Raytron’s multi-dimensional sensing empowers research and innovation across the fields of astronomy, geology and meteorology.
Raytron’s infrared open-source platform offers developers over 20 practical toolkits, including infrared maritime vessel detection, IR aerial person/vehicle tracking, and dual-spectrum vehicle-mounted night vision, for applications in marine economy, assisted driving, drone inspection, and smart cities. It enables researchers to rapidly deploy infrared image super-resolution and denoising algorithms, as well as multispectral fusion models, thereby accelerating intelligent port vessel scheduling, nocturnal wildlife observation, and urban heat island studies.
Raytron’s short-wave infrared (SWIR) detector technology leverages high-sensitivity sensing and multispectral fusion algorithms to precisely capture the infrared radiation signals of faint celestial bodies, effectively supporting foundational research in stellar evolution and galactic structure. Its adaptive thermal control system and AI image enhancement technology significantly enhance observation data quality under extreme low-temperature conditions, providing an autonomous, self-reliant national solution for deep space exploration.
Built upon high-precision infrared thermal imaging technology, Raytron supports dynamic monitoring of surface temperature fields and thermal anomaly analysis, delivering all-weather sensing capability for scenarios such as forest fire prevention and geohazard early warning. By integrating AI algorithms with multi-source data fusion techniques, it assists in risk forecasting and the study of geological activity patterns under complex terrain conditions.
Raytron employs infrared thermal radiation measurement and multispectral fusion technologies to enable non-contact surface temperature monitoring and thermal environment modeling, facilitating the quantitative analysis of the urban heat island effect. Its multi-sensor collaborative sensing capability enhances the spatiotemporal resolution of meteorological data, thereby providing robust technical support for local microclimate research and disaster prevention and control.
