A psychophysical experiment was conducted to compare the discomfort luminance level and the brightness of a head-mounted display (HMD). The results showed that as the size of the HMD stimulus increased, both the discomfort luminance level of the HMD and the brightness of the HMD decreased, but the influence of the size change was more dramatic on the discomfort luminance level than on the brightness. This study showed that to provide a comfortable luminance level for HMDs, the adaptation luminance level and the size of the HMD stimulus should be considered. However, it cannot be predicted in terms of brightness
Head mounted displays (HMDs) have disappointed real world users in their inability to live up to ove...
Vision researchers often rely on visual display technology to present observers with controlled stim...
Brightness judgments are a key part of the primate brain's visual analysis of the environment. There...
To predict the luminance threshold of head-mounted displays (HMDs), which can cause discomfort due t...
The comfortable luminance of Head Mounted Display (HMD) was investigated under four different surrou...
High dynamic range (HDR) displays are designed to simulate the range of perceived brightness afforde...
The most preferred luminance of Head Mounted Display (HMD) was investigated under two initial surrou...
Head-mounted displays (HMDs) often cause discomfort and even nausea. Improving comfort is therefore ...
International audienceHead-mounted displays (HMDs) often cause discomfort and even nausea. Improving...
Many HMD applications are improved when people perceive and act similarly in the virtual world as th...
Luminance adjustment is widely used to evaluate discomfort due to glare. This paper reports an exper...
The limited luminance range of traditional displays means that their visibility is compromised...
Head-mounted displays (HMD) allow the visualization of virtual content and the change of view perspe...
The monitor brightness is affected by surround condition. The perceived brightness values of six tes...
When the pupil dilates, the amount of light that falls onto the retina increases. However, in daily ...
Head mounted displays (HMDs) have disappointed real world users in their inability to live up to ove...
Vision researchers often rely on visual display technology to present observers with controlled stim...
Brightness judgments are a key part of the primate brain's visual analysis of the environment. There...
To predict the luminance threshold of head-mounted displays (HMDs), which can cause discomfort due t...
The comfortable luminance of Head Mounted Display (HMD) was investigated under four different surrou...
High dynamic range (HDR) displays are designed to simulate the range of perceived brightness afforde...
The most preferred luminance of Head Mounted Display (HMD) was investigated under two initial surrou...
Head-mounted displays (HMDs) often cause discomfort and even nausea. Improving comfort is therefore ...
International audienceHead-mounted displays (HMDs) often cause discomfort and even nausea. Improving...
Many HMD applications are improved when people perceive and act similarly in the virtual world as th...
Luminance adjustment is widely used to evaluate discomfort due to glare. This paper reports an exper...
The limited luminance range of traditional displays means that their visibility is compromised...
Head-mounted displays (HMD) allow the visualization of virtual content and the change of view perspe...
The monitor brightness is affected by surround condition. The perceived brightness values of six tes...
When the pupil dilates, the amount of light that falls onto the retina increases. However, in daily ...
Head mounted displays (HMDs) have disappointed real world users in their inability to live up to ove...
Vision researchers often rely on visual display technology to present observers with controlled stim...
Brightness judgments are a key part of the primate brain's visual analysis of the environment. There...