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A single destination for timely, editor-curated robotics news from around the world.

‘Just in time for Canada Day’: Spacewalking astronauts repair space station’s huge Canadarm2

‘Just in time for Canada Day’: Spacewalking astronauts repair space station’s huge Canadarm2

On June 30, 2026, Expedition 74 flight engineers Chris Williams and Jessica Meir successfully completed a seven-hour spacewalk at the International Space Station. The mission involved replacing a wrist joint on the Canadarm2 robot arm, a critical component used for various tasks, including satellite deployment and maintenance of the space station. This repair was essential to ensure the continued functionality of the robotic arm, which plays a vital role in supporting operations and research aboard the ISS. The spacewalk exemplified the ongoing commitment to maintaining and enhancing the capabilities of the station, highlighting the importance of human ingenuity in the challenging environment of space.

International Space Station Space Exploration Missions
Overland AI nets Marine Corps autonomous ground vehicle contract

Overland AI nets Marine Corps autonomous ground vehicle contract

Overland AI has announced the development of an autonomous ground vehicle, clarifying that it is not designed to replace the Joint Light Tactical Vehicle (JLTV). CEO Byron Boots emphasized that the new vehicle will complement existing military assets rather than serve as a direct substitute. This initiative aims to enhance operational efficiency and adaptability in various mission scenarios. The announcement comes as part of Overland AI's ongoing commitment to innovate within the defense sector, leveraging advanced technology to meet the evolving needs of military operations.

Land Warfare Naval Warfare AI & Autonomy Army Drones MADIS
"Vision Bot completes over 100 million yuan in B++ round financing."

"Vision Bot completes over 100 million yuan in B++ round financing."

SpeedBot Robotics has successfully secured a significant B++ round of financing, amounting to over 100 million yuan. This funding round was led by the Hunan Sub-Fund of the National Small and Medium Enterprises Fund, managed by Dacheng Caizhi, along with joint investments from Changsha Urban Development. The investment aims to bolster the company’s growth and innovation in the robotics sector, reflecting a strong interest in advancing technology solutions.

SiMa.ai and Mistral Solutions, a subsidiary of AXISCADES, Partner to Accelerate Autonomous Drone Intelligence

SiMa.ai and Mistral Solutions, a subsidiary of AXISCADES, Partner to Accelerate Autonomous Drone Intelligence

Mistral and SiMa.ai have collaborated to create a joint reference design that integrates Mistral's expertise in embedded systems with SiMa.ai's Physical AI platform. This innovative partnership aims to streamline the deployment of autonomous drones, significantly enhancing their operational efficiency. The announcement comes as industries increasingly seek advanced technologies to improve automation and data processing capabilities. By leveraging their combined strengths, the two companies are positioned to offer a rapid and effective solution for businesses looking to adopt autonomous drone technology. This initiative reflects a growing trend in the tech sector, where collaboration is key to accelerating advancements in artificial intelligence and robotics.

RC-135 Rivet Joints Could Control Drones To Drastically Expand Collection Capabilities

RC-135 Rivet Joints Could Control Drones To Drastically Expand Collection Capabilities

The RC-135 Rivet Joint, a reconnaissance aircraft, is exploring the potential of integrating drone technology to enhance its operational capabilities. This innovative approach aims to significantly expand the aircraft's data collection abilities. As military technology continues to evolve, the collaboration between manned aircraft and unmanned drones presents new opportunities for intelligence gathering and surveillance. The initiative reflects a broader trend within the defense sector to leverage advanced technologies for improved mission effectiveness. Further developments in this area are anticipated, indicating a shift in how aerial reconnaissance may be conducted in the future.

Air Drones Loyal Wingman Manned ISR News & Features RC-135
What Amazon’s Astro Taught Me About Giving Robots a Soul

What Amazon’s Astro Taught Me About Giving Robots a Soul

In 2018, Amazon appointed a lead UX Sound Designer to develop Astro, its first consumer home robot capable of navigating and interacting within homes. The team faced a critical decision: whether to position Astro as an extension of Alexa or as a distinct character. Ultimately, user testing revealed that people preferred Astro as its own entity, leading to the decision to have Alexa serve as a supporting character while Astro communicated through sound, motion, and facial expressions. The design process involved defining Astro's character, which included determining its emotional range and how it would express uncertainty without losing user trust. The team emphasized the importance of a cohesive character, as inconsistencies could lead to a disjointed user experience. Astro's wake-up sequence, characterized by a blend of sound and motion, became a highlight during testing, with users describing it as "alive." Despite progress, the team acknowledged that character development often takes a backseat in product design, which can lead to lifeless devices. The designer urged product leaders to prioritize character definition early in the design process, integrate story and sound into character development, and design for adaptability to create more engaging and responsive products. The full narrative detailing these insights is available on Medium.

Amazon Astro Consumer-robotics Home-robots
Hyundai Steel partners with LSU on US mill project

Hyundai Steel partners with LSU on US mill project

Hyundai Steel announced on Wednesday that it has entered into a master research agreement with Louisiana State University (LSU) to enhance technology development and workforce training as part of its plans to construct a $5.8 billion steel mill in the United States. This agreement will facilitate collaborative research in various fields, including steelmaking, materials science, energy, robotics, automation, and environmental engineering. By establishing a framework for joint projects, Hyundai Steel aims to streamline the research process, allowing initiatives to advance without the need for separate negotiations for each endeavor. The partnership reflects Hyundai Steel's commitment to innovation and skill development in conjunction with its significant investment in the U.S. steel industry.

