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SoftBank Robotics Debuting Autonomous Cooking Robots ‘STEAMA’ and ‘FLAMA’ in the US

SoftBank Robotics Debuting Autonomous Cooking Robots ‘STEAMA’ and ‘FLAMA’ in the US

SoftBank Robotics is set to introduce its autonomous cooking robots, the “STEAMA” and “FLAMA” systems, to the U.S. market. This announcement comes as the company aims to expand its food automation business beyond Japan. The robots will make their debut at the National Restaurant Association Show 2026, scheduled to take place in Chicago later this month. The introduction of these innovative cooking systems reflects SoftBank's commitment to enhancing efficiency in the food industry and meeting the growing demand for automation in restaurant operations.

AI AI Use Cases Robotics autonomous cooking robots FLAMA Japan
Autonomous process chains in the robots-to-goods model

Autonomous process chains in the robots-to-goods model

Locus Robotics has introduced the Locus Array, an advanced automation system designed to enhance the efficiency of increasingly autonomous warehouse operations. This innovative technology aims to streamline the Robots-to-Goods model, facilitating a more effective integration of robotic systems within supply chain processes. The announcement underscores the growing trend towards automation in logistics, driven by the need for improved productivity and accuracy in inventory management. By implementing the Locus Array, companies can expect to optimize their warehouse workflows, reduce operational costs, and respond more swiftly to market demands. This development marks a significant step forward in the evolution of automated logistics solutions.

Allgemein Automation Fördertechnik & Handling Lagerlogistik & Materialfluss Mobile Robotik
Geekplus intalls more than 400 autonomous mobile robots at multiple Toyota plants

Geekplus intalls more than 400 autonomous mobile robots at multiple Toyota plants

Geekplus has initiated the deployment of moving-type Autonomous Mobile Robots (AMRs) at multiple Toyota Motor Corporation plants across Japan. This strategic move comes in response to labor shortages stemming from the country's declining population and evolving labor market dynamics. Currently, 436 Geekplus AMRs are actively operating within Toyota's manufacturing facilities, with each system managing around 200 units. The integration of these robots aims to enhance operational efficiency and address workforce challenges, reflecting a growing trend in automating production processes within the automotive industry.

News Warehouse robots amrs automation news autonomous mobile robots factory automation
SoftBank to Enhance Store Management with AI and Autonomous Robots in Seven & i Investment Talks

SoftBank to Enhance Store Management with AI and Autonomous Robots in Seven & i Investment Talks

SoftBank is reportedly in discussions to invest in Seven & i Holdings, focusing on enhancing store management through its proprietary AI technology. The investment aims to integrate autonomous robots into the retail operations, potentially transforming customer service and inventory management. Specific figures regarding the investment or timeline for implementation were not disclosed at the time of publication. This initiative is significant as it aligns with the growing trend of utilizing AI and robotics in retail to streamline operations and improve efficiency. By leveraging its in-house AI capabilities, SoftBank seeks to address challenges in store management, which can lead to better resource allocation and enhanced customer experiences. The integration of autonomous robots could also reduce labor costs and improve operational accuracy. Looking ahead, industry observers will be keen to see how this potential investment unfolds and its impact on Seven & i's operations. The timeline for the rollout of AI and robotic solutions remains unclear, with no further details disclosed at this time. Stakeholders will monitor developments closely as the retail sector continues to evolve with technology adoption.

News ai Japan paypay Retail Seven & i Holdings
Researchers Say Autonomous Robots Can Make Safer Decisions With ‘Rulebooks’ System

Researchers Say Autonomous Robots Can Make Safer Decisions With ‘Rulebooks’ System

Researchers at Iowa State University, in collaboration with ETH Zürich, have introduced a novel framework designed to enhance the decision-making capabilities of autonomous robots in situations where rules may conflict. The findings, published in the IEEE Transactions on Robotics, outline a system referred to as "rulebooks," which prioritizes rules rather than merging them. This innovative approach aims to improve the safety and transparency of robotic operations in real-world environments, addressing a critical challenge in the field of robotics. The study underscores the importance of establishing clear guidelines for robots to navigate complex scenarios effectively, ultimately contributing to the advancement of autonomous technology.

AI AI Research & Advances Robotics autonomous systems autonomous vehicles ETH Zürich
Video Friday: Autonomous Robots Learn By Doing in This Factory

Video Friday: Autonomous Robots Learn By Doing in This Factory

In a recent edition of Video Friday, IEEE Spectrum robotics showcased a variety of innovative robotics projects and developments. Notably, scientists at the Toyota Research Institute are collaborating with Toyota Manufacturing to implement autonomous robots on factory floors, enhancing production efficiency. Zipline shared insights into their drone delivery system, detailing the challenges faced and lessons learned in its development. Humanoid introduced KinetIQ, an AI framework designed for the orchestration of humanoid robot fleets, which integrates task allocation and execution through advanced cognitive layers. Meanwhile, researchers at VISTEC unveiled a decentralized adaptive resilient neural control system (DARCON) that enables legged robots to autonomously adapt to limb loss, ensuring mission success despite mechanical failures. NASA's Jet Propulsion Lab presented an animation of the Perseverance rover's drive along the Jezero Crater, captured on December 10, 2025, showcasing the rover's navigation capabilities. Additionally, Unitree's humanoid robot G1 made its mark on the snowfields of Altay, demonstrating its adaptability in extreme conditions. The Norwegian University of Science & Technology introduced a hierarchical 3D scene graph to enhance autonomous agents' understanding of their environments. Other highlights included the HoLoArm quadrotor, which features compliant arms for improved stability, and SkyDreamer, a pioneering vision-based autonomous-drone racing policy. The event also featured demonstrations of dexterous object manipulation by the AI Worker robot and advancements in swarm robotics for architectural applications.

