FETI (Furukawa Electric Institute of Technology) is the European research and development center of the Japanese parent company, Furukawa Electric.
How does FETI differ from Furukawa Electric?
FETI (Furukawa Electric Institute of Technology) is the European research and development center of the Japanese parent company, Furukawa Electric Co., Ltd..
FETI is a wholly owned subsidiary of the Furukawa Electric Company (FEC) of Japan.
What is the main profile of FETI?
Research and development in the following areas: simulation tests, material development, automotive development, production technology optimization or precisely in the integration of AI-based devices into production processes.
The R&D center in Budapest is able to cover the entire process of research, design, development and implementation thanks to its equipped laboratories and extensive professional relationships.
Yes, you are welcome to visit FETI. To ensure we can best accommodate your visit, we kindly ask that you consult with us in advance. Please call us at +36 1 417 3257 or email us at info@feti.hu.
Does the institute publish scientific papers?
Yes, but as a corporate research institute, not all of our research results are publicly published.
· Development of advanced and functional materials (polymers, rubbers, electrochemically active materials) · Technology and process development for new products and manufacturing solutions · Process optimization, testing, evaluation, and prototyping supported by simulations · Advanced production technologies (laser welding of plastics, thermoforming specialties, electrospinning, electroplating) · Surface engineering and functional coatings (superhydrophobic and light‑reflective surfaces) · Recycling technologies and low‑carbon, sustainable material solutions · Laser transmission welding system development, including process design, material analysis, and customized machine development
· Automotive radar sensor development and validation for ADAS applications · Radar signal processing, simulation, and measurement evaluation · AI-based radar perception (road user detection, classification) · Smart traffic infrastructure development using radar and C-V2I integration · V2X communication and network simulation · Traffic monitoring and multi-sensor data fusion · Lead-acid battery modeling and intelligent monitoring (State-of-Health estimation)
1. Photonics, Lasers & Optical Systems
Device & Waveguide Modeling: Numerical simulation of semiconductor, integrated photonic, and optoelectronic devices.
Optical Communications: Modeling, design, and optimization of optical fiber networks and communication systems.
Laser Dynamics & Wave Propagation: Simulation of nonlinear optical pulse propagation, amplification processes, and high-power laser system dynamics.
2. Electromagnetics & Wireless Technologies
RF & Antenna Engineering: Comprehensive radio frequency system analysis and antenna design.
Wireless Power Transfer (WPT): Research and simulation of advanced wireless energy transfer technologies.
3. Multiscale Physical Modeling
Thermal & Transport Phenonema: Finite element and finite volume modeling of thermal dissipation, diffusion, and fluid/molecular dynamics.
Molecular Dynamics: Atomistic and molecular-scale simulation of materials and physical processes.
Inverse Design & Optimization: Development of custom merit functions and iterative optimization procedures to locate ideal design solutions across arbitrary technology sectors.
· Numerical and experimental analysis of solid mechanics problems · Material modeling and nonlinear structural behavior analysis · Vibration analysis using simulations and experimental methods · Computational fluid dynamics (CFD) for industrial applications · Heat transfer and phase change modeling · Design of experimental setups and laboratory devices · Integrated engineering solutions combining simulation, experiments, and theory
· Atomistic and quantum‑chemical simulations for advanced materials · Nanoporous and nanostructured material design (e.g. TiO₂, carbon nanostructures) · Catalyst modeling for CO₂ reduction and hydrogenation processes · Simulation and design of chemical reactors and CVD/MOCVD processes · Polymer and macromolecular modeling for membranes and sensing applications · Integrated computational–experimental nanomaterials synthesis and analysis · Sustainable nanotechnology solutions bridging fundamental research and industry
· Development of visual inspection and quality control solutions using industrial machine vision · Utilizing data supported parameter tuning for predictive maintenance, ensuring reduced downtime and increased operational efficiency · Deploying AI systems that are integrable with Manufacturing Execution Systems (MES) · Simulation of micro-optical systems and their entire assembly process under realistic conditions · Assembly process automation and precision equipment control through digital twin approach · Advanced text data analysis and development of Generative AI tools supporting digitalization in R&D and industrial environments
Is it possible to collaborate with the institute?
Yes, we would be pleased to explore collaboration opportunities. If you are interested, feel free to get in touch with us to discuss potential ideas or projects. You can contact us by phone, email, or via LinkedIn, and our team will be happy to continue the conversation.
Furukawa Electric Institute of Technology Ltd. is a wholly-owned subsidiary of the Furukawa Electric Company (FEC) of Japan and was established in Budapest in 1991. Furukawa Electric is committed to research & development and has throughout its history been at the forefront of technological innovation.
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