autonomousdevice.ai
#Autonomous Device AI | Artificial Intelligence powered Autonomous Device
#Axelera AI | AI Processing Unit (AIPU) | Digital in-memory (D-IMC) technology | SRAM (Static Random-Access Memory) memory densely interleaved with digital computation, each memory cell effectively becoming matrix-vector compute element | Increasing the number of operations per computer cycle (one multiplication and one accumulation per cycle per memory cell | 214 Tera-Operations per Second (TOPS) of AI processing | Power efficiency of 50 TOPS per Watt at 50% input and data sparsity | Metis AIPU run ResNet50v1 neural network processing 3,200 frames per second, with a relative accuracy of 99.9% | High performance AI acceleration at the edge | Energy efficient AI processing unit | Proprietary digital in-memory computing and RISC-V technology | Architecture minimizes data movement between memory and compute elements | Metis AI Platform
#Field AI | Autonomous systems for machines deployed to fields | Off-road autonomy
#Halliburton | EquiFlow Density autonomous inflow control device (AICD) | Addresses reservoir fluid uncertainties | Allows operators to enhance oil and natural gas recovery in wells where current autonomous technologies are limited | Fluid selector opens or closes autonomously to restrict water without any surface intervention
#picknik.ai | Remote Robot Control
#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
#Carbon Robotics | Autonomous LaserWeeder Robot | Deep Learning | Laser | Lidar Sensor | Nvidia | Cumming
#Dusty Robotics | FieldPrinter automates transfering of digital model directly to construction site floor
#Advanced Navigation | Inertial measurement unit (IMU) | Heading reference system (AHRS) | Acoustic navigation | AI-based acoustic processing techniques | Subsea transponder | Sidney, Australia
#Celeramotion | Precision Components | Mechatronic Assemblies
#Sony | Sensor for streaming in 4K from Camera
#Performance Motion Devices | Motion control with an integrated digital current loop for medical, scientific, robotics, and automation applications | Programmable device that provides positioning, velocity, and torque control for Brushless DC, step, and DC Brush motors
#Flow Robotics | Automated pipetting
#Parvalux | Electric motors | Geared Motors for Robotic Solutions
#ARM Institute | Semiconductor industry robotics
#Lin Engineering | Motion control products | Hybrid step motors | PM steppers | Linear actuators | BLDC motors | Servo motors | Frameless BLDC motors | Slotless BLDC motors | Robotics automation applications | Manufacturing robots | Delta robots | Collaborative robots | California based manufacturing facility
#Chieftek Precision | Miniature robotic arms
#Advanced Farms Technologies | Strawberry harvester | Agtech
#New Holland | Autonomous tractor
#John Deere | Fully autonomous tractor
#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
#Fieldin | Retrofit autonomy kit for tractors | Levels of automation features | Auto steering | Driving assistance | Autonomous spraying | Fully autonomous driver out functionality
#Heliogen | AI.controlled concentrating solar thermal technology with long-duration thermal energy storage
#Elroy Air | Autonomous cargo aircraft systems| Vertical take off and landing (VTOL) cargo aircraft | Specially designed aerodynamic modular cargo pods | Commercial logistics | Disaster relief | Firefighting | Humanitarian operations | Replacing difficult ground transportation | Detachable pod | Dropping off cargo | Pickkung up ready to go cargo | Makint deliveries fast | Allowing ground crew to empty or load a pod at their leisure
#Percepto | Autonomous site inspection and monitoring | Autonomous drones and robots | Insight Manager | Deeplearning algorithms to deliver industry specific intelligence | Solar construction progress monitoring | Stockpile volumetric measurement | Pipeline integrity inspection | 2D mapping | 3D modeling | Automated inspections
#Kiwibot | AI-powered robotics | Delivery robots
#OndoSense | Radar distance sensor | Sensor software: integrated into control system or used for independent quality monitoring | Object detection | Distance measurement | Position control | Agriculture: reliable height control of the field sprayer | Mining industry | Transport & Logistics | Shipping & Offshore | Mechanical and plant engineering | Metal and steel industry | Energy sector | Harsh industrial environments | Dust & smoke: no influence | Rain & snow: no influence | Radar frequency: 122GHz | Opening angle: ±3° | Measuring range: 0.3 – 40 m | Measuring rate: up to 100Hz | Output rate: up to 10 ms / 100 Hz | Measurement accuracy; up to ±1mm | Measurement precision: ±1mm | Communication protocol: RS485; Profinet, other interfaces via gateway | Switching output: 3x push-pull (PNP/NPN) | Analogue output: Current interface (4 – 20 mA) | Protection class: IP67
#Bluewhite | Equip On Existing or New Tractor | Adoptable to all permanent crops | Supports multiple jobs with PTO and 3 point implement control | Cutting edge safety features | Manual use with flip of switch | Control Your Entire Fleet Remotely | Add High Resolution Precision Application | Spray only where trees or vines are present | Platform for fleet and data management
#Boston Dynamics | Spot Robot | Dynamic sensing
#Xwatch Safety Solutions | Safety Solutions
#Hitachi Construction Machinery | Xwatch Safety Solutions | Leica Geosystems 3D Avoidance System
#Echion Technologies | Materials based on proprietary mixed niobium oxide compositions and microparticle designs | Envelope for high-power batteries electrifying heavy-duty commercial and industrial applications | Key ingredient niobium (Nb) | CBMM | Brazil
#IDS | Streaming in 4K directly from camera
