Project detail

SILENSE - (Ultra)Sound Interfaces and Low Energy iNtegrated SEnsors

Duration: 01.05.2017 — 30.04.2020

On the project

The SILENSE project focuses on using smart acoustic technologies and ultrasound in particular for Human Machine- and Machine to Machine Interfaces. Acoustic technologies have the main advantage of a much simpler, smaller, cheaper and easier to integrate transducer. The ambition of this project is to develop and improve acoustic technologies beyond state-of-the-art and extend its application beyond the mobile domain to Smart Home & Buildings and Automotive domains. In this project, it will be proven that acoustics can be used as a touchless activation and control mechanism, by improvement or development of different smart acoustic technology blocks (hardware, software and system level) and integrate these blocks at system level. The project links to Smart Systems Integration, and refers also to application application-related topics, such as Smart Mobility and Smart Society. The application scope of the developed technologies is broader and comprises more societal domains, such as smart home/buildings, smart factories (i.e. Smart Production) and even Smart Health. Furthermore, a clear cross reference with Semiconductor Process, Equipment and Materials is established in view of the heterogeneous integration of technology blocks. Conventional silicon technologies will be combined with printed (flexible, large area electronics).

Keywords
Sensorics; actorics; automotion; (ultra)sound transducers

Mark

737487/8A17008

Default language

English

People responsible

Havránek Zdeněk, Ing., Ph.D. - principal person responsible

Units

Cybernetics in Material Science
- (2017-05-01 - 2020-04-30)

Funding resources

Ministerstvo školství, mládeže a tělovýchovy ČR - Společná technologická iniciativa ECSEL

- part funder (2017-05-01 - 2020-04-30)

Results

HAVRÁNEK, Z.; HNIDKA, J.; KREJČÍ, J.; PIKULA, S.; ČALA, M.: DiveBuddyHW v1.0; Dive buddy localization module. Vysoké učení technické v Brně, CEITEC VUT Laboratoř pokročilých senzorů, B1.04 Purkyňova 656/123 612 00 Brno. URL: http://silense.ceitec.cz/vysledky/dive-buddy-localization-device. (funkční vzorek)
Detail

KOPEČNÝ, L.; HAVRÁNEK, Z.; BENEŠ, P.: US-BeamformerSW_2x2 v1.0; Sofware components for gesture recognition using 3D-CNN. Vysoké učení technické v Brně, CEITEC VUT Laboratoř pokročilých senzorů, B1.04 Purkyňova 656/123 612 00 Brno. URL: http://silense.ceitec.cz/vysledky/gesture-recognition-3D--CNN. (software)
Detail

HAVRÁNEK, Z.; HNIDKA, J.; DOSEDĚL, M.; KLUSÁČEK, S.: STPS_v1.0; Signal Transfer Path Simulator. Vysoké učení technické v Brně, CEITEC VUT Laboratoř pokročilých senzorů, B1.04 Purkyňova 656/123 612 00 Brno. URL: http://silense.ceitec.cz/vysledky/signal-transfer-path-simulator/. (funkční vzorek)
Detail

Link