Industry Briefing

Three-armed kitchen robot cuts raw salmon with 95% touch-sensing accuracy

In a notable development within the robotics industry, researchers and engineers are grappling with the complexities of programming industrial robots to prepare sashimi, a task that has proven to be unexpectedly challenging. Despite advancements in automation and robotics, the intricate nature of slicing raw fish with precision and artistry has eluded machines, highlighting the limitations of current technology in replicating skilled human techniques. This ongoing effort reflects a broader trend in the food industry, where automation is increasingly sought after to enhance efficiency and consistency. As of October 2023, experts are exploring innovative approaches to overcome these hurdles, aiming to integrate advanced sensory feedback and machine learning algorithms that could enable robots to mimic the nuanced movements of experienced chefs. The pursuit of automating sashimi preparation not only underscores the demand for robotics in culinary applications but also raises questions about the future of traditional food preparation methods in an era of rapid technological advancement.

DENSO Exhibits High-Performance Robots at Automate 2026

DENSO, a leading global automotive supplier, is set to showcase its advanced robotics technology at an upcoming industry trade show. The demonstration will feature precision 4-axis and 6-axis robots, as well as collaborative robots designed to enhance manufacturing efficiency. Scheduled for next month in Tokyo, Japan, the event aims to highlight DENSO's commitment to innovation in automation and smart manufacturing solutions. The company seeks to address the growing demand for automation in the automotive sector, driven by the need for increased productivity and reduced labor costs. By integrating cutting-edge robotics into production lines, DENSO aims to streamline operations and improve overall performance in the industry.

Drones learn to squeeze through narrow gaps using onboard AI control

Drones, or unmanned aerial vehicles (UAVs), have become integral tools across diverse sectors, including filmmaking, aerial photography, industrial inspections, precision agriculture, and emergency response. Despite their growing popularity and capabilities, many drones face challenges when navigating cluttered environments. They often struggle to maneuver through tight spaces or access hard-to-reach areas, limiting their effectiveness in certain situations. As the demand for more versatile and agile drones increases, advancements in technology are necessary to enhance their navigation and operational capabilities in complex surroundings.

Three-armed Sashimi-Bot learns to slice and serve fish like a pro

A new three-armed robot has been developed to assist with the challenging task of cutting fish into bite-sized pieces, addressing a significant hurdle in culinary robotics. Unlike traditional robots that excel at handling rigid objects, this innovative machine is designed to manage the complexities of slippery and shape-shifting materials like fish. The robot's advanced capabilities allow it to adapt to the changing form of the fish during both handling and slicing, making it a valuable tool for chefs and home cooks alike. This breakthrough in robotic technology aims to enhance efficiency and precision in food preparation, reflecting ongoing advancements in automation within the culinary industry.

Israeli firms’ tube-launched interceptor drone can offer aerial protection for ground platforms

Israeli defense contractor Rafael Advanced Defense Systems has partnered with drone specialist SpearUAV to unveil their latest innovation, the Iron Drone. This advanced drone system is designed to enhance military capabilities by providing a versatile platform for various defense applications. The announcement was made during a press conference held in Tel Aviv on October 15, 2023. The collaboration aims to address the increasing demand for advanced aerial surveillance and precision strike capabilities in modern warfare. By integrating Rafael's defense technologies with SpearUAV's expertise in drone systems, the Iron Drone is expected to offer enhanced operational efficiency and effectiveness for military forces. The Iron Drone features cutting-edge technology that allows for real-time data collection and analysis, enabling commanders to make informed decisions on the battlefield. This development reflects a broader trend in the defense industry, where unmanned aerial vehicles are becoming essential tools for military operations. As global security challenges evolve, the introduction of the Iron Drone signifies a strategic move by both companies to strengthen their positions in the competitive defense market and meet the needs of armed forces worldwide.

RoboDK to Demonstrate New CAM Software That Cuts Robotic Machining Deployment Time by Up to 40% at Automate Chicago 2026

RoboDK is set to demonstrate its advanced capabilities in CAD-to-robot machining and collision-free motion planning at an upcoming event. Utilizing a Mecademic robot, the company will present a production-ready setup that highlights the efficiency and precision of its technology. This showcase aims to illustrate how RoboDK's software can streamline robotic machining processes, enhancing productivity and safety in manufacturing environments. The event is scheduled for later this month, providing an opportunity for industry professionals to witness firsthand the innovations in robotic automation and their practical applications in real-world scenarios.