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Preparing for the future fight: How one brigade is sacrificing robots in lieu of humans 

Preparing for the future fight: How one brigade is sacrificing robots in lieu of humans 

The 3rd Mobile Brigade Combat Team of the 101st Airborne Division recently executed a successful robotic combined arms breach during a rotation at the Joint Readiness Training Center (JRTC). This operation, highlighted by the brigade's commander in an interview with Breaking Defense, showcases the unit's advancements in integrating robotic technology into combat scenarios. The exercise aimed to enhance operational effectiveness and readiness in modern warfare, reflecting the military's ongoing commitment to innovation and adaptation in response to evolving threats. The successful breach demonstrates the brigade's capability to leverage advanced technologies to improve tactical operations on the battlefield.

Land Warfare 101st Airborne Division Army autonomy Drones UGV
Raymond partners with Third Wave Automation to expand physical AI across lift truck fleets

Raymond partners with Third Wave Automation to expand physical AI across lift truck fleets

Third Wave Automation has partnered with The Raymond Corporation, a subsidiary of Toyota Material Handling North America, to enhance AI-enabled physical automation capabilities in select automated Raymond lift trucks. This collaboration, which builds on years of joint development and operational insights since 2021, is supported by investments from Toyota Ventures. The initiative aims to improve efficiency and productivity in material handling operations, reflecting the growing trend towards automation in the industry. The integration of advanced AI technology into Raymond's lift trucks is expected to streamline processes and optimize performance in various operational settings.

Artificial Intelligence Material handling News AI-powered forklifts automation news autonomous forklifts
Eurosatory 2026: LRMV showcases NMBT with A2CS during Italy's bid.

Eurosatory 2026: LRMV showcases NMBT with A2CS during Italy's bid.

At the Eurosatory 2026 exhibition, LRMV showcased its latest Main Battle Tank, which is currently being evaluated as a potential replacement for Italy's Ariete MBT fleet. This unveiling marks a significant step in Italy's military modernization efforts, as the country seeks to enhance its armored capabilities. The exhibition, held in Paris, serves as a platform for defense manufacturers to present innovative technologies and solutions to military officials and industry stakeholders. LRMV's new tank is designed to meet the evolving demands of modern warfare, emphasizing advanced features and improved performance. The decision to consider this new model reflects Italy's commitment to maintaining a competitive edge in defense technology.

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European manufacturers unveil new main battle tank variants at Eurosatory

European manufacturers unveil new main battle tank variants at Eurosatory

On Monday, KNDS unveiled its latest innovation, the CaPINT MBT, during a presentation aimed at modernizing France's armored vehicle capabilities. This new main battle tank is designed to serve as a replacement for the aging Leclerc fleet, which is anticipated to be phased out by 2037. The introduction of the CaPINT MBT comes in response to the need for advanced military technology that can meet contemporary defense challenges and enhance France's operational readiness. The event marks a significant step in the ongoing evolution of military equipment, as KNDS seeks to address the future demands of armored warfare.

Global Land Warfare Army Europe EUROSATORY 2026 france
Video Friday: Robotic Motion Discovery Reveals Unusual Behaviors

Video Friday: Robotic Motion Discovery Reveals Unusual Behaviors

IEEE Spectrum robotics has released its latest edition of Video Friday, showcasing an array of innovative robotics videos and announcing upcoming events in the field. Notable events include RSS 2026 in Sydney from July 13-17, the Summer School on Multi-Robot Systems in Prague from July 29 to August 4, and Actuate 2026 in San Francisco on August 18-19. Among the featured videos is MotionDisco, a framework that autonomously discovers complex humanoid loco-manipulation motions, highlighting the challenges of coordinating fluid movements across multiple joints. Additionally, the Human Support Robot (HSR) from Toyota is demonstrated in real home environments, assisting residents with daily tasks, showcasing the potential for robots to become long-term companions. Other highlights include the MIDAS Hand, an open-source robotic hand designed for manipulation and research, and a novel flight maneuver by a bipedal robot that showcases advanced aerial control. The European Space Agency shares a timelapse of Dextre, a robotic handyman, efficiently unloading equipment in space, while ROBOTIS introduces AI Sapiens, which learns humanoid motions using just a smartphone camera. In a collaborative effort, LUMOS Robotics has launched Project EDGE, inviting global innovators to explore humanoid robotics, while Sphero emphasizes its educational products designed to nurture computational thinking from early childhood through high school. These developments illustrate the rapid advancements and collaborative spirit within the robotics community.

Humanoid-robots Video-friday Quadruped-robots Robot-videos Home-robots Dexterity
OCCAR taps EUROSAM to develop multi-layer SAMP/T NG system 

OCCAR taps EUROSAM to develop multi-layer SAMP/T NG system 

The Organisation for Joint Armament Cooperation (OCCAR), which represents France, has awarded a significant contract to Eurosam for the development of an advanced multi-layered version of the SAMP/T NG surface-to-air missile system, incorporating ASTER and VL MICA technologies. This contract marks a strategic move to enhance France's air defense capabilities amid growing security concerns in the region. The collaboration aims to bolster the effectiveness of the missile system, ensuring a robust defense against various aerial threats. The project is expected to advance the technological landscape of France's military assets, reflecting a commitment to modernizing defense systems in response to evolving challenges.

