Top News

Industry Briefing

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

Omnidirectional Mobile Robotics: Foundations, Advantages, and Industrial Applications

Omnidirectional Mobile Robotics: Foundations, Advantages, and Industrial Applications

In response to the increasing demands for agile workflows and optimized operational efficiency in industrial applications, businesses are increasingly turning to omnidirectional mobile robotics. This technology is recognized as a crucial strategic investment for enhancing productivity and ensuring millimeter precision in coupling operations. As industries evolve and seek to streamline processes, the integration of these advanced robotics is becoming essential for maintaining competitive advantage. The trend reflects a broader shift towards automation and innovation in the manufacturing sector, highlighting the importance of adapting to modern operational needs.

Innovative concepts for the production of the future:Mobile robotics at KRONE 

Innovative concepts for the production of the future:Mobile robotics at KRONE 

KRONE, a company based in Werlte, is embracing mobile robotics to enhance production efficiency in both established factories and new ventures. The integration of stationary and autonomous mobile robots (AMRs) is streamlining processes at their existing facility, while a state-of-the-art smart factory is being developed on a greenfield site in Ibbenbüren. This initiative aims to modernize manufacturing practices and adapt to the evolving demands of the industry, showcasing KRONE's commitment to innovation and sustainability in production.

The iMRS 2.0 platform of SIASUN Mobile Robotics has been officially launched!

The iMRS 2.0 platform of SIASUN Mobile Robotics has been officially launched!

On October 25, SIASUN Mobile Robotics unveiled its latest innovation, the iMRS 2.0 platform, designed to enhance mobile robotics capabilities. This new platform facilitates cross-platform integration and supports multiple languages, accommodating various vehicle models. The launch aims to advance the field of mobile robotics by providing a versatile and user-friendly solution for developers and businesses. By streamlining operations and enhancing interoperability, SIASUN seeks to address the growing demand for efficient robotic systems in diverse applications. The introduction of iMRS 2.0 marks a significant step forward in the company's commitment to innovation and leadership in the robotics industry.

Showcase at LogiMAT 2026: KUKA presents mobile robotics in an interactive arena

Showcase at LogiMAT 2026: KUKA presents mobile robotics in an interactive arena

At LogiMAT 2026, taking place from March 24 to 26 in Stuttgart, attendees will have the opportunity to explore a unique exhibit spanning over 600 square meters. The ‘Interoperability Arena’ will feature demonstrations by KUKA alongside partners including SYNAOS, WIFERION, and FPT Robotik. This showcase aims to highlight the seamless interaction between autonomous vehicles and 6-axis industrial robotics, illustrating advancements in automation technology and its applications in various industries. The event underscores the growing importance of interoperability in enhancing operational efficiency and productivity in logistics and manufacturing sectors.

BM3D‐Based Optical Flow Tracking for Enhanced Visual Simultaneous Localization and Mapping Systems in Mobile Robotics

BM3D‐Based Optical Flow Tracking for Enhanced Visual Simultaneous Localization and Mapping Systems in Mobile Robotics

The Journal of Field Robotics has recently published an early view article highlighting advancements in robotic technology. This publication, released in October 2023, showcases innovative research that aims to enhance the capabilities of field robots in various applications, including agriculture, search and rescue, and environmental monitoring. The research is driven by the growing need for automation and efficiency in these sectors, as well as the increasing complexity of tasks that robots are expected to perform. The findings suggest that integrating advanced algorithms and machine learning techniques can significantly improve the performance and adaptability of robotic systems in real-world scenarios. This research not only contributes to the academic field but also has practical implications for industries looking to leverage robotics for improved operational efficiency and safety.

RESEARCH ARTICLE
Hikvision Robotics Achieves Milestone with 200,000 Mobile Robots Produced

Hikvision Robotics Achieves Milestone with 200,000 Mobile Robots Produced

On July 6, 2026, Hikvision Robotics marked a significant achievement by producing its 200,000th mobile robot, a milestone reached just two years after the company celebrated its 100,000th unit. This accomplishment underscores Hikvision's dominant position in the global mobile robotics market, highlighting the swift expansion of China's mobile robotics sector. The growth is attributed to advancements in technology and the establishment of industry standards, which have facilitated the transition from experimental applications to widespread deployment.