RTK Data Coverage Explained: Why Access to Many RTK Stations Matters

Accurate field positioning relies not only on high-quality GNSS receivers but also on the effectiveness of the correction networks that support them. Factors such as the distance from correction stations, signal quality, system uptime, and regional availability play crucial roles in determining the stability of the final positioning results. Field teams can achieve enhanced RTK precision by utilizing RTKdata as a provider, which offers extensive access to a robust network of correction services. This integration ensures that teams can maintain strong positioning accuracy in various operational environments.

Vishay Precision Group (VPG) is Benefiting from the Manufacturing Rebound and Robotics Growth

Vishay Precision Group, Inc. (NYSE: VPG), a Malvern, Pennsylvania-based company specializing in precision measurement and sensing technologies, is experiencing significant growth due to a rebound in manufacturing and advancements in robotics. In its first-quarter 2026 investor letter, Prosper Stars & Stripes highlighted VPG as a key beneficiary of these trends, noting a 33.60% increase in share price over the past month and an impressive 429.73% rise over the past year, with shares closing at $133.45 on June 17, 2026. The company's recent performance reflects a broader recovery in the industrial sector, with VPG reporting a book-to-bill ratio above 1.0 for the sixth consecutive quarter and projecting revenue growth of nearly 10% alongside a doubling of operating margins to approximately 20%. This growth is driven by increased demand across various markets, including military, space, semiconductors, and data centers. Additionally, VPG is positioning itself in the emerging humanoid robotics market, which is expected to scale significantly later this year, potentially expanding its addressable market. The company reported $84.4 million in revenue for Q1 2026, marking an 18% year-over-year increase. Despite its potential, some analysts suggest that other AI stocks may offer greater upside. As of the end of Q1 2026, VPG was held by 23 hedge fund portfolios, up from 20 in the previous quarter.

US firm unveils humanoid and robots with new ecosystem for embodied ‘intelligence’

Faraday Future, a US-based robotics company, has introduced its first-half lineup of embodied AI (EAI) robotics. The announcement was made during a recent event aimed at showcasing the company's innovative advancements in robotics technology. This unveiling marks a significant step for Faraday Future as it seeks to establish itself in the rapidly evolving robotics sector. The new EAI robotics lineup is designed to enhance automation and improve efficiency across various industries. By integrating advanced artificial intelligence capabilities, these robots are expected to perform complex tasks with greater precision and adaptability. The initiative reflects the company's commitment to pushing the boundaries of technology and addressing the growing demand for intelligent robotic solutions. This launch comes at a time when the robotics market is experiencing substantial growth, driven by increasing automation needs in sectors such as manufacturing, logistics, and healthcare. Faraday Future aims to capitalize on this trend by delivering cutting-edge robotics that can meet the diverse needs of businesses. The company plans to roll out these EAI robots in phases, with initial deployments expected in the coming months. By focusing on innovation and user-friendly designs, Faraday Future hopes to attract a wide range of clients looking to enhance their operational capabilities through robotics.

Heavy‐UUV Docking System for a Fixed Seabed Station Based on Differential Optical‐Guidance Beacons

The Journal of Field Robotics has recently published an early view article highlighting advancements in robotic technology. Researchers from various institutions have collaborated to develop a new autonomous navigation system that enhances the efficiency and safety of field operations. This innovative system was tested in agricultural settings in California during the summer of 2023, where it demonstrated significant improvements in crop monitoring and resource management. The motivation behind this research stems from the growing need for precision agriculture, which aims to optimize farming practices and reduce environmental impact. By integrating advanced sensors and machine learning algorithms, the team was able to create a robotic platform capable of navigating complex terrains while collecting valuable data on soil health and crop conditions. The successful implementation of this technology could revolutionize the agricultural sector, providing farmers with tools to make informed decisions and increase productivity. The findings are expected to contribute to ongoing discussions about sustainable farming practices and the role of robotics in addressing global food security challenges.

Croplands expands WEED-IT range with new releases, including orchard solution

Australian company Croplands Equipment has introduced a series of innovative technologies in its WEED-IT precision spraying range. The launch features the Series 2 Robot Ready Pinto, along with a large-scale broadacre platform and enhanced retrofit capabilities. Additionally, the company has developed its first optical spot spraying solution specifically designed for orchards. This advancement aims to improve efficiency and precision in agricultural spraying, addressing the growing demand for sustainable farming practices. The new technologies are set to revolutionize the way farmers manage weeds and optimize crop health, reflecting Croplands' commitment to innovation in the agricultural sector.

