Some premature infants spend weeks in incubators. During this time, their nervous system continues to develop. It is medically proven that prolonged periods of pain during this phase impact negatively the development of their white matter. However...
Development of an AI-supported, camera-based product family for monitoring and predicting daily activities of premature infants
Department in charge
Currently used methods rely exclusively on objective diagnostic tools for monitoring the condition of infants. However, professionals increasingly recognize the importance of individual quality of life for patients, although suitable tools for...
The aim of our research and development is to use new technological opportunities created by the digital transformation of industry. Also, to make production and logistics networks more efficient and adaptable to changing circumstances, while taking...
Integrated measurement device demonstrator for phototropic industrial microalgae reactors
Department in charge
The goal of the project is to develop a series of instruments that autonomously measures the physiological data of phototropic industrial microalgae and environmental parameters essential for automating algae cultivation. These instruments will...
The aim of the R&D project led by Medicor Ltd. is to increase the survival chances and ensure the quality survival of neonates born with very low birth weight (500 grams). The development is based on an already successful cooperation established in...
Results of the HydroCobotics H2020 cascade project may enhance the possibilities of hydroponic systems to make an already environment-friendly and efficient plant production system even more popular.
The DigiPrime H2020 consortium groups 8 research centers and 25 companies of 36 European countries that plays major role in the digitization of circular economy. SZTAKI joins in with AI and Digital Twin solutions, among other technical and scientific...
The aim of the project is to implement a new incubator device that reduces the mortality rate of newborns, particularly premature infants, improves their survival chances and prospects, mitigates damage, and enhances their safety. This will be...
The goal of the project is to reduce the death rate of neonatal and prenatal infants, and increase their chances of living via developing vision based non-contact body devices for monitoring physiological signals like pulse rate, breath rate, blood...
Rapid, high-resolution phase reconstruction of off-axis holograms from rare samples
Department in charge
By applying digital holography, it is possible to examine a volume up to a hundred times larger than with a traditional microscope. Until now, we have used a Gábor Dénes type in-line hologram measurement setup for this purpose. Due to the geometry of...
We can efficiently use digital holographic microscopy for monitoring of sparse samples. From a recorded hologram the whole illuminated volume can be reconstructed using numerical simulation of wave propagation. From a single recorded hologram we can...
