dragonxi.com
#DragonXi | Applications
#SOOS | Southern Ocean Observing System
#National Oceanography Center | NOC
#Biral | Sensors for Antarctic Climate Change Research
#Blue Robotics | Autonomous Navigation Technology
#Leddar Sensor | LIDARs for mobility, ITS and industrial applications
#Velodyne | Lidar | Vision for autonomous mobile robots
#OndoSense | Radar sensor technology
#Realwear | Voice operated headset
#InertialSense | Precision and autonomous movement
#Universal Robots | Collaborative robots
#Satlantis | Full Solutions for SmallSats
#Enduro Sat | Nano sats
#GomSpace | Cube and small sats
#Lava | Software framework | Neuromorphic research | Developing applications that initially run on CPUs | Maping parts of the workload onto the neuromorphic chip
#Intel Quantum SDK | Designed to optimize quantum-classical algorithms | C++, low-level virtual machine (LLVM) based compiler toolchain
#Heliogen | Decarbonizing industry with concentrated sunlight
#Ambri | Batteries for clean energy | Liquid Metal Battery | Self heating and regulating | Calcium and antimony as material | Rapid deployment | Scalable | Internal operating temperature 500˚ C | Desert | Arctic | Antarctic | Third Pole | Shipped cells inactive at ambient temperature | Heaters bringing cells to operating temperature | No degradation, air conditioning, replaceable nor any serviceable components | MIT | GroupSadoway Lab | Boston Metal
#Port Of Rotterdam Authority | Porthos | Project for CO2 capture and storage in Rotterdam
#Saudi Ministry of Water & Electricity | GIZ IS | Technische Universitat Darmstadt | Centre for Environmental Research (UFZ) in Leipzig | Exploring groundwater conditions in the Rub Al Khali desert
#Abu Dhabi National Oil Company | Blue Hydrogen | Ammonia as a transport medium
#H3Dynamics | Hydrogen electric flight configuration | Distributed hydrogen electric propulsion pods | Hydrogen ready airport hubs | Fully autonomous charging station for battery drones
#OUSTER | High Resolution Digital Lidar Sensor
#Bobcat | Compact equipment | Loaders | Excavators | Compact tractors | Utility products | Telehandlers | Mowers
#Carbon Robotics | Autonomous LaserWeeder Robot | Deep Learning | Laser | Lidar Sensor | Nvidia | Cumming
#New Holland | Autonomous tractor
#John Deere | Fully autonomous tractor
#Catepillar | Cat Command for Excavating | Remote control system | Cat Command station | Non line of sight remote control | Improving machine productivity | Fast restart of operations | Virtual cab with familiar controls and machine displays | Up to five different machines controlled by one user | Access to machine setting just like in the machine | Solution to workforce shortages | Training advantages for newer operators | Opportunities to those with physical limitations | Attracts a new generation of workers | Increases the longevity of experienced operators
#ZAPI GROUP | Automated vehicle sector | Components for automated guided vehicles | Vehicle navigation | Blue Robotics | Motion controllers | Electric motors | High frequency battery chargers | Electric and hybrid vehicles
#AGC | Digital Map To Commander
#Kratos Defense | Satellite connection to command control center
#Marines | Live Data To Artillery Units
#Air University | EyesTo Artillery
#ETSI | Networked Team
#Bluvec | UAV Coordinating
#TUALAJ | UAV Monitoring
#AirHub | Information Gathering Missions
#VHPG | War Zone Usage
#StarlinkHardware | Starlink Reception Disk
#Elistair | Targeted Attacks
#Phantom Technologies | Drone jammers
#DroneDJ | Software Update
#ZenaDrone | Integration Into Battle Field Tactics
#Raytheon | Counter Drone Technique
#DIY Drones | Fake GPS Signal
#AeroVironment | Kamikaze Drone
#Dedrone | Drone Locating System
#FAS | Drone Position
#D Fend Solutions | Drone Pilot Position Tracking
#AeroVironment | Switch Blade Drone
#Tactic Aero Drone | Tactical Drone
#Advanced Vertical Flight Laboratory | Tube Launching
#UA Dynamics | Punisher Drone
#Witness | Drone Video As Witness
#Mavic Pulots | Video Time Stamp
#AirVuz | Video Location
#PowerLight | Laser Powered Drone
#OpenAI | Whisper | Open source deep learning model for speech recognition | Transcribing audio in several languages | Automatic speech recognition (ASR) without the privacy concerns | Content creating | Adding AI to everyday workflows
#General Atomics | Air to Air Laser Communication System | Crosslinks from aircraft to other platforms such as unmanned aircraft, maritime vessels, and space systems
#NATO | Poseidon8
#Terma | Missionized Gun Pods for fighters
#Elroy Air | Autonomous cargo aircraft systems
#Lockheed Martin | Sniper Advanced Targeting Pod (ATP)
#Technical University of Munich, Germany | Neuromorphic Hardware | Mimicking the human sensor systems (e.g. nose, tongue, skin) | Sensors rather imprecise in their output signals | Human sensory system: eyes (vision), ear (sound), nose (smell), skin (pressure, temperature) and tongue (taste) | Circuits built based on the concept of Spiking Neural Networks (SNN) | Analog HW built which can execute unsupervised learning on chip
#European Defence Agency | Javelin anti-tank missiles produced by Raytheon and Lockheed Martin | High Mobility Artillery Rocket Systems produced by Lockheed Martin
#IDS | Industrial image processing | 3D cameras | Digital twins can distinguish color | Higher reproducible Z-accuracy | Stereo cameras: 240 mm, 455 mm | RGB sensor | Distinguishing colored objects | Improved pattern contrast on objects at long distances | Z accuracy: 0.1 mm at 1 m object distance | SDK | AI based image processing web service | AI based image analysis
#Flyability | Drones for industrial inspection and analysis | Confined space inspection | Collision and crash resistant inspection drone | 3D mapping | Volumetric measurement | Inspections of cargo ships, bridges, ports, steel mills cement factories, liquid gas tanks, nuclear facilities, city wide underground sewage systems | Ouster lidar
#Google DeepMind Technologies Limited | Creating advanced AI models and applications | Artificial intelligence systems ALOHA Unleashed and DemoStart | Helping robots perform complex tasks that require dexterous movement | Two-armed manipulation tasks | Simulations to improve real-world performance on multi-fingered robotic hand | Helping robots learn from human demonstrations | Translating images to action | High level of dexterity in bi-arm manipulation | Robot has two hands that can be teleoperated for training and data-collection | Allowing robots to learn how to perform new tasks with fewer demonstrations | Collectung demonstration data by remotely operating robot behavior | Applying diffusion method | Predicting robot actions from random noise | Helpung robot learn from data | Collaborating with DemoStart | DemoStart is helping new robots acquire dexterous behaviors in simulation | Google collaborating with Shadow Robot
#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