#British Antarctic Survey Artificial Intelligence (AI) Lab | Autonomous marine vehicles | Ice forecasting | Ice dynamics | Polar operations | Tracking icebergs from space | Benthic biology on seafloor | Integrating different types of data using AI | Optimising data collection processes in remote and hostile environments
#Fincantieri | Underwater Armament Systems (UAS) | Torpedo and sonar business | Underwater acoustic technology | Solutions for underwater civil infrastructure | Target underwater market estimated to have a €100bn cumulative value between 2024-28 | Underwater domain holding strategic importance in tMediterranean Sea | Dense critical infrastructure | Intelligence, surveillance and reconnaissance (ISR) | Underwater technological autonomy
#Titomic | Titomic Kinetic Fusion Additive Manufacturing (TKF AM) systems | Integrating cold spray technologies, software and robotics into existing systems | Proprietary manufacturing cell | Manufacturing prototypes on a small scale | Cold spray powders | Rapid repairs | Metal coatings without heat | Build and incorporate electronic sensors directly into parts | Industry 4.0 platform | Linux NAS server
#Nestle Purina | Thermal and acoustic inspections in packaging lines | Digital Manufacturing for Nestle Purina Petcare | Acoustic air leak detection | Compressed air leak detection | Thermal inspections on motors, bell housings, gearboxes | Boston Dynamics
#Chevron | Sensor detecting the presence of explosive gas | Spot robit sits down and shuts off, mitigating the risk that a spark from the robot could serve as a source of ignition when detects dangerous gas | Boston Dynamics
#Hamburg Port Authority (HPA) | Lidar payload | Leica RTC360 3D laser scanner | Spot EAP package | Structural inspections of bridge | Bridge cavities: difficult conditions. dusty, dark, noisy, hot in summer and cold in winter, strong echoes | Digital Twin of bridge | Points of Interest (POI) | Augmented reality solution | Boston Dynamics
#Roboverse Reply | Integrating robotics solutions | Lidar payload | Leica RTC360 3D laser scanner | Spot EAP package | Spot walked autonomously and overcame obstacles | Spot suited to perform structural inspections in the cavities of Kohlbrand Bridge | Navigating in complete darkness | Custom programming | Iterations | AI training | Digital twin of bridge | Navigating remotely through an accurate, virtual image of the bridge and zoom in on areas of interest | Critical points or areas, points of interest (POIs) defined | Specific locations in the bridge displayed to users via an augmented reality solution | Boston Dynamics
#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
#HB11 | Laser Boron Fusion | Fusing Hydrogen and Boron is aneutronic | Using high-intensity lasers to initiate fusion | Laser system combining thousands of commercial lasers | Nanosecond and picosecond two-pulse laser system used to achieve Fast Ignition | Focused energy accelerates protons and initiates fusion within a compressed fuel pellet | Energy released drives a conventional steam cycle generator
#Huawei | AI-in-a-box
#Inspur | AI-in-a-box
#H3C | AI-in-a-box
#BrainChip | Akida neuromorphic processor | AI-enabled space-grade SoC | Biometric recognition | Industrial anomaly detection | Temporal Event Neural Networks (TENNs)
#Penn State | BrainChip University AI Accelerator Program | Neuromorphic Computing Lab in the School of Electrical Engineering and Comouter Science
#Frontgrade Gaisler | Space-grade microprocessor | BrainChip | AI-enabled space-grade SoC | Integration of BrainChip Akida neuromorphic processor | BrainChip
#ULC Technologies | Field-deployed robotics | Robotic solutions and technologies for utility, energy, and industrial sectors | Helping to maintain fleet of robotic platforms | Services to build robots | Train personnel | Supporting expansion and development of renewable energy sources | Automating repair operations on medium voltage electric cables
#NVIDIA | Mobile Robot Development Stack
#US Inflation Reduction Act | Companies eligible to receive production tax credits (PTC) when the lifecycle carbon intensity is below 4 kg CO2e per kg H2 | The highest PTC tier grants $3 per kg if h2 production meets the carbon intensity threshold of 0.45 kg CO2e per kg H2 | Low-carbon white hydrogen production in the US could be eligible for the highest PTC | Hydrogen-sensing gas probes detect dissolved H2 in rock formations at depths of up to 1,500m | Probes developed to reach deeper depths, up to 3,000m underground | White H2 mainly produced through natural reactions, such as serpentinization, where water reacts with iron-rich minerals at elevated temperatures | Enhanced serpentinization: using catalysts such as magnetite accelerates natural h2-producing reactions | Radiolysis of water: radioactive elements within Earth crust split water due to ionizing radiation
#Gold Hydrogen | Drilling white H2 in the Yorke Peninsula in South Australia
#Koloma | Denver-based white hydrogen start-up | Secured $91 million from investors
#Breakthrough Energy Ventures | White hydrogen venture backed by Bill Gates
#University of Texas, Austin | White hydrogen research
#MIT | Autonomous Systems Development Facility (ASDF) | Enabling the development and testing of autonomy algorithms and capabilities | Prototyping and testing of ground-based, aerial, and undersea autonomous systems | Infrared sensors | Integrated motion capture system | Reflective tags on vehicles | Indoor positioning system generating GPS signals | Dry running systems indoors before major outdoor field tests | UAV copter with propeller with low acoustic signature | System for countering unmanned aircraft in urban environment
#Samsung Electronics | Neural Processing Unit (NPU)