Roke’s Post

Check-out how fast this robot can sort... This Pentagon Robot, developed by MASTWORK, originates from a startup founded in Taiwan and was established at Royal Holloway University of London. Compared to a standard SCARA, it operates faster, offers enhanced stability, is more space-efficient, can function in confined workspaces, and is capable of navigating through singularity points. These types of robots can handle complex tasks in environments where traditional robots might struggle, ultimately leading to cost savings and higher output. #robotics #autonomy #automation

Empowering your operations with streamlined material logistics — when and where you need it. #AutonomousTechnology #SupplyChainEfficiency #MaterialHandling #InnovationInMotion

As factories become more and more #autonomous, the risk of incidents between machines, workers, and #robots is increasing. 🤖⚠ This poses a serious safety challenge for humans that our teams are working hard to address. Most autonomous mobile robots can adapt their routes based on their surroundings. However, not all can safely adjust their speed. Therefore, specialized safety encoders are often needed, which can be complex and may not fit the mobile robot. 💡 With a new software-based approach we bridge the gap between IT and OT systems. It ensures compatibility with all mobile robots and their components, reducing energy use, eliminating the need for extra hardware, and coming with safety certification - meaning greater control and lower costs. ✅ By seamlessly integrating IT and OT, we're developing solutions that keep workers protected and production running smoothly in the autonomous factory of the future. #AutonomousFactory #AMR #ITOTIntegration

Here’s a robot 🤖🌱👉 that can autonomously navigate your greenhouse. What tasks would you assign to it? Our 'AI-driven Greenhouse Autonomous Driving Robot, HERMAI,' can do a lot for you.🤲 🤖HERMAI Scout Robot : 🅰It uses an AI-based vision camera to recognize fruits and leaves, 📊obtaining crop growth analytics. 💰It predicts harvest yield up to 6 weeks in advance based on radiation sum and visualizes Fruit Score data. 🤖HERMAI Transport Robot : 📍HERMAI enters the rail where the worker is harvesting, 🍎logs the weight of loaded harvests, 👨🌾allowing detailed tracking of yield data per worker and per line. 🚗The robot then drives autonomously to the unloading area. 🤖HERMAI Spray Robot : 🌍generating the path to the designated lines and navigating autonomously. 🕷Automatic pest control eliminates human intervention and the risk of exposure to harmful substances. 😘 What do you think? Isn't this the robot you've been looking for? 🎥 Check out this video. https://lnkd.in/e_255CQ5 🤖 You can see the HERMAI Scout Robot, HERMAI Transport Robot, and HERMAI Spray Robot in action within a greenhouse. * About HERMAI: We can explain more about HERMAI to you through an online meeting or email. Would you like to leave an inquiry? https://bit.ly/45GR5df * ioCrops Sales Manager: support@iocrops.com * ioCrops Website: https://bit.ly/4cATWa4 * ioCrops LinkedIn: https://lnkd.in/eC4m9XFq * ioCrops Instagram : https://lnkd.in/eungvCvU #Agtech #AI #iocrops #hermai #robot #greenhouse #AutonomousGrowing #ScoutRobot #TransportRobot #SprayRobot

🤖 𝗟𝗼𝗰𝗮𝗹 𝗢𝗯𝘀𝘁𝗮𝗰𝗹𝗲 𝗔𝘃𝗼𝗶𝗱𝗮𝗻𝗰𝗲 𝗖𝗼𝗻𝘁𝗿𝗼𝗹 𝗳𝗼𝗿 𝗠𝘂𝗹𝘁𝗶-𝗔𝘅𝗹𝗲 𝗮𝗻𝗱 𝗠𝘂𝗹𝘁𝗶-𝗦𝘁𝗲𝗲𝗿𝗶𝗻𝗴-𝗠𝗼𝗱𝗲 𝗪𝗵𝗲𝗲𝗹𝗲𝗱 𝗥𝗼𝗯𝗼𝘁 🚜 🔍 A groundbreaking study explores an innovative approach to obstacle avoidance for complex wheeled robots: 🛠️ Strategy Overview: • The research introduces a window-zone division strategy that helps in guiding multi-axle robots with multiple steering modes through environments cluttered with obstacles. • This strategy involves dividing the robot's surrounding area into zones, each with specific avoidance algorithms, allowing for dynamic navigation based on the robot's configuration and the obstacle's position. 💡 Key Innovations: • The system adjusts steering angles and axle movements in real-time to navigate around obstacles, enhancing the robot's ability to maneuver in complex terrains or industrial settings. • It considers the unique steering capabilities of multi-axle vehicles, providing a more flexible and efficient path planning compared to traditional methods. 🔍 Implementation Details: • Sensors and onboard computing are used to continuously assess the robot's environment, making instant decisions on how to best avoid obstacles while maintaining the desired trajectory. • The algorithm takes into account the robot's speed, size, and steering capabilities, ensuring that the avoidance maneuvers are both safe and effective. 🌐 Applications: • This technology could revolutionize logistics, autonomous farming, and any field where large, multi-axle vehicles operate in environments with potential obstacles. • It could lead to safer autonomous operations in industries like mining, construction, or any sector requiring precise vehicle control in cluttered spaces. #Robotics #ObstacleAvoidance #MultiAxleRobot #SteeringControl #Automation #AgriTech #Logistics #AutonomousVehicles #RealTimeNavigation #SensorFusion #RobotControl #TechInnovation #Engineering #SmartMobility #IndustrialAutomation