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Krypton Evening News: Token prices drop to a few dollars; OpenAI may significantly reduce product prices; discounted train tickets for

Krypton Evening News: Token prices drop to a few dollars; OpenAI may significantly reduce product prices; discounted train tickets for

Christian Stein has been appointed as the new CEO of Renault Group Spain, effective July 1, succeeding Josep María Recasens, who is leaving the company for new career opportunities. Stein will also continue in his role as Chief Communications Officer and report to Renault Group CEO François Provost. In a significant shift, General Motors is considering abandoning the use of lithium iron phosphate (LFP) batteries for electric vehicles, despite plans to produce them by the end of 2027 at a joint factory in Tennessee. This decision comes as the company reassesses its battery technology strategy amidst a competitive market. Global prediction markets Polymarket and Kalshi have reported that contracts for the upcoming World Cup champion have surpassed $2 billion, potentially setting a new record for single-event prediction market transactions. In the tech sector, OpenAI is contemplating substantial price reductions for its products to compete with rival Anthropic, as rising costs for AI services have become a concern for executives. Meanwhile, J&T Express has responded to an investigation by China's State Post Bureau, emphasizing its commitment to cooperate fully and improve safety management practices in light of the inquiry. AliExpress, Alibaba's cross-border e-commerce platform, has launched official local delivery services in five countries, including the U.S. and Spain, aiming to enhance logistics efficiency for merchants. In product news, Insta360 has unveiled the Luna Ultra, the world's first 8K dual-camera gimbal, which sold out shortly after its launch on June 10. Lastly, Neura Robotics, a German robotics firm, has secured $1.4 billion in funding to accelerate its development of a leading physical AI platform, with backing from major investors like Amazon and NVIDIA.

From Prototype to Production Readiness

From Prototype to Production Readiness

In recent years, the field of humanoid robotics has experienced remarkable growth, surprising even seasoned industry experts. By 2026, the transition from mere prototypes to the implementation of pilot projects featuring humanoid robots in valuable industrial applications is expected to take place. These robots are designed to perform tasks traditionally carried out by humans, not as replacements but as supportive aids to alleviate the pressures of a global labor shortage. This shift highlights the potential of humanoid robots to enhance productivity and efficiency in various sectors.

Allgemein
First-ever drone boat rescue: US Navy vessel pulls out two downed pilots from sea

First-ever drone boat rescue: US Navy vessel pulls out two downed pilots from sea

A U.S. Navy unmanned surface vessel successfully conducted a rescue operation for two Army pilots whose AH-64 Apache helicopter had crashed. The incident occurred on a training mission off the coast of California on Tuesday. The unmanned vessel, equipped with advanced technology, was able to locate the pilots quickly and facilitate their safe retrieval from the water. This operation highlights the increasing role of unmanned systems in military rescue missions, showcasing their effectiveness in enhancing operational capabilities and ensuring the safety of personnel in distress. The successful rescue underscores the collaborative efforts between the Navy and Army in conducting joint operations and responding to emergencies in challenging environments.

Military
GS E&C, Daedong Robotics team up on AI construction robots

GS E&C, Daedong Robotics team up on AI construction robots

GS Engineering & Construction (GS E&C) announced on Monday that it has entered into a partnership with Daedong Robotics to develop artificial intelligence-powered autonomous robots specifically designed for construction sites. This collaboration, formalized on June 5 at GS E&C's R&D Center in Seoul, aims to enhance safety and productivity in the construction industry, which is increasingly turning to automation. The partnership will involve field trials of Daedong Robotics' existing autonomous robots and the joint development of new models tailored to meet the unique challenges of construction environments. Established in 2024, Daedong Robotics is expanding its focus beyond agricultural applications to address the growing demands of the construction sector.

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Daimon Robotics and Galbot jointly launches RobOmni for benchmarking tactile perception and dexterous manipulation

Daimon Robotics and Galbot jointly launches RobOmni for benchmarking tactile perception and dexterous manipulation

Daimon Robotics and Galbot have announced the launch of RobOmni, a new platform designed to benchmark tactile perception and dexterous manipulation in the field of embodied AI. This development marks a significant shift from traditional vision-centric approaches to a more comprehensive understanding of physical interactions. The collaboration aims to enhance the capabilities of robots in performing complex tasks that require fine motor skills and sensitivity to touch. The launch event took place recently, highlighting the growing importance of tactile feedback in robotics and its applications across various industries. By integrating advanced tactile sensing technologies, RobOmni is set to provide researchers and developers with the tools needed to push the boundaries of robotic dexterity and perception.

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A Low‐Drift Legged Robot State‐Estimation System Through Combined Physics‐Informed Contact Estimation Network and Full Joint State

A Low‐Drift Legged Robot State‐Estimation System Through Combined Physics‐Informed Contact Estimation Network and Full Joint State

A recent study published in the Journal of Field Robotics highlights advancements in autonomous robotic systems designed for agricultural applications. Researchers from various institutions collaborated to develop innovative algorithms that enhance the efficiency and precision of farming robots. The findings, released in early October 2023, demonstrate how these technologies can significantly improve crop monitoring and management. The study was conducted across multiple farms in the Midwest, where the team tested the robots' capabilities in real-world conditions. By utilizing advanced sensors and machine learning techniques, the robots were able to identify crop health issues and optimize resource usage, such as water and fertilizers. This approach not only aims to increase agricultural productivity but also addresses sustainability concerns in farming practices. The motivation behind this research stems from the growing need for efficient food production methods to meet the demands of a rising global population. As traditional farming faces challenges such as labor shortages and environmental impacts, the integration of autonomous systems presents a viable solution. The researchers emphasized that the successful implementation of these technologies could lead to a transformative shift in how agriculture is practiced, ultimately benefiting both farmers and consumers alike.

RESEARCH ARTICLE
Volvo and Boliden complete dam construction milestone with autonomous transport

Volvo and Boliden complete dam construction milestone with autonomous transport

Volvo Autonomous Solutions and Boliden have successfully concluded an autonomous transport project at Boliden’s Garpenberg site in Sweden. This initiative represents a significant milestone in their collaboration, following a memorandum of understanding signed earlier in 2023. The project aims to enhance efficiency in mineral transport operations and is expected to pave the way for future joint ventures between the two companies. The successful implementation of autonomous transport technology at Garpenberg underscores the growing trend towards automation in the mining industry, driven by the need for improved safety and productivity.