Video-friday Autonomous-robots Humanoid-robots Industrial-robots Robot-ai Perseverance-rover
JD Logistics unveils five-year plan to deploy millions of robots, autonomous vehicles, and drones

JD Logistics unveils five-year plan to deploy millions of robots, autonomous vehicles, and drones

JD Logistics revealed on Friday its ambitious plan to acquire three million robots, one million autonomous vehicles, and 100,000 drones over the next five years. This initiative aims to significantly enhance automation within its logistics and supply chain network. The company has already successfully deployed its "Wolf Pack" series of robots across more than 20 provinces, showcasing its commitment to advancing operational efficiency and technological integration in its services. By investing in these advanced technologies, JD Logistics seeks to streamline its operations and improve service delivery, positioning itself as a leader in the rapidly evolving logistics sector.

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AVI-SPL and Volvo Autonomous Solutions Launch Freight Operations Between Dallas and Houston

AVI-SPL and Volvo Autonomous Solutions Launch Freight Operations Between Dallas and Houston

AVI-SPL, in partnership with Volvo Autonomous Solutions, has initiated commercial autonomous freight operations between Dallas and Houston using the Volvo VNL Autonomous vehicle powered by the Aurora Driver. This operation will facilitate the transport of audio-visual electronics, including new products and end-of-life equipment for recycling, enhancing AVI-SPL's Electronic Recycling Program. This collaboration is significant as it addresses the increasing freight demand in the U.S. amid a shortage of qualified drivers and delivery capacity constraints. By leveraging autonomous transport technologies, AVI-SPL aims to improve logistics operations, enhance service delivery, and meet the needs of time-sensitive freight, thereby reinforcing its position as a leader in the industry. Looking ahead, this partnership represents a pivotal advancement in the application of autonomous trucking in logistics. As freight capacity demand escalates, the focus will be on how these technologies can enhance supply chain efficiency, improve asset utilization, and ensure cargo security. No further timeline was disclosed at the time of publication.

Autonomous Vehicles News Technology aurora driver autonomous freight autonomous trucking
Coco Robotics Deploys Autonomous Delivery Robots with Uber Eats in San Jose

Coco Robotics Deploys Autonomous Delivery Robots with Uber Eats in San Jose

Coco Robotics, recognized as the largest urban robot delivery platform globally and recently honored as one of Fast Company’s World’s Most Innovative Companies in logistics, has launched its autonomous delivery service in San Jose, California. This expansion allows residents, workers, and businesses in the city’s urban core to benefit from the convenience of robotic deliveries. The service is now operational, enhancing accessibility and efficiency in local logistics.

AI AI Use Cases Robotics autonomous delivery robot California Coco Robotics
Impossible Metals to Launch Advanced Marine Robotics Hub for Deep-Sea Mineral Harvesting

Impossible Metals to Launch Advanced Marine Robotics Hub for Deep-Sea Mineral Harvesting

Impossible Metals, a US mining technology company, has announced plans to establish an Advanced Marine Robotics Hub in Pittsburgh, Pennsylvania. This facility will focus on developing autonomous marine systems for the deep-sea collection of critical minerals, creating over a dozen high-paying engineering and science jobs. The hub aims to enhance US capabilities in marine robotics and critical mineral technologies through collaboration with local universities and researchers. The significance of this initiative lies in its potential to redefine deep-sea mining practices. According to Mike Regan, Chief Growth Officer at Impossible Metals, the hub will enable swarms of autonomous robots to harvest critical minerals like nickel, cobalt, copper, and manganese with minimal environmental impact. This approach not only promises to produce the lowest-cost critical metals on Earth but also aims to strengthen the US supply chain and reduce reliance on foreign sources of essential materials. Looking ahead, the Advanced Marine Robotics Hub will serve as the primary research center for advancing the Eureka autonomous underwater platform and Smart Launch and Recovery Systems. The company plans to continue developing dual-use technologies that cater to both commercial and naval applications. No further timeline was disclosed at the time of publication.

AI and Robotics
Optimus Robots to Construct Lunar Outpost by End of 2026 Under Musk's Plan

Optimus Robots to Construct Lunar Outpost by End of 2026 Under Musk's Plan

Elon Musk has announced that Tesla's Optimus humanoid robots will lead the construction of a lunar outpost by the end of 2026. SpaceX plans to launch essential construction materials, including modular living quarters and energy equipment, to the Moon using the Starship rocket. The deployment of robots aims to minimize human safety risks and efficiently handle repetitive heavy labor tasks. The rationale behind using robots instead of humans is to reduce complexity and enhance operational efficiency. According to Jim Cantrell, a member of the SpaceX founding team, robots only require sunlight and occasional maintenance, allowing them to work continuously. Upon arrival on the Moon, the Optimus robots will autonomously unload materials, prepare the lunar surface, and assemble prefabricated habitats while also extracting water ice for life support and fuel. Musk envisions the Moon as a testing ground for Mars colonization, with plans to send astronauts to the Moon within 2-3 years and establish a self-sustaining city by 2036. However, challenges remain, including the need for successful orbital refueling of the Starship and overcoming harsh lunar conditions. No further timeline was disclosed at the time of publication.

