arcticocean.app

#Arctic Ocean | Applications

#IODE | International Oceanographic Data and Information Exchange

#SeaIceUniBremen | Bremen University

#EEA | European Environment Agency

#SciencePhoto | Science Photo Library

#SeaIce | National Snow & Ice Center

#Esri | Woodwell Climate Research Center

#MeereisPortal | Sea Ice Monitoring

#Sensors | Arctic Drone Labs

#US National Oceanic and Atmospheric Administration (NOAA) | Northeast Atlantic Ocean climate research | Warming in the region endangering phytoplankton | Reducing food availability for species that depend on these phytoplankton algae to survive | Marine heatwaves in the North Atlantic expected to disrupt the balance of marine ecosystems | Atlantification of the Arctic Ocean | Move toward warmer ecosystem where polar fish species are forced to compete with intruding North Atlantic fish | Warmer, saltier North Atlantic waters blend with Arctic water diminishing sea ice resilience in the polar region

#Ocean Sonics | Smart digital hydrophone

#GeoMatching | University of Tokyo

#Partner Plast | Buoyancy & Subsea Plastics

#Aker Arctic | Propelles | Shaft Lines

#Sofar Ocean | Wave forecasting

#Polyform | Bouys

#Climate Policy Watcher | Research

#Nexsens | Pilar Ice

#OceanOPS | Ocean Observing System

#NkeInstrumentation | Marine biogeochemical sensors for remote observations

#AON | Arctic Observing Network

#Sunburst | Sensors

#McLaneLabs | Instrument refurbishment and repairs

#UiO | University of Oslo

#NSF | NSF Arctic Research Program

#EOS | Arctic News

#PSC | Polar stratospheric clouds

#AWI | Alfred Wegener Institute

#Spie Digital Library | Arctic Observations

#MeterGroup | Atmospheric Data

#Quasar | Climate Change Monitoring | Open Cosmos

#Data Cosmos | MultiSatellite Data Platform | Open Cosmos

#Arctic sea ice | Detecting Climate Impacts | Melt ponds on sea ice measuring | Snow depth and sea ice thickness measuring with CryoSat2 | Summertime ice measuring | Measuring grounding zone of ice shelves | Hydrology | Cryosphere | Biosphere | Jet Propulsion Laboratory | Laser measurements | ICESat2 | NASA

#Argo | Improving float lifetimes | Powered by lithium or hybrid batteries | Iridium transmitters | Mission parameters can be transmitted | Floats carry GPS devices | Ice detection | Ice Sensing Algorithm | Ice sensing algorithm parameters locally tuned to reflect the regional sea ice | New float design to dive all the way to the ocean floor (6000 m) | Floats with spherical shapes | Hulls made of glass | CTD sensor on the float for temperature, salinity and pressure measurements | Measuring biogeochemical (BGC) parameters | Oxygen, pH, nitrate, chlorophyll a, backscattering and irradiance sensing

#Satellite tracking over oceans to uncover illegal fishing and other forms of fisheries crime | Detecting fisheries crime, illegal fishing, economic crime, tax and customs fraud, trade in endangered marine species and human trafficking | Utilizing marine resources in a sustainable way | Managing marine resources in a way that is good for the future | Automatic Identification System (AIS) | Anti collision system for ships | Blue Justice Tracking Centre | Blue Justice initiative | Ministry of Fisheries and Ocean Policy, Norway | Ministry for International Development, Norway | United Nations Office on Drugs and crime

#Environmental Journalism | Fact based climate reporting | Sustainable fashion and textile industries | Nordic Bridges | Harbourfront Centre in Toronto | Nordic Council of Ministers for Culture and Ministers for Co Operation

#Arctic amplification | Finnish Meteorological Institute | Climate change | Arctic region | Arctic Circle | Carbon Brief | Barents sea | Temperature trends | Models | Arctic Monitoring and Assessment Programme | Intergovernmental Panel on Climate Change

#Fujinon | Mariner Series binoculars

#ICEYE | Synthetic aperture radar (SAR) | Maritime monitoring

#General Atomics | Air to Air Laser Communication System | Crosslinks from aircraft to other platforms such as unmanned aircraft, maritime vessels, and space systems

#Norway | NATO | Poseidon8 | P8 to bring a drone that can be released from the internal bay, fly its own surveillance missions, then return and be caught back to the bay

#Quintillion Subsea Holdings LLC | Arctic Fiber

#SatelIoT | IoT connectivity over standard 5G NB-IoT

#Wartsila | Ship command systems | Autonomous Short Sea Shipping | Navigation and DP solutions