Mobile Robots Warehouse Automation Manufacturing Technology AI Industry Standards
Geek+ Partners with Mindugar to Accelerate Warehouse Automation Adoption Across Latin America

Geek+ Partners with Mindugar to Accelerate Warehouse Automation Adoption Across Latin America

Geek+ has announced a strategic partnership with Mindugar to advance warehouse automation across Latin America. This collaboration will integrate Geek+'s innovative mobile robotics solutions with Mindugar's expertise in racking systems. Set to roll out in response to the burgeoning e-commerce and logistics markets in the region, the partnership aims to provide scalable automation systems designed to enhance efficiency and productivity for local businesses. By leveraging their combined strengths, both companies seek to address the increasing demand for advanced logistics solutions in Latin America.

Warehouse Automation Mobile Robotics Logistics Supply Chain Management E-commerce
ABB Robotics completes Visual SLAM AMR range with autonomous forklift launch

ABB Robotics completes Visual SLAM AMR range with autonomous forklift launch

ABB Robotics is expanding its Autonomous Mobile Robotics (AMR) portfolio with the launch of the Flexley Stack F712, creating a complete interoperable ecosystem across all major Visual SLAM AMR types. Combining autonomous forklifts, tugs and movers on one platform, ABB Robotics enables customers to automate a broader range of material-handling and intralogistics processes. Offering market-leading […]

Material handling News Warehouse robots abb robotics ai AMR Studio
ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift

ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift

ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift Visit http://go.abb/robotics for further information -The new Flexley Stack F712 extends ABB Robotics’ AI-powered Visual SLAM technology to autonomous forklifts, enabling pallet transport and high-density storage. -Customers can now deploy mixed fleets of Visual SLAM-powered tugs, movers and forklifts on a common navigation, fleet management and software platform. -Powered by ABB Robotics' AMR Studio, the portfolio enables up to 20% faster commissioning while ensuring seamless interoperability and safe, reliable operation. 07/07/26, 07:10 AM | Industrial Robotics, Mobile Robots | ABB Inc. ABB Robotics is expanding its Autonomous Mobile Robotics (AMR) portfolio with the launch of the Flexley® Stack F712, creating a complete interoperable ecosystem across all major Visual SLAM AMR types. Combining autonomous forklifts, tugs and movers on one platform, ABB Robotics enables customers to automate a broader range of material-handling and intralogistics processes. Offering market-leading accuracy, the F712 is designed for demanding material handling, end-of-line storage and warehouse operations across industries including automotive manufacturing, helping increase efficiency, flexibility and scalability. More Headlines A3's Automate 2026 Breaks Records as Demand for Robotics, AI and Automation Grows NVIDIA and Hugging Face Bring New Models and Frameworks to LeRobot for the Open Robotics Community Palladyne AI Executes $4.2 Million U.S. Air Force Contract to Advance Swarming Capabilities for Integrated Cross-Domain Operations UMA Unveils Its Vision for the Next Generation of Humanoid Robots Robbyant Unveils LingBot-Depth 2.0 and LingBot-Vision to Redefine Robotic Spatial Perception Articles Unleash AI Innovation: The Power of NVIDIA RTX PRO 6000 Blackwell Workstation Edition Fueled by PNY-Supplied GPUs Automate 2026 Q&A with DESTACO Automate 2026 Q&A with Roboteon Advances in Robots to See & Interpret within Warehouse Environments Building Resilient Fulfillment Networks with Robotics and Real-Time Logistics Data "Across intralogistics operations, businesses are being asked to process greater volumes in less time, while working with increasingly limited resources," said Marc Segura, President, ABB Robotics. "They are under pressure to move goods faster and with greater flexibility, while labour availability is becoming a critical constraint. As part of our journey to more autonomous and versatile robotics (AVRTM), we have combined advanced vision, mobility and intelligence in the Flexley Stack F712 forklift AMR, completing our scalable, AI-powered AMR portfolio." F712 is versatile, capable of handling multiple load types and sizes - including open and closed pallets, containers or racks- up to 2,000 kg and reaching heights of 8.5 meters. The Flexley Stack AMR F712 joins the Flexley Tug and Flexley Mover in ABB Robotics' growing Visual SLAM AMR portfolio. Applications include intralogistics tasks such as warehouse storage and retrieval, as well as line supply, end-of-line handling, body- and press-shop and drive-in and light buffer in the automotive and industries sector. Unlike conventional AMR forklifts on the market, F712 uses Visual SLAM to map and navigate its environment, eliminating the need for pre-installed infrastructure like markers or reflectors. The AI-enabled Visual SLAM supports the autonomous decisions required to operate in complex, dynamic warehouse operations with a market-leading positional accuracy of ±10 mm. Together with AMR Studio®, this shortens commissioning times by up to 20 percent and creates a versatile and reliable system that can adapt instantly when a warehouse or production floor layout changes. Certified to the latest ISO and ANSI safety standards, Flexley Stack F712 can safely operate at class-leading speeds of up to 1.7 m/s while loaded. F712 is fully integrated with AMR Studio and is VDA5050 compatible, enabling seamless integration with ABB Robotics' Visual SLAM AMRs and existing systems within a unified project. This makes it easy to manage complex projects and integrate different types of mobile robots. The no-code, drag-and-drop software suite supports rapid setup, fleet coordination, traffic management and real-time visualization, allowing ABB Robotics' tugs, movers and forklifts to operate together in the same layout for scalable turnkey automation projects. ABB Robotics as one of the world's leading robotics companies, is the only company with a comprehensive and integrated AI-powered portfolio covering robots, cobots and Autonomous Mobile Robots (AMRs), designed and orchestrated by our value-creating software. We help companies of all sizes and sectors - from automotive to electronics and logistics - to outperform by becoming more resilient, flexible and efficient. ABB Robotics is at the forefront of developing and commercializing a new generation of Autonomous Versatile Robotics

