Differences between the signals captured at the entrances to the left and right ears are generally quantified by interaural time differences (ITDs), interaural level differences (ILDs) and interaural crosscorrelation (IC). Here, we attempt to gain knowledge on the changes of these interaural parameters during rowing and to evaluate their potential as source of information to determine rowing expertise exclusively from acoustic signals
<p>The differences are based on the signals at the frontal microphone of behind the ear devices.</p
<p>Depending on the position of the source, the emitted sound needs a different amount of time to tr...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
Differences between the signals captured at the entrances to the left and right ears are generally q...
hannover.de Presenting information acoustically has become increasingly interesting for technique tr...
The aim of this study was to examine (1) the temporal structures of variation in rowers' (natural) e...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plane...
Techniques for machine hearing are increasing their potentiality due to new application domains. In ...
Presented at the 18th International Conference on Auditory Display (ICAD2012) on June 18-21, 2012 i...
Techniques for machine hearing are increasing their potentiality due to new application domains. In ...
Presenting acoustic information has become increasingly interesting for technique training and contr...
In this contribution, we investigate the internal representations given by the binaural model propos...
Differences in the time-of-arrival of sounds at the two ears, or interaural temporal disparities (IT...
<p>Across-time average interaural time differences (ITDs, top row, A, C, E) and interaural level dif...
Humans perceive their acoustic environment by means of two ears located at opposite positions on the...
<p>The differences are based on the signals at the frontal microphone of behind the ear devices.</p
<p>Depending on the position of the source, the emitted sound needs a different amount of time to tr...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
Differences between the signals captured at the entrances to the left and right ears are generally q...
hannover.de Presenting information acoustically has become increasingly interesting for technique tr...
The aim of this study was to examine (1) the temporal structures of variation in rowers' (natural) e...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plane...
Techniques for machine hearing are increasing their potentiality due to new application domains. In ...
Presented at the 18th International Conference on Auditory Display (ICAD2012) on June 18-21, 2012 i...
Techniques for machine hearing are increasing their potentiality due to new application domains. In ...
Presenting acoustic information has become increasingly interesting for technique training and contr...
In this contribution, we investigate the internal representations given by the binaural model propos...
Differences in the time-of-arrival of sounds at the two ears, or interaural temporal disparities (IT...
<p>Across-time average interaural time differences (ITDs, top row, A, C, E) and interaural level dif...
Humans perceive their acoustic environment by means of two ears located at opposite positions on the...
<p>The differences are based on the signals at the frontal microphone of behind the ear devices.</p
<p>Depending on the position of the source, the emitted sound needs a different amount of time to tr...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...