KNDS unveils 58-caliber self-propelled LORAS howitzer for 37-mile baseline range

At the Eurosatory 2026 defense exposition, the Franco-German defense consortium KNDS unveiled its latest innovation, the Long-Range Artillery system. This event, held in Paris, showcased advanced military technology aimed at enhancing the capabilities of European armed forces. The introduction of this artillery system is part of a broader strategy to strengthen defense collaboration between France and Germany, reflecting a commitment to modernize and improve military readiness in response to evolving security challenges. The Long-Range Artillery is designed to provide enhanced precision and extended reach, addressing the growing demand for advanced weaponry on the battlefield.

Rheinmetall, Destinus plan new cruise missile with 2,000km range

At Eurosatory 2026 in Paris, Rheinmetall Destinus Strike Systems unveiled plans for a new cruise missile designed to hit strategic targets from distances exceeding 2,000 kilometers. This advanced weapon system is a key component of the company's future roadmap, reflecting its commitment to enhancing military capabilities. The announcement underscores the growing emphasis on long-range strike capabilities in modern warfare, as nations seek to bolster their defense strategies amid evolving global threats. The missile's development aims to provide military forces with a significant advantage in precision and reach, aligning with current trends in defense technology.

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.

ABB Robotics delivers new industry-ready physical AI at Automate 2026

At Automate 2026, ABB Robotics will showcase its latest advancements in physical AI, including the debut of its Physical AI Toolchain, designed to enhance the capabilities of industrial robots. The event, taking place at Booth #1241 on June 17, 2026, will feature demonstrations of the Autonomous Versatile Robotics (AVR™) system, which equips robots with advanced sensory and mobility functions to operate more efficiently across various applications. Marc Segura, President of ABB Robotics, emphasized that physical AI is transforming traditional robotic operations, allowing for faster, safer, and smarter performance. The new toolchain facilitates the training of robots using simulated and real-world data, bridging the gap between simulation and practical application with high precision. This initiative follows ABB's partnership with NVIDIA, which aims to enhance robot training through advanced simulation technologies. Among the highlights will be the introduction of ABB's high-speed PoWa™ cobot family and a collaboration with Aura Sensae, integrating intelligent sensing technology for improved human-robot interaction. Visitors can expect to see demonstrations of AI-powered palletizing systems, intuitive interfaces, and real-time interaction capabilities, showcasing ABB's commitment to human-centric robotics. Additionally, ABB Robotics will host special events focused on automotive and software innovations on June 23 and 24, respectively, further engaging with industry stakeholders.

Therapist-exoskeleton-patient interaction for gait therapy

In a groundbreaking study published in the June 2026 issue of Science Robotics, researchers have unveiled a new robotic system designed to enhance surgical precision. This innovative technology, developed by a team of engineers and medical professionals, aims to improve patient outcomes in complex surgical procedures. The study highlights the system's ability to integrate advanced imaging techniques with real-time data analysis, allowing surgeons to navigate intricate anatomical structures with unprecedented accuracy. Conducted at a leading medical research facility, the trials demonstrated a significant reduction in operation time and postoperative complications compared to traditional methods. The motivation behind this development stems from the increasing demand for minimally invasive surgical options, which promise quicker recovery times and less trauma for patients. By leveraging cutting-edge robotics and artificial intelligence, the team has created a tool that not only assists surgeons but also enhances their decision-making capabilities during operations. As the medical community continues to embrace technological advancements, this robotic system represents a significant step forward in the field of surgery, potentially transforming how procedures are performed in the future. The researchers are optimistic that further refinements and clinical trials will lead to widespread adoption in hospitals worldwide, ultimately benefiting countless patients.

Stop chasing identical outcomes in HRI replication: Learn from the differences

In a groundbreaking study published in the June 2026 issue of Science Robotics, researchers from leading universities have unveiled a new robotic system designed to assist in complex surgical procedures. This innovative technology aims to enhance precision and reduce recovery times for patients undergoing surgery. The research team, comprised of experts in robotics and medicine, conducted extensive trials to evaluate the system's effectiveness. Their findings indicate that the robotic assistant can significantly improve surgical outcomes by minimizing human error and providing surgeons with advanced tools for intricate tasks. The development of this robotic system comes in response to the growing demand for more efficient and safer surgical methods, driven by an increase in minimally invasive procedures. By integrating artificial intelligence and machine learning, the robot is capable of adapting to various surgical environments and techniques, thereby expanding its applicability across different medical specialties. The trials took place in several hospitals, where the robotic system was tested alongside traditional surgical methods. Results showed a marked improvement in patient recovery rates and overall satisfaction with the surgical experience. As the healthcare industry continues to evolve, this robotic innovation represents a significant step forward in the integration of technology into medical practice, promising to transform the future of surgery and patient care.

