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Review of Underwater Grippers for Dexterous Manipulation and Enabling Technologies

Review of Underwater Grippers for Dexterous Manipulation and Enabling Technologies

A recent review published in the Journal of Field Robotics examines the design and technologies behind underwater grippers for dexterous manipulation. These grippers are essential for various underwater applications, including marine research and exploration, where precise handling of objects is crucial. The significance of this review lies in its comprehensive analysis of the current state of underwater gripper technology, highlighting advancements that enhance their functionality and adaptability. As underwater tasks become more complex, the need for sophisticated grippers that can perform delicate operations is increasingly important. Looking ahead, the review suggests that ongoing research and development in this field will focus on improving the dexterity and efficiency of underwater grippers. No further timeline was disclosed at the time of publication.

SURVEY ARTICLE
Innovative Robotic Hand Uses Single Motor for Versatile Gripping Solutions

Innovative Robotic Hand Uses Single Motor for Versatile Gripping Solutions

A new robotic hand has been developed that can switch between multiple grippers using just one motor. This innovation addresses the need for robots to handle a wide variety of objects across different environments, including factories and households. The ability to manage diverse objects with a single motor reduces the complexity associated with traditional robotic hands, which typically rely on multiple motors and intricate control systems. This advancement not only lowers the weight and cost of robotic systems but also minimizes the risk of failures and simplifies control mechanisms. As the demand for adaptable robotic solutions grows, this new technology could significantly impact various sectors. Future developments may focus on enhancing the versatility and efficiency of robotic hands, although no further timeline was disclosed at the time of publication.

Robotics
Miniature sensors for the safe operation of robotic grippers

Miniature sensors for the safe operation of robotic grippers

Contrinex has introduced a new line of inductive and photoelectric miniature sensors designed specifically for robotic grippers used in Pick&Place applications and precision assembly. These sensors aim to enhance the safety and efficiency of robotic operations, ensuring reliable performance in various industrial settings. The development reflects a growing demand for advanced automation solutions that can improve productivity and operational safety in manufacturing processes.

Allgemein Greifer & Werkzeuge Robotik
Breakthrough in Mobile Electrostatic Grippers: Soft on Contact, Rigid During Transport

Breakthrough in Mobile Electrostatic Grippers: Soft on Contact, Rigid During Transport

Researchers at Harbin Institute of Technology have unveiled a groundbreaking electrostatic gripper capable of adjusting its stiffness on demand. This innovative device remains soft when in contact with objects, allowing for improved adherence, and transitions to a rigid state during transport to mitigate the risk of drop-offs caused by inertia. The development aims to enhance the stable handling of diverse surfaces and has been integrated into mobile robots, significantly boosting their operational performance. This advancement represents a significant step forward in robotic manipulation technology, promising to improve efficiency in various applications.

Electrostatic Grippers Robotics Mobile Manipulation Variable Stiffness Technology
AWR standardizes CNC machine tending with OnRobot electric grippers to speed changeovers

AWR standardizes CNC machine tending with OnRobot electric grippers to speed changeovers

In the evolving landscape of high-mix, low-volume manufacturing, companies are increasingly recognizing the need for flexibility in production to maintain profitability. Automation Within Reach (AWR), previously known as Gosiger Automation, is addressing this challenge by introducing advanced automation solutions that enhance the adaptability of machine shops. Traditionally reliant on pneumatic systems, many manufacturers have struggled with the limitations of these older technologies, which lack the intelligence necessary for modern operations. AWR's innovative approach aims to equip manufacturers with the tools needed to seamlessly transition between various part sizes, thereby improving efficiency and competitiveness in a rapidly changing market. This shift towards smarter automation is crucial for manufacturers seeking to thrive in an environment where agility is key to success.

Components Engineering Features Industrial robots 3FG25 gripper automated machining
Elephant trunk skin’s dual-zone design offers blueprint for advanced robotic grippers

Elephant trunk skin’s dual-zone design offers blueprint for advanced robotic grippers

An elephant's trunk, a remarkable adaptation of the species, showcases its strength and versatility as it can effortlessly transport heavy logs across open spaces. This impressive ability not only highlights the physical prowess of elephants but also serves a crucial role in their daily activities, such as foraging and building shelters. Observations of these behaviors contribute to a deeper understanding of elephant intelligence and their interactions with the environment. The trunk's dexterity allows elephants to manipulate objects with precision, demonstrating their complex problem-solving skills and social behaviors. As researchers continue to study these magnificent creatures, they uncover insights into their ecological impact and the importance of preserving their habitats.

AI and Robotics
Micro Grippers with Parkour Abilities? BIT Team Proposes New Mechanism for Magnetic-Driven Microrobots Integrating Morphology and Function!