Alibaba unveils Qwen-Robot series with three foundation models for embodied AI

Alibaba unveils Qwen-Robot series with three foundation models for embodied AI

On Tuesday, the Qwen team unveiled a new robotics suite that includes three foundational models: Qwen-RobotNav, Qwen-RobotManip, and Qwen-RobotWorld. These models are designed to integrate language processing with various physical actions, enhancing the capabilities of mobile robotics. Qwen-RobotNav, in particular, advances vision-language integration by employing controllable observation encoding and tool-based interfaces. This innovative model consolidates four essential tasks into a single framework, which includes instruction following and goal-directed navigation. The release aims to improve the interaction between language and robotics, paving the way for more sophisticated and versatile robotic applications.

News Feed
The ifm Obstacle Detection System (ODS)

The ifm Obstacle Detection System (ODS)

The ifm Obstacle Detection System (ODS) has been developed to enhance the performance of mobile robots by integrating obstacle detection into a comprehensive system rather than relying solely on camera technology. This innovative approach ensures reliable detection of obstacles, thereby safeguarding personnel, equipment, and the robots themselves. The system aims to improve operational safety and efficiency in various environments where mobile robots are deployed. By treating obstacle detection holistically, ifm addresses the growing need for advanced safety measures in automated systems, particularly as the use of mobile robotics continues to expand across industries.

ReBeLMove Pro: modular robot platform for logistics, assembly and handling

ReBeLMove Pro: modular robot platform for logistics, assembly and handling

Igus has unveiled a new autonomous mobile robot designed for easy configuration and commissioning, aimed at enhancing operational efficiency in various industries. This innovative robot, which can be equipped with flexible superstructures, allows users to tailor its functionalities to meet specific needs. The launch of this product is part of Igus's ongoing commitment to advancing automation technology. The robot is set to be available for deployment in facilities starting in late 2023, providing businesses with a versatile solution to streamline their processes. By simplifying the setup and integration of mobile robotics, Igus hopes to make automation more accessible to a wider range of companies, ultimately driving productivity and innovation in the sector.