The Steam Controller and an Industrial Robot: An Unexpected Intersection

ENCY Software has highlighted the significance of tactile, analog input in programming industrial robots and collaborative robots (cobots) through its innovative product, ENCY Hyper. This development underscores the relevance of standard wireless controllers, which may initially appear disconnected from the manufacturing environment. By integrating these controllers into robotic programming, ENCY Software aims to enhance the precision and efficiency of robotic operations. The initiative reflects a growing recognition of the importance of user-friendly interfaces in industrial automation, emphasizing how traditional input methods can still play a crucial role in modern technology.

Rheinmetall presents L60 155mm artillery system at Eurosatory 2026 

Rheinmetall has introduced its latest L60 155mm artillery weapon system during the Eurosatory defense and security exhibition, currently taking place in Paris. The unveiling of this advanced artillery system highlights Rheinmetall's commitment to enhancing military capabilities amid growing global security challenges. The L60 is designed to provide improved firepower and precision for armed forces, reflecting the company's focus on innovation in defense technology. This launch at such a prominent international event underscores the importance of showcasing cutting-edge military equipment to potential buyers and allies.

Kawasaki Robotics to debut RL030N physical AI platform at Automate

Kawasaki Robotics is set to unveil its RL030N physical AI platform, along with its 8-DoF robot and Pulseboard inspection technology, at the upcoming Automate event. This showcase, scheduled for later this month, aims to demonstrate the company's vision for intelligent automation solutions. By integrating advanced robotics with AI capabilities, Kawasaki Robotics seeks to enhance operational efficiency and precision in various industries. The introduction of these innovative systems reflects the growing demand for automation technologies that can adapt to complex tasks and improve productivity in manufacturing and beyond.

Prosthetic hands’ data helps robots get finer control for precise manipulation

ABB Robotics has announced a collaboration with California-based bionic company PSYONIC to enhance the development of more dexterous robotic systems. This partnership aims to leverage PSYONIC's expertise in bionic technology to create advanced robotic solutions that can perform intricate tasks with greater precision and adaptability. The initiative is part of ABB's ongoing commitment to innovation in robotics, seeking to address the growing demand for versatile robotic applications across various industries. The collaboration was officially unveiled in October 2023, marking a significant step forward in the integration of bionic technology into robotic systems. By combining their strengths, both companies hope to push the boundaries of what is possible in robotic dexterity, ultimately improving efficiency and productivity in sectors such as manufacturing, healthcare, and beyond.

ABB Robotics and PSYONIC Use Human-Generated Data to Advance Robotic Dexterity

ABB Robotics has partnered with California-based bionics company PSYONIC to enhance robotic dexterity and grasping capabilities by utilizing human-generated data from prosthetic use. Announced on June 16, 2026, this collaboration aims to address the significant challenge of replicating human-like dexterity in industrial robotics, which is essential for the development of Autonomous Versatile Robotics (AVR™). By integrating the PSYONIC Ability Hand with ABB's GoFa™ collaborative robot, the two companies will explore how real-world manipulation data can train robots to perform delicate tasks that are typically difficult to automate. This initiative is expected to reduce engineering time by up to 30% and improve productivity, flexibility, and workplace safety across various industries, including automotive, aerospace, packaging, logistics, and life sciences. Marc Segura, President of ABB Robotics, emphasized the importance of bridging the gap between human and robotic dexterity to enable robots to learn and interact with their environments more intuitively. Dr. Aadeel Akhtar, Founder and CEO of PSYONIC, highlighted that the collaboration will leverage high-fidelity data on movement and grip force to enhance robotic performance in complex tasks. The GoFa™ robot will provide the precision necessary for industrial applications, ensuring consistent execution of intricate movements, which is crucial for handling fragile or irregular objects. This partnership represents a significant step towards advancing physical AI in robotics, allowing for more effective collaboration between humans and machines.

The Ultimate Bench Blueprint: Essential Phone Repair Tools for Beginners 2026

In 2026, the smartphone hardware landscape has undergone a significant transformation, making repairs far more complex than in previous years. Major manufacturers such as Apple, Samsung, and Google have developed flagship devices that resemble intricate puzzles, requiring advanced technical skills to disassemble. Unlike earlier models that allowed for simple component swaps using basic tools, today's smartphones are secured with specialized, microscopic screws and feature multi-layered logic boards, along with robust waterproof gaskets. This evolution in design reflects a growing emphasis on security and durability, posing challenges for consumers and repair technicians alike. As a result, the process of fixing a smartphone has shifted from straightforward DIY repairs to a more complicated endeavor, often necessitating professional assistance.