Micro Grippers with Parkour Abilities? BIT Team Proposes New Mechanism for Magnetic-Driven Microrobots Integrating Morphology and Function!

A research team at the Beijing Institute of Technology has unveiled an innovative magnetic-driven microrobot that demonstrates autonomous decision-making and adaptive movement capabilities in challenging environments. Drawing inspiration from natural organisms, this microrobot can seamlessly transition between various movement modes, allowing it to navigate efficiently and execute tasks effectively. The development of this technology aims to enhance robotic performance in complex terrains, potentially expanding its applications in fields such as search and rescue, environmental monitoring, and medical assistance. The team's work represents a significant advancement in robotics, showcasing how nature-inspired designs can lead to improved functionality and versatility in robotic systems.

Magnetic Microrobots Autonomous Robotics Soft Robotics Biomedical Applications
JAIST and King's College Develop EleTac Soft Gripper with Integrated Tactile Sensing

JAIST and King's College Develop EleTac Soft Gripper with Integrated Tactile Sensing

Researchers from Japan's JAIST and King's College London have developed EleTac, a soft robotic gripper inspired by the trunk of an elephant. This innovative design integrates grasping, external tactile perception, and proprioception within a single soft structure. The gripper can manipulate various objects, including tofu and fabric, while estimating contact position and force using a vacuum system operating at 30 kPa. The significance of EleTac lies in its ability to handle delicate and irregularly shaped items, addressing the challenges of soft robotics. Traditional rigid grippers utilize clear joints for sensing, while soft grippers often struggle with limited perception due to their material properties. EleTac's design allows for continuous tactile sensing across its surface, enhancing its ability to discern between self-induced deformations and external contacts. Future developments will focus on refining the visual-based tactile sensing capabilities of EleTac, which utilizes an internal optical system to monitor material deformation. This advancement could lead to improved performance in applications requiring precise manipulation of fragile objects. No further timeline was disclosed at the time of publication.

Soft Robotics Tactile Sensing Proprioception Robotic Grippers
Boston Dynamics Details its 'Good Enough' Approach to Humanoid Hands

Boston Dynamics Details its 'Good Enough' Approach to Humanoid Hands

Boston Dynamics engineers have released a new video detailing the design philosophy behind the electric Atlas robot's innovative three-fingered grippers. The engineers highlight their approach, which focuses on achieving a practical balance between dexterity, reliability, and simplified complexity to enhance the robot's ability to manipulate objects in real-world scenarios. This development reflects the company's ongoing commitment to advancing robotic technology for practical applications. The video aims to provide insights into the engineering challenges and solutions that shape the Atlas's functionality, showcasing how these grippers are designed to perform effectively in diverse environments.

hand Atlas hands grippers Boston Dynamics
mimic Robotics Launches Comprehensive Platform for Advanced Dexterous Robot Manipulation

mimic Robotics Launches Comprehensive Platform for Advanced Dexterous Robot Manipulation

mimic Robotics has unveiled a new robotic hand, the mimic hand M1, along with the mimic wearable U1 exoskeleton and a proprietary software platform. This integrated system aims to enhance general-purpose dexterous manipulation in industrial robots by addressing the challenge of collecting high-quality training data for AI models that perform human-like tasks. The significance of this launch lies in mimic Robotics' approach to design, which focuses on human hand morphology rather than traditional two-finger grippers. The mimic hand M1 features 15 actuated degrees of freedom and is capable of handling payloads over 25 kg, while the mimic wearable U1 allows human operators to demonstrate tasks in real-time, improving data collection for AI training. Looking ahead, the company’s innovative middleware and teleoperation software are expected to enhance robot control and AI inference speed. No further timeline was disclosed at the time of publication.

Components Computing News ai automation dexterous manipulation
EleTac: An elephant-inspired soft robotic gripper with a sophisticated sense of touch

EleTac: An elephant-inspired soft robotic gripper with a sophisticated sense of touch

Soft grippers, which are built from flexible materials that can bend and deform, are attracting a lot of attention from robotics researchers worldwide. Unlike conventional robots made from rigid metal or plastic, soft grippers can grasp items more gently while naturally adapting to different shapes. This makes them uniquely suitable for delicate tasks such as handling fruit, baked goods, lab samples and medical supplies.

Robotics
NVIDIA Research Unlocks Advanced Grasping, Smarter Autonomous Driving and Agent Training at Scale

NVIDIA Research Unlocks Advanced Grasping, Smarter Autonomous Driving and Agent Training at Scale

Researchers are exploring advancements in robotics, focusing on the versatility of robot grippers and the safety of autonomous vehicle systems. The study highlights that the true utility of a robot gripper lies not only in its ability to grasp a single object but also in its capacity to adapt and handle various unfamiliar items consecutively. Similarly, the effectiveness of autonomous vehicles is assessed not just on their reasoning capabilities but on their overall safety in diverse driving conditions. This research, conducted by a team of engineers and computer scientists, aims to enhance the functionality of robotic systems and improve public trust in autonomous technology. The findings, which are expected to influence future designs and applications, were presented at a technology conference in early October 2023. By integrating advanced algorithms and machine learning techniques, the team is developing systems that can learn from experience, thereby increasing their efficiency and reliability in real-world scenarios.