Humanoid Robots Space Exploration Lunar Colonization Construction Robotics
100 autonomous robots in fulfillment operations

100 autonomous robots in fulfillment operations

Exotec has equipped DSV's logistics center in Venlo, Netherlands, with its innovative Skypod system, enhancing the facility's fulfillment capabilities. This advanced automation solution features 100 autonomous robots designed to streamline operations and improve efficiency in the supply chain. The implementation of the Skypod system is part of DSV's strategy to optimize logistics processes and meet growing demand in the e-commerce sector. By integrating these robots, the company aims to accelerate order processing and reduce operational costs, positioning itself competitively in the rapidly evolving logistics landscape.

Allgemein Fördertechnik & Handling Lagerlogistik & Materialfluss Lösungen
Drive solutions for shuttles, automated guided vehicles, and autonomous mobile robots.

Drive solutions for shuttles, automated guided vehicles, and autonomous mobile robots.

At the SPS Italia exhibition, Bonfiglioli showcased its innovative mechatronic ecosystem, highlighting advanced drive solutions tailored for shuttles, automated guided vehicles (AGVs), and autonomous mobile robots (AMRs). This presentation underscores Bonfiglioli's commitment to enhancing automation and efficiency in various industrial applications. The event, held in Italy, serves as a platform for industry leaders to explore cutting-edge technologies and solutions that address the evolving needs of the market. Through its participation, Bonfiglioli aims to demonstrate its leadership in the field and foster collaborations that drive technological advancements in automation.

Allgemein Antriebs- und Lineartechnik Robotik
Award Registration! Top Scholars Discuss Micro Robots and Autonomous Navigation Innovations

Award Registration! Top Scholars Discuss Micro Robots and Autonomous Navigation Innovations

A recent Cell Press Live event brought together three prominent experts to explore the latest advancements in autonomous navigation technologies. The discussion covered a range of applications, including self-driving cars, drones, and innovative drug delivery systems. Scheduled for a future date, the event offers free registration for attendees eager to gain insights into cutting-edge research in micro-robotics, light-driven robots, and optimization frameworks for enhancing autonomous systems. This initiative aims to inform and engage the public in the rapidly evolving field of autonomous technology, showcasing how these innovations can transform various industries.

Micro Robots Autonomous Navigation Soft Robotics AI Drug Delivery Systems
Autonomous robots to get accurate awareness of real-world environments with US engineers’ new step

Autonomous robots to get accurate awareness of real-world environments with US engineers’ new step

A new collaboration has been announced between leading technology firms aimed at enhancing the capabilities of autonomous robots in navigating complex environments. This initiative, which is set to kick off in early 2024, will take place at various research facilities across the United States and Europe. The partnership seeks to address the growing demand for advanced robotic systems in industries such as manufacturing, logistics, and healthcare, where precision and efficiency are paramount. By leveraging cutting-edge artificial intelligence and machine learning techniques, the teams involved plan to develop innovative solutions that will improve the robots' ability to adapt to unpredictable situations. This collaboration represents a significant step forward in the quest to create more reliable and versatile autonomous systems, ultimately aiming to revolutionize how robots are integrated into everyday operations.

YouTime Technology Secures Hundreds of Millions in Series B Funding, Expanding from L4 Visual Autonomous Driving to Humanoid Robots

YouTime Technology Secures Hundreds of Millions in Series B Funding, Expanding from L4 Visual Autonomous Driving to Humanoid Robots

YouTime Technology, a company focused on L4 low-speed autonomous driving, has successfully raised hundreds of millions of RMB in a Series B funding round, with Qianhai Ark leading the investment. This funding, finalized recently, aims to facilitate the company's transition to embodied intelligence and advance the development of multimodal AI agents. Additionally, the capital will enhance the visual navigation capabilities of their humanoid robots, positioning YouTime Technology for significant growth in the autonomous driving sector.

Autonomous Driving Humanoid Robots AI Technology Computer Vision
Phase stability regulator based on two dynamic parameters for autonomous mobile robots

Phase stability regulator based on two dynamic parameters for autonomous mobile robots

A researcher has highlighted the advantages of implementing a phase stability regulator featuring two real-time signals for autonomous mobile robots (AMRs). This innovation aims to enhance the operational efficiency and reliability of AMRs, which are increasingly utilized in various industries for tasks such as logistics and delivery. The findings were discussed in a recent publication on The Robot Report, emphasizing the importance of advanced regulatory systems in improving the performance of these robots. By integrating dynamic parameters into the phase regulation process, the researcher suggests that AMRs can achieve better stability and responsiveness in their operations, ultimately leading to more effective automation solutions.

Autonomous Mobile Robots (AMRs) Logistics Manufacturing Mobility / Navigation News Opinion
For autonomous robots, not all rules are equal

For autonomous robots, not all rules are equal

As autonomous robots increasingly assume responsibilities across various sectors, they encounter complex ethical dilemmas similar to those faced by humans, particularly in situations where rules conflict. This evolution is evident in the transition from traditional driving tasks to the operation of flying drones, highlighting the growing reliance on technology in everyday life. The advancements in artificial intelligence and robotics have prompted discussions among experts and policymakers about the implications of these technologies, especially regarding decision-making processes in critical situations. The ongoing development of autonomous systems raises questions about accountability and the ethical frameworks needed to guide their actions. As these technologies become more integrated into society, understanding how they navigate moral conflicts will be essential for ensuring safety and compliance with societal norms.