Autonomous Vehicles News automation news autonomous haulage autonomous logistics autonomous mining
USAF Wants “MQ-9 Next” Reaper Replacement To Be Modular, Cheap

USAF Wants “MQ-9 Next” Reaper Replacement To Be Modular, Cheap

The United States Air Force (USAF) is intensifying discussions regarding a successor to the MQ-9 Reaper drone following recent concerns about its operational losses. As the military seeks to enhance its unmanned aerial capabilities, the focus is on developing a new platform that is both modular and cost-effective. This initiative aims to address the evolving demands of modern warfare while ensuring that the USAF can maintain a competitive edge. The push for a replacement comes in light of the Reaper's long-standing service and the need for more adaptable and affordable solutions in drone technology.

Air Air Forces Drones News & Features Q-9 U.S. Air Force
WINGGATE and Konishi Model launch joint project for domestic drone control development.

WINGGATE and Konishi Model launch joint project for domestic drone control development.

WINGGATE Co., Ltd. and Konishi Model Co., Ltd. have entered into a joint development agreement to create control systems for unmanned aerial vehicles (UAVs) and robots. The collaboration marks the beginning of a new development project aimed at advancing technology in the UAV and robotics sectors. This partnership is expected to leverage the expertise of both companies to enhance the capabilities and efficiency of their respective products, responding to the growing demand for innovative solutions in these fields.

Lockheed’s 10-foot containerized launcher shoots down 1,320-pound attack drone

Lockheed’s 10-foot containerized launcher shoots down 1,320-pound attack drone

Lockheed Martin has achieved a significant milestone by successfully intercepting a Group 3 one-way attack drone using its advanced Joint All-Domain Command and Control (JADC2) system. This event took place during a recent test, showcasing the effectiveness of the technology in enhancing defense capabilities. The demonstration was conducted to validate the system's ability to detect, track, and neutralize aerial threats, reflecting the growing importance of counter-drone measures in modern warfare. The successful interception underscores Lockheed Martin's commitment to advancing military technology and improving national security. This achievement not only highlights the company's innovative approach but also addresses the increasing challenges posed by unmanned aerial vehicles in conflict scenarios.

Cellula Robotics and DRDC/RDDC Advance Long-Endurance AUV Development Through Sustained Collaboration

Cellula Robotics and DRDC/RDDC Advance Long-Endurance AUV Development Through Sustained Collaboration

Cellula Robotics Ltd. and Defence Research and Development Canada (DRDC) have announced significant advancements in their joint efforts to develop long-endurance autonomous underwater vehicle technology. This progress is the result of several years of collaboration focused on enhancing practical underwater capabilities for challenging operational conditions. The partnership aims to address the increasing demand for sophisticated underwater technologies that can operate effectively in various environments, showcasing the commitment of both organizations to innovation in maritime defense and exploration.

cellula robotics drdc/rddc long-endurance auv collaboration
Turkey sees 'strong potential' for drone development with Japan

Turkey sees 'strong potential' for drone development with Japan

In an exclusive interview with Nikkei Asia on May 30, 2026, Turkish Foreign Minister Hakan Fidan expressed Turkey's strong interest in collaborating with Japan on the development of unmanned aerial systems, particularly in the joint production of drones. Fidan emphasized the potential for cooperation among "middle power" countries, highlighting Turkey's commitment to enhancing its defense capabilities through partnerships. This initiative comes amid a broader context of shifting geopolitical dynamics and the ongoing competition between major powers, particularly in the aerospace and defense sectors. The discussions signal a significant step towards closer ties between Turkey and Japan, as both nations seek to bolster their positions in the global drone market.

Best Practices for Calibrating and Maintaining Manufacturing Robotic Arms

Best Practices for Calibrating and Maintaining Manufacturing Robotic Arms

In the evolving landscape of modern manufacturing, robotic arms and collaborative robots have emerged as essential tools, enhancing efficiency and precision while minimizing human error. JAKA, a leading provider of collaborative robots, emphasizes the importance of scientific calibration and regular maintenance to ensure the stable operation of these machines, which directly impacts production quality and safety. To maintain optimal performance, JAKA outlines best practices for calibrating and servicing robotic arms, particularly its JAKA Zu12 model. Regular kinematic calibration is crucial for correcting geometric errors and ensuring accurate motion trajectories, which is vital for collaborative robots that interact closely with humans. The JAKA Zu12’s integrated design facilitates efficient calibration during assembly, maximizing its reach and payload capabilities. Daily and periodic maintenance is also critical in reducing failure rates. Daily tasks include cleaning, checking cable connections, and ensuring joint operation, while periodic maintenance focuses on lubricating joints, inspecting wear on components, and updating software. For collaborative robots like the JAKA Zu12, regular safety checks are essential to ensure safe human-robot interactions. JAKA also advocates for scenario-based maintenance tailored to specific application needs, such as handling and palletizing tasks, to enhance processing precision and operational reliability. By implementing systematic calibration and maintenance strategies, JAKA aims to help enterprises optimize the performance of their robotic arms, ultimately reducing costs and boosting production efficiency in automated manufacturing environments.

