Top News

Industry Briefing

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

JTEKT to showcase automation and digital integration solutions for manufacturing at "ROBOT TECHNOLOGY JAPAN 2026."

JTEKT to showcase automation and digital integration solutions for manufacturing at "ROBOT TECHNOLOGY JAPAN 2026."

JTEKT Corporation will participate in the upcoming "ROBOT TECHNOLOGY JAPAN 2026," scheduled to take place from June 11 to June 13, 2026, at the Aichi Sky Expo. The event is organized by News Digest Co., Ltd. This exhibition aims to showcase advancements in robotics technology and foster collaboration within the industry. JTEKT's involvement highlights its commitment to innovation and leadership in the robotics sector.

Robotiq launches AI platform to automate robotic workcell integration

Robotiq launches AI platform to automate robotic workcell integration

Robotiq has launched IQ, an innovative AI-enabled platform aimed at streamlining the integration of robotic Workcells. This new technology is designed to accelerate the transition from traditional, manual integration processes that rely heavily on expert input to a more automated and efficient system. By capturing unstructured data from automation projects and coordinating engineering workflows, IQ facilitates the creation of validated Workcell designs that reflect actual customer needs and historical data. This advancement addresses the growing demand for scalable solutions in the robotics industry, making it easier for partners to implement effective automation strategies.

Industrial robots News Robotics AI in robotics AI-powered engineering automation integration
The integration of artificial intelligence and physical robot technology promotes the entry of factory automation into a new era.

The integration of artificial intelligence and physical robot technology promotes the entry of factory automation into a new era.

The integration of artificial intelligence with physical robotics is ushering in a transformative era for factory automation. This advancement is set to revolutionize manufacturing processes, enhancing efficiency and productivity across various industries. As companies increasingly adopt these technologies, the shift is expected to occur rapidly, with significant developments anticipated in the coming months. The push towards automation is driven by the need for improved operational efficiency, cost reduction, and the ability to meet growing consumer demands. By leveraging AI capabilities, robots can now perform complex tasks with greater precision and adaptability, allowing factories to streamline operations and reduce human error. This evolution in technology not only promises to reshape the manufacturing landscape but also raises questions about the future of the workforce and the skills required in an increasingly automated environment.

Robotics Automation AI
Top 10 robotics advancements from June 2026

Top 10 robotics advancements from June 2026

In June 2026, the field of robotics captured significant attention as several companies achieved notable milestones, including going public, deploying new humanoid robots, and reaching key production targets. This surge in activity highlights the growing interest and investment in humanoid robotics, reflecting advancements in technology and increasing demand across various sectors. The developments indicate a pivotal moment for the industry, showcasing the potential for humanoid robots to play a more prominent role in everyday applications. As these innovations unfold, they promise to reshape the landscape of robotics and its integration into society.

Artificial Intelligence Artificial Intelligence / Cognition Autonomous Mobile Robots (AMRs) Collaborative Robots Design / Development Financial
How compact cobot integration enhances autonomous mobile robot applications

How compact cobot integration enhances autonomous mobile robot applications

The integration of collaborative robots, or cobots, is significantly transforming the warehousing industry, with projections indicating a tenfold increase in their usage from 2018 to 2025, according to industry expert Kassow. This surge in adoption highlights the growing reliance on automation to enhance efficiency and productivity in logistics operations. As businesses seek to streamline processes and reduce labor costs, cobots are becoming essential tools for complementing autonomous mobile robots in various applications. The advancements in technology and the increasing demand for flexible automation solutions are driving this trend, positioning cobots as a key component in the future of warehousing.

Autonomous Mobile Robots (AMRs) Cobot Arms Collaborative Robots Controllers Logistics News
NVIDIA Halos for Robotics: A New Era for Industrial Robot Safety

NVIDIA Halos for Robotics: A New Era for Industrial Robot Safety

Recent advancements in industrial robotics have marked a significant milestone in the integration of physical artificial intelligence. Over the past few years, the field has experienced unprecedented growth, evolving beyond mere data analysis and text generation. Now, AI technology is enabling machines to perceive their surroundings, make real-time decisions, and interact directly with their environment. This evolution is exemplified by NVIDIA's latest innovations, which are set to enhance the safety and functionality of industrial robots. As these developments unfold, the landscape of robotics is transforming, paving the way for smarter and more autonomous machines in various industries.

À la une IA Industrie Robotique automatisation industrielle. cobot industriel
NVIDIA's Halos for Robotics: A New Era for Industrial Robot Safety

NVIDIA's Halos for Robotics: A New Era for Industrial Robot Safety

Recent advancements in industrial robotics have marked a significant milestone in the integration of physical artificial intelligence. Over the past few years, the field has experienced unprecedented growth, with AI evolving beyond mere data analysis and text generation. Now, machines equipped with this technology can perceive their surroundings, make real-time decisions, and interact directly with their environment. This transformation is highlighted in a recent article discussing NVIDIA's Halos for Robotics, which emphasizes the new era of safety in industrial robots. The developments signal a shift in how robots operate, enhancing their capabilities and effectiveness in various industrial applications.