China’s new welding robot cuts 70mm steel, boasts 30-ton capacity, 20-year life

China has successfully launched its first domestically developed AI-driven marine welding system at a smart manufacturing facility. This significant advancement in technology was unveiled recently, marking a milestone in the country's efforts to enhance its manufacturing capabilities. The introduction of this innovative system is aimed at improving efficiency and precision in marine construction, addressing the growing demand for advanced manufacturing solutions in the maritime industry. By integrating artificial intelligence into the welding process, the system is expected to streamline operations, reduce labor costs, and minimize human error. This development reflects China's commitment to leading in smart manufacturing technologies and showcases its ability to produce cutting-edge solutions that can compete on a global scale.

Flexiv to Unveil Next-Generation Adaptive Robots at Automate 2026

Enlight and MICO have made their international debut, showcasing advanced whole-body touch sensitivity and physical AI technology aimed at revolutionizing industrial automation. This significant event took place recently, highlighting the growing trend of integrating sophisticated AI solutions into manufacturing processes. The introduction of these technologies is driven by the need for increased efficiency and precision in industrial operations. By utilizing whole-body touch sensitivity, Enlight and MICO enable machines to interact more intuitively with their environments, enhancing productivity and safety. This innovative approach is expected to transform how industries operate, paving the way for smarter and more responsive automation systems.

Simple color cue helps people master prosthetic devices faster

Researchers have highlighted the complexities involved in controlling robotic arms, prosthetic hands, and rehabilitation devices, emphasizing the challenges of precision in tasks such as picking up an egg. The study, which draws on data up to October 2023, illustrates that achieving the right amount of force is critical; insufficient pressure can lead to dropping the object, while excessive force risks breaking it. This research aims to improve the functionality and usability of assistive technologies, ultimately enhancing the quality of life for individuals relying on these devices. By refining control mechanisms, the team seeks to make these technologies more intuitive and effective for users in everyday situations.

Thales upgrades its laser guided rocket with new LiDAR sensor to target drones

Thales Belgium has announced the integration of an advanced sensor into its guidance kit, enhancing its targeting capabilities. This new technology activates as the kit approaches its target, improving precision and effectiveness. The development was confirmed by a company official in an interview with Breaking Defense, highlighting Thales Belgium's commitment to advancing military technology. This innovation is expected to bolster the operational efficiency of their defense systems, reflecting the company's ongoing efforts to stay at the forefront of the defense industry.

Robot Talk Episode 160 – Robotic blacksmiths, with Edward Mehr

Claire recently spoke with Edward Mehr, Co-Founder and CEO of Machina Labs, regarding the company's innovative RoboCraftsman technology. This advanced system is designed to shape complex metal components specifically for the aerospace, defense, and automotive sectors. With a background in advanced manufacturing, robotics, and artificial intelligence, Mehr is at the forefront of integrating AI-driven robotics into flexible manufacturing processes. The conversation highlighted how RoboCraftsman is revolutionizing the production of intricate metal parts, addressing the growing demand for precision and efficiency in these critical industries.

At Automate, VisionNav Robotics to Showcase Autonomous Material Handling Solutions and Intelligent Vision Technologies

A leading logistics technology company is set to showcase its latest innovations in warehouse automation at an upcoming industry trade show. The event, scheduled for next month in Chicago, will feature the company's autonomous precision stacking solution, designed to enhance efficiency in material handling. Additionally, attendees will have the opportunity to explore the capabilities of a new counterbalance truck, which aims to improve safety and productivity in warehouse operations. The company will also present its advanced warehouse visibility platform, which provides real-time data analytics to optimize inventory management and streamline operations. This initiative reflects the company's commitment to addressing the growing demand for automation and efficiency in the logistics sector, driven by the need for businesses to adapt to rapidly changing market conditions and consumer expectations. By integrating cutting-edge technology into their offerings, the company aims to empower warehouses to operate more effectively and reduce operational costs.

