Subsea Power Supplies Ensure Fish Health with Ultra-Low Ripple

New Release | SatLab T700 Intelligent GNSS Receiver Scalable Precision. Reliable Performance. Built for Agriculture. The T700 is designed to solve the real challenges of base & rover operations in precision farming. With simultaneous Radio + NTRIP RTK corrections, T700 ensures stable, uninterrupted positioning — helping farmers and agricultural service providers work more efficiently in the field. 🌾 One base station can support multiple machines, making it ideal for tractor fleets, contractors, and farming cooperatives. Built for real agricultural environments with IP67 protection, strong vibration resistance, and ultra-low power consumption, T700 delivers reliable performance day after day. 👉 Learn more: https://lnkd.in/gSvBq8uY #SatLab #PrecisionAgriculture #SmartFarming #GNSS #RTK #AgTech #FarmTechnology #GNSSReceiver

New Post: Smart Adaptive Filter Media Selection in High‑Efficiency Particulate Air \(HEPA\) Systems for Autonomous Vertical Farming Using Data‑Driven Computational Fluid Dynamics - https://lnkd.in/d44E-tmN Adaptive Filter Media Selection in High‑Efficiency Particulate Air \(HEPA\) Systems for Autonomous Vertical Farming Using Data‑Driven Computational Fluid Dynamics — ### ABSTRACT Urban vertical farms rely on precise indoor environmental control to maximize crop yield while minimizing energy consumption. The air‑handling component—particularly the HEPA filtration system—represents one of the largest operational costs, chiefly due \[…\]

✨Editor's Choice Article✨  Martínez-Meroño, R.M.; Freire-García, P.F.; Furnitto, N.; Lupica, S.; Privitera, S.; Sottosanti, G.; Spagnuolo, M.; Caruso, L.; Cerruto, E.; Failla, S.; et al. Shutter Speed Influences the Capability of a Low-Cost Multispectral Sensor to Estimate Turfgrass (Cynodon dactylon L.—Poaceae) Vegetation Vigor Under Different Solar Radiation Conditions. Sensors2026, 26, 47. 🏫Desertification Research Centre (CIDE, CSIC-UV-GV), Università di Catania ✨Radiometric calibration of multispectral imagery plays a critical role in the determination of vegetation-related features. This radiometric calibration strongly depends on a proper sensor configuration when acquiring images, the shutter speed being a critical parameter. The objective of the present study was to appraise the influence of shutter speed on the reflectance in the visible and near-infrared (NIR) spectral regions registered by a low-cost multispectral sensor (MAPIR Survey3) on a homogeneous field of turfgrass (Cynodon dactylon L.—Poaceae) and on the vegetation index (VI) values calculated from them, under different solar radiation conditions. For this purpose, 10 shutter speed configurations were tested in field campaigns with variable solar radiation values. The main results demonstrated that the reflectance in the green spectral region was more sensitive to shutter speed than that of the red and NIR spectral regions, particularly under high solar radiation conditions. Moreover, VIs calculated using the green band were more sensitive to slow shutter speeds, thus presenting a higher probability of providing meaningless artifact values. In conclusion, this study provides shutter speed recommendations under different illumination conditions to optimize the reflectance and the VI sensitivity within the image, which can be applied as a simple method to optimize image acquisition from unmanned aerial vehicles under varying solar radiation conditions. https://lnkd.in/gsviZGzG

Researchers used optical-fiber sensors to study the seismic and hydrodynamic patterns of #soil. The method could offer insight on #agricultural practices and #sustainability at a finer resolution than remote-sensing techniques. Read the OPN story: https://bit.ly/3O3AVGt

Farmers today have no way to bring together what their land is telling them - soil moisture, temperature, crop health, weather and mainly their farm infra such as irrigation channels and zone data - into one place that actually helps them make decisions. The existing software tools don't speak the farmers language. ClawMesh is an open-source mesh network that connects any number of devices - Jetson in my farm, a MacBook at my home, a Raspberry Pi in the greenhouse - into a single trusted network using cryptographic identity and peer-to-peer discovery. Context shares between each node through context gossip mechanism over the mesh. Trained and fine-tuned on natural farming knowledge using NanoChat right on jetson, but gave up as responses are too bad as model is too small and now serving Qwen 2.5 (1.5B params, under 2GB) through llama.cpp with GPU acceleration. It reads full farm context from the mesh and answers/take actions from my phone or telegram using real sensor data after human approves proposals. The 3D farm data is captured through YouTube videos of BhoomiNatural farm and drone videos of the same. The future is on edge. #EdgeAI #Jetson #clawmesh #Farming