Electromate Announces Availability of Dobot Educational Robots and Accessories in Canada

Electromate Announces Availability of Dobot Educational Robots and Accessories in Canada

Electromate has announced the launch of Dobot’s educational robots and accessories, now available to customers throughout Canada. This expansion, revealed on May 25, 2026, aims to support academic institutions, training centers, and research labs by providing a comprehensive ecosystem of robotic platforms designed for teaching robot programming, automation systems, and mechatronics. The Dobot educational lineup caters to various instructional levels, from K-12 to higher education. It includes entry-level platforms like the Magician Lite, which focuses on foundational coding and robotics skills, and the more advanced Dobot Magician Educational Version, which offers enhanced capabilities and accessory integration. For institutions seeking to provide advanced training, models such as the MG400 and Magician E6 are available, featuring higher payload capacities and multi-axis control suitable for industrial applications. In addition to the robots, Electromate offers a range of accessories, including electric grippers, suction cups, vision kits, and linear rail kits, enabling educators to create practical exercises that cover material handling, pick-and-place operations, and system integration. Electromate collaborates with educators to ensure that the robotic platforms meet curriculum objectives and lab requirements. With these products in stock for immediate delivery, institutions can prepare for the upcoming academic terms.

What Complex Problems Do 6 Axis Robot Arms Help Solve in Production?

What Complex Problems Do 6 Axis Robot Arms Help Solve in Production?

In the evolving landscape of Industry 4.0, manufacturers are increasingly turning to 6-axis robot arms to address complex production challenges. As of now, these advanced collaborative robots are essential for managing diverse product lines, limited workspace, and a shortage of specialized labor. Unlike traditional automation, which often relies on fixed machinery, the 6-axis design allows for greater agility and flexibility in navigating three-dimensional spaces, making it ideal for intricate tasks that require specific angles and movements. The introduction of these robots has transformed assembly processes by eliminating the need for expensive rotating fixtures, as they can approach parts from various angles. This adaptability also enables manufacturers to integrate automation without overhauling entire production lines, allowing for quick responses to localized bottlenecks, such as increased palletizing demands. Moreover, the rise of high-mix, low-volume production has necessitated a shift in automation strategies. The 6-axis robot arms, equipped with advanced features like quick-change grippers and vision systems, can swiftly adapt to different products, reducing changeover times from hours to mere seconds. JAKA, a leader in this field, has developed the JAKA Zu30, a robust 6-axis robot capable of handling heavy-duty tasks with a 30kg payload capacity. This model not only excels in palletizing and machine tending but also ensures safety with high-sensitivity sensors. Controlled via a user-friendly app, the JAKA Zu30 exemplifies the modern manufacturing solutions needed to navigate the complexities of today's production environments.

Implementing Automated Quality Inspection with a Pick and Place Robotic Arm

Implementing Automated Quality Inspection with a Pick and Place Robotic Arm

In a significant advancement towards "Zero-Defect Manufacturing," the boundaries between production and quality control are being redefined. Modern manufacturing facilities are now incorporating real-time inspection directly into the material handling process, rather than waiting until products reach the end of the assembly line. This shift is facilitated by the use of a 6-axis robotic arm, which functions as both a pick-and-place device and an inspection station, enabling manufacturers to detect defects immediately and minimize waste. During the automated quality inspection, the robotic arm evaluates components as it lifts them, utilizing a vision tunnel or high-resolution sensors to check for dimensional accuracy, surface integrity, and assembly verification. Parts that meet quality standards proceed to the "Good" bin, while those that fail are diverted to rework or scrap stations, ensuring that only flawless components advance in the production process. To achieve effective robotic inspection, three key technologies are essential: adaptive grippers for versatile handling, advanced vision sensors for precise measurements, and Edge AI processing to enable real-time data analysis. The JAKA Zu series of robots exemplifies this integration, particularly the JAKA Zu7 model, which is designed for high-precision inspection tasks. With a payload capacity of 7kg and a work radius of 819mm, it offers the agility and strength needed for rapid inspection cycles, while its compatibility with various communication protocols allows seamless integration with manufacturing systems. This innovative approach transforms each handling operation into an opportunity for quality assurance, enhancing overall production efficiency.

