Key Info
Duration: 2024-2028
Acronym: Pionear
PI Name: Kamil Gradowski
Topic: HORIZON-EIC-2023-PATHFINDEROPEN-01
Title: inclusive cultural heritage
Coordinator: Lumiary AB
Total Participants: 7
EU Contribution: € 2,482,745
Project Info
Microphones play an ever more important role in how we communicate and perceive the world in our increasingly digital and virtual lives. They have developed greatly in recent decades in terms of size and cost and are now ubiquitous in consumer electronics as well as in professional and industrial applications. Yet, despite all this progress, microphone technology falls short of perceiving audio as well as the human ear does: no microphone has self-noise ≤ 0 dB SPL (defined as the threshold of human hearing), the capability to sense sounds up to 130 dB SPL, and a bandwidth of 20 kHz.
The main objective of PIONEAR is to create the proof-of-concept of a novel miniature microphone with better-than-human-ear sound quality. It will be enabled by a radically new chromometric sensing solution that PIONEAR will develop by integrating electronic, micro-mechanic and photonic technologies.
To realise this new sensing technology PIONEAR brings together a unique consortium of four research partners and three SMEs from across Europe, all of which are leading experts in their field, e.g., in manufacturing the special vertical cavity surface-emitting lasers (VCSEL), fabricating the miniature acoustic chamber and membrane, and assembling and packaging the whole device with the highest precision. We expect PIONEAR to have a profound impact across multiple sectors. Armed with arrays of microphones that have very low noise, devices will be able to listen with programmable directivity and unprecedented selectivity, enabling products with intelligently selective, human-like, hearing. Applications range from consumer electronics and hearing aids to autonomous robots and vehicles, and environmental monitoring. Moreover, the underlying sensor concept is not limited to microphones. We expect that it will offer similar performance improvements in a broad range of sensor categories, e.g., pressure and ultrasonic sensors, biochemical sensors, gas and aerosol sensors, and accelerometers.