). Also, the nose loads had a strong correlation with the discomfort ratings on the nose (Radj 2 = 99.1%), but no strong correlation was found with the subjective discomfort ratings on the posterior edge of the ear (Radj 2 = 19.6%). Consequently, the middle position was recommended as the optimal location of the battery and circuit board on the temples of the SG type 3D glasses by considering the above results. 2013-07-31T07:13:54Z 2019-12-06T19:55:15Z 2013-07-31T07:13:54Z 2019-12-06T19:55:15Z 2012 2012 Journal Article Chang, J., Jung, K., Moon, S. K., Kim, W., Freivalds, A., Simpson, T. W., et al. (2012). Determination of Optimal Location of Circuit Board and Battery on 3D Glasses by Considering Nose Load and Subjective Discomfort. Proceedings of the Human Factors and Ergonomics Society Annual Meeting, 56(1), 1877-1881. https://hdl.handle.net/10356/98439 http://hdl.handle.net/10220/12646 10.1177/1071181312561272 en Proceedings of the human factors and ergonomics society annual meeting
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
description The current shutter type (SG) 3D glasses in the market are heavy (41 g) and have a poor weight balance due to a battery and a circuit board on the temples of the glasses. Therefore, it causes high pressure on the nose and discomfort for the users. This study determined the optimal location of a circuit board and a battery for SG type 3D glasses. Four 3D glasses with different weight distributions (the battery and the circuit board locations: front, middle, ear, and rear positions) were employed in the experiments. Subjective discomfort ratings (100 point scale) around the nose and the posterior edge of the ear were obtained after wearing the four 3D glasses. Also, at the same time the load on the nose was measured by using FSR (force sensing resistor) film sensors. As a result, the front position showed the highest subjective discomfort rating on the nose. Discomfort ratings on the nose were decreased significantly as the location of the battery and circuit board moved backward on the temples (p = 0.0009). On the other hand, the ear position showed the highest subjective discomfort rating on the posterior edge of the ear, and, as opposed to the nose, the subjective discomfort ratings for the posterior edge of the ear tended to increase as the battery and circuit board moved backward (p = 0.0093). The highest nose load, 0.34 N, was found on the front position, and the load on the nose was decreased significantly as the location of the battery and circuit board moved backward (p < 0.001). Also, the nose loads had a strong correlation with the discomfort ratings on the nose (Radj 2 = 99.1%), but no strong correlation was found with the subjective discomfort ratings on the posterior edge of the ear (Radj 2 = 19.6%). Consequently, the middle position was recommended as the optimal location of the battery and circuit board on the temples of the SG type 3D glasses by considering the above results.
author2 School of Mechanical and Aerospace Engineering
author_facet School of Mechanical and Aerospace Engineering
Chang, J.
Jung, K.
Moon, S. K.
Kim, W.
Freivalds, A.
Simpson, T. W.
Baik, S. P.
format Article
author Chang, J.
Jung, K.
Moon, S. K.
Kim, W.
Freivalds, A.
Simpson, T. W.
Baik, S. P.
spellingShingle Chang, J.
Jung, K.
Moon, S. K.
Kim, W.
Freivalds, A.
Simpson, T. W.
Baik, S. P.
Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort
author_sort Chang, J.
title Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort
title_short Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort
title_full Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort
title_fullStr Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort
title_full_unstemmed Determination of optimal location of circuit board and battery on 3D glasses by considering nose load and subjective discomfort
title_sort determination of optimal location of circuit board and battery on 3d glasses by considering nose load and subjective discomfort
publishDate 2013
url https://hdl.handle.net/10356/98439
http://hdl.handle.net/10220/12646
_version_ 1681035838836703232

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