ABB Robotics and Roche Partner to Enhance Laboratory Efficiency with Intelligent Robotics

ABB Robotics and Roche Partner to Enhance Laboratory Efficiency with Intelligent Robotics

ABB Robotics has entered into a collaboration with Roche to develop digitally connected laboratories utilizing intelligent robotics. This partnership aims to improve laboratory workflows significantly, with initial applications focusing on pathology slide handling and enhancing intralogistics within Core Labs. The deployment will feature a variety of ABB Robotics technologies, including autonomous mobile manipulation and fixed articulating robots. This collaboration is significant as it represents a shift towards integrating advanced robotics in laboratory settings, which can lead to increased efficiency and reduced operational costs. By automating tasks such as slide handling, laboratories can expect to streamline processes, minimize human error, and enhance overall productivity. The use of intelligent robotics in this context is expected to set a new standard for laboratory operations. Looking ahead, the first applications of this collaboration are anticipated to roll out soon, although no specific timeline was disclosed at the time of publication. Stakeholders in the robotics and healthcare sectors should monitor this partnership closely, as it may pave the way for further advancements in laboratory automation and connectivity.

Locus Robotics Acquires Nexera Robotics, Advancing a Patented Breakthrough in Mobile Manipulation

Locus Robotics Acquires Nexera Robotics, Advancing a Patented Breakthrough in Mobile Manipulation

Locus Robotics has announced its acquisition of Vancouver-based Nexera Robotics, a move aimed at enhancing its capabilities in mobile manipulation. The acquisition, revealed on May 19, 2026, will integrate Nexera's patented NeuraGrasp™ technology into Locus's existing AI platform, significantly expanding the range of SKUs that the Locus Array can autonomously handle. This advancement is expected to open new categories and improve efficiency in warehouse operations, addressing challenges that have historically limited robotic picking capabilities. Rick Faulk, CEO of Locus Robotics, emphasized the importance of AI-driven mobile manipulation for the future of warehouse robotics, stating that the ability to efficiently grasp a wide variety of inventory is crucial for creating value in the coming decade. The NeuraGrasp™ technology combines AI intelligence, sensory inputs, and computer vision, allowing a single gripper to adapt to various item characteristics, thereby enhancing reliability in real-world warehouse conditions. The acquisition follows the successful launch of Locus Array at MODEX 2026, where it garnered significant market interest and recognition as a top innovation. With Nexera now wholly owned by Locus Robotics, the integration of NeuraGrasp™ is expected to accelerate the company's growth and broaden its market reach, positioning it at the forefront of the autonomous fulfillment industry.

Product Launch | myAGV Plus Redefines New Frontiers in Mobile Composite Robotics Education and Research

Product Launch | myAGV Plus Redefines New Frontiers in Mobile Composite Robotics Education and Research

Elephant Robotics has unveiled the myAGV Plus, a cutting-edge mobile robot platform aimed at enhancing education, research, and algorithm validation. This launch aligns with the Ministry of Education's initiative to integrate artificial intelligence into educational frameworks. The myAGV Plus features substantial improvements in computing power, control, and perception, effectively connecting theoretical concepts with practical applications. This development is part of a broader effort to modernize educational tools and methodologies, ensuring that students and researchers have access to advanced resources for learning and experimentation.

Mobile Robots Educational Robotics AI in Education Research and Development Robotics Technology
Starting at 28,800 Yuan! VLAI Robotics Launches the L1 Mobile Dual-Arm Robot, Ushering in a New Era of Embodied Intelligence

Starting at 28,800 Yuan! VLAI Robotics Launches the L1 Mobile Dual-Arm Robot, Ushering in a New Era of Embodied Intelligence

VLAI Robotics has introduced its latest innovation, the L1 mobile dual-arm robot, which aims to enhance flexibility and precision across multiple sectors. Launched with a starting price of 28,800 Yuan, the L1 is engineered to meet the demands of research, industrial automation, and service industries. This advanced robot features superior mobility and dual-arm functionality, positioning it as a versatile solution for a range of applications. The unveiling of the L1 marks a significant step forward in robotic technology, catering to the increasing need for automation and efficiency in various fields.

Mobile Robots Dual-Arm Robotics AI Automation Research and Development
Hai Robotics Joins MHI’s Mobile Automation Group (MAG)

Hai Robotics Joins MHI’s Mobile Automation Group (MAG)

Hai Robotics has announced its membership in the Mobile Automation Group (MAG) of MHI, marking a significant step in its dedication to advancing mobile automation technologies within the material handling industry. This new partnership builds on the company's earlier involvement with the Automated Storage and Retrieval Systems (ASRS) Industry Group. By joining MAG, Hai Robotics seeks to leverage collaborative efforts to enhance the accessibility of large-scale automation solutions, particularly through its cutting-edge HaiPick Systems. This initiative reflects the company's ongoing commitment to innovation and improvement in the automation sector.