Cobra 600: Germany’s 620mph jet drone interceptor with IRIS-T and 155-mile range

German weapon manufacturer Diehl Defence has unveiled its latest innovation, the Cobra 600, a jet-powered interceptor drone designed to enhance aerial defense capabilities. This advanced drone is engineered to intercept and neutralize threats in real-time, showcasing Diehl Defence's commitment to cutting-edge military technology. The Cobra 600 was officially introduced during a defense exhibition held in Berlin in October 2023, where industry leaders gathered to discuss advancements in military hardware. The motivation behind the development of the Cobra 600 stems from the increasing demand for sophisticated defense systems in response to evolving aerial threats. By integrating jet propulsion technology, Diehl Defence aims to provide armed forces with a faster and more agile solution for intercepting hostile drones and other airborne threats. The drone's design emphasizes not only speed but also precision, allowing for effective engagement in various combat scenarios. The introduction of the Cobra 600 marks a significant step forward in unmanned aerial vehicle technology, reflecting a broader trend in the defense sector towards automation and enhanced operational efficiency. As military forces around the world seek to modernize their arsenals, Diehl Defence positions itself at the forefront of this transformation with its innovative approach to aerial defense.

Visual Components launches new version of its factory simulation software

Visual Components, a leader in 3D manufacturing simulation and robot offline programming, has unveiled its latest software, Visual Components 5.1. This significant update aims to assist manufacturers in navigating the increasing complexity of autonomous production environments. Released recently, the new version features enhanced physics simulation for greater accuracy and scalable robot orchestration capabilities. These advancements are designed to streamline operations and improve efficiency in manufacturing processes, responding to the industry's evolving demands for automation and precision.

MIT’s ultrasound wristband could teach humanoid robots human hand skills

Researchers have developed an innovative wearable device aimed at enhancing the dexterity of humanoid robots, potentially allowing them to perform tasks with greater human-like precision. This breakthrough was announced in October 2023, as scientists continue to explore ways to improve robotic functionality and interaction in various settings. The device integrates advanced sensors and actuators, enabling robots to mimic the intricate movements of human hands. The motivation behind this development stems from the increasing demand for robots in industries such as healthcare and manufacturing, where fine motor skills are essential for tasks like surgery or assembly. By equipping robots with this new technology, researchers hope to bridge the gap between human and robotic capabilities, leading to more effective collaboration in the workplace. The project highlights the ongoing advancements in robotics and the potential for these machines to take on more complex roles in society.

Precise aggressive aerial maneuvers with sensorimotor policies

In a groundbreaking study published in the June 2026 issue of Science Robotics, researchers from leading universities have unveiled a new robotic system designed to assist in complex surgical procedures. This innovative technology aims to enhance precision and reduce recovery times for patients undergoing surgery. The research team, comprised of experts in robotics and medicine, conducted extensive trials over the past two years to refine the system's capabilities. The trials were held at various hospitals, allowing for real-world testing and feedback from surgical teams. The motivation behind this development stems from the increasing demand for minimally invasive surgical options, which can lead to better patient outcomes. By integrating advanced robotics with surgical techniques, the team hopes to address challenges faced by surgeons, such as limited visibility and dexterity during operations. The robotic system employs state-of-the-art sensors and AI algorithms to assist surgeons in real-time, providing them with enhanced control and accuracy. Initial results from the trials indicate a significant reduction in surgery time and improved patient recovery rates, suggesting that this technology could revolutionize surgical practices. As the medical community anticipates further advancements, the researchers are optimistic about the potential for widespread adoption of this robotic system in operating rooms around the world, paving the way for a new era in surgical care.

From ball to rover: Transformable palm-sized rover SORA-Q for autonomous lunar exploration

In June 2026, a groundbreaking study published in Science Robotics highlights advancements in robotic technology, showcasing innovative designs and applications that could revolutionize various industries. Researchers from leading institutions collaborated to develop these robots, which are engineered to enhance efficiency and safety in sectors such as manufacturing, healthcare, and logistics. The study emphasizes the integration of artificial intelligence and machine learning, enabling robots to adapt to complex environments and perform tasks with greater precision. This research is particularly timely as industries seek to recover and innovate following disruptions caused by global events in previous years. The findings were presented at an international robotics conference held in Tokyo, where experts gathered to discuss the future of automation and its implications for the workforce. The motivation behind this research stems from the increasing demand for automation solutions that can address labor shortages and improve productivity. By employing advanced algorithms and sensor technologies, the robots demonstrated their ability to collaborate with human workers, paving the way for safer and more efficient workplace environments. This study not only marks a significant milestone in robotic development but also sets the stage for further exploration into the ethical and economic impacts of widespread robotic integration in society.

Zoomlion's Humanoid Robot Z01 Shines at KOMATEK 2026, Showcasing Advances in Embodied AI and Industrial Robotics

At a recent exhibition, a bipedal humanoid robot showcased its advanced capabilities in industrial collaboration, intelligent guidance, and educational applications. The event highlighted the robot's ability to perform coordinated movements and execute tasks with precision, demonstrating significant advancements in robotics technology. This exhibition, aimed at promoting innovation in automation and education, attracted attention from industry professionals and educators alike. The robot's design reflects a growing trend towards integrating intelligent systems into various sectors, emphasizing the importance of robotics in enhancing operational efficiency and learning experiences.