As factories become more and more #autonomous, the risk of incidents between machines, workers, and #robots is increasing. 🤖⚠ This poses a serious safety challenge for humans that our teams are working hard to address. Read more about this from our experts 👉: https://sie.ag/UBvVZ Most autonomous mobile robots can adapt their routes based on their surroundings. However, not all can safely adjust their speed. Therefore, specialized #safety encoders are often needed, which can be complex and may not fit the mobile robot. 💡 With a new software-based approach we bridge the gap between #IT and #OT systems. It ensures compatibility with all mobile robots and their components, reducing energy use, eliminating the need for extra hardware, and coming with safety certification - meaning greater control and lower costs. ✅ By seamlessly integrating IT and OT, we're developing solutions that keep workers protected and production running smoothly in the autonomous factory of the future.

As factories become more and more #autonomous, the risk of incidents between machines, workers, and #robots is increasing. 🤖⚠ This poses a serious safety challenge for humans that our teams are working hard to address. Read more about this from our experts 👉: https://sie.ag/UBvVZ Most autonomous mobile robots can adapt their routes based on their surroundings. However, not all can safely adjust their speed. Therefore, specialized #safety encoders are often needed, which can be complex and may not fit the mobile robot. 💡 With a new software-based approach we bridge the gap between #IT and #OT systems. It ensures compatibility with all mobile robots and their components, reducing energy use, eliminating the need for extra hardware, and coming with safety certification - meaning greater control and lower costs. ✅ By seamlessly integrating IT and OT, we're developing solutions that keep workers protected and production running smoothly in the autonomous factory of the future.

What's so cool about an autonomous robot? All it does is move around from place to place. Answer: it's pretty cool when its autonomous because it sees and moves in the world the same way we do. And it can do it even when everything is constantly changing around it. Let me put it this way. Robots tend to only be able to be autonomous when everything stays the same around it. Move a wall, lose GPS or put a puddle in its way, and it freaks out and ends mission. Autonomous robots prefer a world where nothing changes, the aisles it trolls around stay put and everything on its map is always the same. This is NOT a construction environment. A wall that wasn't there before is now blocking a path. A pallet of concrete all of a sudden is placed in front of a waypoint. You need a robot's navigation system to be able to see the changes in its world, make note of it, update its map in real-time, and adapt to complete its mission. I know where I'm standing in this room based on my relative proximity to the walls around me, the table behind me, and the elevator directly in front. I couldn't tell you my GPS location if you asked me. But if you tell me to walk across the room and put a chair in front of me, I'll see it and make the decision to walk around it. Problem solved. That's #GroundhogPro. SuperDroid Robots #constructiontech #autonomousrobot #navigation #mobilerobot #constructionrobot

In no way NEW technology, but I'm still always amazed by small but mighty feats of Engineering like this Starship autonomous delivery robot. It safely completed its caffeine-fueled mission like a boss, with a lower carbon footprint than most vehicles. Curious who will enter this market next and make it mainstream? #autonomousrobots #workremote #caffeinefix #starshiptechnologies

As factories become more and more #autonomous, the risk of incidents between machines, workers, and #robots is increasing. 🤖⚠ This poses a serious safety challenge for humans that our teams are working hard to address. Read more about this from our experts 👉: https://sie.ag/UBvVZ Most autonomous mobile robots can adapt their routes based on their surroundings. However, not all can safely adjust their speed. Therefore, specialized #safety encoders are often needed, which can be complex and may not fit the mobile robot. 💡 With a new software-based approach we bridge the gap between #IT and #OT systems. It ensures compatibility with all mobile robots and their components, reducing energy use, eliminating the need for extra hardware, and coming with safety certification - meaning greater control and lower costs. ✅ By seamlessly integrating IT and OT, we're developing solutions that keep workers protected and production running smoothly in the autonomous factory of the future.