Detection and Discrimination of Motion-Defined Form: Implications for the Use of Night Vision Devices
Autor: | Sion Jennings, Todd Macuda, Robert S. Allison |
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Rok vydání: | 2013 |
Předmět: |
Computer Networks and Communications
business.industry Computer science Image intensifier Human Factors and Ergonomics Object detection Computer Science Applications law.invention Human-Computer Interaction symbols.namesake Dark-frame subtraction Artificial Intelligence Control and Systems Engineering Gaussian noise Colors of noise law Night vision Signal Processing symbols Image noise Computer vision Artificial intelligence business Night vision device |
Zdroj: | IEEE Transactions on Human-Machine Systems. 43:558-569 |
ISSN: | 2168-2305 2168-2291 |
Popis: | Superimposed luminance noise is typical of imagery from devices used for low-light vision such as image intensifiers (i.e., night vision devices). In four experiments, we measured the ability to detect and discriminate motion-defined forms as a function of stimulus signal-to-noise ratio at a variety of stimulus speeds. For each trial, observers were shown a pair of image sequences- one containing dots in a central motion-defined target region that moves coherently against the surrounding dots, which moved in the opposite or in random directions, while the other sequence had the same random/uniform motion in both the center and surrounding parts. They indicated which interval contained the target stimulus in a two-interval forced-choice procedure. In the first experiment, simulated night vision images were presented with Poisson-distributed spatiotemporal image noise added to both the target and surrounding regions of the display. As the power of spatiotemporal noise was increased, it became harder for observers to detect the target, particularly at the lowest and highest dot speeds. The second experiment confirmed that these effects also occurred with low illumination in real night vision device imagery, a situation that produces similar image noise. The third experiment demonstrated that these effects generalized to Gaussian noise distributions and noise created by spatiotemporal decorrelation. In the fourth experiment, we found similar speed-dependent effects of luminance noise for the discrimination (as opposed to detection) of the shape of a motion-defined form. The results are discussed in terms of physiological motion processing and for the usability of enhanced vision displays under noisy conditions. © 2013 IEEE. |
Databáze: | OpenAIRE |
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