Robotics
Autonomous Aerial Robots Communicate, Prioritize Rooms in Multiroom Exploration

Autonomous Aerial Robots Communicate, Prioritize Rooms in Multiroom Exploration

Researchers at the Robotics Institute have unveiled an innovative approach to enhance autonomous aerial robot exploration and coordination among multiple robots in abandoned buildings. This advancement aims to assist first responders in efficiently gathering critical information and making informed decisions following disasters, such as earthquakes, which occur approximately 100 times a year globally. The method focuses on enabling robots to communicate effectively and prioritize rooms during multiroom exploration, thereby improving the overall response to emergencies. The development underscores the potential of robotics technology in disaster management, particularly in navigating hazardous environments where traditional methods may fall short.

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

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.

Agriculture News agribusiness technology agricultural AI agricultural automation agricultural innovation
Massimo Group Launches AI Intelligent Patrol Platform Initiative Integrating Autonomous Patrol Vehicles, Spherical Security Robots and Drone Systems

Massimo Group Launches AI Intelligent Patrol Platform Initiative Integrating Autonomous Patrol Vehicles, Spherical Security Robots and Drone Systems

Massimo Group has officially launched the prototype development of autonomous patrol electric vehicles, aiming to penetrate the $50.4 billion U.S. security services industry. This initiative, which began in October 2023, focuses on integrating artificial intelligence into patrol and intelligent security mobility systems. By leveraging advanced technology, the company seeks to enhance security operations and improve efficiency in monitoring and response capabilities. The move is part of Massimo Group's broader strategy to innovate within the security sector, addressing growing demands for smarter and more effective security solutions.

Smart Wheelchair Captivates Attention at Stanford AI Summit Over Humanoid Robots

Smart Wheelchair Captivates Attention at Stanford AI Summit Over Humanoid Robots

At the Humanity & AGI Summit held at Stanford University, a smart wheelchair presented by Fu Sheng, Chairman of Cheetah Mobile, garnered significant attention, overshadowing humanoid robots. Attendees were drawn to the wheelchair's autonomous obstacle avoidance and user-friendly features, prompting many to experience it firsthand. The interest in the smart wheelchair highlights a critical shift in the robotics landscape, as Fu Sheng noted that humanoid robots are unlikely to achieve commercial scalability in the next five to ten years. He emphasized that the current limitations in software and hardware development hinder the practical application of humanoid robots, with most sales directed towards research institutions rather than commercial markets. Looking ahead, the focus on practical solutions like the smart wheelchair suggests a growing recognition that functionality is more important than form in robotics. As the industry continues to evolve, the demand for effective, user-centric products will likely shape future innovations, steering attention away from humanoid designs towards more practical applications.

Smart Wheelchairs Humanoid Robots AI Technology Robotics Assistive Devices
XAG Unveils Aerial and Ground Agricultural Robots for Fully Autonomous Crop Protection

XAG Unveils Aerial and Ground Agricultural Robots for Fully Autonomous Crop Protection

XAG has unveiled its latest advancements in agricultural technology with the introduction of the new X Series agricultural robots and the RM80 mowing robot. These innovations aim to enhance farm automation by addressing the final stages of agricultural processes, which include autonomous spraying, self-charging capabilities, and the mixing of chemicals. This launch, which took place in October 2023, is part of XAG's ongoing commitment to revolutionize farming practices and improve efficiency in the agricultural sector. By integrating advanced robotics into farming operations, XAG seeks to provide farmers with tools that streamline their work and reduce labor costs, ultimately contributing to more sustainable agricultural practices.

Robotics
Autonomous mobile robots enhance assembly automation.

Autonomous mobile robots enhance assembly automation.

Schnaithmann has introduced autonomous mobile robots into its assembly and transfer lines, enhancing automation capabilities. This integration aims to streamline operations and improve efficiency in manufacturing processes. The deployment of these robots represents a significant advancement in the company's approach to modern assembly automation, reflecting a growing trend in the industry towards increased reliance on autonomous technologies.

Allgemein Automation Fördertechnik & Handling Lagerlogistik & Materialfluss Mobile Robotik
OMRON Robotics to Demonstrate Next-Generation Autonomous Mobile Robots at Automate 2026

OMRON Robotics to Demonstrate Next-Generation Autonomous Mobile Robots at Automate 2026

A leading technology company has unveiled its latest advancements in automated material handling with the introduction of the LD-150 and LD-300 autonomous mobile robots (AMRs). This launch took place in October 2023, showcasing the company's commitment to enhancing efficiency in logistics and warehouse operations. The new AMRs are designed to streamline material flow, addressing the growing demand for smarter and more flexible solutions in supply chain management. By integrating advanced navigation and sensing technologies, the LD-150 and LD-300 aim to optimize workflows, reduce operational costs, and improve safety in various industrial environments. This innovation reflects the company's strategy to leverage automation in response to evolving market needs and the increasing complexity of logistics operations.

SAP SE (SAP), Cyberwave Deploy Autonomous AI Robots in Logistics Warehouse

SAP SE (SAP), Cyberwave Deploy Autonomous AI Robots in Logistics Warehouse

SAP SE and Cyberwave have successfully deployed fully autonomous, AI-powered robots in SAP's logistics warehouse located in St. Leon-Rot, Germany, as of May 11, 2026. This initiative represents a significant advancement for SAP, transitioning its Physical AI technology from research to practical application. The robots, powered by SAP’s cloud-native Logistics Management solution and the SAP Business Technology Platform, are now capable of performing various tasks including box folding, packaging, and shipping fulfillment. The deployment addresses common challenges in logistics robotics, such as unpredictable environments and diverse object shapes that often hinder traditional systems. Cyberwave's innovative platform utilizes Vision-Language-Action and Reinforcement Learning models, enabling non-expert operators to teach robots new tasks through simple demonstrations. This approach significantly reduces training time from weeks to hours and allows robots to adapt to dynamic conditions in real-time. As a result of this integration, SAP has reported increased warehouse throughput and a decrease in physically demanding tasks for human workers. The project serves as a successful reference implementation, showcasing how a robust digital infrastructure combined with adaptive AI can enhance logistics operations. Both SAP and Cyberwave are now focused on further developing these Embodied AI capabilities to support future large-scale deployments.