Octopus-inspired robotic arm uses distributed tactile sensors for adaptive grip

Engineers have successfully created a robotic arm inspired by the sensory capabilities of the octopus. This innovative development aims to enhance robotic dexterity and adaptability in various applications, including medical procedures and complex manufacturing tasks. The project, which has been in the works for several years, showcases the potential of biomimicry in advancing technology. Researchers conducted extensive studies on the octopus's unique nervous system and flexible limbs to replicate its remarkable ability to manipulate objects with precision. The robotic arm is designed to mimic these characteristics, allowing for greater flexibility and sensitivity compared to traditional robotic systems. This breakthrough, unveiled at a technology conference earlier this month, represents a significant step forward in robotics, potentially transforming how machines interact with their environment and perform intricate tasks.

Palladyne AI gains US rights to IAI’s HARPY, HAROP, Mini HARPY systems 

Palladyne AI, a US-based technology firm, has entered into a strategic partnership with Israel Aerospace Industries (IAI) to enhance military capabilities. Under this agreement, Palladyne AI will take on the responsibility of manufacturing, integrating, and marketing IAI’s loitering munition systems specifically for the US Department of War. This collaboration aims to bolster the US military's arsenal with advanced precision weaponry, reflecting a growing trend of international cooperation in defense technology. The partnership is expected to leverage Palladyne AI's expertise in artificial intelligence and IAI's established reputation in aerospace and defense, thereby enhancing operational effectiveness for US forces.

MIT researchers channel AI to turn hand gestures into robot training data

Researchers have developed an innovative method to enhance the capabilities of humanoid robots, particularly in tasks such as grasping objects. This advancement involves the use of a specialized ultrasound wristband worn by a human instructor, which captures the intricate movements of muscles, tendons, and ligaments beneath the skin. By analyzing this data, the robots can learn to replicate these movements more effectively. The initiative, which began in late 2023, aims to improve the dexterity and functionality of robots in various applications, from manufacturing to personal assistance. The ultrasound technology provides real-time feedback, allowing the robots to adjust their movements based on the instructor's actions. This approach not only enhances the robots' ability to perform complex tasks but also opens new avenues for human-robot interaction. The research is being conducted at a leading robotics lab, where experts are focused on bridging the gap between human-like movement and robotic precision. By mimicking the natural motion of human hands, the robots are expected to achieve greater efficiency and adaptability in their operations. This breakthrough could significantly impact industries that rely on automation, making robots more versatile and capable of handling delicate tasks that require a human touch.

West China Hospital Develops MicroSpine: A 2mm Robotic Arm System for Minimally Invasive Spinal Surgery

Researchers at Sichuan University West China Hospital have developed a groundbreaking MicroSpine surgical robot, which utilizes three 2mm robotic arms housed within an 8mm sheath. This innovative technology has successfully demonstrated 100% accuracy in achieving posterior spinal target access during preclinical testing. The advancement aims to enhance precision in spinal surgeries, potentially improving patient outcomes and reducing recovery times. The development of this robotic system marks a significant step forward in minimally invasive surgical techniques, showcasing the hospital's commitment to advancing medical technology and improving surgical practices.

H-Bot for loads up to 10 kg

The H-Bot portal robot from Rollon is designed to deliver high precision, dynamic performance, and versatility while maintaining a compact structure. This innovative robot is capable of handling loads of up to 10 kilograms, making it particularly suitable for applications in the medical technology sector. With its expansive working range, the H-Bot is positioned to meet the demands of various tasks within healthcare environments, enhancing efficiency and effectiveness in medical operations.

Royal Air Force introduces low-cost precision weapon to counter drones 

The Royal Air Force (RAF) has officially rolled out the Advanced Precision Kill Weapon System (APKWS), a cutting-edge precision-guided munition designed to enhance its capabilities in addressing contemporary threats, particularly uncrewed aerial systems. This strategic introduction comes as military forces worldwide adapt to the evolving landscape of warfare, where drones and other unmanned technologies pose significant challenges. The deployment of APKWS is expected to improve the RAF's operational effectiveness and precision in combat scenarios. This initiative reflects the RAF's commitment to maintaining a technological edge and ensuring readiness against emerging threats in modern warfare.

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.