Essential Safety Tips: How to Operate 6 Axis Robot Arms Safely

Essential Safety Tips: How to Operate 6 Axis Robot Arms Safely

The introduction of 6-axis robot arms into modern workplaces is transforming productivity and reshaping human-machine interactions. Unlike traditional industrial robots confined to isolated spaces, these advanced jointed arms are designed for close collaboration with human workers. This shift necessitates a focus on safety, which is essential not only for regulatory compliance but also for fostering a sustainable and confident workforce. To ensure safe operation, comprehensive risk assessments are crucial. Operators must establish "safety planes" and restricted zones within the robot's software to manage potential hazards, especially from end-effectors like sharp tools or high-temperature grippers. These virtual barriers enable the robot to function at full speed when unoccupied but switch to reduced speed or stop when a human enters the workspace. Key safety features include force-sensing technology, where internal torque sensors in the robot's joints detect resistance and halt movement within milliseconds upon contact with an object or person. Regular testing of these systems is vital for maintaining safety standards. Moreover, human awareness and training are critical. Workers are advised to avoid loose clothing and ensure that emergency stop buttons are easily accessible. Proper techniques during programming and operation further enhance safety. JAKA, a leader in robotic safety innovation, emphasizes employee protection with its JAKA Zu series, which combines high payload capacity with collaborative capabilities. Their intuitive safety configuration system, accessible via the JAKA App, allows users to easily set safety boundaries and collision sensitivity. By prioritizing safety in their designs, JAKA aims to provide powerful automation solutions while safeguarding workers' well-being.

HEAPGrasp: A faster, smarter way for robots to handle tricky objects

HEAPGrasp: A faster, smarter way for robots to handle tricky objects

The manufacturing, logistics, and restaurant industries are rapidly embracing automation, particularly through the use of robots for various tasks. A significant application of this technology is in material handling, where robotic grippers are utilized to transport items such as automotive parts, logistics packages, food ingredients, and restaurant dishes. This shift not only alleviates the workload for human employees but also minimizes the risk of workplace accidents, enhancing overall safety. As companies seek to improve efficiency and reduce operational risks, the integration of robotics is becoming increasingly vital across these sectors.

Robotics
Implementing a Sorting Robot for Quality Inspection in Recycling Processes

Implementing a Sorting Robot for Quality Inspection in Recycling Processes

Recycling facilities face ongoing challenges in maintaining material purity due to the variability of recyclables, which complicates manual sorting processes. To address this issue, JAKA is proposing the implementation of automated sorting robots designed to integrate seamlessly into existing workflows. These collaborative robots, or cobots, are equipped with advanced vision-guided systems that can identify and separate diverse materials based on visual or spectroscopic signals. The robots are engineered to operate effectively in the dynamic environments of recycling plants, where safety is paramount. JAKA's cobots feature multiple safety mechanisms, including force sensing and collision detection, allowing them to work alongside human operators without the need for extensive safety barriers. Their compact design enables installation in tight spaces, making them suitable for retrofitting in current facilities. Successful deployment of these sorting robots relies on a well-coordinated system that includes high-resolution cameras or near-infrared sensors for accurate material identification, as well as adaptive grippers or vacuum cups for handling various materials. JAKA emphasizes intuitive programming, allowing technicians to quickly adjust the robots for different material streams, thus minimizing downtime. By incorporating JAKA's sorting robots into recycling quality inspection processes, facilities can significantly enhance material purity and throughput. This strategic move not only improves operational consistency but also supports the essential work of modern recycling, ensuring a more efficient and effective waste management system.

Choosing the Right End-Effector for Delicate or Varied Item Pick and Place Tasks

Choosing the Right End-Effector for Delicate or Varied Item Pick and Place Tasks

JAKA, a leader in automation technology, is addressing the challenges of delicate handling in production lines with its innovative collaborative robot arms. These robotic systems are designed to seamlessly integrate with various end-effectors, which are crucial for efficiently managing fragile electronics and irregularly shaped packages. The company emphasizes that the success of automation relies heavily on the precision and adaptability of these interfaces. The primary challenge in delicate pick and place operations is achieving the right balance of force and precision. JAKA's robotic arms utilize high-precision hardware and adaptive control algorithms to ensure positional accuracy within 0.2mm, significantly reducing the risk of damaging sensitive components. Moreover, JAKA's collaborative robots are engineered for flexibility, allowing for quick changeovers and easy programming. Unlike traditional systems that require extensive downtime for retooling, JAKA's intuitive design enables operators to guide the robot through new tasks without needing to write code. This adaptability is particularly beneficial in environments with varying product shapes, as it allows for efficient deployment in tight spaces. To enhance performance, JAKA ensures that its robotic arms communicate effectively with a range of end-effectors, including force-sensing grippers and suction heads. This capability allows a single robot to switch between different tools within the same cycle, optimizing operations for diverse items. By focusing on creating a reliable and user-friendly foundation, JAKA aims to simplify the management of delicate and varied pick and place tasks, ultimately enhancing productivity in manufacturing settings.