Swiss Kemaro Pre-Closes $5M in Series B Round to Fund Expansion of Autonomous Industrial AI-Native Cleaning Robots 

Swiss Kemaro Pre-Closes $5M in Series B Round to Fund Expansion of Autonomous Industrial AI-Native Cleaning Robots 

Swiss industrial robotics company Kemaro has successfully secured $5 million in an initial pre-closing of its Series B funding round, which aims to raise a total of $20 million. The pre-closing was spearheaded by Spicehaus Partner AG. The funds will be utilized to enhance sales operations, facilitate international expansion, and support the development of new products. Founded in [year], Kemaro is positioning itself for significant growth in the robotics sector.

AI AI Funding & Investment Robotics funding KEMARO robots
The Future of Cobot Palletizing: Autonomous Mobile Robots and Modular Systems

The Future of Cobot Palletizing: Autonomous Mobile Robots and Modular Systems

As the manufacturing and logistics sectors evolve, JAKA is pioneering advancements in cobot palletizing, emphasizing flexibility and autonomy. Customers are increasingly demanding systems that can adapt to varying layouts, product types, and throughput requirements without extensive reconfiguration. The integration of six-axis robot arms is central to this shift, enabling dynamic handling of mixed loads and pallet patterns. A key trend in this field is the combination of autonomous mobile robots with collaborative manipulators. This integration allows for palletizing tasks to occur beyond fixed stations, enabling cobots to move between production lines and adjust to seasonal shifts or temporary capacity needs. The use of modular mechanical interfaces and standardized communication protocols facilitates scalable system development, transforming cobot palletizing into a shared resource that enhances operational efficiency and investment planning. Advanced control capabilities are also crucial for the future of cobot palletizing. Features such as precise path planning, responsive motion control, and adaptable force management enable collaborative robots to handle various packaging formats consistently. For instance, the JAKA Zu7 robot can seamlessly transition between palletizing and secondary tasks like automated screwdriving, adjusting torque settings as needed. Looking forward, JAKA envisions a future where cobot palletizing is characterized by autonomous mobility, modular design, and intelligent control. This approach aims to ensure that palletizing solutions evolve alongside production demands, rather than limiting them. By aligning collaborative robots with mobile platforms and adaptable end-effectors, JAKA is committed to developing systems that integrate into broader automation strategies, supporting reliable operations and sustainable growth in modern automated facilities.

Over 200 Estun Robots Deployed in a Single Line! Large-Scale Production of Fully Autonomous Automotive Parts Welding Line Launched

Over 200 Estun Robots Deployed in a Single Line! Large-Scale Production of Fully Autonomous Automotive Parts Welding Line Launched

Estun has marked a significant achievement in the automotive manufacturing sector by successfully installing and commissioning over 200 robots in a fully autonomous production line. This milestone, reached recently, demonstrates an impressive 90% automation level, highlighting Estun's advanced technology and expertise in high-end automotive manufacturing. The successful implementation not only showcases the company's capabilities but also sets a new benchmark for the industry, potentially influencing future manufacturing processes and standards.

Industrial Robots Automotive Manufacturing Automation Technology Robotic Welding
Podcast: Revolutionising Warehouses – The Rise of Autonomous Robots

Podcast: Revolutionising Warehouses – The Rise of Autonomous Robots

Autonomous mobile robots (AMRs) are revolutionizing warehouse operations by enhancing scalability, integrating artificial intelligence, and allowing for flexible deployment strategies. This transformation is particularly significant in the logistics sector, where companies are increasingly adopting AMRs to improve efficiency and reduce operational costs. As of October 2023, the implementation of these robots is gaining momentum, with businesses recognizing the need to adapt to the fast-paced demands of e-commerce and supply chain management. By automating tasks such as inventory management and order fulfillment, AMRs are not only streamlining processes but also enabling warehouses to scale their operations more effectively. The integration of AI allows these robots to learn and adapt to their environments, further optimizing their performance. As a result, many organizations are investing in this technology to stay competitive in an evolving marketplace.

Challenges in Reducing Costs of Agricultural Robots Like the Andela Weeder

Challenges in Reducing Costs of Agricultural Robots Like the Andela Weeder

The Andela Robot Weeder is priced at approximately €800,000 (US$961,000), raising questions about the factors influencing its cost. Unlike traditional machinery, the price of agricultural robots is increasingly determined by the economic value they provide rather than manufacturing costs. This shift in perspective complicates the business case for growers, as the value derived from labor replacement and efficiency gains becomes paramount. As labor shortages and restrictions on herbicides grow, the competition landscape for agricultural robots may change significantly. Robots may not need to compete solely on price against traditional methods like chemical weed control. Instead, they could emerge as essential tools, altering the pricing dynamics in the market. While advancements in technology will likely enhance the performance of agricultural robots, this does not guarantee a decrease in their prices. The value proposition for farmers will focus more on the economic benefits rather than the cost of production, making the future of pricing in this sector uncertain. No further timeline was disclosed at the time of publication.