Pea-sized liquid-metal pump helps soft robots become lighter, portable, and more agile

Pea-sized liquid-metal pump helps soft robots become lighter, portable, and more agile

Engineers at the University of Bristol have created a groundbreaking pea-sized liquid-metal pump that has the potential to revolutionize various industries. This innovative device, designed to be compact and efficient, could serve as a replacement for traditional pumps in applications ranging from medical devices to robotics. The development was announced recently, showcasing the university's commitment to advancing engineering technology. The motivation behind this invention stems from the need for more versatile and efficient pumping solutions that can operate in tight spaces and under varying conditions. By utilizing liquid metal, the pump offers enhanced performance and adaptability compared to conventional materials. The engineering team achieved this breakthrough through a combination of advanced materials science and innovative design techniques, allowing for the creation of a pump that is not only small but also highly effective. As industries seek to improve efficiency and reduce energy consumption, this new liquid-metal pump could play a crucial role in meeting those demands. With its potential applications still being explored, the University of Bristol's development marks a significant step forward in pump technology, promising to influence a wide range of fields in the near future.

The US wants to move beyond DJI drones, but can it?

The US wants to move beyond DJI drones, but can it?

The U.S. government is exploring alternatives to DJI, the leading manufacturer of affordable and widely utilized drones, amidst ongoing concerns about national security and reliance on foreign technology. This initiative reflects Washington's desire to reduce dependency on a single foreign supplier, particularly given the geopolitical tensions surrounding China. However, a significant challenge remains: identifying a viable replacement that can match DJI's scale and affordability. As discussions continue, industry experts and policymakers are grappling with the feasibility of developing or sourcing comparable drone technology from domestic or allied manufacturers. The outcome of this endeavor could reshape the landscape of the drone market in the United States, influencing both commercial and governmental operations.

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GigaDevice Explains Why EtherCAT is Essential for Robot Joint Control

GigaDevice Explains Why EtherCAT is Essential for Robot Joint Control

GigaDevice recently conducted a web seminar titled "Secure Robotics in Motion," focusing on the advancements in robot control systems. The event highlighted the company's commitment to enhancing security measures within robotic technology, addressing the growing concerns surrounding safety and reliability in automated systems. Industry experts shared insights on the latest developments and future trends in robotics, emphasizing the importance of secure communication protocols and robust control mechanisms. The seminar aimed to educate participants on best practices for implementing secure robotics solutions, fostering a deeper understanding of the challenges and opportunities in this rapidly evolving field. The session attracted a diverse audience, including engineers, developers, and technology enthusiasts, eager to learn about the integration of security in robotic applications.

Robotics
The Benefits of High-Speed Joint Actuation in Modern Articulated Robots

The Benefits of High-Speed Joint Actuation in Modern Articulated Robots

In the rapidly evolving manufacturing sector, JAKA Robotics is at the forefront of intelligent automation, showcasing the transformative capabilities of articulated robots, particularly collaborative robots (cobots). These advanced machines, equipped with high-speed joint actuation, are designed to enhance production efficiency and precision. The JAKA Pro5 articulated robot exemplifies this innovation, enabling accelerated production cycles through quick and precise movements that streamline loading, unloading, and assembly processes. This is particularly beneficial in time-sensitive industries like consumer electronics and automotive assembly, where reduced cycle times can significantly boost throughput. Moreover, the high-speed joint actuation not only increases speed but also enhances precision, ensuring consistent quality control in tasks such as component placement and welding. JAKA's robots maintain high accuracy over time, minimizing errors and reducing scrap rates, which is crucial for industries with stringent quality standards. The Pro5 model's compact design and user-friendly programming interface facilitate easy integration into existing production lines, allowing manufacturers to adapt swiftly to changing demands without extensive downtime. This flexibility empowers companies to optimize resources effectively and respond to market fluctuations. As industries continue to evolve, the role of high-speed joint actuation in articulated robots is becoming increasingly vital. By adopting JAKA's technology, organizations can modernize their production processes, improve workplace safety, and enable skilled workers to focus on higher-value tasks, positioning themselves for success in a competitive landscape.

Inbolt Launches Vision-Enabled Robot Programming, Closing the Loop from CAD to Factory Floor

Inbolt Launches Vision-Enabled Robot Programming, Closing the Loop from CAD to Factory Floor

Inbolt showcased its cutting-edge Robot Programming technology at Automate 2026 in Chicago, marking its most significant presence in the U.S. to date. The event featured four live demonstrations and the launch of two new products, highlighting the company's innovative approach to streamlining robotic programming. By allowing engineers to create programs directly from CAD models, Inbolt's system significantly reduces the time required for commissioning, enabling real-time execution of planned paths through its Inbolt Vision Model. This advancement not only enhances efficiency but also positions Inbolt as a leader in the automation sector. Additionally, the company announced plans to double its U.S. team by the end of the year, further solidifying its commitment to growth and collaboration, as evidenced by joint demonstrations with industry partner FANUC.

Allied Mine Countermeasure Forces Strengthen Cooperation in ITA MINEX 2026

Allied Mine Countermeasure Forces Strengthen Cooperation in ITA MINEX 2026

The Standing NATO Mine Countermeasures Group Two (SNMCMG2) recently concluded its participation in Exercise ITA MINEX 2026, which took place in October 2023. This exercise aimed to enhance interoperability, operational readiness, and cooperation among Allied maritime forces. By engaging in this joint training initiative, SNMCMG2 demonstrated its commitment to maintaining a robust and effective naval presence in the region, ensuring that member nations can work seamlessly together in addressing maritime security challenges. The successful execution of the exercise underscores the importance of collaborative efforts in strengthening defense capabilities among NATO allies.

nato allied mine countermeasure forces ita minex 2026
How humanoids learn to read the room

How humanoids learn to read the room

Analog Devices Inc. is sponsoring a discussion on the complexities of designing humanoid robots, which are among the most challenging applications in the field of robotics. These advanced systems must autonomously manage a variety of functions, including movement, balance, vision, and reactivity, all while navigating a sophisticated network of joints, sensors, and data processing. This intricate design process is particularly crucial when humanoid robots are required to operate in dynamic environments, where their ability to interpret and respond to surroundings is essential for effective performance. The exploration of these capabilities highlights the ongoing advancements in robotics technology and the increasing importance of integrating sensory data for improved interaction with the world.