À la une IA Industrie Robotique automatisation industrielle. cobot industriel
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
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
Mobile robots as part of a comprehensive system

Mobile robots as part of a comprehensive system

The effective deployment of mobile robots hinges not only on the quantity of vehicles utilized but also on their operational behavior in conjunction with various factors such as layout, material flow, charging infrastructure, and control systems. This comprehensive approach is essential for optimizing the integration of mobile robots within industrial settings, ensuring they function seamlessly as part of a holistic system. The insights were shared in a recent article on ROBOTIK UND PRODUKTION, highlighting the importance of strategic planning in the implementation of robotic technology in modern production environments.

Allgemein Automation Fördertechnik & Handling Lagerlogistik & Materialfluss Mobile Robotik
Fraunhofer IPA: Relevant Criteria for Humanoid Robots

Fraunhofer IPA: Relevant Criteria for Humanoid Robots

In a recent development, researchers at Fraunhofer IPA are focusing on establishing application-relevant criteria for humanoid robots intended for industrial use. This initiative aims to ensure that these robots meet specific standards necessary for effective integration into various industrial applications. By defining these criteria, the team seeks to enhance the functionality and reliability of humanoid robots, ultimately facilitating their adoption in manufacturing and other sectors. The project highlights the growing importance of robotics in industry and the need for tailored solutions that address the unique challenges faced in different operational environments.

Allgemein Humanoide Robotik Lösungen
Exploring PLC and robot integration with YRG Robotics Chris Elston

Exploring PLC and robot integration with YRG Robotics Chris Elston

Chris Elston recently shared insights on the integration of Programmable Logic Controllers (PLC) with Yamaha Robotics and the role of artificial intelligence in the future of automation. During the discussion, he emphasized the importance of accessibility and innovation in advancing robotic technologies. This conversation took place in the context of ongoing developments in the robotics industry, reflecting a growing interest in how these technologies can enhance operational efficiency and accessibility in various sectors. Elston's expertise sheds light on the potential for PLC and robotics to work in tandem, paving the way for smarter automation solutions that could transform industries.

Artificial Intelligence Business Resources Investments News Opinion Podcast
GE Vernova to acquire Robotech Automation to expand robotics integration

GE Vernova to acquire Robotech Automation to expand robotics integration

GE Vernova, an energy company, is set to enhance its robotics integration capabilities by acquiring Robotech Automation, a systems integrator with whom it has been collaborating on supply chain projects. This strategic move aims to bolster GE Vernova's operational efficiency and innovation in automation technologies. The acquisition is part of the company's broader initiative to strengthen its position in the energy sector and improve its supply chain processes. The deal reflects the growing importance of robotics in streamlining operations and meeting the demands of a rapidly evolving market.

Energy / Solar / Renewables Logistics Manufacturing Mergers & Acquisitions News GE Vernova
FANUC strengthens robot integration with NVIDIA Isaac Sim

FANUC strengthens robot integration with NVIDIA Isaac Sim

FANUC is enhancing its robotics technology by integrating its robots and teach pendant with NVIDIA's simulation and artificial intelligence capabilities. This collaboration aims to improve the efficiency and intelligence of robotic operations, allowing for smoother and more adaptive actions in various applications. The integration leverages NVIDIA's Isaac Sim, a platform designed to facilitate advanced simulation and AI training for robots. This development marks a significant step forward in the robotics industry, as it combines FANUC's expertise in automation with NVIDIA's cutting-edge technology to create smarter, more responsive robotic systems.

6-Axis Arms / Manipulators Artificial Intelligence Artificial Intelligence / Cognition Cobot Arms Collaborative Robots
Giving the Robot Fingerprints: XELA Robotics Shrinks Sensors for Tesollo Hand Integration

Giving the Robot Fingerprints: XELA Robotics Shrinks Sensors for Tesollo Hand Integration

Waseda University has announced a significant advancement in tactile sensor technology, unveiling a roadmap for the development of higher-density sensors. This innovation is set to enhance the capabilities of the Tesollo DG-5F hand, a robotic device designed for improved dexterity and sensitivity. The announcement, made in October 2023, highlights the university's commitment to pushing the boundaries of robotics and sensor integration. By increasing the density of tactile sensors, researchers aim to provide more nuanced feedback, which is crucial for applications in robotics, prosthetics, and human-computer interaction. This integration is expected to lead to more responsive and adaptable robotic hands, ultimately improving user experience and functionality in various fields.

