A. R. Kulaib scite author profile

Being able to localize the position of a sound source is an important issue in robotics and many other application areas, since it enables those systems to interact with the environment. For example, USAR robotics can use sound to search for hidden victims that are shouting for help. The 2D binaural sound localization system in this paper is inspired by the human auditory system and are based on the Interaural Time Difference (ITD) and the Head Related Transfer Function (HRTF). The ITD is used to localize a sound source in the horizontal plane relaying on the difference of arrival times of the sound signal between the two microphones and notches in frequency spectra (HRTF) are used to localize a sound source in the vertical plane. To easily and accurately extract notches we used a spiral shaped pinna that allows notches in the frequency spectra to change linearly as a sound source moves in the vertical plane, giving a relationship between notches and elevation angle. The two models used in this paper are tested to assess their accuracy, show their limitations and we concluded by noting how accuracy and repeatability can be improved.

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Hybrid RSS-DOA technique for enhanced WSN localization in a correlated environment

AlHajri

Goian

Darweesh

et al. 2015

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Fast detection of coherent signals using pre-conditioned root-MUSIC based on Toeplitz matrix reconstruction

Goian

AlHajri

Shubair

et al. 2015

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Hybrid method for enhanced detection of coherent signals using circular antenna arrays

AlHajri

Shubair

Weruaga

et al. 2015

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A. R. Kulaib

An overview of localization techniques for Wireless Sensor Networks

2D Binaural Sound Localization: for Urban Search and Rescue Robotics

Hybrid RSS-DOA technique for enhanced WSN localization in a correlated environment

Fast detection of coherent signals using pre-conditioned root-MUSIC based on Toeplitz matrix reconstruction

Hybrid method for enhanced detection of coherent signals using circular antenna arrays

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