Scientists create a magnetic lantern that moves like it’s alive

Scientists create a magnetic lantern that moves like it’s alive

Engineers at North Carolina State University have developed an innovative polymer structure resembling a Chinese lantern that can quickly transform into various stable three-dimensional shapes, such as a lantern or a spinning top, through compression or twisting. This breakthrough, achieved by incorporating a magnetic layer, enables remote control of the shape-shifting process. The versatile design allows the lanterns to function as grippers, filters, or expandable mechanisms, showcasing potential applications in robotics and other fields.

Agility Robotics Upgrades Digit Humanoid with Enhanced Safety, Autonomy, and AMR Integration

Agility Robotics Upgrades Digit Humanoid with Enhanced Safety, Autonomy, and AMR Integration

Agility Robotics has unveiled significant upgrades to its Digit humanoid robot, enhancing its capabilities for industrial applications. The announcement, made recently, highlights improvements in safety features, including a CAT1 stop and Functional Safety over EtherCAT (FSoE), which are designed to ensure safer interactions in workplace environments. Additionally, the robot's battery life has been extended to four hours, complemented by a new autonomous charging system. The redesign includes advanced limbs and grippers, allowing for more versatile handling of various tasks. Furthermore, Digit is now integrated with Autonomous Mobile Robots (AMRs), facilitating smoother operations in warehouse settings. These enhancements are aimed at accelerating the commercial deployment of Digit in the logistics sector, addressing the growing demand for automation in warehouses.

Digit Agility Robotics
Tesollo initiates IPO process while developing humanoid hands

Tesollo initiates IPO process while developing humanoid hands

Tesollo, a South Korean robotic hand specialist, has officially begun preparations for its initial public offering. The post Tesollo initiates IPO process while developing humanoid hands appeared first on The Robot Report.

Actuators / Motors / Servos End Effectors / Grippers Grippers Human Robot Interaction / Haptics Humanoids Investments
Soft, robotic cells from morph embed physical AI into hardware

Soft, robotic cells from morph embed physical AI into hardware

Morph has introduced an innovative soft robotics platform that focuses on the design and manufacturing of what it terms “soft robotic cells.” This new technology integrates physical artificial intelligence into hardware, enhancing the capabilities of robotic systems. The launch marks a significant advancement in the field of robotics, aiming to improve the functionality and adaptability of robots in various applications. The announcement was made recently, highlighting Morph's commitment to pushing the boundaries of robotics and AI integration. The development of these soft robotic cells is expected to open new avenues for automation and intelligent systems across multiple industries.

Artificial Intelligence Artificial Intelligence / Cognition Design / Development Financial Grippers Investments
Sanctuary AI validates physical AI performance at Tier 1 automotive supplier

Sanctuary AI validates physical AI performance at Tier 1 automotive supplier

Sanctuary AI has made significant strides in the field of physical artificial intelligence by validating its performance at a Tier 1 automotive supplier. This development showcases the company's commitment to advancing AI technology without waiting for the advent of humanoid robots. The demonstration of production-ready capabilities marks a pivotal moment in the integration of AI within the automotive industry, highlighting Sanctuary AI's innovative approach to enhancing manufacturing processes. The event underscores the growing importance of AI in automating and optimizing production lines, paving the way for more efficient and effective operations in the sector.

Arms / Manipulators Artificial Intelligence Artificial Intelligence / Cognition Automotive End Effectors / Grippers Grippers
Genesis AI launches Eno general-purpose robot

Genesis AI launches Eno general-purpose robot

Genesis AI has announced plans to commence production of its general-purpose robot, Eno, by the end of 2026. The company aims to initiate targeted customer deployments at that time, with plans for home deployments to follow subsequently. This strategic move reflects Genesis AI's commitment to advancing robotics technology and expanding its market presence in the growing field of automation.

Arms / Manipulators Artificial Intelligence Artificial Intelligence / Cognition Autonomous Mobile Robots (AMRs) Design / Development Grippers
PSYONIC partners with ABB Robotics to apply human touch to robot dexterity

PSYONIC partners with ABB Robotics to apply human touch to robot dexterity

PSYONIC has announced a collaboration with ABB Robotics to enhance robotic dexterity by integrating its Ability Hand prosthetic with ABB's GoFa collaborative robot arm. This partnership aims to leverage data collected from prosthetic users to improve the robot's grasping capabilities, effectively mimicking human touch. The initiative underscores the growing intersection of robotics and prosthetics, with the goal of creating more intuitive and responsive robotic systems. The collaboration reflects a commitment to advancing technology that not only aids individuals with disabilities but also enhances the functionality of robotic devices in various applications.