hand xela-robotics
Agility Robotics Upgrades Digit Humanoid with Longer Runtime, AMR Integration, and Enhanced Safety Features

Agility Robotics Upgrades Digit Humanoid with Longer Runtime, AMR Integration, and Enhanced Safety Features

Agility Robotics has unveiled major enhancements to its humanoid robot, Digit, aimed at boosting its operational efficiency and safety. The upgrades include an extended battery life of up to four hours, autonomous charging capabilities, and advanced safety features such as CAT1 stop and FSoE. A notable advancement is the integration of Digit with Autonomous Mobile Robots (AMRs) through the Agility Arc platform, enabling seamless collaboration with AMRs from industry leaders like MiR and Zebra. This development is designed to address automation challenges in warehouse environments, facilitating improved workflow and productivity. The announcement marks a significant step forward in the evolution of robotics in logistics and industrial applications.

Digit Agility Robotics
Roborock Releases Matter Protocol Update, Leading Smart Home Integration

Roborock Releases Matter Protocol Update, Leading Smart Home Integration

Roborock has unveiled a major firmware update for its premium robot vacuum models, enhancing integration with the Matter protocol. This update, announced recently, allows users to control their devices seamlessly within Matter-supported ecosystems, significantly improving interoperability and user experience in smart home management. The initiative reflects Roborock's commitment to advancing smart home technology and providing users with more efficient and cohesive control over their devices.

Smart Home Robotics Firmware Update Matter Protocol Home Automation
Siemens collaborates with Databricks and FFT to enhance production data with AI insights.

Siemens collaborates with Databricks and FFT to enhance production data with AI insights.

Siemens has unveiled a new edge-to-cloud integration in collaboration with Databricks, a leading Data and AI company, and its long-time automation partner, FFT Produktionssysteme. This innovative partnership aims to streamline the connection of production data directly to enterprise AI, eliminating the need for complex IoT middleware. By facilitating this direct integration, Siemens and its partners intend to empower industrial customers to transform their production data into actionable insights, thereby enhancing the scalability of industrial AI solutions on a global scale. This initiative underscores the growing importance of data-driven decision-making in the manufacturing sector, enabling companies to leverage advanced analytics for improved operational efficiency and competitiveness.

Artificial Intelligence Automation Industry News artificial intelligence cloud computing
Overcoming Automation Anxiety: The Safety-First Approach to Robot Integration

Overcoming Automation Anxiety: The Safety-First Approach to Robot Integration

As the integration of robots into the workforce accelerates, manufacturers are increasingly focusing on safety features to protect human workers. To ensure a smooth and secure transition, businesses planning to adopt robotic technology are advised to implement several key preliminary steps. These measures are crucial for prioritizing safety and minimizing risks associated with human-robot interactions. By establishing comprehensive safety protocols and integrating advanced safety features into robotic systems, companies can enhance workplace safety and foster a collaborative environment between humans and machines.

Asratec starts handling AI communication robot "Kebbi 3" and signage robot "Collibot" from Taiwan's NUWA Robotics.

Asratec starts handling AI communication robot "Kebbi 3" and signage robot "Collibot" from Taiwan's NUWA Robotics.

Asuratech has announced a partnership with NUWA Robotics Japan to begin distributing two innovative robotics products from Taiwan's NUWA Robotics. The AI communication robot, "Kebbi 3," and the signage robot, "Collibot Signage Model," will now be available through Asuratech's channels. This collaboration aims to enhance the integration of advanced robotic solutions in various sectors, reflecting a growing trend towards automation and AI-driven technologies in Japan. The initiative is expected to provide businesses with cutting-edge tools for improved communication and customer engagement.

Sagamihara City to host "Robot Friendly EXPO 2026" on June 13, promoting robot-friendly urban development.

Sagamihara City to host "Robot Friendly EXPO 2026" on June 13, promoting robot-friendly urban development.

Sagamihara City is set to host the "Robot Friendly EXPO 2026" in collaboration with the Robot Friendly Project on June 13, 2026. This event aims to showcase advancements in robotics and promote the integration of robots into daily life, highlighting their potential to enhance human experiences. The expo will feature various exhibits and demonstrations, providing attendees with insights into the latest technologies and innovations in the field. By organizing this event, Sagamihara City seeks to position itself as a leader in robotics and foster community engagement with emerging technologies.

Robotiq Introduces IQ Platform to Automate Robotic Workcell Integration

Robotiq Introduces IQ Platform to Automate Robotic Workcell Integration

A new AI-enabled IQ platform has been launched to assist manufacturers in efficiently transforming unstructured project data, 3D site scans, and production requirements into validated robotic Workcell designs. This innovative technology aims to streamline the design process, enhancing productivity and accuracy in manufacturing operations. By leveraging advanced artificial intelligence, the platform enables users to quickly analyze and convert complex data into actionable insights, ultimately improving the integration of robotics in production environments. The introduction of this platform is expected to significantly reduce the time and resources traditionally required for Workcell design, making it a valuable tool for manufacturers looking to optimize their operations.

