Nicholas Nouri的动态

In the world of robotics, innovation and compact design often go hand in hand. The myArm 300 Pi is a perfect example of this trend. It's the smallest 7-axis desktop robotic arm, offering unparalleled arm-like dexterity. This groundbreaking technology is set to revolutionize various applications, from intricate manufacturing tasks to advanced research projects. Let's dive into the features and benefits that make the myArm 300 Pi a standout choice for both enthusiasts and professionals. First off, the myArm 300 Pi is a marvel of engineering. Its compact design doesn't compromise performance. With its 7-axis configuration, it mimics the movement of a human arm, providing an extraordinary range of motion. This flexibility allows the myArm 300 Pi to perform tasks that require precision and dexterity. It's an ideal tool for detailed work like assembly, inspection, and even delicate tasks in the medical field. If you're interested in learning more or seeing the myArm 300 Pi in action, visit our website or contact our sales team today! Website: www.unboxindustry.com Contact: 0124 414 8999 Email: [email protected] #industry #automation #solution #innovation #manufacturing #robotic #technologie #robust #gripper #technology #healthcar #warehousing #pickandplace #applications #technologists #touchsensors #intelligent #toolchanger #Gripper #grippersolution #cobot?

?? Innovating the Future of Robotics with Magneto-Rheological Fluid Motors! ?? At Cronix Lab, we’re constantly pushing the boundaries of what’s possible in humanoid robotics. Our latest breakthrough? Integrating Magneto-Rheological Fluid Motors into humanoid hands to bring precision, adaptability, and strength in ways never seen before! ?? How does it work? These motors use magnetic fluids to adaptively control tension, allowing the hand to adjust between soft and firm grips seamlessly. Whether the robot needs to handle delicate objects or exert strength, the adaptive nature of these motors ensures optimal performance. ?? Why is this concept revolutionary? ?? Fluid Adaptability: The magnetic field can be adjusted to create varying levels of grip strength. ?? Dynamic Tension Control: Located in key joints like the knuckles and wrist, these motors allow for precise, real-time control. ?? Seamless Human-Robot Interaction: Enhanced by the ability to offer soft grips, it improves safety and interaction, making robots more intuitive and responsive. ??? Development Focus: At Cronix Lab, we are prototyping this concept, working on its integration into humanoid robotic hands to revolutionize industries like healthcare, manufacturing, and even personal assistance. The future of robotics is here, and we are just getting started! #RoboticsInnovation | #MagnetoRheologicalMotors | #HumanoidRobots | #CronixLab | #FutureOfRobotics | #AIandRobotics | #TechInnovation | #AdvancedRobotics | #mrratanbajaj

???????????????? ?????????????? ?????????????? ?????????????????? ???????? ???????????????? ?????????????????? In our latest video, we showcase the simulation of robotic smoothing of an element's surface in three distinct stages. This demonstration highlights the importance of optimizing tool paths and implementing obstacle avoidance for efficient and precise robotic operations. ?????????? 1: ?????????????? ???????? ???????? ??????????????????:? Initially, the robot follows the provided tool path. However, this often leads to issues such as unreachability and collisions. Without optimization, the robot's movements are restricted, and it struggles to navigate the complex surface. ?????????? 2: ???????? ???????? ????????????????????????:? Using an advanced algorithm, we optimized the tool path by leveraging the two degrees of redundancy—rotating the tool and the turntable (positioner). Now, the robot moves as expected but encounters another problem: it collides with the object being smoothed using different parts of the mill and robot arms. This occurs because the algorithm does not yet recognize the object's presence. ?????????? 3: ???????????????? ?????????????????? ????????????????????:? By activating obstacle avoidance, the element becomes visible to the robot. The robot then places the element in the best orientation and avoids collisions by rotating the tool around its axis. This comprehensive approach ensures smooth and efficient surface finishing without any unwanted collisions. Watch the video to see how these stages unfold and how our optimization and obstacle avoidance techniques significantly enhance robotic surface smoothing. #RoboticSmoothing #ToolPathOptimization #ObstacleAvoidance #3DPrinting #ConstructionInnovation #AeditiveGmbH #Robotics #AdvancedAlgorithms #ManufacturingTechnology #Rhino3d #Grasshopper3d #Automation #IndustrialRobotics #Kuka #SurfaceFinishing #SmartManufacturing #RoboticEngineering #OptimizationAlgorithms #PrecisionEngineering #TechInnovation #EngineeringSolutions #IndustrialAutomation #PrecastConcrete #StructuralDesign