#SWOT | Surface Water and Ocean Topography mission | Providing high definition data on the salt and fresh water on Earth surface | Measuring the height of water in Earth freshwater bodies and the ocean | Providing insights into how the ocean influences climate change | how a warming world affects lakes, rivers, and reservoirs | how communities can better prepare for disasters, like floods | Tracking Earth water budget | where the water is today | where it is coming from | where it is going to be tomorrow | Helping to understand oceans role in climate change | ObservIng the entire length of nearly all rivers wider than 330 feet (100 meters) | Viewing rivers in 3D for the first time | Data of over a million lakes larger than 15 acres (62500 square meters) | Providing information about global ocean atmosphere heat exchange | NASA | CNES | CSA | UK Space Agency | ESA

#WWF | Halting and reversing biodiversity loss | Conserving land, freshwater and ocean globally | Protection of intact ecosystems | Tackling unsustainable production | Eliminating subsidies harmful to nature | Reducing the unsustainable footprint of production and consumption

#Arctic Kingdom | Arctic safari tours

#Scientific Committee for the Arctic (CSA), Italy | Arctic Research Programme (ARP)

#Antarctic Glaciers | Education about Antarctic

#Arctic Council | Norway leadership | Giving priority to the areas where climate and environmental efforts under the Arctic Council will be most effective | Promoting stability and constructive cooperation | Increasing opportunities to young people in the region | Understanding more about the impacts of climate change on Arctic biodiversity and ecosystems, both in the oceans and on land | Focusing particularly on short lived climate forcers such as black carbon (soot) and methane

#K.U.M | Developing customised subsea technology | Providing subsea data acquisition systems | Delivering end-to-end service from conception through to manufacturing | Seismic data logger

#Arctic Umiaq Line | Operating along the west coast of Greenland

#Arctic University of Norway | Observing Arctic ecosystem in the northern Barents Sea

#Norwegian Polar Institute | Arctic region studies

#Advanced Navigation | AI-based marine navigation systems | AI-Based underwater navigation solutions and robotics technology | Hydrography | Underwater acoustic positioning solutions | Autonomous Underwater Vehicle (AUV) | Inertial navigation systems (INS) | Sidney, Australia

#SEA.AI App | Detecting floating objects early | Using thermal and optical cameras to catch unsignalled craft, floating obstacles, containers, buoys, inflatables, kayaks and persons over board

#Anybotics | Workforce App | Operate ANYmal robot from device | Set up and review robot missions | Industrial Inspection

#Yamaha Marine | 450 hp hydrogen-powered V-8 outboard | Three 6-foot-long cylindrical-shaped hydrogen fuel tanks | H2 machine operates by using hydrogen in its combustion chambers | H2 tanks are positioned low and centrally to enhance stability | H2 tanks size demands rethinking of future boat designs, hulls specifically tailored for hydrogen storage | Hydrogen storage system adds considerable weight to vessel | Volumetric energy density of hydrogen is lower, requiring larger tanks | Partners: Roush Performance, Regulator Marine

#Feadship | Hydrogen-cell superyacht | Double-walled cryogenic tank in dedicated room | 4 tons of hydrogen | Cruising protected marine zones.| Cryogenic storage of liquefied hydrogen in superyacht interior | No regulations for hydrogen storage and fuel-cell systems on superyacht

#Tampere University | Pneumatic touchpad | Soft touchpad sensing force, area and location of contact without electricity | Device utilises pneumatic channels | Can be used in environments such as MRI machines | Soft robots | Rehabilitation aids | Touchpad does not need electricity | It uses pneumatic channels embedded in the device for detection | Made entirely of soft silicone | 32 channels that adapt to touch | Precise enough to recognise handwritten letters | Recognizes multiple simultaneous touches | Ideal for use in devices such as MRI machines | If cancer tumours are found during MRI scan, pneumatic robot can take biopsy while patient is being scanned | Pneumatic device can be used in strong radiation or conditions where even small spark of electricity would cause serious hazard

#Deutsche Aircraft | Turboprop aircraft | Designed to operate on close to zero emissions | Regional transportation solutions using sustainable means | Modern avionics suite | Superior situational awareness | Multi-role missions | Modular cabin layout | Quick conversion capability | Designed to facilitate quick medical evacuation and assist in aerial firefighting and humanitarian missions | Hot and cold galley | Cabin flexibility with up to 40 seats | Full height cabin | Unpaved runway operation | Maritime surveillance | Search & Rescue | Humanitarian assistance | Air ambulance service | Drug enforcement | Cargo