Warehouse Automation Mobile Robots Material Handling Supply Chain
Locus Robotics Surpasses 5 Billion Pick Milestone, Accelerating Global Adoption of Mobile Warehouse Automation

Locus Robotics Surpasses 5 Billion Pick Milestone, Accelerating Global Adoption of Mobile Warehouse Automation

Locus Robotics, a leader in AI-driven mobile warehouse automation, has announced a significant development in its operations. The company revealed new advancements in its robotics technology aimed at enhancing efficiency in warehouse logistics. This announcement comes as part of Locus Robotics' ongoing efforts to meet the growing demand for automated solutions in the supply chain sector. The unveiling took place during a recent industry conference held in Chicago, where key stakeholders gathered to discuss innovations in warehouse management. By integrating advanced AI capabilities into its robotics systems, Locus aims to streamline processes, reduce operational costs, and improve overall productivity for its clients. This initiative reflects the company's commitment to addressing the challenges faced by the logistics industry, particularly in the wake of increased e-commerce activity and labor shortages.

Fieldwork Robotics Receives £2.5 Million Investment for Berry Harvesting Automation

Fieldwork Robotics Receives £2.5 Million Investment for Berry Harvesting Automation

Fieldwork Robotics has secured a £2.5 million investment from SEED Innovations to enhance its selective and modular berry harvesting robots. This funding is part of a Seed+ fundraising initiative announced in April 2026, aimed at addressing labor shortages and rising costs in berry production. The investment will facilitate the transition from technology validation to commercial trials, with production robots already deployed in a two-year program in Norfolk and Stafford. The significance of this investment lies in its potential to alleviate pressing challenges faced by berry growers, including labor shortages and increased harvesting costs. By utilizing autonomous harvesting robots, Fieldwork aims to boost productivity and reduce reliance on seasonal labor, thereby minimizing food waste and stabilizing consumer prices. Jim Mellon, chairman of SEED Innovations, emphasizes the opportunity for robotics and AI to tackle real-world agricultural issues, aligning with Fieldwork's mission to enhance farm efficiency. Looking ahead, Fieldwork Robotics anticipates operating multi-robot fleets on farms by 2027, contingent on the success of ongoing trials. Additionally, the company plans to expand its operations internationally, with trials set to take place in Australia as part of its global growth strategy. No further timeline was disclosed at the time of publication.

Agriculture Financials & Investments agri robotics agricultural robotics agriculture automation
Path Robotics Enhances Welding Efficiency with AI and Boston Dynamics Robots

Path Robotics Enhances Welding Efficiency with AI and Boston Dynamics Robots

In a recent episode of The Robot Report Podcast, Andy Lonsberry, co-founder and CEO of Path Robotics, detailed the company's innovative approach to robotic welding. Based in Columbus, Ohio, Path Robotics utilizes AI to optimize the welding process by identifying torch paths and employing real-time vision guidance. This technology aims to streamline operations in manufacturing environments, addressing longstanding challenges in the industry. The significance of Path Robotics' advancements lies in their application of physical AI to enhance robotic systems. By integrating AI-driven solutions, the company is not only improving the efficiency of welding operations but also expanding the capabilities of robots in complex production settings. The deployment of Boston Dynamics' Spot robots for mobile welding applications in shipbuilding further exemplifies the potential of combining AI with robotics to tackle industry-specific challenges. Looking ahead, the focus will be on the continued integration of AI in robotic systems and the potential for further advancements in welding technology. No further timeline was disclosed at the time of publication, but the ongoing development in this area suggests a promising future for AI-enhanced manufacturing solutions.