🐟 𝑨 𝑪𝒐𝒔𝒕-𝑬𝒇𝒇𝒆𝒄𝒕𝒊𝒗𝒆 𝑭𝒊𝒔𝒉 𝑻𝒓𝒂𝒏𝒔𝒑𝒐𝒓𝒕 𝑺𝒚𝒔𝒕𝒆𝒎 🚚. Fish transportation tubes, especially the "SalmonCannon" by Whooshh Innovations, are pneumatic devices that employ pressure differentials and mist to gently transport live fish, such as salmon, through flexible pipes at speeds exceeding 10 mph. These devices can move up to 57,000 fish every day, avoid dam barriers, and lower stress and death. Key Features and Technology Mechanism: The system keeps fish safe and comfortable by using air pressure and suction to move them through flexible, misted, low-friction tubes. AI Sorting: In order to sort and exclude unwanted species (such as invasive ones), a video recognition system employs artificial intelligence to detect fish species and size in real-time. Applications: Mostly used to assist salmon in moving upriver beyond dams, although it can also be used to capture eels and transport farmed fish. Components: The system may consist of a power source, a mobile support trailer, and a tower and reel. Efficiency: Some trips take less than 15 seconds, making the process far quicker than conventional techniques. Advantages Decreased Stress: Fish transit is made safe and affordable with the use of specialized tubes and misted air, which reduce damage. Sustainability: Promotes fish movement across artificial barriers, aiding in the preservation of natural populations. Versatility: They can be employed as automated, floating portals or on land. Associated Technologies: Live Fish Carrier Systems (LFCS): Fish transported by truck are kept alive for more than seven days in specialized tanks equipped with air filters and water cooling. HDPE Pipe Systems: Sturdy, adaptable pipes utilized to construct safe fish-farming infrastructure ♻️ Repost to spread knowledge 🤝 Thank you for your support! 👉 Follow Anil Kumar M 👉 Activate the bell 🛎️ for all posts as well as for additional technical and educational content! 💪🏆 #innovation #creativity #technology #letsconnect #futuretech #education #knowledge #topvoice #amazing #robotics #AI #automation #engineering #research #science #design #logistics #transportation #marinelife #conservation #aquaculture #sustainabledevelopment #fishtube

🌍 World Engineering Day for Sustainable Development What if simulation could improve animal welfare while making food production more sustainable? With Simcenter CFD (Computational Fluid Dynamics), engineers can design aquaculture environments before anything is built. That is exactly what Aker Solutions did. By using digital simulation, they optimized fish farm structures to better control water flow, oxygen distribution and waste dispersion. The result: healthier fish, lower environmental impact and more efficient operations. Read the full story in the blog. Link in comments. #WorldEngineeringDay #Sustainability #CFD #Simulation #DigitalEngineering #Simcenter

🌍 World Engineering Day for Sustainable Development What if simulation could improve animal welfare while making food production more sustainable? With Simcenter CFD (Computational Fluid Dynamics), engineers can design aquaculture environments before anything is built. That is exactly what Aker Solutions did. By using digital simulation, they optimized fish farm structures to better control water flow, oxygen distribution and waste dispersion. The result: healthier fish, lower environmental impact and more efficient operations. Read the full story in the blog: https://sie.ag/213mSX #WorldEngineeringDay #Sustainability #CFD #Simulation #DigitalEngineering #Simcenter 👍

🌍 World Engineering Day for Sustainable Development What if simulation could improve animal welfare while making food production more sustainable? With Simcenter CFD (Computational Fluid Dynamics), engineers can design aquaculture environments before anything is built. That is exactly what Aker Solutions did. By using digital simulation, they optimized fish farm structures to better control water flow, oxygen distribution and waste dispersion. The result: healthier fish, lower environmental impact and more efficient operations. Read the full story in the blog: https://sie.ag/213mSX #WorldEngineeringDay #Sustainability #CFD #Simulation #DigitalEngineering #Simcenter

🌍 World Engineering Day for Sustainable Development What if simulation could improve animal welfare while making food production more sustainable? With Simcenter CFD (Computational Fluid Dynamics), engineers can design aquaculture environments before anything is built. That is exactly what Aker Solutions did. By using digital simulation, they optimized fish farm structures to better control water flow, oxygen distribution and waste dispersion. The result: healthier fish, lower environmental impact and more efficient operations. Read the full story in the blog: https://sie.ag/213mSX #WorldEngineeringDay #Sustainability #CFD #Simulation #DigitalEngineering #Simcenter