Arms / Manipulators Artificial Intelligence Automotive Cobot Arms Collaborative Robots End Effectors / Grippers
Festo launches lightweight pneumatic gripper and tests GripperAI

Festo launches lightweight pneumatic gripper and tests GripperAI

Festo has introduced a new compact cobot gripper designed to enhance automation capabilities in various industries. This innovative gripper is notable for its lightweight pneumatic design, making it suitable for collaborative robots (cobots). In conjunction with the gripper, Festo has also unveiled GripperAI, a robot-agnostic technology that allows for the grasping of objects without the need for prior training. This advancement aims to streamline the integration of robotic systems in manufacturing and logistics, addressing the growing demand for flexible automation solutions. The launch of these products reflects Festo's commitment to advancing robotics technology and improving operational efficiency across sectors.

Artificial Intelligence Artificial Intelligence / Cognition Cobot Arms Collaborative Robots Controllers End Effectors / Grippers
Discover advancements in robotic case and item picking technology.

Discover advancements in robotic case and item picking technology.

This week, experts from Locus Robotics, Nomagic, and RightHand Robotics will participate in a webinar focused on advancements in robotic piece picking technology. The discussion aims to highlight the latest developments in this field, showcasing how these innovations can enhance efficiency in logistics and warehousing operations. Attendees will gain insights into the current state of robotic automation and its implications for the future of supply chain management. The event underscores the growing importance of robotics in improving operational capabilities across various industries.

6-Axis Arms / Manipulators Artificial Intelligence / Cognition Autonomous Mobile Robots (AMRs) Cameras / Imaging / Vision Collaborative Robots
XELA Robotics to show tactile sensing at the 2026 Robotics Summit & Expo

XELA Robotics to show tactile sensing at the 2026 Robotics Summit & Expo

XELA Robotics is set to showcase its advancements in tactile sensing technology at the upcoming Robotics Summit & Expo in 2026. The company will present its enhanced magnetic interference compensation system and the innovative uSkin integrated within the Universal Manipulation Interface. This demonstration aims to highlight the potential of these technologies in improving robotic interactions and functionality. The Robotics Summit & Expo serves as a key platform for industry leaders to share breakthroughs and foster collaboration in the field of robotics.

End Effectors / Grippers Events Grippers Human Robot Interaction / Haptics News Sensors / Sensing Systems
Rapid Stiffness Switching Technology: Peking University Team Develops Biomimetic Octopus Gripper to Solve Underwater Soft Robot's Slow Response Issue

Rapid Stiffness Switching Technology: Peking University Team Develops Biomimetic Octopus Gripper to Solve Underwater Soft Robot's Slow Response Issue

A research team from Peking University, headed by Professor Xie Guangming, has developed a groundbreaking biomimetic octopus gripper capable of transitioning between soft and hard states in less than one second. This advancement enhances the efficiency of underwater robotic operations, enabling more effective and energy-efficient execution of tasks. The team's findings were published in the journal 'Cyborg and Bionic Systems', highlighting the potential applications of this technology in various underwater environments.

Underwater Robotics Soft Robotics Biomimetic Design Robotic Grippers
Locus Array expands picking ability with Nexera Robotics’ NeuraGrasp

Locus Array expands picking ability with Nexera Robotics’ NeuraGrasp

Nexera Robotics has announced that its adaptive NeuraGrasp technology will enhance the picking capabilities of the Locus Array mobile manipulator, allowing it to handle a significantly larger variety of e-commerce stock-keeping units (SKUs). This development aims to improve efficiency in warehouse operations, addressing the growing demand for automation in the e-commerce sector. The integration of NeuraGrasp with the Locus Array is set to streamline the picking process, ultimately supporting businesses in meeting customer needs more effectively.

Autonomous Mobile Robots (AMRs) End Effectors / Grippers Grippers Logistics Mergers & Acquisitions News
Hangkai Microelectronics TG 9801 Tactile Intelligent Gripper: No Programming Required for Smart Grabbing, Natively Supports ROS2/485/CAN, Versatile for All Scenarios

Hangkai Microelectronics TG 9801 Tactile Intelligent Gripper: No Programming Required for Smart Grabbing, Natively Supports ROS2/485/CAN, Versatile for All Scenarios

Suzhou Hangkai Microelectronics has introduced the HKVR TG 9801 tactile adaptive gripper, a cutting-edge solution designed to simplify automation and robotics applications. This innovative gripper eliminates the need for complex programming, allowing for flexible grasping of diverse materials and sizes. The device features native support for ROS2 and various industrial communication protocols, facilitating seamless integration and quick deployment in industrial settings. This advancement aims to enhance operational efficiency and adaptability in automation processes, catering to the growing demand for versatile robotic solutions in various sectors.