Robot Solution for Sheet Metal Finishing

Robot Solution for Sheet Metal Finishing

Teqram's robotic solutions, EasyDebur and EasyGrinder, have been implemented for the automated post-processing of sheet metal parts at Salzgitter Mannesmann Stahlhandel. This integration aims to enhance efficiency and precision in the manufacturing process, reflecting the growing trend of automation in the steel industry. The deployment of these advanced technologies is part of a broader effort to streamline operations and improve product quality in metal processing.

Allgemein Automation Metallbearbeitung & Schweißen
AI-powered robotic cell for flexible parts extraction

AI-powered robotic cell for flexible parts extraction

Blumenbecker has unveiled a new robotic cell, B.AI, designed to leverage artificial intelligence for fully automated parts retrieval in production and logistics. This innovative technology aims to enhance efficiency and flexibility in manufacturing processes, addressing the growing demand for automation in various industries. The introduction of B.AI marks a significant advancement in the integration of AI within robotic systems, promising to streamline operations and reduce manual labor. The launch reflects Blumenbecker's commitment to advancing automation solutions that meet the evolving needs of the market.

Allgemein Bin Picking Künstliche Intelligenz & maschinelles Lernen Lösungen
DOBOT Completes Siemens SRCI Integration, Advancing Toward a Unified and Rapidly Deployable Cobot Platform

DOBOT Completes Siemens SRCI Integration, Advancing Toward a Unified and Rapidly Deployable Cobot Platform

DOBOT Robotics has successfully integrated Siemens' SRCI technology, marking a significant advancement in the deployment of PLC-controlled collaborative robots (cobots) for industrial automation. This integration, completed recently, streamlines the process of incorporating robots into various industrial applications, allowing for quicker and more efficient setups. The collaboration with Siemens aims to enhance the functionality and accessibility of robotic solutions, ultimately driving innovation in the automation sector. By simplifying the integration process, DOBOT Robotics is positioning itself to meet the growing demand for advanced automation technologies in manufacturing and other industries.

DOBOT CR 30H Series SGS ISO 10218-1:2025 cybersecurity
Small Cobot Integration: Powering Flexible Assembly Lines for Automotive Suppliers

Small Cobot Integration: Powering Flexible Assembly Lines for Automotive Suppliers

Automotive suppliers are increasingly under pressure to deliver precise and customizable assembly processes, particularly with the industry's shift towards electric vehicles. In response, JAKA has introduced a mini robot arm designed to enhance flexibility in production environments. This compact cobot can be integrated into existing assembly lines without the need for extensive reconfiguration, making it an efficient solution for maximizing space in densely packed factory settings. The JAKA MiniCobo's lightweight design allows it to be mounted on various surfaces, such as tabletops or mobile carts, preserving valuable production area while delivering superior performance. Its intuitive programming features enable rapid changeovers between different part assemblies, allowing technicians to easily reprogram tasks without complex coding. This capability transforms what was once a time-consuming process into a quick adjustment, minimizing downtime. Additionally, the JAKA mini robot arm is engineered for safe collaboration with human workers, making it suitable for tasks that require both precision and human oversight, such as delicate electronics installation. With integrated safety mechanisms, the cobot can perform repetitive tasks alongside human operators, enhancing overall efficiency and ergonomics on the assembly line. By adopting JAKA's small cobot technology, automotive suppliers can address critical challenges related to space constraints, model variability, and the need for safe human-robot collaboration. This strategic integration positions them for long-term competitiveness in a rapidly evolving industry.

The Future of 6 Axis Robot Arms: Hyper-Dexterity and AI Integration

The Future of 6 Axis Robot Arms: Hyper-Dexterity and AI Integration

JAKA is poised to revolutionize the capabilities of the six-axis robot arm through advancements in mechanical design and artificial intelligence. Over the coming years, the company aims to enhance the dexterity and intelligence of these versatile robots, enabling them to perform intricate tasks in complex industrial environments. The next generation of jointed arm robots will feature improved joint mechanics and integrated force-torque sensing, allowing for smoother and more precise movements. This hyper-dexterity will enable the robots to delicately handle fragile components and adapt in real-time to varying resistance during assembly tasks. AI integration will further transform these robots, granting them the ability to perceive and adapt to unstructured environments. By utilizing machine vision and learning algorithms, the robots can identify and adjust to inconsistencies in part placement, dynamically managing parameters such as grip force and insertion angles based on sensory feedback. This adaptability will make the robots suitable for small-batch, high-mix production, shifting them from rigid tools to flexible systems. As these technologies evolve, the deployment of six-axis robot arms will become more intuitive, reducing the need for extensive programming and allowing for quicker task learning through demonstration. This streamlined approach will enable manufacturers to redeploy robotic assets more frequently, enhancing the agility of automation in modern manufacturing. JAKA's commitment to integrating advanced mechanical design with AI aims to make sophisticated automation more accessible and effective, addressing the diverse challenges faced by today's industries.

