beyondspace.app

#Beyond Space | Applications

#UTIAS Space Flight Laboratory | GHGSat | Greenhouse Gas Monitoring Constellation Core Satellites | High resolution remote sensing of greenhouse gas emissions | Attitude control technology | Precise pointing of sensors aboard low inertia platforms in orbit | Earth Monitoring and Observation (NEMO) microsatellite platform | SFL generates bigger returns from smaller, lower cost satellites | GHGSat uses its own satellites and aircraft sensors to measure greenhouse gas emissions directly from industrial sites

#IEC Telecom | International satellite service operator

#Terran Orbital | Mapping The Lunar Surface | LunIR satellite | NASA | Artemis | Lockheed Martin | Infrared sensor | Cryocooler | Mapping the lunar surface | Detecting materials | Identifying potential landing sites | Deep space technology | Addressing strategic knowledge gaps (SKGs) | SKGs for long duration missions to Mars

#Satlantis | Full Solutions for SmallSats

#Blue Canyon Technologies | Spacecraft Buses, systems and solution

#Surrey Satellite Technology | Small satellite platforms

#Dhruva Space | Small satellite systems

#Enduro Sat | Nano sats

#ChangGuang Satellite | Remote sensing satellites

#Alba Orbital | Picket Qubes

#GomSpace | Cube and small sats

#RocketLab | Launch services

#Berlin Space Technologies | Small satellite systems and technology

#Texas Space Technology Applications And Research (TSTAR) | Texas venture

#Tyvak | Spacecraft development | Launch services | On orbit operations | Small satellites

#Blink Astro LLC | Developing and manufacturing small satellites

#GAUSS Slr | Microsatellites | CubeSats | PocketQubes

#Adcole Maryland Aerospace LLC | Optical sensing and star tracking satellite components | Cameras for low earth orbit, geosynchronous, and interplanetary spacecrafts

#Sierra Nevada Corporation | Sierra Space | Your Platform in Space

#Clyde Space Ltd | Small satellite technologies and services

#Magellan Aerospace | Integrated products to the aerospace industry worldwide

#Millennium Space Systems | Small satellite systems

#Pumpkin Space Systems | Nanosatellite battery | GPS receiver | CubeSat structures | Solar Panels | San Francisco

#AAC Clyde Space | Small satellite technologies and services

#AdCole | Industrial metrology products

#OHB Italia | Space Systems

#Nano Avionics | Small satellite technology | Mission services | Team experience

#Near Space Launch | FastBus Satellite | Eyestar Radio | Black Box | EyePod High Altitude Ballooning Systems

#Space Inventor | Satellite engineering

#Aerospace Global Forum | Net Zero | Cross sector collaboration | Space launch industry | Small sat constellations | Broadband internet distributed across the world | Satellite images generating insight to predict climate risks | International spaceport infrastructure | Electric vertical takeoff and landing aircrafts | Urban air mobility | Smart infrastructure | Artificial Intelligence | Machine learning | Post pandemic recovery | Geopolitical tensions | Farnborough International Airshow | FINN

#ICEYE | Synthetic aperture radar (SAR)

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

#MIT | White graphene nanotubes | Stronger, heat resistant composites | Membranes for renewable energy | Hollow aligned fibers, or nanotubes, made from hexagonal boron nitride | Hexagonal boron nitride ( hBN) | Fabricating aligned boron nitride nanotubes in bulk | hBN is transparent and electrically insulating | hBN to electrically insulate sensors within electronic devices | Blue energy, electricity produced from the ionic filtering of salt water into fresh water | Nanotube engineering | Hypersonic and space applications

#Yahsat | Satellite solutions

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

#NATO | Innovation Fund | Defence Innovation Accelerator for the North Atlantic (DIANA) | Dual use emerging technologies of priority to NATO | Artificial intelligence | Quantum enabled technologies | Autonomy | Biotechnology |Novel materials | Energy | Propulsion | Space

#Intel | Neuromorphic computing | Biological neural computation | New algorithmic approaches | Emulating human brain interactions | Spiking neural networks (SNNs) | Simulating natural learning | Dynamically remapping neural networks | Making decisions in response to learned patterns over time | Powering autonomous AI solutions | Supporting energy efficiency and continuous learning | Sensing | Robotics | Healthcare | Large scale AI applications

#SpaceX | Satellite to cellular service

#Jet Propulsion Lab (JPL), NASA | Ingenuity unmanned helicopter | Providing valuable flight data to be used by engineers working on the designs for future Mars helicopters | Two helicopters planned, each equipped with mobility wheels on its landing legs and one robotic arm

#Chinese Academy of Sciences (CAS) | Ningbo Institute of Materials Technology and Engineering (NIMTE) | Moon water research | Construction of future scientific research bases and human survival

#NIMTE, Institute of Physics of the CAS | Heating to high temperatures, hydrogen reacts with iron oxides in minerals to form elemental iron and large amounts of water

#China Academy of Space Technology | Heating to high temperatures, hydrogen reacts with iron oxides in minerals to form elemental iron and large amounts of water

#Songshan Lake Materials Laboratory | Heating to high temperatures, hydrogen reacts with iron oxides in minerals to form elemental iron and large amounts of water

#Nanjing University | Heating to high temperatures, hydrogen reacts with iron oxides in minerals to form elemental iron and large amounts of water

#Harbin Institute of Technology | Heating to high temperatures, hydrogen reacts with iron oxides in minerals to form elemental iron and large amounts of water

#GITAI | Building robotic workforce for space exploration | Tasks in micro-gravity environments | Grapple end-effectors for docking spacecraft, manipulating payload, inspecting & repairing with high precision | Remote control interface

#SAGA Space Architects | Building advanced space habitats | Constructing analog lunar habitat for European Space Agency (ESA) | Simulating a real lunar base | Using wool, cork, felt, and plywood for structures and interiors, wherever possible | Habitat interior lined with WISA Birch plywood | Little off-gassing as possible from surrounding materials in habitat | Bio-based lignin (natural adhesive) used in WISA Birch plywood | Doing joinery and CNC machining with plywood, carve it, screw it, sand it, glue it togethe

#Arctic Astronautics | Popularising space and science | Kitsat, a fully functional satellite that can be self-assembled | Using plywood in satellite | WISA-Birch plywood | UPM product development teams tested different methods of gluing, surface treatments and super drying | No space debris behind when returning to earth