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Dr Lore Thaler's Outputs (5)

Bayes-Like Integration of a New Sensory Skill with Vision (2018)
Journal Article
Negen, J., Wen, L., Thaler, L., & Nardini, M. (2018). Bayes-Like Integration of a New Sensory Skill with Vision. Scientific Reports, 8, Article 16880. https://doi.org/10.1038/s41598-018-35046-7

Humans are effective at dealing with noisy, probabilistic information in familiar settings. One hallmark of this is Bayesian Cue Combination: combining multiple noisy estimates to increase precision beyond the best single estimate, taking into accoun... Read More about Bayes-Like Integration of a New Sensory Skill with Vision.

Psychophysical and neuroimaging responses to moving stimuli in a patient with the Riddoch phenomenon due to bilateral visual cortex lesions (2018)
Journal Article
Arcaro, M. J., Thaler, L., Quinlan, D. J., Monaco, S., Khan, S., Valyear, K. F., Goebel, R., Dutton, G. N., Goodale, M. A., Kastner, S., & Culham, J. C. (2019). Psychophysical and neuroimaging responses to moving stimuli in a patient with the Riddoch phenomenon due to bilateral visual cortex lesions. Neuropsychologia, 128, 150-165. https://doi.org/10.1016/j.neuropsychologia.2018.05.008

Patients with injury to early visual cortex or its inputs can display the Riddoch phenomenon: preserved awareness for moving but not stationary stimuli. We provide a detailed case report of a patient with the Riddoch phenomenon, MC. MC has extensive... Read More about Psychophysical and neuroimaging responses to moving stimuli in a patient with the Riddoch phenomenon due to bilateral visual cortex lesions.

Human echolocation for target detection is more accurate with emissions containing higher spectral frequencies, and this is explained by echo intensity (2018)
Journal Article
Norman, L., & Thaler, L. (2018). Human echolocation for target detection is more accurate with emissions containing higher spectral frequencies, and this is explained by echo intensity. i-Perception, 9(3), 1-18. https://doi.org/10.1177/2041669518776984

Humans can learn to use acoustic echoes to detect and classify objects. Echolocators typically use tongue clicks to induce these echoes, and there is some evidence that higher spectral frequency content of an echolocator’s tongue click is associated... Read More about Human echolocation for target detection is more accurate with emissions containing higher spectral frequencies, and this is explained by echo intensity.

Human echolocation: 2D shape discrimination using features extracted from acoustic echoes (2018)
Journal Article
Yu, X., Thaler, L., Baker, C., Smith, G., & Zhao, L. (2018). Human echolocation: 2D shape discrimination using features extracted from acoustic echoes. Electronics Letters, 54(12), 785-787. https://doi.org/10.1049/el.2018.0680

Some blind humans have developed the ability to perceive their silent surrounding by using echolocation based on tongue clicks. Past research has also shown that blind echolocators can use information gained from multiple echoic ‘views’, provided thr... Read More about Human echolocation: 2D shape discrimination using features extracted from acoustic echoes.

Human Echolocators adjust loudness and number of clicks for detection of reflectors at various azimuth angles (2018)
Journal Article
Thaler, L., De Vos, H., Kish, D., Antoniou, M., Baker, C., & Hornikx, M. (2018). Human Echolocators adjust loudness and number of clicks for detection of reflectors at various azimuth angles. Proceedings of the Royal Society B: Biological Sciences, 285(1873), Article 20172735. https://doi.org/10.1098/rspb.2017.2735

In bats it has been shown that they adjust their emissions to situational demands. Here we report similar findings for human echolocation. We asked eight blind expert echolocators to detect reflectors positioned at various azimuth angles. The same 17... Read More about Human Echolocators adjust loudness and number of clicks for detection of reflectors at various azimuth angles.