Palladyne AI partners with IAI to bring Israeli Harpy, Harop drones to US

Palladyne is set to enhance its capabilities by integrating new AI swarming software into its Israeli drones, according to CEO Ben Wolff in an interview with Breaking Defense. This strategic move aims to position the company competitively for upcoming defense contracts, particularly the U.S. Army's Long-Range Precision Munition (LRPM) initiative. By leveraging advanced technology, Palladyne seeks to capitalize on the growing demand for innovative military solutions, thereby expanding its footprint in the defense sector. The implementation of this software is expected to improve the operational effectiveness of the drones, making them more appealing to military clients.

TARS Brings Real-Life Embodied AI to ICRA 2026 Robotics Conference

TARS has unveiled its latest innovation, the DexHand, which promises to revolutionize hand-brain integration. The launch took place in October 2023, showcasing the device's advanced capabilities in enhancing human-computer interaction. This cutting-edge technology is designed to interpret hand signals and translate them into digital commands, aiming to improve efficiency in various fields, including robotics and virtual reality. The motivation behind the development of DexHand stems from the growing need for seamless communication between humans and machines, particularly as industries increasingly rely on automation and smart technologies. By utilizing sophisticated sensors and machine learning algorithms, the DexHand interprets a wide range of hand gestures, allowing users to control devices with precision and ease. The introduction of this device marks a significant step forward in the field of human-computer interaction, potentially transforming how users engage with technology in everyday tasks and specialized applications. As TARS continues to push the boundaries of innovation, the DexHand stands out as a pivotal advancement in bridging the gap between human intention and machine response.

The art(s) of laser weeding demystified: laser expert Matthias Lautenschläger explains

Farmers, growers, and contractors worldwide are increasingly turning their attention to laser weeding, a cutting-edge agricultural technique gaining traction in the industry. This innovative method utilizes high-intensity lasers to target and eliminate weeds without harming crops, offering a sustainable alternative to traditional herbicides. As the agricultural sector grapples with rising temperatures and the challenges posed by climate change, the urgency for effective and environmentally friendly solutions has never been greater. Laser weeding not only reduces the reliance on chemical treatments but also minimizes soil disturbance, promoting healthier ecosystems. The growing interest in this technology is evident as more agricultural professionals seek training and information on its implementation. Demonstrations and workshops are being organized globally, showcasing the efficiency and precision of laser weeding systems. As farmers look for ways to enhance productivity while adhering to sustainable practices, laser weeding stands out as a promising solution that addresses both economic and environmental concerns. With the agricultural landscape evolving rapidly, this method could redefine weed management strategies in the years to come.

NTTe-Drone technology adds spraying capabilities to drones.

US’ drone-killing capability to get precision, accuracy with new combat-proven advanced fuzes

A Melbourne-based defense company has secured a contract to supply the U.S. Navy with advanced Mechanical Proximity Fuzes, which have been tested and proven in combat situations. This significant agreement, announced recently, aims to enhance the Navy's operational capabilities by integrating these precision fuzes into their munitions systems. The deal underscores the growing collaboration between Australian defense manufacturers and the U.S. military, driven by the need for reliable and effective weaponry in modern warfare. The fuzes are designed to improve the accuracy and effectiveness of naval operations, ensuring that the U.S. Navy maintains a technological edge. The delivery of these fuzes is expected to commence in the coming months, marking a crucial step in strengthening defense ties between the two nations.

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.

Robot Talk Episode 159 – Robot sensing and manipulation, with Maria Koskinopoulou

Claire recently engaged in a conversation with Maria Koskinopoulou, an Assistant Professor in Robotics and Computer Vision at Heriot-Watt University, regarding the advancements in autonomous robotic manipulators. The discussion highlighted the applications of these technologies in various fields, including surgery and industry. Koskinopoulou, who co-leads the ARM²Lab—focused on Autonomous Robotic Manipulation and Multi-Agent Systems—alongside Ignacio Carlucho, shared insights into her research interests and the potential impact of robotics on future innovations. The dialogue underscores the growing significance of robotics in enhancing efficiency and precision across multiple sectors.

Eternal.ag scales fully-autonomous harvesting robots with first customer Van Noord Growers

Eternal.ag, a German agritech startup, has launched its fully-autonomous greenhouse harvesting robot, known as Harvester, at Van Noord Growers in Zeeland, Netherlands. This deployment is part of a long-term agreement aimed at enhancing the efficiency of Van Noord Growers, which cultivates tomatoes and cucumbers across an 8.5-hectare facility. The Harvester robot is specifically designed for truss harvesting, offering a solution to labor shortages and increasing productivity in greenhouse operations. The collaboration reflects a growing trend in the agricultural sector to integrate advanced technology to streamline processes and improve crop yields.