The contribution of German researchers develop system for environmental monitoring in real time by Felix Baumann first appeared on Basic Thinking. You always stay up to date with our newsletter.
A group of German researchers has developed a system that enables environmental surveillance in real time. The new Hyprenir technology recognizes microplastics and plant damage using near infrared light measurements.
With the newly developed Hyprenir technology Has the Fraunhofer Institute For microelectronic circuits and systems (IMS) together with partners, a procedure for environmental surveillance presented in real time. With the help of near infrared light (NIR) and hyper -spectral imaging, the system can analyze materials and biological samples in real time – and relatively inexpensive.
Instead of torque, as before, the technology provides comprehensive information about the chemical composition and structure of surfaces. The technology should be able to distinguish different plastics, to track down microplastics or to make the condition of plants visible. No dyes or marking agents are used.
Environmental monitoring in real time: Hyprenir camera analyzes plants
With the help of a Hyprenir camera, the researchers observe live and contactless, as a paprika plant absorbed water. The technology shows which places in the sheet are particularly large water. This is made possible by a combination of spectral data and a spatial resolution, the branches, which are reflected on wavelengths and how strongly.
The technology works relatively easily. The researchers added a commercially available camera with a controllable polarization look. Three recordings are sufficient to enable a complete spectral analysis. HYPERNIR represents a powerful measuring device that could also be integrated on drones or in mobile environmental sensors.
Applications from recycling to biomedicine
The possible uses of Hyprenir seem in many ways: With the technology, recycling processes can be optimized, tracking down microplastics in water samples, peculiarities identify at an early stage or determine nutrient content in plants. According to the researchers, an applications are also conceivable in biomedicine – for example to differentiate between different molecules in tissues.
Hyprenir is particularly interesting because it is based on inexpensive components and is easily scalable. In the future, the new technology could enable inexpensive, mobile measuring systems that enable the monitoring of a plant in real time using infrared technology. Many scenarios are conceivable from agriculture to urban planning.
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The contribution of German researchers develop system for environmental monitoring in real time by Felix Baumann first appeared on Basic Thinking. Follow us too Google News and Flipboard.
As a Tech Industry expert, I am thrilled to hear about the development of a system for real-time environmental monitoring by German researchers. This advancement has the potential to revolutionize how we track and respond to changes in our environment, allowing for more timely and informed decision-making.
Real-time monitoring can provide invaluable data on air and water quality, pollution levels, and other environmental factors that impact our health and wellbeing. By having access to this information in real-time, we can better understand the effects of human activity on the environment and take proactive measures to mitigate negative impacts.
I believe that this system has the potential to be a game-changer in environmental monitoring and could pave the way for more sustainable and environmentally-friendly practices in various industries. I look forward to seeing how this technology is further developed and implemented in the future.
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