LiTime Powers Smart Agriculture and Robotics in Agriculture with Extended Runtime and System Integration

LiTime Powers Smart Agriculture and Robotics in Agriculture with Extended Runtime and System Integration

Automation is transforming the landscape of modern agriculture, with technologies such as lawn mowers, irrigation control systems, automated transporters, and robotics becoming increasingly prevalent on farms, plantations, and in greenhouses. These advanced tools are designed to operate efficiently over extended periods, requiring intelligent management and minimal maintenance in challenging outdoor conditions. In response to these demands, LiTime, a prominent manufacturer of lithium batteries, is stepping up to provide innovative energy solutions tailored for agricultural automation. Their products aim to enhance the performance and reliability of these automated systems, ensuring that farmers can maximize productivity while minimizing operational challenges.

Agriculture Automation agricultural automation agricultural machinery agricultural robots amrs
Morgan Stanley Sees Potential for China's Humanoid Robots to Mirror Electric Vehicle Success, McKinsey Offers Caution: Shift from Vertical Integration to Platformization

Morgan Stanley Sees Potential for China's Humanoid Robots to Mirror Electric Vehicle Success, McKinsey Offers Caution: Shift from Vertical Integration to Platformization

A recent report from Morgan Stanley indicates that China's humanoid robots may mirror the rapid growth seen in the electric vehicle sector, potentially enhancing the country's share of global exports. This development comes as China seeks to expand its technological footprint on the world stage. However, McKinsey has raised concerns about significant supply chain challenges that could hinder this progress. Despite China's strong manufacturing capabilities, the report highlights that the availability of essential components remains a critical obstacle. As the nation pushes forward in the robotics industry, addressing these supply chain issues will be crucial for realizing its ambitions in the global market.

Humanoid Robots Supply Chain Management Advanced Manufacturing AI
Deep Integration of Full-Chain Layout into the Chinese Market: Expanding the Robot Matrix

Deep Integration of Full-Chain Layout into the Chinese Market: Expanding the Robot Matrix

Epson has introduced its LS-C series SCARA robots and CX-A series six-axis robots, expanding its product offerings to address the increasing demand for precision manufacturing in China. Launched recently, these advanced robotic solutions are designed to enhance high-speed and high-precision operations, aligning with the country's ongoing efforts to upgrade its manufacturing capabilities. This strategic move underscores Epson's commitment to supporting the evolving needs of the manufacturing sector in the region.

SCARA Robots Six-Axis Robots Precision Manufacturing Automation Technology
Agility Robotics Upgrades Digit Humanoid with Enhanced Safety, Autonomy, and AMR Integration

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

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

Digit Agility Robotics
NVIDIA and Hugging Face integrate AI model "GR00T 1.7" into open-source robot development platform "LeRobot."

NVIDIA and Hugging Face integrate AI model "GR00T 1.7" into open-source robot development platform "LeRobot."

NVIDIA and Hugging Face have announced the integration of their cutting-edge technologies aimed at enhancing humanoid robots. The collaboration will see the incorporation of NVIDIA's visual language action (VLA) model, known as NVIDIA Isaac GR00T 1.7, along with the remote operation framework, NVIDIA Isaac Teleop, into Hugging Face's open-source robot development library, LeRobot. This initiative is set to advance the capabilities of humanoid robots, enabling more sophisticated interactions and functionalities. The announcement highlights a significant step in the ongoing evolution of robotics, reflecting both companies' commitment to fostering innovation in the field.

Robosys Expands its Range of OEM Propulsion Control for Remote and Autonomous Marine Applications with New Sleipner Thruster Integration

Robosys Expands its Range of OEM Propulsion Control for Remote and Autonomous Marine Applications with New Sleipner Thruster Integration

Robosys Automation, a prominent player in maritime autonomy and intelligent vessel control, has unveiled an enhancement to its VOYAGER AI software suite. This update, announced recently, integrates Sleipner (Side-Power) Thruster Systems, thereby expanding the company's multi-OEM propulsion control capabilities. The integration aims to improve the efficiency and performance of remote vessel operations, reflecting Robosys's commitment to advancing maritime technology. This development is expected to benefit a wide range of maritime applications, further solidifying Robosys Automation's position as a leader in the industry.

robosys
NEW INDRO CORTEX, CONTROLLER SIMPLIFY ROBOTIC INTEGRATION AND OPERATION

NEW INDRO CORTEX, CONTROLLER SIMPLIFY ROBOTIC INTEGRATION AND OPERATION

InDro Cortex has emerged as a versatile compute and sensor integrator designed for use on various robotic platforms. This innovative device, measuring 11cm x 14cm x 10cm and weighing just 679 grams, enables seamless data transmission over 5G networks with minimal latency. It also allows remote operators to send instructions to the robotic systems it supports. The platform-agnostic nature of Cortex means it can be integrated with nearly any robotic framework, enhancing operational flexibility and efficiency in diverse applications. This advancement in robotics technology is set to revolutionize how remote operations are conducted, offering real-time communication and control capabilities.

