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 | LIFTbuild: Vertical Manufacturing approach (roof constructed and placed first) | Jenco: coordinated multi-trade layout process | Truebeck Construction: full-service general contractor specializing in technical building and complex projects
#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 | Industrial inspections | Detecting anomalies | Preventing shutdowns | Streamlining operations | Providing valuable insights | Ultrasonic inspections of rotating equipment with Fluke SV600 | Early detection of bearing failures before they lead to costly breakdowns | Operators can capture critical data without the need for additional inline sensors or manual inspections | Leica BLK ARC payload | Autonomous routines | Repeatable laser scans | Precise 3D data for tasks like factory design, equipment installation, and change management | Spot can identify and avoid obstacles requiring additional caution in dynamic environments, including carts, wires, and ladders | Spot Hardware Updates | Tablet Controller Pro | Ergonomic joysticks, longer battery life, and HDMI pass-through | Spot robit operates in temperatures up to 55°C | Core I/O antenna upgrade enhances range and reliability | AI Institute | Artificial intelligence (AI) | Robotics | Intelligent machines | Cognitive AI | Athletic AI | Organic hardware design | Leica BLK ARC laser scanning payload | Fluke SV600 payliad to collect acoustic vibration data | ROI-focused after-sales support
#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)
#Imricor Medical Systems (ASX:IMR) | Developing and manufacturing MRI-compatible devices for performing cardiac ablations | RF ablation catheter | 9 Fr. bipole irrigated tip ablation catheter with two MR receive coils in the distal end for active MR tracking | Active MR Tracking | Fibre optic tip temperature sensing | Pivotal trial VISABL-AFL for atrial flutter at Cardiovascular Institute of South Paris (ICPS) | Interventional cardiac magnetic resonance (iCMR) equipment installed at Lausanne University Hospital (CHUV) with Swiss Medic approval | IMR NorthStar 3D mapping system: approved by US Johns Hopkins IRB, MRI compatible 3D mapping system of the heart globally | Amsterdam UMC restarted iCMR-guided atrial flutter ablations | Patients successfully treated: at Dubrava University Hospital in Croatia, in Hungary with Semmelweis University Hospital | Collaborations with Siemens, Philipps and GE Healthcare
#Balluff | IO-Link portfolio | Wireless system consists of a master block, hub and bridge
#Parker | Integrating motors, pumps and controls for electrified machines
#LookOut | AI vision system | Synthesized data from charts, AIS, computer vision, and cloud fusing it into one 3D augmented reality view | Connects to existing boat display | Mountable camera system to the top of any boat | Lookout App for laptop, phone or tablet | Infrared vision | Night vision sensor | Spotting small vessels, floating debris, buoys, people in water | Blind spot detection | Backup camera | Temperature breaks, bird cluster locations, underwater structures for anglers | Camera streaming over WiFi to phones and tablets on the boat | Over-the-air (OTA) updates | Marine-grade water-proof enclosure | Integrated with satellite compass | National Marine Electronics Association (NMEA) communication standard interface | Multifunction Display (MFD) | Multi-core CPU driving augmented reality compute stack | ClearCloud service | NVIDIA RTX GPU for real-time computer vision | DockWa app
#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
#HEBI Robotics | Robot development platform | Smart robotic actuation hardware and building blocks | Streamlininh the process of developing robots | Space-rated hardware deployed for missions in space | NASA: SBIR
#Fourier | GRx humanoid robot series | GR-2 stands 175 cm (68.9 in.) tall and weighs 63 kg (139 lb.) | GR-2 offers 53 degrees of freedom and single-arm load capacity of 3 kg (6.6 lb.) | Fourier humanoid has detachable battery | Concealed wires and more compact packaging | Hands with 12 degrees of freedom | Array-type tactile sensors that sense force and can identify object shapes and materials |Fourier Smart Actuators (FSA) | Software development kit (SDK)
#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
#Movu Robotics | Robotics | Automated pallet storage solution | Accessible cold storage automation | Temperature-controlled food and pharmaceutical industry | Space optimisation in storage | Streamlined materials handling process | Energy efficiency for cold storage | Robotics for low temperatures with icy and slippery surfaces | Automated Storage and Retrieval System (AS/RS) | Automating picking | Fleet management software
#Neptune Labs | neptune.ai | Tracking foundation model training | Model training | Reproducing experiments | Rolling back to the last working stage of model | Transferring models across domains and teams | Monitoring parallel training jobs | Tracking jobs operating on different compute clusters | Rapidly identifying and resolving model training issues | Workflow set up to handle the most common model training scenarios | Tool to organize deep learning experiments
#SIMa.ai | Platform for edge AI | Enabling edge-ML application-pipeline acceleration on single chip | MLSoC accelerates deep learning workloads | ModelSDK forvmodel loading, quantization and compilation in Python | Python APIs and VSCode remote execution for rapid application development and prototyping | GStreamer plugins enabling high-performance video processing pipelines | ML Pipeline Package for application deployment
#Kinova Robotics | Ultra lightweight professional robots | Turnkey robotic arm solutions for medical systems | Assistive solutions to overcome upper-body limitations | Ultra-lightweight robots for labs | Robots to take over dull, dirty, and dangerous tasks | Automation solutions | Lift Arm accessory | Gen3 robots compatible with MoveIt Pro