Crop solutions autonomous farm farm management mechanical weeder robotics weed control
Asylon's MARIA System Enhances Aircraft Inspections for U.S. Air Force

Asylon's MARIA System Enhances Aircraft Inspections for U.S. Air Force

Asylon has secured a Phase Three contract with the U.S. Air Force's Warner Robins Air Logistics Complex to deploy its Multi-modal Autonomous Robotics for Inspection of Aircraft (MARIA) system. This initiative aims to streamline aircraft inspections by integrating air and ground robotic platforms, significantly reducing the time for general visual inspections while enhancing consistency in maintenance tasks. The MARIA system combines Asylon's Guardian unmanned aircraft with the DroneDog Q-UGV, utilizing the Range autonomy software and DroneIQ command-and-control system for efficient inspection management. The significance of this deployment lies in its potential to transform aircraft maintenance operations. By automating inspections, the MARIA system not only improves inspection quality but also mitigates the risks associated with labor-intensive tasks. The integration of imagery, LiDAR data, and telemetry into a single platform allows maintenance personnel to make informed decisions quickly, thereby enhancing aircraft readiness without increasing manpower demands. This project marks a pivotal shift in how the Air Force approaches maintenance, leveraging autonomous technologies to optimize operational efficiency. Looking ahead, the success of the MARIA deployment at Warner Robins could lead to broader adoption of these technologies across military maintenance organizations. No further timeline was disclosed at the time of publication, but the ongoing collaboration between Asylon and the Air Force may pave the way for future advancements in defense sustainment operations, particularly in the realm of autonomous inspections and maintenance support.

Military
AI agents enhance autonomous inspections, revamping manual approval processes for drones and ground robots by DataRobot, Chevron, and NVIDIA.

AI agents enhance autonomous inspections, revamping manual approval processes for drones and ground robots by DataRobot, Chevron, and NVIDIA.

DataRobot has announced a collaboration with Chevron U.S.A. Inc., a subsidiary of Chevron Corporation, to implement agent-based AI in edge environments. This partnership aims to enhance autonomous patrol and inspection operations at Chevron facilities. By leveraging advanced AI technology, the initiative seeks to improve operational efficiency and safety in the company's infrastructure.

BayCare Expands Autonomous Hospital Delivery with New Relay Robots at Winter Haven Hospitals

BayCare Expands Autonomous Hospital Delivery with New Relay Robots at Winter Haven Hospitals

In response to the ongoing healthcare labor shortage, a new initiative has been launched to expand the use of robotic technology in hospitals. This expanded fleet of robots is designed to automate non-clinical logistics, allowing healthcare professionals to focus more on direct patient care. By streamlining tasks such as inventory management and supply delivery, the robots aim to enhance efficiency within medical facilities. This initiative is particularly timely as healthcare systems face increasing pressure to optimize resources and improve patient outcomes. The deployment of these robots is expected to significantly reduce the burden on nursing staff, ultimately prioritizing nurse-to-patient interaction and enhancing the overall quality of care.

Real‐Time Monocular 2D Occupancy Grid Mapping for Autonomous Navigation of Ground Robots

Real‐Time Monocular 2D Occupancy Grid Mapping for Autonomous Navigation of Ground Robots

In May 2026, researchers published a significant study in the Journal of Field Robotics, focusing on advancements in robotic technology. The study, appearing in Volume 43, Issue 3, pages 1844-1860, highlights innovative methodologies for enhancing the efficiency and autonomy of field robots. Conducted by a team of experts in robotics and artificial intelligence, the research aims to address the growing demand for automation in various industries, including agriculture and disaster response. The findings reveal new algorithms that improve navigation and decision-making processes for robots operating in complex environments. This research is particularly relevant as industries increasingly seek to integrate robotic solutions to optimize operations and reduce human risk in hazardous situations. By employing advanced machine learning techniques, the team demonstrated how robots can adapt to dynamic conditions, thereby increasing their effectiveness in real-world applications. The study's implications extend beyond theoretical advancements, as it provides practical frameworks for deploying robots in challenging scenarios. As the field of robotics continues to evolve, this research contributes to the ongoing dialogue about the future of automation and its potential to revolutionize traditional practices across multiple sectors.

RESEARCH ARTICLE
RoverTech's Zmyi Ground Robots Enhance Ukraine's Military Operations with 57 Mission Average

RoverTech's Zmyi Ground Robots Enhance Ukraine's Military Operations with 57 Mission Average

Ukrainian robotics firm RoverTech has developed the Zmyi, a versatile ground robot that has achieved an impressive average of 57 missions in the frontline kill zone. Weighing 800 kilograms and equipped with various configurations for tasks such as demining and combat, the Zmyi is designed to evade detection by enemy drones, making it a critical asset in Ukraine's defense strategy. The significance of the Zmyi lies in its ability to operate effectively in high-risk environments, outperforming typical uncrewed ground vehicles (UGVs) that usually complete only seven missions. This advancement reflects a broader trend in Ukraine's military technology, where UGVs are increasingly replacing traditional armored vehicles due to their lower cost and adaptability for urgent battlefield needs. Looking ahead, Ukraine's President Volodymyr Zelenskyy has ordered the procurement of 50,000 UGVs by the end of 2026, significantly increasing the military's robotic capabilities. As the conflict evolves, the integration of UGVs with aerial reconnaissance is expected to reshape frontline tactics, although no further timeline was disclosed at the time of publication.

