Global ETD Search

1	Comparing listeners’ ability to detect and lateralize simulated sound reflections Isohanni (fd Kempe), Freja January 2019 (has links) Echolocation is using lagging sounds as cues to localize the objects reflecting them. The precedence effect (PE) occurs when echoic signals are suppressed in favour of leading signals. In this study, the ability of nine listeners to overcome the PE when detecting and lateralizing echoic signals through headphones was measured and compared. Threshold estimates of the lead-lag ratio (dB) for lead-lag click-pairs at eight different inter-click intervals (ICIs) between 6-200ms were obtained. Further, two listeners trained each task at two ICIs (12 and 200ms) for seven days to investigate training, and transfer of training, effect between tasks. The results revealed that the PE is still present in lateralization tasks when ICI is at least 48ms. A threshold level difference between echo detection and lateralization was observed, indicating a possibility of different processing mechanisms between tasks. No training effects were found although longer training periods could provide more answers to what lies behind the ability to overcome the PE and echolocate efficiently in everyday life. Psychology Psychophysics Psychoacoustics Human echolocation Psychology Psykologi
2	IMPLEMENTATION AND EVALUATION OF AUDITORY MODELS FOR HUMAN ECHOLOCATION Gidla, Vijay Kiran January 2016 (has links) Blind people use echoes to detect objects and to find their way, the ability being known as human echolocation. Previous research have found some of the favorable conditions for the detection of the object, with many factors yet to be analyzed and quantified. Studies have also shown that blind people are more efficient than the sighted in echolocating, with the performance varying among the individuals. This motivated the research in human echolocation to move in a new direction to get a fuller understanding for the high detection of the blind. The psychoacoustic experiments solely cannot determine how the superior echo detection of the blind listeners should be attributed to perceptual or physiological causes. Along with the perceptual results it is vital to know how the sounds are processed in the auditory system. Hearing research has led to the development of several auditory models by combining the physiological and psychological results with signal analysis methods. These models try to describe how the auditory system processes the signals. Hence, to analyze how the sounds are processed for the high detection of the blind, auditory models available in the literature were used in this thesis. The results suggest that repetition pitch is useful at shorter distances and is determined from the peaks in the temporal profile of the autocorrelation function computed on the neural activity pattern. Loudness attribute also plays a role in providing information for the listeners to echolocate at shorter distances. At longer distances timbre aspects such as sharpness information might be used by the listeners to detect the objects. It was also found that the repetition pitch, loudness and sharpness attributes in turn depend on the room acoustics and type of the stimuli used. These results show the fruitfulness of combining results from different disciplines through a mathematical framework given by signal analysis. Human echolocation Psychoacoustics Physiology Signal analysis Auditory models.
3	Human echolocation : The effect of object size, distance and auditory angle Rådsten-Ekman, Maria January 2008 (has links) <p>Both blind and sighted persons may use echoes for detecting objects.</p><p>The effect of object size on echolocation was tested in a listening</p><p>experiment with 15 sighted participants. Noise burst of 500-ms were</p><p>generated and recorded in an ordinary room, with and without a</p><p>reflecting object. The diameter of the reflecting object was 0.25 or</p><p>0.50 m, and it was located at a distance of 0.5, 1, 2, 3 m from the</p><p>microphones. Pairs of sounds, one with and one without the object,</p><p>were presented to the listeners. Their task was to decide which of the</p><p>two sounds that were recorded with the reflecting object. The results</p><p>showed that it was harder to detect the 0.25 than the 0.5 m object, and</p><p>that performance generally decreased with distance. The auditory</p><p>angle, which is a function of the size to distance ratio, was found to</p><p>predict detection performance fairly well.</p><p>Sighted</p> human echolocation effect of object size distans auditory angle Psychology Psykologi
4	Human echolocation : The effect of object size, distance and auditory angle Rådsten-Ekman, Maria January 2008 (has links) Both blind and sighted persons may use echoes for detecting objects. The effect of object size on echolocation was tested in a listening experiment with 15 sighted participants. Noise burst of 500-ms were generated and recorded in an ordinary room, with and without a reflecting object. The diameter of the reflecting object was 0.25 or 0.50 m, and it was located at a distance of 0.5, 1, 2, 3 m from the microphones. Pairs of sounds, one with and one without the object, were presented to the listeners. Their task was to decide which of the two sounds that were recorded with the reflecting object. The results showed that it was harder to detect the 0.25 than the 0.5 m object, and that performance generally decreased with distance. The auditory angle, which is a function of the size to distance ratio, was found to predict detection performance fairly well. Sighted human echolocation effect of object size distans auditory angle Psychology Psykologi
5	Analysis of Human Echolocation Waveform for Radar Target Recognition Patel, Kandarp 31 May 2013 (has links) No description available. Electrical Engineering "Human Echolocation" "Radar Target Recognition" "Tongue Click Analysis" "Acoustic Radar"

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