The SIRTA Atmospheric Research Observatory is one of few sites in Europe offering the instrumentation and the facilities to study atmospheric physico-chemical processes from the surface to the upper troposphere through the boundary layer. At SIRTA, we study climate variability at regional and decadal scales and evaluate the performance of atmospheric models (climate projection, weather
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High Performance Computing Centre
Technological and instrumental support to research groups, research centers and laboratories that, in order to carry out their research activities, need to use: – scientific calculation on high performance architectures – webservices, databases and web pages for the humanities
Laboratorio NEST
The Laboratorio NEST facilities offer a wide spectrum of tools for your research needs.
Neuro-Robotic Touch Laboratory
The Neuro-Robotic Touch laboratory mainly targets the engineering of an artificial tactile sense in parallel to the investigation of human touch. We develop and integrate novel transducers, both synthetic and bio-hybrid. We implement neuromorphic systems, with natural spiking coding of tactile information. We analyse neural data to unveil the neuronal processes underlying the human sense
Thin film research laboratory
Our group has a vast set of equipment: electricla conductivity measuring, spectroscopy
2 labs:1Battery lab and 2. Aluminum Alloys and Technology lab
Battery lab: Producing anode and cathode materials, 2032 cell making, electrochemical tests (galvonastatic, Cv, IES) Aluminum alloys and technology lab: producing alloys and foams.
Multimedia Signal Processing and Pattern Recognition Research Group
Monitoring modern technologies and technology development in multimodal signal processing and pattern recognition at ITU.
Neuroscience Modeling and Research Group, SİMMAG İTÜ
SIMMAG, located in Istanbul Technical University, Department of Electronics and Communication Engineering, is a team working in the field of computational neuroscience. The team focuses on understanding the computational mechanisms of brain and designing sytems that embody these mechanisms. Mathematical neuroscience and dynamical systems theory provide powerful methods to improve our knowledge about the computational
Chemical and analytical methodologies
The SEISAD team develops different chemical and analytical methodologies and tools aiming to propose valuable inshights in clinical and environmental diagnostics and therapy. The main equipement and facilities are: Capillary Electrophoresis coupled to UV-visible, fluorescence or mass spectrometry detectors Flow Chemistry 3D printing for microfabrication Miniaturised devices Optical Fluorescence Microscopes Potentiostats Scanning electrochemical microscope