Artificial Intelligence Assembly Cameras / Imaging / Vision Controllers Humanoids Manufacturing
AI² Robotics Secures $735 Million Funding for Wheeled Humanoid Robots Development

AI² Robotics Secures $735 Million Funding for Wheeled Humanoid Robots Development

AI² Robotics has successfully raised approximately $735 million in a recent funding round, elevating its valuation to around $2.8 billion. The Shenzhen-based company specializes in wheeled humanoid robots, which feature a humanoid torso and five-fingered hands, offering a unique alternative to traditional bipedal systems. This funding round attracted a diverse group of investors, including government-backed entities and major corporations, highlighting the growing importance of physical AI technology in China. The strategic choice to develop wheeled robots instead of bipedal models allows AI² Robotics to focus on mechanical simplicity and durability, making their robots more cost-effective and easier to deploy in public spaces. With over 34 degrees of freedom and a custom lifting mechanism, the robots are designed for various industrial applications, including logistics, manufacturing, and retail. The company’s proprietary Alpha Brain software enhances the robots' capabilities in real-time spatial reasoning and task planning, positioning them as practical solutions in structured environments. Looking ahead, AI² Robotics aims to further penetrate industrial markets while steering clear of the consumer robotics hype. The company is actively deploying its AlphaBot 2 in practical settings, emphasizing its utility in sectors such as biotech and public service. No further timeline was disclosed at the time of publication regarding future funding or product releases.

Artificial Intelligence / Cognition China Financial Humanoids Investments News
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
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
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.

MoviGo Robotics launches mobile robot technology platform

MoviGo Robotics launches mobile robot technology platform

Sharko5 has unveiled its innovative technology platform, which integrates advanced robotics with fleet management and process software. The platform features a modular design, allowing for customization and flexibility. The front section is equipped with standardized technology components, while the rear section houses a versatile lifting unit that can be easily adapted to various carriers. This development aims to enhance operational efficiency and adaptability in logistics and transportation sectors. The announcement comes as industries increasingly seek automated solutions to streamline their processes and improve productivity.

Changan Automobile Launches Robotics Subsidiary, Targeting 2028 for Humanoid Mass Production

Changan Automobile Launches Robotics Subsidiary, Targeting 2028 for Humanoid Mass Production

Changan, a leading Chinese automotive manufacturer, has officially launched Tianshu Intelligent Robot Co., Ltd. This new venture reflects a broader trend among automakers increasingly focusing on the integration of embodied artificial intelligence and humanoid robotics into their operations. The establishment of Tianshu marks a strategic move by Changan to enhance its technological capabilities and innovate within the automotive sector. As the industry evolves, the company aims to leverage advancements in AI to improve efficiency and productivity in manufacturing processes.

Changan Automobile China
Geekplus Japan Supports PUMA in Building a New Core Logistics Center — Unified Management of Store and E-commerce Inventory with Logistics Data Platform

Geekplus Japan Supports PUMA in Building a New Core Logistics Center — Unified Management of Store and E-commerce Inventory with Logistics Data Platform

Geekplus Japan has joined forces with PUMA and Senko Co., Ltd. to launch a state-of-the-art logistics center that merges business-to-business (B2B) and business-to-consumer (B2C) operations. This initiative, unveiled recently, leverages the open supply chain management solution 'skylaa' to streamline processes. The new center will feature the deployment of 42 automated mobile robots, aimed at boosting efficiency and enhancing inventory management. This strategic move is expected to significantly elevate PUMA's e-commerce capabilities and improve overall logistics performance, reflecting a growing trend towards automation in the retail sector.

Logistics Automation E-commerce Solutions Supply Chain Management Mobile Robotics Inventory Management
Interview with Olo Robotics COO Eleanor Tang-Smith: Making robot programming accessible to everyone

Interview with Olo Robotics COO Eleanor Tang-Smith: Making robot programming accessible to everyone

Recent advancements in robotics hardware have led to the emergence of highly capable autonomous mobile robots, quadrupeds, robotic arms, and humanoid robots, which are now more commercially available than ever. However, many organizations face significant challenges in adopting these technologies due to the complexities associated with software development. Creating robotic applications often necessitates specialized knowledge in platforms like ROS 2 (Robot Operating System 2). This gap in expertise hinders the widespread implementation of robotic solutions in various sectors, despite the promising capabilities of the hardware. As the industry continues to evolve, addressing the software barriers will be crucial for facilitating broader adoption and maximizing the potential of robotic innovations.