Ground-robots Ukraine Unmanned-vehicles Ugvs Sensor-networks
Google joins Japanese robotics giant to power next-gen autonomous factory robots

Google joins Japanese robotics giant to power next-gen autonomous factory robots

Google has partnered with FANUC America Corporation, a leading Japanese robotics company, to enhance the development of Physical AI technology. This collaboration aims to integrate advanced artificial intelligence into robotics, enabling machines to better understand and interact with the physical world. The announcement was made recently, signaling a significant step forward in the field of robotics and AI. By combining Google’s expertise in AI and machine learning with FANUC's extensive experience in automation and robotics, the two companies seek to create more intelligent and adaptable robotic systems. This initiative is driven by the growing demand for automation in various industries, as businesses look to improve efficiency and productivity through innovative technologies. The partnership is expected to leverage cutting-edge research and development, paving the way for breakthroughs in how robots operate and collaborate with humans in diverse environments.

US scientists are building autonomous robots that can learn directly from researchers

US scientists are building autonomous robots that can learn directly from researchers

Researchers at Argonne National Laboratory are advancing the field of laboratory automation by creating AI-powered robotic assistants capable of learning and performing various laboratory procedures. This innovative project aims to enhance efficiency and accuracy in scientific research, addressing the growing demand for streamlined processes in laboratories. The development is part of a broader effort to integrate artificial intelligence into everyday scientific tasks, allowing researchers to focus on more complex problem-solving. As the project progresses, the team is exploring various machine learning techniques to enable these robots to adapt and improve their skills over time. This initiative is expected to revolutionize how experiments are conducted, ultimately accelerating the pace of scientific discovery.

Autonomous Mobile Picking Robots: Bridging the Gap Between Warehouse Automation and Retail Fulfillment

Autonomous Mobile Picking Robots: Bridging the Gap Between Warehouse Automation and Retail Fulfillment

A new integrated autonomous picking system has been developed to tackle challenges in automated material handling. This innovative system combines a lightweight six-degree-of-freedom robotic arm with depth-camera-based vision, adaptive grasping capabilities, and intelligent task management. The deployment of this technology aims to enhance efficiency and accuracy in various industrial applications. The system was designed to streamline operations and reduce labor costs, addressing the growing demand for automation in the logistics and manufacturing sectors. By leveraging advanced robotics and artificial intelligence, the integrated system promises to improve productivity and operational effectiveness in environments where precision and speed are critical.

Autonomous Transportation Robots for Finished Vehicle Docking in RORO Logistics Terminal: Design, Control, and Implementation

Autonomous Transportation Robots for Finished Vehicle Docking in RORO Logistics Terminal: Design, Control, and Implementation

In a recent study published in the Journal of Field Robotics, researchers explored advancements in robotic technologies aimed at enhancing agricultural efficiency. The research, conducted by a team of scientists from various institutions, was released in May 2026 and highlights the integration of autonomous systems in farming practices. The study emphasizes the growing need for innovative solutions in agriculture due to increasing global food demands and labor shortages. By implementing advanced robotics, the team aims to address these challenges, demonstrating how autonomous machines can improve crop monitoring, pest control, and harvesting processes. The researchers employed a combination of field tests and simulations to assess the performance of these robotic systems in real-world agricultural settings. Their findings indicate significant improvements in productivity and resource management, suggesting that the adoption of such technologies could lead to more sustainable farming practices. This research not only contributes to the field of robotics but also offers practical solutions for the agricultural sector, potentially transforming how food is produced and managed in the future.

RESEARCH ARTICLE
Into the Omniverse: Physical AI Open Models and Frameworks Advance Robots and Autonomous Systems

Into the Omniverse: Physical AI Open Models and Frameworks Advance Robots and Autonomous Systems

NVIDIA is playing a pivotal role in advancing innovation in robotics and autonomy through open-source initiatives. By offering access to vital infrastructure, including simulation frameworks and artificial intelligence models, the company is fostering collaborative development among researchers and developers. This approach aims to expedite advancements in the field, ultimately enhancing the capabilities of robotic systems and autonomous technologies. The emphasis on open-source resources is designed to break down barriers to entry, allowing a wider range of contributors to participate in the evolution of these cutting-edge technologies. As a result, NVIDIA is not only positioning itself as a leader in the industry but also promoting a more inclusive and accelerated development environment for robotics and autonomy.

Serve Robotics expands beyond food delivery with autonomous laundry service

Serve Robotics expands beyond food delivery with autonomous laundry service

Serve Robotics has entered into a partnership with NoScrubs, an emerging on-demand laundry service, to expand its delivery offerings beyond prepared food. This collaboration, which marks Serve's inaugural venture into urban delivery for laundry, will kick off this week in select neighborhoods across Los Angeles. Utilizing Serve's fleet of autonomous sidewalk robots, the pilot program aims to deliver laundry orders directly to customers' doorsteps, enhancing convenience and efficiency in urban logistics.

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South Korea backs autonomous military robots with digital twin battlefield simulator

South Korea backs autonomous military robots with digital twin battlefield simulator

South Korea has chosen NC AI, a gaming and artificial intelligence company, along with defense manufacturer Hyundai Rotem, to develop advanced military training systems. This initiative, announced recently, aims to enhance the country's defense capabilities through innovative technology. The collaboration will focus on creating realistic simulations and training environments for military personnel, leveraging NC AI's expertise in AI and gaming technology. The project is part of South Korea's broader strategy to modernize its military and improve operational readiness in response to evolving security challenges in the region. The development is expected to take place over the next few years, with the goal of integrating cutting-edge technology into military training programs.

SAP and Cyberwave Deploy Fully Autonomous AI-Powered Robots in Live SAP Logistics Warehouse

SAP and Cyberwave Deploy Fully Autonomous AI-Powered Robots in Live SAP Logistics Warehouse

SAP has taken a significant step in its strategic expansion of Physical AI capabilities by operationalizing advanced robotics within its facilities. This initiative, announced last year, represents a major milestone for the company as it seeks to enhance its operational efficiency and innovation. By integrating advanced robotics into its operations, SAP aims to streamline processes and improve productivity. This development not only showcases SAP's commitment to leveraging cutting-edge technology but also positions the company at the forefront of the evolving landscape of automation in the industry. The implementation of these robotics is expected to take place in the coming months, reflecting SAP's ongoing efforts to transform its business practices and adapt to the demands of a rapidly changing market.