Sabanto Inc. and Verdant Robotics Announce Technical Integration of Autonomous Tractor Operation with SharpShooter Plant-Level Precision Application

Sabanto Inc. and Verdant Robotics Announce Technical Integration of Autonomous Tractor Operation with SharpShooter Plant-Level Precision Application

A new integrated solution has been developed that combines two systems, allowing for fully autonomous field work in agriculture. This innovation enables tasks ranging from navigation to plant-level application to be performed without the need for an operator in the cab. The advancement represents a significant leap in agricultural technology, streamlining operations and enhancing efficiency in the field. The system is designed to operate seamlessly, reflecting the latest advancements in automation and data integration. This development is expected to transform farming practices, reducing labor costs and increasing productivity.

NOVARC LAUNCHES NovAI AUTONOMY AS PART OF NovAI SUITE AND EXPANDS INTEGRATION TO YASKAWA AND ABB ROBOTS

NOVARC LAUNCHES NovAI AUTONOMY AS PART OF NovAI SUITE AND EXPANDS INTEGRATION TO YASKAWA AND ABB ROBOTS

Novarc Technologies, an industrial AI company focused on welding automation, unveiled its latest innovations at the Automate 2026 trade show in Chicago, running from June 22-25. The company introduced NovAI™ Autonomy, a cutting-edge solution that integrates machine vision and real-time adaptability into robotic welding processes, alongside NovHub™, its Enterprise Welding Intelligence platform. These technologies are designed to enhance the capabilities of ABB and Yaskawa robots, addressing critical challenges in the fabrication industry, such as a shortage of skilled welders and the need for greater automation flexibility. CEO Soroush Karimzadeh emphasized that NovAI aims to retrofit existing robotic cells, improving quality and efficiency by adapting to variations in parts and reducing manual rework. Demonstrations at the event showcased how NovAI Autonomy can automatically adjust welding parameters in response to misalignments and gaps, promising increased return on investment for manufacturers. The partnership with Yaskawa, formalized through a Memorandum of Understanding, aims to accelerate the deployment of vision-enabled welding cells, further enhancing productivity in heavy fabrication sectors. As demands for precision and efficiency grow, Novarc's advancements position it as a leader in AI-powered welding solutions, enabling manufacturers to optimize their operations and remain competitive.

Robotiq Announced AI-Enabled Platform for Workcell Integration

Robotiq Announced AI-Enabled Platform for Workcell Integration

A new platform has been launched to enhance collaboration among engineering teams by streamlining workflows through effective data capturing and design coordination. This innovative tool is designed to improve efficiency and communication within engineering projects, addressing common challenges faced by professionals in the field. The platform is expected to be particularly beneficial for companies looking to optimize their engineering processes and ensure seamless integration of design and data management. By providing a centralized space for teams to work together, the platform aims to foster better decision-making and project outcomes.

Factory / Analytics
A Breeding Cotton Harvesting Robot: Design, Integration, and Field Evaluation

A Breeding Cotton Harvesting Robot: Design, Integration, and Field Evaluation

A recent study published in the Journal of Field Robotics has highlighted significant advancements in robotic technology aimed at improving agricultural practices. Researchers from various institutions collaborated to develop autonomous systems capable of performing complex tasks such as planting, monitoring crop health, and harvesting. The study, released in early October 2023, emphasizes the growing need for innovative solutions in agriculture to address labor shortages and enhance efficiency. Conducted in various agricultural settings, the research showcases how these robots utilize advanced sensors and artificial intelligence to navigate fields and make real-time decisions. The motivation behind this initiative stems from the increasing demand for food production and the challenges posed by climate change, which necessitate more sustainable farming methods. The findings suggest that integrating robotic systems into farming operations can lead to higher yields and reduced environmental impact. As the agricultural sector faces mounting pressures, the introduction of such technology is seen as a crucial step towards modernizing practices and ensuring food security for the future.

