ALX Systems’ Post

Vacuz FPV UAV Drone Motor Automatic BLDC Brushless Stator Coil Rotor Dynamic Balancing Machine Set Up

Memory Lane Monday - Before quad-rotor drones became possible - it was faster, safer and more cost-effective to test future fight algorithms on the ground using a novel robot that was known as "InsectBot" that had development contributions from David Austin, Felix Schill, Josh Bobruk, and Lance Cole, but the bulk of the hardware and software was done by Luke Cole. This #robot was achieved via omni-directional wheels, and a ~spherical camera that had a vertical control axis - all enabling simulation of a flying object such as a #Drone #UAV. The work used biologically-inspired optical flow algorithms allowing #autonomous centring and #ObstacleAvoidance (aka 3D centring) and 3D docking. In this demo video, we also see the benefits of a #haptic-feedback joystick allowing the optional operator to feel the walls, floor and ceiling during #teleoperation, effectively forcing the driver to say 3D centred, and allowing blind driving. This robot was used for published research conducted by Luke Cole, Chris McCarthy, Rebecca Dengate, John Lim, David Shaw, and supervisors David Austin, Nick Barnes, Robert Mahony and Peter Corke during the pioneering robotics and computer vision days at The Australian National University, NICTA (aka CSIRO's Data61) and CSIRO. For more info see: https://lnkd.in/g3NDD3U2 #robots #robotics #vision

Diving into the latest in tech innovation, I am intrigued by Cleo Robotics' Dronut X1, as shared by Bhaavishek Malik. The world's first bi-rotor ducted drone, optimized for safe operation indoors and other GPS-denied environments, illustrates a leap in drone technology.Its unique design, integrating patented thrust vectoring tech, allows stable flight in confined and intricate spaces—imagine the implications for industries requiring unmanned inspections in previously inaccessible areas. Paired with advanced sensors and powered by Qualcomm Snapdragon, the potential of Dronut X1 extends across various high-risk sectors, making it a quintessential example of how AI and robotics are set to redefine operational boundaries.What stands out to me is not just its technical prowess but how such innovations can bolster efficiency and safety simultaneously. As we continue to integrate such technologies within everyday applications, the conversation about drone tech's practicality and ethical dimensions becomes even more crucial.I look forward to seeing how the Dronut X1 advances and emerges as a game-changer across multiple industries. What are your thoughts on the future implications of such advanced robotics in your sector?

Discover the LS72B Laser Distance Sensor by #LSLiDAR! The LS72B #LiDAR is designed for fixed-angle distance detection, excelling in applications that demand precision, such as obstacle avoidance, volume measurement (grain silos, coal piles), and more. This video highlights the LS72B's real-time distance measurement capabilities, making it ideal for eVTOL, AGVs, and drones. With an impressive detection accuracy of ±3cm and a maximum range of 100m, the LS72B sets a new standard for precision and reliability. #3DSLAM #AI #DistanceSensor #DistanceMeasurement #Rangefinder #Altimeter #Precise #Accuracy #Technology #Innovation #Automotion #Robotics #Drone #eVTOL #Automobile

New innovative design of combined Motor and ESC in drones ✨

High-Performance ESC: HV800V180A The HV800V180A is a cutting-edge electronic speed controller (ESC) designed specifically for ultra-large-load unmanned systems. Supporting an 800V high-voltage platform, this ESC ensures unparalleled performance and efficiency for demanding applications. Key Features Advanced Technology: The HV800V180A leverages the latest silicon carbide (SiC) MOS tube technology and a new energy vehicle drive design to deliver high power density and efficiency. Reliability: With a sensorless FOC (Field-Oriented Control) algorithm that has proven its effectiveness over years of market testing, the ESC guarantees exceptional reliability. Ease of Integration: A 12V/1A BEC output simplifies integration into various systems. Specifications Continuous Output Current: 180A Peak Output Current: 360A Rated Power Output: 70kW Voltage Range: 450–850V Weight: 4.18 kg Durability and Functionality The HV800V180A is built to withstand harsh environments, featuring an IPX7 waterproof rating. Its cooling system relies on forced air circulation, ensuring stable performance even under challenging conditions. With support for fixed and feathering propeller functions, the ESC offers versatility for various applications. Applications This ESC is ideal for systems requiring thrust in the range of 200–250kg, powered by 192–200S LiPo batteries. It supports high rotational speeds of up to 12,000 RPM (M pole pairs), making it suitable for advanced UAVs, eVTOLs, and heavy-duty drones. By integrating cutting-edge technology, robust design, and comprehensive functionality, the HV800V180A sets a new benchmark for high-performance ESCs in the unmanned systems industry.

good for inspection automation

Improving #UAV Efficiency with Early Simulation Models! Unmanned Aerial Vehicles (UAVs) have transformed numerous industries, from surveillance to logistics. One critical factor in UAV development is ensuring optimal performance while minimizing #resource consumption. Early-stage modeling and simulation offer engineers an opportunity to identify potential inefficiencies before manufacturing. By integrating #performance, #power, and #functional models, developers can assess different UAV designs, estimate battery life, and measure response times. The power of simulation helps ensure that the final product meets stringent performance requirements while staying cost-effective. Tools like #VisualSim Architect streamline this process by providing real-time feedback on design changes, cutting down both time and expenses. Read more: https://lnkd.in/gepemTDr #MirabilisDesign #VisualSim #Simulation #Modeling #Analysis

A 98-mile road built by machines, not humans. This is today’s reality in China. Sany’s automated machinery successfully built an entire highway section, advancing the potential of AI and robotics in construction. What happened? China recently extended the Beijing-Hong Kong Expressway by 98 miles using only unmanned machinery. How did they do it? Sany’s autonomous fleet of 20-meter-wide pavers, double-steel rollers, and drones worked in synchronized harmony, achieving an unprecedented level of efficiency and precision. What tech made this autonomous construction possible? → Beidou satellite positioning: precision-guided movement down to the centimeter. → Advanced algorithms: for real-time path planning and task coordination. → Lidar and millimeter wave radar: for obstacle detection and spatial awareness. → Monocular depth recovery: accurate distance measurement for consistent quality. Sany’s fleet achieved a remarkable "0 edge rolling," eliminating the need for costly rework. The UAVs incorporated safety measures like collision avoidance and emergency stop systems, significantly lowering risks on-site. 💡 Here are the positive impacts and benefits → New markets → Economic savings → Global influence → Increased efficiency → Improved safety → Enhanced quality The success of this unmanned construction project positions Sany as a leader in intelligent construction. By refining and expanding this technology, Sany is poised to lead a new era in infrastructure. This signals a shift where automation can be the main workforce. Are you ready to embrace the future of construction? Share your thoughts about this below! Stay tuned for more exciting AI developments in this field by subscribing to Lighthouse. Link in the comments 👇 #AI #construction #innovation

Autonomous industrial drones are revolutionizing large-scale industrial and critical infrastructure sectors, boosting efficiency and safety across various applications such as public safety monitoring, industrial inspection, and aerial mapping. In the development of this industry, the precision in machining drone parts plays a pivotal role. Teams like #Dakings, experts in custom drone components machining and assembly, can provide valuable support to your projects. #Drone #cncmachining