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Small Satellite Lab NTNU Organization with a focus in small satellite systems, hyperspectral cameras, AI for space, and advanced communications Pushing the boundaries of space technology from our university lab
HYPSO-1 - NTNU Since its launch in January 2022, HYPSO-1 has been on a mission with real-world implications Its primary focus is on harmful algal blooms, a phenomenon that can disrupt marine ecosystems and pose health risks to humans
HYPSO (Hyper-Spectral Small Satellite for Ocean Observation) HYPSO will be launched into a sun-synchronous polar orbit to observe ocean color along the coast of Norway Its specific mission is to detect and characterize ocean color features such as algal blooms, phytoplankton, river plumes etc
HYPSO-1 CubeSat: First Images and In-Orbit Characterization - MDPI The HYPSO-1 satellite, a 6U CubeSat carrying a hyperspectral imager, was launched on 13 January 2022, with the Goal of imaging ocean color in support of marine research This article describes the development and current status of the mission and payload operations, including examples of agile planning, captures with low revisit time and time
HYPSO 1 - Gunters Space Page The Norvegian HYPSO 1 (Hyper-spectral Satellite for ocean observation 1) is a 6U CubeSat mission by the Norwegian University of Science and Technology (NTNU), Department of Electronics and Telecommunication featuring an hHyperspectral imager to monitor algal blooms and other biological activity in the ocean
Small satellites are monitoring ocean conditions from space A cutting-edge satellite no larger than a five-liter water bottle, HYPSO-2, is moving around Earth at an astonishing speed of 7 5 kilometers per second This innovative satellite, equipped with two advanced cameras, is providing researchers with unparalleled data on ocean phenomena, particularly algae blooms
HYPSO-2 Spacecraft - Nanosats Database Hyperspectral imager to monitor algal blooms and other biological activity in the ocean Combine observations from the orbiting satellite with those made by autonomous vehicles above, upon and beneath the ocean’s surface
Generation and calibration of HYPSO-1 data products The HYPSO-1 mission is collecting hyperspectral data across the world We want to develop a pipeline to generate common satellite data products from the downlinked HYPSO-1 data, so that the data can be further used to answer scientific questions
Small Satellite Lab - hypso. space HYPSO-1's imager can see a range of colors invisible to the naked eye, from violet to near-infrared Their unique spectral signatures allow scientists to differentiate between healthy and harmful algae