RESEARCH ARTICLE
Interview with Workr Robotics CEO Ken Macken: ‘Paying for automation by the hour’

Interview with Workr Robotics CEO Ken Macken: ‘Paying for automation by the hour’

Industrial robotics is undergoing a significant transformation, driven by advancements in artificial intelligence, large language models, and embodied AI. This evolution has generated renewed interest in the development of robots capable of understanding, reasoning, and interacting with their physical environments. Notable partnerships, including collaborations between Google DeepMind and Boston Dynamics, have intensified discussions surrounding the potential for more sophisticated general-purpose robots. As these technologies continue to evolve, the industry anticipates a future where robots can perform a wider array of tasks, enhancing their utility across various sectors. The ongoing innovations suggest a promising trajectory for the integration of robotics into everyday life, potentially reshaping industries and improving operational efficiencies.

Features Industrial robots Robotics Software automation news automation roi
LuoShi's IPO: A New Era for Robotics Investment

LuoShi's IPO: A New Era for Robotics Investment

LuoShi's recent initial public offering (IPO) has generated significant enthusiasm within the robotics industry, signaling a notable shift in market priorities from conventional manufacturing to advanced intelligent robotics. The company, which boasts a diverse array of products, is dedicated to pioneering foundational technologies that promise to transform the landscape of robotics. By positioning itself at the forefront of AI-driven innovations, LuoShi aims to redefine the future of robotics, emphasizing the integration of artificial intelligence into physical entities. This strategic move reflects the growing demand for smarter, more capable robotic solutions in various sectors.

Robotics AI Technology Industrial Automation Collaborative Robots
Ant Group Releases Open Source LingBot-VLA 2.0 with 60,000 Hours of Real-World Data

Ant Group Releases Open Source LingBot-VLA 2.0 with 60,000 Hours of Real-World Data

On July 8, Ant Group unveiled the upgraded LingBot-VLA 2.0 model, which has been enhanced through the integration of 60,000 hours of high-quality real-world data. This latest version offers improved support for a variety of robot configurations and degrees of freedom, leading to increased efficiency and performance in both dual-arm operations and mobile tasks. The model has been made accessible to developers via platforms such as Hugging Face and GitHub, promoting wider collaboration and innovation in robotics.

Robotics AI Open Source Machine Learning
Amiro Robotics' Liu Fang: Embodied Intelligence is Not Just Large Models or Autonomous Driving

Amiro Robotics' Liu Fang: Embodied Intelligence is Not Just Large Models or Autonomous Driving

Liu Fang, the founder of Amiro Robotics, has presented a new perspective on embodied intelligence, distinguishing it from large models and autonomous driving. During a recent discussion, he emphasized that the true essence of embodied intelligence lies in enhancing labor capabilities within industrial environments. Liu argued that robots should be designed to provide consistent and reliable outputs, which is crucial for their integration into real-world applications. To further this discussion, he introduced a novel metric called Hours Per Intervention (HPI), aimed at evaluating robotic performance in production settings. This metric underscores the significance of building trust in robotic labor, as reliable performance is essential for widespread adoption in various industries. Liu’s insights reflect a growing recognition of the need for practical and dependable robotic solutions in the workforce, marking a shift towards more effective and measurable applications of robotics in industrial operations.

Embodied Intelligence Industrial Robotics Automation HPI Metric
GeoCue’s TrueView 641 Certified for Real-Time Robotics HERA Drone

GeoCue’s TrueView 641 Certified for Real-Time Robotics HERA Drone

The companies say the integration gives customers a secure aerial mapping option that combines heavy-lift American-made drones with engineering-grade LiDAR. Huntsville, Ala.-based GeoCue has announced that its TrueView LiDAR payloads are now compatible with drones from Real-Time Robotics Inc., a pairing the companies say expands NDAA-compliant drone LiDAR options for customers in surveying, defense, public […] The post GeoCue’s TrueView 641 Certified for Real-Time Robotics HERA Drone appeared first on DRONELIFE.

Drone News Drone News Feeds Inspection LiDAR News Sensors
Japan Unveils National Robot Strategy: 10 Million Robots by 2040 for Care and Food Manufacturing

Japan Unveils National Robot Strategy: 10 Million Robots by 2040 for Care and Food Manufacturing

The Japanese government has unveiled an ambitious national robot strategy, targeting the deployment of around 10 million robots across 18 sectors, such as healthcare and food manufacturing, by the year 2040. This initiative, announced recently, aims to tackle labor shortages and boost productivity through the integration of advanced AI technology. The strategy also emphasizes the importance of international collaborations to facilitate both the development and deployment of these robotic systems.

Robotics Healthcare Automation Food Manufacturing AI Technology
New Dutch Robotics Center Aims to Bridge Europe's Tech Gap

New Dutch Robotics Center Aims to Bridge Europe's Tech Gap

A new robotics research center was inaugurated in the Netherlands on July 5, designed to bridge the gap between Europe and leading nations in the field of robotics. The facility will prioritize practical applications and technology integration, featuring advancements such as humanoid robots and robotic dogs. CEO Evert Yap Lugter emphasized the urgency of enhancing Europe’s competitiveness in robotics, predicting that within five years, it will be nearly impossible to distinguish between humans and robots at close range. This initiative reflects a growing recognition of the need for Europe to innovate and keep pace in the rapidly advancing robotics sector.