Sponsored Content ADI Analog Devices
Pony.ai tops Q1 forecasts, lifts Robotaxi revenue outlook and fleet targets

Pony.ai tops Q1 forecasts, lifts Robotaxi revenue outlook and fleet targets

Pony.ai, the autonomous driving company, exceeded first-quarter 2026 expectations, reporting a revenue of $34.3 million, a 145% increase from $14 million a year prior, and surpassing analyst estimates of $22.6 million. Despite posting a loss of $0.09 per share, better than the anticipated $0.12 loss, the company's performance was bolstered by significant growth in its Robotaxi services, which saw a staggering 395.4% year-over-year revenue increase to $8.6 million. This surge was attributed to higher fare activity and the introduction of its Gen-7 fleet, alongside a successful joint deployment model. Pony.ai also raised its full-year Robotaxi revenue forecast, now projecting growth of over 3.5 times the 2025 level, an increase from the previous target of three times. Additionally, the company aims to expand its Robotaxi fleet to over 3,500 vehicles by year-end, up from 3,000. The first quarter of 2026 showed a notable rise in user demand, with registered users tripling year-over-year and fleet expansion exceeding 1,700 units. The company has also begun international operations, launching Robotaxi services in Croatia in collaboration with local partners. CEO James Peng emphasized the company's commitment to safe and reliable Robotaxi services and the sustainable development of the autonomous driving industry. Following the announcement, Pony.ai's shares rose approximately 1% to around $9.

What Robot Designers Should Check Before Choosing Right-Angle Gearing

What Robot Designers Should Check Before Choosing Right-Angle Gearing

In the realm of real right-angle gear projects, industry experts have identified significant challenges that arise not from the gear types themselves, but rather from discrepancies in joint targets, support design, and acceptance criteria. These mismatches can lead to complications during the development and implementation phases, ultimately affecting project outcomes. As professionals navigate these complexities, understanding the underlying issues becomes crucial for ensuring successful project execution. Addressing these concerns requires a thorough analysis of design specifications and alignment between all stakeholders involved. By focusing on these critical areas, teams can enhance the efficiency and reliability of right-angle gear projects, paving the way for improved performance and satisfaction in future endeavors.

DARPA readies robotic deep-space repair satellite for 2026 launch

DARPA readies robotic deep-space repair satellite for 2026 launch

The Defense Advanced Research Projects Agency (DARPA) is set to launch a mission this summer to extend the operational lifespan of geosynchronous satellites beyond their typical expiration dates. This initiative aims to address the growing need for sustainable satellite operations in space, allowing for continued functionality and service without the immediate need for replacement. By testing innovative technologies and methods, DARPA seeks to enhance the longevity of these critical assets, which play a vital role in communication, weather monitoring, and national security. The upcoming mission represents a significant step towards ensuring that satellites can remain in service for years longer than previously anticipated.

Satellites Space Exploration
Manipulator Robot Arm Kinematics: Understanding the Degrees of Freedom (DoF)

Manipulator Robot Arm Kinematics: Understanding the Degrees of Freedom (DoF)

In the rapidly evolving field of robotics, the JAKA Pro16 cobot stands out for its advanced kinematic design, which emulates the human arm's functionality. This industrial robot, equipped with six degrees of freedom (DoF), offers unparalleled agility and precision, allowing it to navigate complex environments and perform intricate tasks. With a reach of 1713mm and a payload capacity of 16kg, the JAKA Pro16 is particularly suited for heavy-duty applications, such as palletizing and CNC part handling. The robot's kinematic structure is divided into two functional groups: positioning axes that mimic the shoulder and elbow for spatial movement, and orientation axes that enable precise tool manipulation. This design helps the cobot overcome potential movement restrictions, known as singularities, ensuring continuous production flow in crowded factory settings. JAKA has optimized the Pro16 for high-precision environments, incorporating IP68-rated joints to protect internal components from dust, water, and oil. The robot maintains sub-millimeter repeatability and operates effectively in extreme temperatures, making it reliable for various industrial applications. Controlled wirelessly through the JAKA App, the Pro16 simplifies complex kinematic operations, enhancing productivity and efficiency in manufacturing processes. By integrating this cutting-edge technology, businesses can significantly improve their operational capabilities and maintain a competitive edge in the market.

Kawasaki Heavy to partner with Nvidia on physical AI, open US robot center

Kawasaki Heavy to partner with Nvidia on physical AI, open US robot center

Kawasaki Heavy Industries is collaborating with Nvidia to develop innovative solutions that merge robotics with physical artificial intelligence. This partnership, which includes contributions from Microsoft and Fujitsu, will establish a joint development center in Silicon Valley. The initiative aims to enhance Kawasaki's robotics applications by integrating Nvidia's advanced AI technology. This strategic move comes as the demand for AI-driven solutions in various industries continues to grow, with expectations that physical AI will significantly impact a large portion of companies in the coming years. The collaboration reflects a broader trend of Japanese and U.S. firms working together to advance AI technologies, particularly in sectors such as manufacturing and healthcare.

