My Background

I got an M.Sc. degree in telecommunications engineering from the Technical University of Catalonia (UPC) in 2009 and an M.Sc. degree in engineering acoustics from the Technical University of Denmark (DTU), also in 2009. My Master's thesis titled "Methods for measuring impulse responses in architectural acoustics" examines the use of deterministic excitation signals in impulse response measurements. Special focus is devoted to maximum length sequences (MLS) and sweep signals.
I continued my education pursuing a PhD degree in Acoustics. The project titled "New measurements techniques: Optical methods for characterizing sound fields" was conducted at DTU in collaboration with DFM (Danish National Metrology Institute), under the framework provided by the Industrial PhD programme supported by the Danish Ministry of Higher Education and Science. In my Ph.D. project, I investigated how the interaction between sound and light can be used as a means to characterize acoustic fields. Parts of this research were also conducted at NPL (National Physical Laboratory) during a research stay in UK.
After my PhD, I worked as a researcher at DFM in projects related to acoustics, optics and nanotechnology. Since January 2017, I work as R&D engineer at DPA Microphones A/S.
I continued my education pursuing a PhD degree in Acoustics. The project titled "New measurements techniques: Optical methods for characterizing sound fields" was conducted at DTU in collaboration with DFM (Danish National Metrology Institute), under the framework provided by the Industrial PhD programme supported by the Danish Ministry of Higher Education and Science. In my Ph.D. project, I investigated how the interaction between sound and light can be used as a means to characterize acoustic fields. Parts of this research were also conducted at NPL (National Physical Laboratory) during a research stay in UK.
After my PhD, I worked as a researcher at DFM in projects related to acoustics, optics and nanotechnology. Since January 2017, I work as R&D engineer at DPA Microphones A/S.
Outreach
"Ny metode måler lyds optiske fingeraftryk" in Ingeniøren
Physics Update: "Seeing the sound to locate its source"
July 2012 - Our article "An acousto-optic beamformer" has been reviewed by the international magazine Physics Today. Our study demonstrates that the interaction between sound and light can be used to localize noise sources and that the laser beam, who acts as a sensor, can be regarded as a line array consisting of infinite microphones placed infinitely close to each other. The findings show a great potential for beamforming applications.
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