Building a surgical robotic prototype is relatively easy (sorry Engineers).
Building several is a little more tricky
Making a production clinical grade surgical robot gets harder
Making 10 of them is difficult (all ten must work perfectly)
Calling to 100 is very very very hard
Selling 1 is easy - selling 10 is hard - selling 100 is super hard
Servicing is hard, making instruments is hard, supporting a robot is hard, developing an ecosystem is hard - it's all F'in hard!!!!!!
So what can you look for that says if a company is doing well or struggling---
Here's my thoughts (for if you missed it)
#surgicalrobotics#roboticsurgeryhttps://wix.to/dDQV7hw#newblogpost
Excited to share a groundbreaking advancement in robotic surgery that I came across during my educational journey on AI with MIT Sloan School of Management! This week focus was on Robotics.
Researchers at UC Berkeley have developed a robot capable of autonomously suturing, overcoming challenges in manipulating shiny objects like needles and utilizing neural networks for motion planning.
This innovation has immense potential for improving patient outcomes by automating suturing tasks.
What are your thoughts on the future of robotics?
#robotics#healthcareinnovation#MITSloan#UCBerkeley#robotics#Robotics#innovation#technology
Cambridge University scientists have created a robotic 'third thumb' that can make people more efficient and productive. This extra thumb, which can be controlled by the user, helps improve how we use our hands, making tasks like manual labor and surgery easier.
This new technology aims to support marginalized communities by making advanced tools more accessible to everyone.
In initial tests with 600 people, 98% were able to use the thumb effectively within a minute.
Published in Science Robotics, the study shows that this invention could boost performance in various jobs.
#DigitalKasur#Ijazali#Amirmehar#cambridgeuniversity#robotics#thirdthumb#robot#robotech
My research lab will be presenting 6 papers and I will be giving a talk at the workshop on robot manipulation on deformables at #icra2024 in Yokohama, Japan. I hope to see you all there, and Congratulations to the students in my lab for their papers! They span a wide variety of visual tracking, deformable manipulation, snake robotics, neural motion planning, and surgical autonomy.
#ucsdarclab#robotics
Real-to-Sim Deformable Object Manipulation: Optimizing Physics Models with Residual Mappings for Robotic Surgery
https://lnkd.in/gMprY9By
Achieving Autonomous Cloth Manipulation with Optimal Control via Differentiable Physics-Aware Regularization and Safety Constraints
https://lnkd.in/gGjX3nxs
AnyOKP: One-Shot and Instance-Aware Object Keypoint Extraction with Pretrained ViT
https://lnkd.in/gjS7P4B3
Tracking Snake-like Robots in the Wild using only a Single Camera
https://lnkd.in/gGwjGMim
Zero-Shot Constrained Motion Planning Transformers Using Learned Sampling Dictionaries
https://lnkd.in/guh5tuzY
Robust Surgical Tool Tracking with Pixel-based Probabilities for Projected Geometric Primitives
📈 225 Million Views/Year I 📊Fractional CMO I 🧪Marketing Data Scientist I 💼 AI- Marketing Automation I 📊 21000 + Mktg. Tests I 🎯B2B Digital Strategy I 🧪GTM Strategy I🚀AI-Martech I 💡eCommerce I 🧪Edtech I 💼
* 📝 Unlocking the Potential of Robotic Arms with Moveit Servo 📊💡
Are you leveraging perception-integrated robotic arms to enhance your operations? Moveit Servo, an open-source ROS package, facilitates servoing for robotic arms, enabling teleoperation for surgery, manipulation of hazardous substances, and seamless integration with AR/VR systems. In this blog post, we explore the intricacies of setting up servoing using Moveit Servo, both in simulation and on real robots.🔥 Important Highlights You Can't Afford to Miss Today 💪💼
🤖 Robotics Revolution: Moveit Servo empowers robotic arms by enabling servoing capabilities, enhancing their versatility and applicability across various domains such as surgery, hazardous material manipulation, and AR/VR integration.
🛠️ Open-Source Innovation: Leveraging the power of ROS (Robot Operating System), Moveit Servo is an open-source solution, fostering collaboration and innovation within the robotics community.
🔄 Seamless Integration: With Moveit Servo, robotic arms seamlessly integrate with perception systems, allowing for precise control and manipulation of objects in dynamic environments.
🔬 Simulation and Real-world Implementation: Moveit Servo facilitates both simulation-based experimentation and real-world deployment, providing a comprehensive platform for developing and testing robotic applications.
🌐 Global Collaboration: Join a community of engineers and innovators shaping the future of robotics by contributing to Moveit Servo and collaborating on exciting projects worldwide.
🚀 Career Opportunity: Want to be part of cutting-edge robotics projects? Join the team behind Moveit Servo and contribute to revolutionizing how robotic arms interact with the world. Apply now to be featured in exciting robotics videos and be part of a dynamic team driving innovation in the field.
🌟 Track the Trend: Stay ahead of the curve and explore the possibilities, follow me on Linkedin.com/in/psmahesh ⛷❄🏂🌄
"Credits: 🌟 All write is done by me(P.S.Mahesh) after indepth research. All rights and credits for the video/visual presented are reserved for their respective owners. 📚
Introduction:
In recent decades, robotics has emerged as a transformative force, reshaping industries and influencing various aspects of modern society. This article explores the evolution of robotics, its current applications, and the profound impact it has on sectors ranging from manufacturing to healthcare.
Body:
1. **Historical Perspective:**
Robotics has come a long way since its inception. From early mechanical devices to advanced autonomous systems, the field has witnessed remarkable progress. The article delves into key milestones, highlighting breakthroughs that paved the way for today's sophisticated robotic technologies.
2. **Current Applications:**
Explore the diverse range of applications where robotics plays a crucial role. This includes manufacturing automation, where robots enhance efficiency and precision, as well as healthcare, where robotic surgery and assistive devices are
Demonstrating a multifunctional prosthetic arm, 1921.
We have come a long way to perfecting a lot of things through technological advancement.. This is a fascinating glimpse into the history of prosthetics and the ways in which technology has been used to improve the lives of people with disabilities.
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#tech#ai#robotics
PhD student,HKU
1dInsightful