MASS and Littoral OpTech Conferences Converge in Atlantic Canada

MASS and Littoral OpTech Conferences Converge in Atlantic Canada

In a significant development, the U.S. Navy has announced the successful completion of a series of advanced training exercises aimed at enhancing operational readiness among its fleet. Conducted over the past month at various naval bases across the East Coast, these exercises involved multiple ships, submarines, and aircraft, showcasing the Navy's commitment to maintaining a high state of preparedness. The training was designed to simulate real-world scenarios, allowing personnel to refine their skills in navigation, combat tactics, and emergency response. This initiative comes in response to increasing global maritime challenges and aims to ensure that the Navy can effectively respond to potential threats. The exercises included joint operations with allied forces, emphasizing the importance of interoperability and collaboration in modern naval warfare. Participants engaged in complex maneuvers and strategic planning sessions, fostering teamwork and enhancing communication among units. Officials highlighted that the successful execution of these drills not only boosts the confidence of the fleet but also reassures allies and deters potential adversaries. The Navy plans to continue these training efforts regularly, adapting to evolving threats and technologies to ensure mission success in any operational environment.

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Southern border is a ‘sandbox’ for counter-drone tech: NORTHCOM commander

Southern border is a ‘sandbox’ for counter-drone tech: NORTHCOM commander

The US military, represented by Gen. Guillot, is actively engaging industry partners through the Joint Interagency Task Force 401 (JIATF 401) to showcase advanced technologies designed to counter adversary drones. This initiative aims to enhance border security by integrating innovative solutions from the private sector. The collaboration underscores the military's commitment to staying ahead of emerging threats in drone warfare. By inviting industry experts to demonstrate their capabilities, the US seeks to bolster its defense strategies and ensure a robust response to potential aerial challenges.

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Hunt For C-146 Wolfhound Special Ops Transport Plane Replacement Underway

Hunt For C-146 Wolfhound Special Ops Transport Plane Replacement Underway

The U.S. military is actively seeking a replacement for the C-146 Wolfhound, a special operations transport plane that has been crucial for global missions. As these aircraft continue to operate in various remote locations around the world, their sustainability has become a growing concern. The search for a suitable alternative is prompted by the increasing challenges associated with maintaining the aging fleet. This initiative reflects the military's commitment to ensuring operational readiness and effectiveness in diverse environments. The ongoing evaluation of potential replacements is part of a broader strategy to enhance the capabilities of special operations forces.

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Doosan Robotics Strengthens European Presence with Expanded Frankfurt Branch

Doosan Robotics Strengthens European Presence with Expanded Frankfurt Branch

Doosan Robotics has officially opened an expanded European branch in Frankfurt, Germany, on May 19, as part of its strategy to enhance business growth in the region. The ceremony attracted around 200 attendees, including key partners, customers, robotics associations, and media representatives. Initially established in 2024, the European branch has since formed partnerships with system integrators and distributors across major markets like Germany, France, and the Netherlands. The newly expanded facility aims to bolster local service and training capabilities, introducing new functions for robotics demonstrations and application development. To improve customer support, the branch will enhance its repair services, including individual component replacements, and maintain a local inventory of service parts. This allows for immediate deployment of replacement robots to minimize operational downtime during customer issues. Training programs will be localized and expanded, offering beginner to advanced courses bi-monthly, alongside a new "Live Repair" program for hands-on experience. The opening event showcased various robotic solutions, such as palletizing, machine tending, AI vision-based pick and place, and a cocktail-making robot. A showroom will provide potential customers with direct access to these solutions, while an Application Center will facilitate collaboration with engineers for customized developments. Inwon Park, President of Doosan Robotics, emphasized that the Frankfurt branch will enhance service speed and technical support across Europe, reinforcing the company's commitment to building brand trust and competitiveness in the market.

Robots Could Turn E-Waste Into a Source of Legacy Chips

Robots Could Turn E-Waste Into a Source of Legacy Chips

In response to increasing regulatory pressures regarding electronic waste, Tuurny, a San Francisco-based startup, is developing an innovative automated system aimed at enhancing e-waste recycling. With global e-waste projected to reach 82 million tonnes annually by 2030, current recycling methods capture less than one-third of the recoverable metal value from discarded electronics. Tuurny’s robotic system, named Nantul, is designed to identify and extract reusable components, particularly RAM integrated circuits, from circuit boards before they are shredded. The company plans to deploy dozens of these machines in early 2027 through a partnership with Areera, a UK-based television recycler that processes 1,500 tonnes of televisions monthly. Tuurny’s approach contrasts with traditional recycling methods, which often destroy valuable components by mixing them into bulk streams. Instead, Nantul employs advanced robotics and computer vision to carefully remove and sort components, aiming to create a new supply chain from recycled materials. Sina Ghashghaei, Tuurny’s founder, emphasizes the importance of recovering components from legacy systems, where sourcing replacements can be challenging. The technology, which combines suction, controlled heat, and robotic controls, is designed to minimize damage during extraction. While experts acknowledge the technical feasibility of Tuurny’s approach, challenges remain in ensuring the robots can adapt to the variability of e-waste and operate cost-effectively. The success of this initiative could significantly impact the recycling industry and address supply chain concerns for critical components in various sectors.

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Allient Inc. to Present at Upcoming Webinar on Engineering Thermally-Optimized Joints for Humanoids

Allient Inc. to Present at Upcoming Webinar on Engineering Thermally-Optimized Joints for Humanoids

A webinar is set to address the significant challenges associated with humanoid joint design, emphasizing the importance of interpreting motor data within a system-level context rather than adhering strictly to standard specifications. Scheduled for an upcoming date, this event will take place online, allowing participants from various locations to engage in discussions. The session aims to provide insights into practical engineering strategies for selecting motors and optimizing performance specifically for humanoid and advanced robotics applications. The focus will be on achieving reliable and thermally efficient performance, which is crucial for the advancement of robotics technology.