Tactile Grippers Robotics Integration Industrial Automation ROS2 Smart Manufacturing
Fraunhofer IPA offers new test benchmark for humanoids

Fraunhofer IPA offers new test benchmark for humanoids

Fraunhofer IPA has introduced a new benchmark aimed at evaluating humanoid robots for industrial applications. This initiative addresses the need for standardized criteria that can be utilized by third-party analysts to assess the performance and suitability of these robots in various industrial settings. The development of this benchmark reflects the growing demand for reliable and efficient humanoid robots in the workforce, as industries seek to enhance productivity and automate processes. By providing a structured framework for evaluation, Fraunhofer IPA aims to facilitate the integration of humanoid robots into industrial environments, ensuring they meet specific operational requirements.

Actuators / Motors / Servos Arms / Manipulators Batteries / Power Supplies Cameras / Imaging / Vision Controllers End Effectors / Grippers
Hello Robot’s latest Stretch 4 is bigger, faster, and stronger than previous versions

Hello Robot’s latest Stretch 4 is bigger, faster, and stronger than previous versions

Hello Robot has unveiled its latest model, the Stretch 4, which boasts enhanced capabilities compared to its predecessors. This new assistive robot is designed to be bigger, faster, and stronger, while still prioritizing flexibility and safety in its operations. The announcement highlights the company's commitment to advancing robotic technology to better serve various applications. The Stretch 4 aims to improve efficiency and effectiveness in tasks that require assistance, marking a significant step forward in the field of robotics.

Artificial Intelligence Artificial Intelligence / Cognition Cameras / Imaging / Vision Design / Development Development Tools / SDKs / Libraries Grippers
RLWRLD releases RLDX-1, a dexterity-first foundation model for robot hands

RLWRLD releases RLDX-1, a dexterity-first foundation model for robot hands

RLWRLD has unveiled its latest innovation, the RLDX-1, a foundation model designed specifically for robotic hands. This new model aims to enhance dexterity by incorporating features such as context memorization and force sensing, which are often absent in current robotic models. The release of RLDX-1 marks a significant advancement in the field of robotics, addressing critical limitations that have hindered the performance of robotic hands.

Artificial Intelligence Artificial Intelligence / Cognition Design / Development Development Tools / SDKs / Libraries Grippers Human Robot Interaction / Haptics
Genesis AI introduces GENE-26.5 model for more dexterous robot manipulation

Genesis AI introduces GENE-26.5 model for more dexterous robot manipulation

Genesis AI has unveiled its latest innovation, the GENE-26.5 foundation model, which incorporates an advanced data engine alongside a proprietary robotic hand designed to enhance dexterity in robotic manipulation. This development aims to push the boundaries of robotic capabilities, enabling more precise and versatile movements. The introduction of the GENE-26.5 model marks a significant advancement in the field of robotics, reflecting the company's commitment to leveraging cutting-edge technology to improve robotic functionality. The announcement was made recently, highlighting the potential applications of this model in various industries where enhanced manipulation is crucial.

Arms / Manipulators Artificial Intelligence Artificial Intelligence / Cognition End Effectors / Grippers Grippers Humanoids
Peking University Team Develops Amphibious 'Super Suction Cup' Inspired by Lamprey

Peking University Team Develops Amphibious 'Super Suction Cup' Inspired by Lamprey

A research team at Peking University has developed a groundbreaking hybrid suction cup, drawing inspiration from the lamprey's distinctive mouth structure. This innovative design boasts an adhesion strength that surpasses 850 times its own weight, marking a significant advancement for amphibious robots operating in challenging environments. The team aims to enhance the functionality and versatility of these robots, enabling them to navigate and adhere to a variety of surfaces effectively. This development represents a crucial step forward in robotics, particularly for applications requiring adaptability in diverse terrains.

Amphibious Robotics Bioinspired Adhesives Suction Technology Robotic Grippers
New Record in Robotic Micro-Manipulation: 42G Ejection and Precision Control Across 14 Orders of Magnitude

New Record in Robotic Micro-Manipulation: 42G Ejection and Precision Control Across 14 Orders of Magnitude

A team of researchers has unveiled a revolutionary liquid metal universal gripper (LiMU) that boasts exceptional manipulation capabilities, achieving a record ejection speed of 42G. This cutting-edge technology can handle a wide range of objects, from picograms to hundreds of grams, making it suitable for delicate tasks across various environments. The development of LiMU represents a significant advancement in robotic manipulation, potentially transforming industries that require precision handling of fragile materials.