#UCLA | AI model analyzing medical images of diseases | Deep-learning framework | SLice Integration by Vision Transformer (SLIViT) | Analyzing retinal scan, ultrasound video, CT, MRI | Identifying potential disease-risk biomarkers | Using novel pre-training and fine-tuning method | Relying on large, accessible public data sets | NVIDIA T4 GPUs, NVIDIA V100 Tensor Core GPUs, NVIDIA CUDA used to conduct research | SLIViT makes large-scale, accurate analysis realistic | Disease biomarkers help understand disease trajectory of patients | Tailoring treatment to patients based on biomarkers found through SLIVIT | Model largely pre-trained on datasets of 2D scans | Fine-tuning model on 3D scans | Transfer learned model to identify different disease biomarkers by fine-tuning on datasets consisting of imagery from very different modalities and organs | Trained on 2D retinal scans and then fine-tuned model on MRI of liver | Helping model with downstream learnings even though different imagery domains
#Linux Foundation | LF AI & Data | Fostering open source innovation in artificial intelligence and data | Open Platform for Enterprise AI (OPEA) | Creating flexible, scalable Generative AI systems | Promoting sustainable ecosystem for open source AI solutions | Simplifying the deployment of generative AI (GenAI) systems | Standardization of Retrieval-Augmented Generation (RAG) | Supporting Linux development and open-source software projects | Linux kernel | Linus Torvalds
#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
#dispelix | Waveguide design | Self-developed, in-house software for designing waveguides | Utilizing both field-based and ray-optics algorithms to simulate both coherent and incoherent light | AR glasses | Customer-specific AR waveguide engineering
#NVIDIA | GH200 Grace Hopper Superchip | Boosting TTFT in multiturn user interactions | Building contextual understanding of input sequence | Retrieval Augmented Generation (RAG) | Converting user prompt to tokens and then to highly dense vectors | Dot product operations | Building mathematical representation of the relationship between all tokens in prompt | Operations repeated across different layers of the model | Generating key-value cache (KV cache) | Reusing KV cache | KV offloaded from GPU memory to higher capacity and lower cost CPU memory | KV cache reloading back to GPU memory | KV cache offloading, eliminates need to recompute KV cache without holding up valuable GPU memory | Enabling multiple users to interact with the same content without recalculating KV cache for each new user | Speeding code generation in integrated development environments (IDEs) that have LLM capabilities, one or more developers can submit multiple prompts interacting with single code script over extended periods of time, offloading initial KV cache calculations onto CPU memory and then reloading it for subsequent interactions avoids repeated recalculations and saves valuable GPU and infrastructure resources | NVIDIA TensorRT-LLM | Llama 3 70B model running on server with NVIDIA H100 Tensor Core GPUs connected through PCIe to x86 host processor | Compelling deployment strategy for data centers
#Allen Institute for Artifical Intelligence | Robot planning precise action points to perform tasks accurately and reliably | Vision Language Model (VLM) controlling robot behavior | Introducing automatic synthetic data generation pipeline | Instruction-tuning VLM to robotic domains and needs | Predicting image keypoint affordances given language instructions | RGB image rendered from procedurally generated 3D scene | Computing spatial relations from camera perspective | Generating affordances by sampling points within object masks and object-surface intersections | Instruction-point pairs fine-tune language model | RoboPoint predicts 2D action points from image and instruction, which are projected into 3D using depth map | Robot navigates to these 3D targets with motion planner | Combining object and space reference data with VQA and object detection data | Leveraging spatial reasoning, object detection, and affordance prediction from diverse sources | Enabling to generalize combinatorially.| Synthetic dataset used to teach RoboPoint relational object reference and free space reference | Red and ground boxes as visual prompts to indicate reference objects | Cyan dots as visualized ground truth | NVIDIA | | Universidad Catolica San Pablo | University of Washington
#NVIDIA | Universal Scene Description (OpenUSD) | Open-source framework for creating, simulating, and collaborating in 3D worlds | Developed by Pixar Animation Studios | Supporting 3D content creation and tool interchange | Industry standard in Visual Effects (VFX), architecture, robotics, manufacturing | Developing for OpenUSD using USD Python build or API
#Qualcomm Technologies | Generative AI at the edge
#NEURA Robotics | Cognitive robotics | Enabling robots to perceive and interact with their environment autonomously
#Bishop-Wisecarver | 8th Axis vertical extendibility solutions for to increase reach for small robots and cobots | Vertical movement with travel lengths up to 4 meters | Expanding working envelope for large-scale tasks like painting, sandblasting, and pressure washing | Single robot in place of several larger robots | Actuated linear guide system | Rotary motion guides | Rotary actuators | Customized rotary motion solutions to follow virtually any path | DualVee Motion Technology | DualVee-Single-Edge-Track | DualVee-Journals | Guide wheel components | Linear guide wheel | Track lubricator assemblies | HepcoMotion aluminum profile sections | HDRT track systems combine ring segments and straight slides to follow virtually any path | HepcoMotion PRT2 (Precision Ring and Track), DTS (Driven Track System), and HDRT (Heavy Duty Ring and Track) product lines | HDS2 Heavy Duty Slide System | Precision linear guide components utilizing guide wheel and roller wheel technology
#Neuralink | Creating generalized brain interface | Cosmetically invisible | Designed to control computer or mobile device anywhere