Forget electrons, this breakthrough uses light-matter particles to power AI

Forget electrons, this breakthrough uses light-matter particles to power AI

Researchers at the University of Pennsylvania have developed a groundbreaking hybrid light-matter particle that has the potential to significantly enhance artificial intelligence computing efficiency while reducing energy consumption. This innovative advancement could pave the way for the replacement of traditional electronic computing methods with more efficient light-based technologies. The research, which highlights the intersection of physics and computer science, aims to address the growing demand for faster and more sustainable computing solutions, particularly in the field of AI. By harnessing the unique properties of light and matter, the team believes this new approach could transform how data is processed, leading to faster and more energy-efficient systems.

5 Tips to Optimize Pick and Place Robotic Arm Cycle Times with Vision Systems

5 Tips to Optimize Pick and Place Robotic Arm Cycle Times with Vision Systems

In the realm of high-speed manufacturing, optimizing robotic efficiency is crucial, particularly with the integration of vision systems in 6-axis robotic arms. JAKA, a leader in automation technology, has developed the JAKA Zu series to enhance the performance of pick-and-place operations, particularly in fast-paced sectors like electronics and food packaging. To improve throughput, manufacturers are advised to optimize lighting and contrast, ensuring that parts are easily identifiable to reduce image processing lag. Implementing "on-the-fly" image processing allows the robotic arm to capture images while in motion, potentially cutting cycle times by 20% to 30%. Additionally, utilizing multi-tasking and path smoothing techniques enables the robot to maintain momentum and efficiency during operations. By narrowing the search windows for the vision system to specific areas on conveyor belts, manufacturers can significantly speed up part identification. Furthermore, calibrating for latency between the camera and the robotic arm is essential for precise part handling, allowing the robot to predict part locations accurately. The JAKA Zu7 model, with a payload capacity of 7kg and a reach of 819mm, exemplifies this advanced integration of vision and motion. Its high-speed joint actuators and exceptional repeatability of ±0.02mm ensure that operations are both fast and accurate. JAKA's commitment to "Embodied Intelligence" is reflected in its user-friendly software ecosystem, which facilitates easy calibration and setup for complex routines, ultimately driving productivity in modern manufacturing environments.

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.

What Are 6 Axis Robot Arms, and How Does Their Versatility Work?

What Are 6 Axis Robot Arms, and How Does Their Versatility Work?

In the realm of industrial automation, the 6-axis robot arm has emerged as a pivotal innovation, offering unparalleled flexibility in manufacturing processes. These advanced machines, designed to mimic human arm movements, have transformed factory operations by enabling complex tasks with ease. The versatility of these robots stems from their unique kinematic structure, which features a series of rotating joints that allow them to access virtually any point in their workspace from various angles. The term "6-axis" signifies the six independent joints that provide the robot with multiple degrees of freedom. The major axes facilitate overall reach, while the minor axes function as a mechanical wrist, granting the robot the ability to pitch, roll, and yaw. This capability allows for diverse applications, from precision medical assembly to heavy-duty palletizing, setting them apart from traditional 4-axis robots. The adaptability of 6-axis robots is particularly beneficial in high-mix production environments, where they can seamlessly switch between tasks throughout the day, such as CNC machine tending and complex surface finishing. This flexibility minimizes the need for specialized machinery, optimizing floor space and reducing capital costs. JAKA has capitalized on this versatility with its Zu series of collaborative robots, which are lightweight and easily redeployable across production lines. The JAKA Zu18 model, capable of handling an 18kg payload with a reach of 1073mm, exemplifies strength combined with agility. Enhanced by user-friendly wireless control through the JAKA App, these robots are positioned to meet the evolving demands of both small workshops and large assembly plants, ensuring efficiency and adaptability in modern manufacturing.

Understanding the Load Capacity and Duty Cycle of a Handling Robot

Understanding the Load Capacity and Duty Cycle of a Handling Robot

In the realm of industrial automation, JAKA has introduced its Zu series of robotic arms, which balance load capacity and duty cycle to enhance production line efficiency. The JAKA Zu12, for instance, boasts a 12 kg load capacity and a 1327 mm working radius while weighing only 41 kg, making it a versatile choice for heavy-duty applications such as packaging and palletizing. Understanding the importance of load capacity, JAKA emphasizes that the total weight a robot can handle includes not only the workpiece but also the End-of-Arm Tooling (EOAT). The company warns that exceeding a robot's load limit, especially with a significant load offset, can lead to decreased precision and reduced motor lifespan. Additionally, the duty cycle, which measures the robot's operational time versus idle periods, is crucial for maintaining performance. Operating beyond the recommended duty cycle can cause overheating and potential shutdowns, making it vital for manufacturers to select robots with efficient motors and effective heat dissipation. JAKA's robots are designed with integrated joints that provide real-time torque feedback, ensuring they operate safely within their limits. The JAKA App allows users to monitor performance data wirelessly, ensuring long-term reliability and precision. This innovation aims to meet the demands of modern smart factories, optimizing both productivity and return on investment.

Founder Motor Achieves Small-Batch Production of Robot Joint Motors

Founder Motor Achieves Small-Batch Production of Robot Joint Motors

Founder Motor (002196.SZ) has successfully initiated small-batch production of robot joint motors, a strategic move aimed at expanding its manufacturing capacity to address the increasing market demand for robotics components. This development comes as the company seeks to enhance its position in the rapidly evolving robotics industry, where demand for advanced motor technology is on the rise. By ramping up production capabilities, Founder Motor aims to meet the needs of clients and stay competitive in a sector characterized by innovation and growth. The decision to focus on robot joint motors reflects the company's commitment to leveraging its expertise in motor technology to capitalize on emerging opportunities within the market.

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