Robotic Grippers Micro-Manipulation Liquid Metal Technology Adaptive Robotics
RLWRLD launches open platform to benchmark dexterous robotic hands

RLWRLD launches open platform to benchmark dexterous robotic hands

RLWRLD, a physical AI company with a proprietary robotics foundation model, RLDX-1, has announced the launch of “All Hands Up!”, an open web platform that provides technical reports and visualization tools based on the company’s firsthand experience operating a wide range of commercially available dexterous robot hands. All Hands Up! is designed to analyze and […]

Computing Robot simulation All Hands Up DexBench dexterous hands dexterous manipulation
South Korean robotic hand developer Tesollo begins IPO preparations after Series B funding

South Korean robotic hand developer Tesollo begins IPO preparations after Series B funding

Tesollo, a South Korean robotic hand specialist, has officially begun preparations for its initial public offering through Korea’s technology-special listing track. Tesollo appointed KB Securities as its lead underwriter in March and is currently preparing for a planned listing after 2027. The company also announced that it has recently completed its Series B funding round. […]

Components News Robotics Daesung Hi-Tech end effectors Enlight Ventures
Interview with Sharpa’s Alicia Veneziani: ‘Dexterous manipulation is the key to useful humanoid robots’

Interview with Sharpa’s Alicia Veneziani: ‘Dexterous manipulation is the key to useful humanoid robots’

Recent advancements in humanoid robotics have captivated audiences with remarkable demonstrations of walking, running, jumping, and balancing. However, experts in the field caution that while locomotion is a significant aspect, it is not the only challenge facing the development of practical humanoid robots. Many robotics specialists emphasize that the greater hurdle lies in replicating human-like cognitive abilities and social interactions, which are essential for these machines to be genuinely useful in everyday environments. As researchers continue to push the boundaries of technology, the focus is shifting towards enhancing the cognitive and emotional intelligence of robots, which could ultimately determine their effectiveness in real-world applications.

Design Features Humanoids ai robotics Alicia Veneziani automation news
Kirisense wins funding to develop robotic fingertips that can sense touch and slip

Kirisense wins funding to develop robotic fingertips that can sense touch and slip

Kirisense, a UK robotics startup, has received funding from the Henry Royce Institute to advance its development of tactile sensing technology aimed at enhancing robots' sense of touch to more closely resemble that of humans. This initiative, part of the Henry Royce Institute’s Industrial Collaboration Programme, is being executed in collaboration with the University of Sheffield. The project will concentrate on creating robotic fingertips that can provide a more nuanced and sensitive interaction with their environment, potentially revolutionizing the field of robotics by improving the dexterity and functionality of robotic systems.

News Sensors advanced automation advanced materials artificial intelligence automation news
Interview with CreateMe CEO Campbell Myers: From stitching to bonding – physical AI could transform the way clothes are made

Interview with CreateMe CEO Campbell Myers: From stitching to bonding – physical AI could transform the way clothes are made

Apparel manufacturing continues to be one of the most labor-intensive sectors globally, despite advancements in automation in other industries such as automotive and electronics. The difficulty in automating textile production arises from the unique properties of fabric, which can stretch, wrinkle, and shift unpredictably. This complexity has hindered the development of effective robotic solutions for handling soft materials, leaving the apparel industry largely reliant on human labor. As manufacturers seek to improve efficiency and reduce costs, the challenge of integrating automation into textile production remains a significant hurdle.

Engineering Features Manufacturing adhesive bonding apparel automation apparel industry
Video Friday: Heavy Robotic Machinery Operates Itself

Video Friday: Heavy Robotic Machinery Operates Itself

IEEE Spectrum robotics has released its latest edition of "Video Friday," showcasing a variety of innovative robotics videos and announcing upcoming robotics events. Notable conferences include ICRA 2026 in Vienna from June 1-5, and the Summer School on Multi-Robot Systems in Prague from July 29 to August 4, 2026. Among the featured content is a groundbreaking autonomous material-handling solution developed by ETH Zurich, capable of operating a 40-ton material handler, traditionally a labor-intensive task. Other highlights include the introduction of the world's first production-ready manned mecha by Unitree, and the launch of NIX, an embodied AI exploring dance and movement, which will be made available for free to select partners. NTNU has unveiled the Unified Autonomy Stack, a robust system designed for aerial and ground robots, enhancing their autonomy through advanced perception and navigation capabilities. This system has been validated in challenging environments, showcasing its effectiveness in exploration and object discovery. Robotics expert Rodney Brooks, cofounder of Robust AI, shared insights on the challenges of innovation in robotics and the implications of the current AI surge during a Q&A session ahead of his panel at the Forbes America Innovates event in San Francisco. As the field continues to evolve, the integration of data collection methods remains a significant challenge, with the Koala platform exemplifying innovative approaches to enhance robotic manipulation tasks.

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