Humanoid Robots Robotics Research AI Technology Automation
Watch: New wearable converts robot movements into music to improve workplace safety

Watch: New wearable converts robot movements into music to improve workplace safety

Researchers at Georgia Tech have unveiled an innovative wearable audio system designed to enhance the interaction between humans and robots. This groundbreaking technology translates the movements of nearby robots into sound, allowing users to perceive the robots' actions through auditory cues. The development aims to improve safety and awareness in environments where humans and robots coexist, such as factories and warehouses. The system was introduced during a recent technology showcase held at the Georgia Institute of Technology, where experts demonstrated its capabilities. By providing real-time audio feedback, the wearable device enables users to better understand the dynamics of their robotic counterparts, potentially reducing accidents and improving collaboration. The motivation behind this research stems from the increasing integration of robots into everyday workspaces, where clear communication and awareness of robotic movements are essential for effective teamwork. The audio system operates through a combination of sensors and algorithms that interpret robot actions and translate them into distinct sounds, creating an intuitive interface for users. This advancement not only represents a significant step forward in human-robot interaction but also highlights Georgia Tech's commitment to pioneering research in robotics and audio technology. As industries continue to evolve with automation, such innovations are crucial for ensuring safe and efficient operations in shared environments.

AI and Robotics
Why you should combine robot dexterity with mechanical positioning for complex assembly operations

Why you should combine robot dexterity with mechanical positioning for complex assembly operations

Experts in robotics are increasingly emphasizing the significance of mechanical positioning in enhancing machine mobility, range, and speed. This recognition comes as industries seek to improve efficiency in complex assembly operations. The integration of robot dexterity with advanced mechanical positioning techniques is seen as a crucial step towards achieving more effective and precise automation solutions. By optimizing these elements, manufacturers can streamline their processes, reduce errors, and ultimately boost productivity. The insights were shared in a recent article on The Robot Report, highlighting the growing trend of combining these technologies to meet the demands of modern manufacturing environments.

Arms / Manipulators Assembly Industrial Robots Manufacturing Markets / Industries Motion Control
How Motor Controllers Influence Robot Accuracy and Energy Efficiency

How Motor Controllers Influence Robot Accuracy and Energy Efficiency

As the robotics sector rapidly evolves, industries including manufacturing, healthcare, logistics, and agriculture are increasingly reliant on advanced motion control technologies. This surge in demand is largely driven by the need for precise and energy-efficient solutions to enhance operational efficiency. Central to many of these modern robotic systems are Brushless DC (BLDC) motors, which are celebrated for their high efficiency, reliability, and extended lifespan. However, the optimal performance of these motors is contingent upon effective control strategies and integration within robotic frameworks. As companies seek to leverage the advantages of BLDC motors, ongoing innovations in motion control technology are expected to further enhance the capabilities of robotic systems across various sectors.

Components Engineering amrs autonomous mobile robots BLDC motor controllers BLDC motors
Turing Award Winner Richard Sutton Visits Beijing Humanoid Robot Innovation Center

Turing Award Winner Richard Sutton Visits Beijing Humanoid Robot Innovation Center

Richard Sutton, a prominent figure in artificial intelligence and recognized as the 'Father of Reinforcement Learning', visited the Beijing Humanoid Robot Innovation Center to explore the latest developments in embodied intelligence technologies. During his visit, which highlighted the center's innovative work, Sutton participated in discussions and observed demonstrations of sophisticated humanoid robots designed for logistics and domestic tasks. He underscored the significance of merging reinforcement learning with embodied intelligence, suggesting that this integration is crucial for the future evolution of AI.

Reinforcement Learning Humanoid Robots Embodied Intelligence AI Research
In Robotics, Ruggedization Is No Longer Optional

In Robotics, Ruggedization Is No Longer Optional

As the field of robotics advances, the need for ruggedized design in autonomous systems is increasingly recognized as essential for dependable performance in real-world environments. This shift highlights the growing importance of durability and resilience in robotic applications, moving beyond controlled settings to tackle more challenging conditions. The push for ruggedization is driven by the demand for robots to operate effectively in diverse and often harsh environments, ensuring they can withstand various operational stresses. This trend reflects a broader evolution in robotics, as developers prioritize the integration of robust features to enhance reliability and functionality in practical applications. The emphasis on rugged design is becoming a fundamental requirement for the future of autonomous robotics.

Sponsored Content WiBotic
RobotToday Initiative

Robotics needs a service framework.

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