???EXOSAPIEN TECHNOLOGIES ?? PX1 Prototype “PROSTHESIS” is a 4000kg, 200HP, 100% Human controlled, Electric Mechanical Suit that amplifies the pilots strenght by 50X. ? This company was formed around the question: "What would you do if you were a giant?". ???There are as many answers to that question as there are humans on the planet. Their goal is to develop technology that leverages human skill and creativity to allow people to solve problems and explore new frontiers in ways that have not been possible before.. ??Exosapien’s 4000kg Prosthesis exosuit uses Chromoly hardened steel alloy and massive lithium-ion battery to enable Pilot-controlled 50x strength amplification. ??Mimicking the Pilot’s movements, it can run at 21mph with multi-ton payload capacity. ??This human-robot fusion opens up radical new possibilities for augmented workforce performance. ??You can see various usage areas in the video. What are you ideas about this huge human-robot vehicle? #Exosapien #Technologies #PX1 #Prosthesis #Robotics #HumanRobot #Innovation #Mechanics ?? Follow me Levent Coskun to stay up to date on #robotics #AI #hightech and #innovation. To get notifications about my posts please activate the notification bell ?? in my profile.

Hand Motion Controlled Robotic Arm In today's world, the fusion of robotics and human-centered design holds exciting potential. Over the past few months, I’ve been delving into a project close to my heart: a Hand Motion Controlled Robotic Arm. This project combines cutting-edge technology with an accessible design approach to offer solutions that truly serve its users. Why Hand Motion Control? With advancements in robotics, we’re seeing technologies that don’t just mimic human actions but interact naturally with human motions. Hand motion control, for instance, allows seamless operation of robotic arms without physical touch, enabling more intuitive interactions. For those with physical limitations or in hazardous work environments, this technology can improve both accessibility and safety. Benefits of a Hand Motion Controlled Robotic Arm This innovative design has the potential to bring several advantages to a wide range of users: Enhanced Accessibility: Users with limited mobility or disabilities can operate the arm easily, allowing greater independence in daily tasks. Safety and Precision: For industries like manufacturing or healthcare, where precision and safety are critical, the robotic arm’s hands-free control minimizes risks associated with manual handling. User-Friendly Experience: By focusing on intuitive, gesture-based control, the robotic arm reduces the learning curve, making it accessible even to those unfamiliar with advanced technology. Flexibility Across Environments: Whether in laboratories, factories, or even home settings, the arm's versatility and adaptability allow it to meet a variety of needs. Designing with a Target Audience in Mind One of my main goals has been to ensure this project addresses real needs. I’m exploring ways this technology can assist individuals in various settings, such as healthcare, manufacturing, and personal assistance. By tailoring the design to align with specific user needs, I'm working toward a product that can genuinely make a difference. The Journey So Far and What’s Next My journey with this project has been challenging yet deeply fulfilling. Every step, from ideation to initial testing, has taught me the importance of blending innovation with empathy. Moving forward, I’m focusing on refining the arm's responsiveness, stability, and functionality to make it as user-friendly as possible. #snsdesignthinking #snsinstitution #designthinking #handarm #project

"A lot of people think sanding is a low-skilled job [...] but if you look at the industry, it takes someone 4-6 months to become really good at #sanding and #grinding applications. It takes someone more than a year to become really good at painting applications. And often, with the kind of parts that you're working with, your stakes are very high." - Ariyan Kabir on a misconception about #SurfaceFinishing?? #Fabtech #Fabtech2024 #Manufacturing #AI #Robotics

??Revolutionizing Prosthetics: The Future is in Your Hands?? Prosthetics have come a long way, and the leaps in robotics are nothing short of extraordinary! Imagine a future where losing a limb doesn't mean losing your independence. Here's what's making waves: ?? Cutting-Edge Robotics: Prosthetics are no longer just functional—they're becoming incredibly sophisticated with lifelike movement and control. ??Vision-Driven Control: Pairing prosthetics with technology like Google Lens and targeting systems could allow users to control their prosthetic hands simply by looking at an object! Precision has never been this intuitive. ??Human Ingenuity at Work: We've come so far, but this is just the beginning. With innovation at our fingertips, solutions to even bigger challenges are just a matter of time. Imagine not just replacing lost functions, but enhancing lives in ways we never thought possible. The future of prosthetics is bright, and it's inspiring to see how technology is empowering individuals and pushing the boundaries of what's possible. #ADGtech #work #perspective #determination PS : VC goes to respective owner