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일상과 함께하는 센싱

우리의 비전은 광학 솔루션 분야의 확고한 선두기업으로서 끊임없는 혁신과 기술 개발 투자를 통해 성장과 발전을 선도하는 것입니다.

Funky Nano

Funky Nano

The aim of the project is to develop a screening platform to enhance gas sensors with functional nanoparticle. The platform will enable a systematic screening of hybrid nanoparticle and nanoparticle combination for test gases. 

REFORM

REFORM

The aim of this project is to face the challenges in the field of error characterization. It focuses on the potential development of the industry established technology concept Scanning Acoustic Microscopy. 

ACINTECH

ACINTECH

(closed project)

This project aims to develop fundamentals to increase the yield and reliability of 3D-integrated microelectronic systems including the development of robust designs and processes for advanced connectivity technology in electronic circuits.

Automotive HMI

Automotive HMI

The aim of this project is to create optimized Automotive Workflow for hardware and software co-development. The resulting products will work as one intelligent system, enabling the move from sensing objects to understanding objects.

DAKARA

DAKARA

The goal of the project is to develop a novel, ultra-compact, energy-efficient camera matrix which enhances the color and depth of images in real time, as well as provide accurate depth information for a wide range of applications in the automotive industry. 

iLIDS4SAM

iLIDS4SAM

The aim of the project is to bridge application driven research on high performance, low cost photonic sensing for automotive and industrial manufacturing. The project focuses on the advantages of light-based detection and ranging (LIDAR) technology for automated driving. 

Particle-Sens

Particle-Sens

The aim of the project is to develop highly integrated, cost-effective, flexible particle sensors for consumer applications. The project includes investigation on feasibility of different measurement setup, implementation and validation of the sensor.

Sensor Fusion

Sensor Fusion

The project aims to provide a tool kit to face the challenges of sensor fusion in product development at an early stage. This will help realize the competitive systems consisting of sensors, emitters and ICs for complex applications. 

Dieses Projekt wird aus Mitteln des Europäischen Fonds für regionale Entwicklung kofinanziert. Nähere Informationen zu IWB/EFRE finden Sie auf www.efre.gv.at

TRITON

TRITON

The project will focus on the need of millimeter-wave technology and offer solutions by integrating highly efficient gallium-nitride on silicon-carbide (GaN-on-SiC) and silicon-germanium (SiGe) electronics with silicon-on insulator (SOI) through a silicon interposer. 

ASD

ASD

(closed project)

In this project, all competence is brought together for successful sensing and design of environmental noises and sounds. This opens innovation potential for inexpensive and intelligent acoustic sensing and for the active design of an enhanced audio ambience.

ASD is a follow-up of the successful K-project „Advanced Audio Processing – AAP“ from the 1st Call of COMET K-projects with an extended consortium and a new focus with regards to content.

EFiPAS

EFiPAS

This project will verify the suitability and functionality of the selected wave-guide approach as a sensor principle. This will help realize the first functional demonstrator of particle sensors using state-of-the-art semiconductor technologies.

LIANDRI

LIANDRI

This application driven research project will develop sensor test chips for realistic environments for the applications in automotive  LIDAR (Light-based Detection and Ranging) and object tracking in confined environments.

Smart Audio: SHOKO

Smart Audio: SHOKO

The objective of the project is to develop integrated circuits (IC’s) for signal processing which has applications in various fields. The developed IC’s will be characterized by the integration of different sensors and functionalities.

NANOSPEC

NANOSPEC

(closed project)

In the Nanospec project seven European partners joined forces to develop an advanced upconverting system that significantly enhances solar cell efficiencies. Key developments were the upconverter material, the combination with a second luminescent material to enlarge the used spectral region, photonic structures for photon management and efficient solar cells.