Nyobolt Closes $60 M Series C Funding Round at $1B Valuation, to Power Autonomous Machines, Physical AI Applications and AI Data Centers

Nyobolt Closes $60 M Series C Funding Round at $1B Valuation, to Power Autonomous Machines, Physical AI Applications and AI Data Centers

Nyobolt, a company specializing in ultra-fast charging and high-power battery systems, has successfully secured $60 million in Series C funding, pushing its valuation beyond $1 billion. The funding round, which took place recently, was led by Symbotic and included contributions from notable investors such as IQ Capital, Latitude, Scania Invest, and CBMM. This financial boost aims to facilitate the expansion of Nyobolt's technology, particularly for applications in autonomous robots and AI infrastructure. The company has reported a remarkable fivefold increase in revenue over the past year, highlighting its growth potential in the rapidly evolving battery market.

AI AI Funding & Investment Robotics autonomous batteries CBMM
Neolix partners with QuikBot to develop autonomous delivery network

Neolix partners with QuikBot to develop autonomous delivery network

Neolix, a developer specializing in Level 4 autonomous logistics vehicles, has formed a strategic partnership with Singapore's QuikBot Technologies to create a comprehensive autonomous delivery solution. This collaboration aims to facilitate deliveries across public roads, building interiors, and directly to doorsteps. The partnership will support Neolix's pilot deployment in Singapore and assist in meeting compliance requirements, while also enhancing the autonomous delivery capabilities of both companies throughout the Asia-Pacific region.

Autonomous Vehicles Logistics News ai robotics automation news autonomous delivery
AIxCrypto launches RoboShare robot rental platform and autonomous asset network

AIxCrypto launches RoboShare robot rental platform and autonomous asset network

AIxCrypto has unveiled a robot rental marketplace and a new infrastructure platform for autonomous assets as it seeks to extend the commercial life of robots beyond their initial sale. The Nasdaq-listed company introduced RoboShare and AIXC01 during the recent Automate Show in Chicago, outlining a strategy it says will allow robots, AI agents and other […]

Automation Financials & Investments ai agents AIXC01 AIxCrypto Automate 2026
Video Friday: Do Robots Even Need Legs?

Video Friday: Do Robots Even Need Legs?

In the latest edition of Video Friday, IEEE Spectrum robotics showcases a variety of innovative robotics videos and announces upcoming events in the field. Notable events include RSS 2026 scheduled for July 13-17 in Sydney, the Summer School on Multi-Robot Systems from July 29 to August 4 in Prague, Actuate 2026 on August 18-19 in San Francisco, and IROS 2026 from September 27 to October 1 in Pittsburgh. Among the featured projects, Eno, an advanced AI and general-purpose robot developed by Genesis, exemplifies a new generation of robots designed to enhance human capabilities. Meanwhile, NASA's Jet Propulsion Laboratory is testing the ERNEST rover in California's Colorado Desert, which is being developed for future lunar missions and can operate autonomously over challenging terrain. Sony AI's Ace project demonstrates a robotic system capable of adapting to unpredictable scenarios in table tennis, while ANYbotics highlights the economic benefits of their quadruped robots in industrial inspections, preventing significant production losses. GITAI is preparing for a robotic satellite servicing demo, and Bi-AQUA is exploring underwater photography challenges for robots. Sanctuary AI has achieved impressive results in wire plugging tasks for a major automotive supplier, showcasing a success rate exceeding 99.5%. Additionally, various other robotics projects are highlighted, including a bipedal robot named GrowBot, which operates on a low-cost Raspberry Pi and aims to make physical AI accessible to a broader audience.

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Micropolis Robotics Signs Five-Year Autonomous Sweeper Deployment Agreement with Abu Dhabi Government

Micropolis Robotics Signs Five-Year Autonomous Sweeper Deployment Agreement with Abu Dhabi Government

Micropolis AI Robotics has entered into a five-year partnership with the Department of Municipalities and Transport in Abu Dhabi to implement and manage autonomous street-cleaning robots throughout the emirate. The initiative will kick off with the introduction of AI-driven autonomous sweepers specifically designed for urban cleaning and maintenance operations. This collaboration highlights Micropolis AI Robotics' capability to provide fully integrated solutions for municipal services, aiming to enhance cleanliness and efficiency in Abu Dhabi's urban environment.

AI AI Funding & Investment AI Use Cases Robotics agreement Micropolis
Open-source swarm robotics: Custom ESP32 MiniBots turn chess pieces into autonomous robots

Open-source swarm robotics: Custom ESP32 MiniBots turn chess pieces into autonomous robots

A hardware developer known as 3DprintedLife has introduced an innovative open-source swarm robotics project aimed at advancing collaborative robotics technology. The announcement was made recently, showcasing the potential for multiple robotic units to work together efficiently in various applications. This initiative is designed to encourage community involvement and innovation in robotics, allowing developers and enthusiasts to contribute to and enhance the project. By providing accessible resources and documentation, 3DprintedLife hopes to foster a collaborative environment that could lead to significant advancements in the field. The project is expected to attract interest from both amateur and professional roboticists, as it emphasizes the importance of shared knowledge and collective problem-solving in technology development.

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Robotics needs a service framework.

RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.