Audio translation and dubbing are among the most complex tasks. Traditionally, these processes require translators, voice artists, and several rounds of editing. This can take days, weeks, or even ...
This paper presents the design and implementation of SPiDR, an ultra-low-power spatial sensing system for miniature mobile robots. This acoustic sensor produces a cross-sectional map of the ...
Auditory localization is a fundamental ability that allows to perceive the spatial location of a sound source in the environment. The present work aims to provide a comprehensive overview of the ...
The ReadME Project amplifies the voices of the open source community: the maintainers, developers, and teams whose contributions move the world forward every day. Mathematics teacher Sarah Rainsberger ...
The Official PyTorch code for ACMMM'22 paper Exploiting Transformation Invariance and Equivariance for Self-supervised Sound Localisation. Paper: https://arxiv.org ...
The ability of humans and animals to localize the source of a sound in a complex acoustic environment facilitates communication and survival. Two cues are used for sound localization at horizontal ...
Wavefront shaping with spatial light modulators has recently motivated many studies in the field of light manipulation in diffusive media. Here, we extend this concept to acoustic waves by designing ...
Unlike electrons, phonons do not feel a magnetic field, because they are not charged. Thus, much of the physics connected with charged particles in magnetic fields is absent for phonons, be it the ...