| Project Acronym | Code | Start | End | Detail |
|---|---|---|---|---|
| REFRESH | CZ.10.03.01/00/22_003/0000048 | 06/2023 | 12/2027 | Show |
| KITR | FW10010287 | 01/2024 | 12/2025 | Show |
| DICoM-HT | EI22_002/0000483 | 01/2024 | 12/2026 | Show |
| GeoNetSee | DRP0200783 | 01/2024 | 06/2026 | Show |
Project details:
Name: Research Excellence For REgion Sustainability and High-tech Industries
Code: CZ.10.03.01/00/22_003/0000048
Acronym: REFRESH
Summary: The REFRESH project is the "flagship" and a key tool in achieving SMARAGD’s vision. It represents a major investment to strengthen research excellence in the Moravian-Silesian Region. The project will build a unique European infrastructure for research and technology transfer in the fields of sustainable energy, digitalisation of industrial production, automation in transport, environmental technologies, and smart material technologies. Linking academic and industrial partners will lead to the transformation of the region in the spirit of the SMARAGD vision.
Provider: Ministerstvo životního prostředí
Call: Operačního programu Spravedlivá transformace
Solver: VŠB – Technická univerzita Ostrava
State: Probíhá
Budget: 2 625 000 000,00 CZK
Founding type: Grant
Category: Obecná forma
Link: link
Publicity:
Notes: Our research group is involved in the development of the unique Laboratory of Anechoic Chamber and EMC as part of the REFRESH project at the FEECS, VSB-TUO. The primary focus of our activities is the development, testing, and measurement of the real-world characteristics of antenna systems and other devices utilizing electromagnetic waves in the fields of radio communications, radar systems, and mobile technologies. Our subgroup specializes in electromagnetic compatibility (EMC), including pre-certification measurements of radiated and conducted emissions, testing the immunity of devices to electromagnetic fields and electrostatic discharges (ESD). We focus on experimental validation of EMC parameters for embedded systems and complex electronic assemblies using specialized measurement facilities, such as the GTEM chamber and artificial networks (LISN). Additionally, we contribute to simulations and modeling in supercomputing centers, the development of measurement methodologies, and collaboration with industrial partners in the certification and optimization of electronic systems. Our work supports ensuring the electromagnetic compatibility of modern devices and contributes to the creation of a unique research and certification environment within the region.