Sales professional with a strong track record in client service, management, & lead generation. Passionate about driving growth, fostering relationships, and mentoring talent. Seeking long-term, full-time opportunities.
Welcome to The Physical Intelligent Robit PI-π
Well done team!
Unlock the future. The Game-Changing Power of Robots with Physical Intelligence- Pi (π) robots with Physical Intelligence is more than just a machine built to resemble the human form-it’s a next-generation creation that combines advanced robotics with the ability to perceive, adapt, and interact with the physical world, much like humans do.
https://lnkd.in/dFaCtkhG
Start with your end goal and understand your needs when considering new motion control technology. A big thank you to Jake Hall, The Manufacturing Millennial, for the fantastic discussion at the Robotics Summit & Expo 2024!
Challenge your tech IQ! 🧠💻 'Test Your Tuesday' is here: What's the significance of a 'piezoelectric sensor' in robotics? Comment your answers and let's celebrate tech brilliance! #TechIQChallenge#TuesdayThoughts#isrc
Challenge your tech IQ! 🧠💻 'Test Your Tuesday' is here: What's the significance of a 'piezoelectric sensor' in robotics? Comment your answers and let's celebrate tech brilliance! #TechIQChallenge#TuesdayThoughts#isrc
Challenge your tech IQ! 🧠💻 'Test Your Tuesday' is here: What's the significance of a 'piezoelectric sensor' in robotics? Comment your answers and let's celebrate tech brilliance! #TechIQChallenge#TuesdayThoughts#isrc
Indeed...!!! 👩🎓 🤖
🚀 Exciting Advances in Robotics for Industry 4.0! 🤖
As we forge ahead into the era of Industry 4.0, the intersection of robotics and automation continues to revolutionize industrial processes. Recent breakthroughs, such as the development of sophisticated algorithms for hyper-redundant manipulators, are pushing the boundaries of what's possible.
🔍 Spotlight on Innovation:
VO-FABRIK Algorithm: Combines Forward and Backward Reaching Inverse Kinematics (FABRIK) with the Velocity Obstacles (VO) method, offering fast, repeatable, and collision-free motion planning for hyper-redundant robotic manipulators.
SFTL Algorithm: A stepwise follow-the-leader approach for cable-driven hyper-redundant manipulators (CDHRMs) using reinforcement learning and dynamic path optimization, achieving over 96% success in various obstacle-rich environments.
🌟 Why It Matters: These advancements not only enhance the dexterity and efficiency of robots but also open up new possibilities for their application in constrained and complex environments like aerospace, search-and-rescue, and intricate industrial settings.
💡 Future Prospects: With ongoing research focusing on improving perception capabilities and decision-making accuracy, the future of robotics in Industry 4.0 looks brighter than ever. These innovations promise smarter, more adaptable robots that can seamlessly integrate into and transform our industrial landscapes.
Thanks Adrian Macneil for sharing this. I am very excited and anticipated with this journey.
Stay tuned for more updates on how these cutting-edge technologies are paving the way for a more automated, efficient, and innovative future!
#Robotics#Automation#Industry40#Innovation#Technology#FutureOfWork#HyperRedundantManipulators#VOFABRIK#SFTL#AI#ReinforcementLearning#IndustrialAutomation
In Case You Missed it: The Latest Boston Engineering Newsletter discusses The Art of Perception and Action in Robotics, plus Leveraging DFX during New Product Development to meet your market's Unmet Needs.
Read More: https://hubs.li/Q02LP0Xm0
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2moBeing a part of this event was such a joy! GEEK SQUAD!!!