Computing Design Features Robot simulation ai robotics automation news
Milvus Robotics Introduces the SEIT F1500S Forklift-Type Autonomous Mobile Robot for Advanced Material Handling

Milvus Robotics Introduces the SEIT F1500S Forklift-Type Autonomous Mobile Robot for Advanced Material Handling

The F1500S, a new logistics solution, has been introduced to enhance operational efficiency in fast-paced manufacturing settings. This innovative system is designed to provide manufacturers with the flexibility needed for high-mix production environments, ensuring precise and reliable material transport. By streamlining intralogistics processes, the F1500S allows companies to maintain agility in their production lines. This development is particularly significant for manufacturers seeking to optimize their operations and adapt to varying production demands.

Locus Robotics Named Global Leader and Emerging Innovator in 2025 QKS SPARK Matrix™ for Autonomous Mobile Robots (AMR)

Locus Robotics Named Global Leader and Emerging Innovator in 2025 QKS SPARK Matrix™ for Autonomous Mobile Robots (AMR)

QKS Group has announced the launch of its innovative Locus Array solution, which is being hailed as a significant advancement in the industry. This new technology aims to enhance data processing and analysis capabilities, addressing the growing demand for efficient solutions in various sectors. The introduction of the Locus Array is set to take place in October 2023, with the company emphasizing its potential to streamline operations and improve overall performance. By leveraging cutting-edge technology, QKS Group seeks to position itself as a leader in the market, responding to the evolving needs of its clients. The rollout of this solution is expected to provide businesses with enhanced tools for decision-making and operational efficiency, ultimately driving growth and innovation across the industry.

VeriSilicon Introduces CPP2000 Camera Post-Processing IP for Embodied Robotics and Mobile Vision Applications

VeriSilicon Introduces CPP2000 Camera Post-Processing IP for Embodied Robotics and Mobile Vision Applications

Researchers have made significant advancements in improving image quality and visual perception for moving-camera systems. This development, which emerged from ongoing studies in the field of computer vision, aims to enhance the performance of various applications, including autonomous vehicles and drone technology. The breakthrough was announced in October 2023, following extensive testing and refinement of algorithms designed to process and interpret visual data more effectively. The motivation behind this innovation stems from the increasing reliance on moving-camera systems in everyday technology and the need for clearer, more accurate imagery in dynamic environments. By employing advanced machine learning techniques, the researchers have created a system that can better handle motion blur and varying lighting conditions, ultimately leading to more reliable visual outputs. The process involved rigorous experimentation with different data sets, allowing the team to fine-tune their algorithms for optimal performance. As a result, this enhancement is expected to significantly improve the safety and efficiency of systems that rely on real-time visual data, paving the way for broader applications in industries such as transportation, surveillance, and entertainment. This breakthrough not only represents a step forward in technology but also highlights the ongoing commitment to innovation in the realm of visual perception and image processing.

Empowering STEM Education and Research in the Americas: Elephant Robotics Introduces Integrated Educational Robotics Solutions

Empowering STEM Education and Research in the Americas: Elephant Robotics Introduces Integrated Educational Robotics Solutions

In recent years, STEM education has seen significant growth, fueled by a rising demand for practical engineering skills, artificial intelligence literacy, and interdisciplinary innovation. Despite this progress, schools, universities, and research laboratories continue to face challenges in creating effective robotics environments. Educators often struggle to integrate various components such as robotic arms, mobile platforms, sensors, and open-source software from multiple sources, complicating the development of comprehensive robotics programs. This ongoing issue highlights the need for streamlined solutions that can enhance the teaching and learning of robotics in educational settings.

Design Research Robotics AI education americas automation news
Opinion: The AI infrastructure risk robotics leaders can’t afford to ignore

Opinion: The AI infrastructure risk robotics leaders can’t afford to ignore

The robotics industry is experiencing a significant transformation, marked by advancements in autonomous mobile robots that are now navigating warehouses with enhanced precision and intelligence. As of October 2023, industrial robots are evolving to become smarter and more adaptable, while AI-powered vision systems are revolutionizing sectors such as manufacturing, logistics, and defense. This surge in technological capabilities is driven by the increasing demand for efficiency and automation across various industries, highlighting the critical role of innovation in shaping the future of robotics.

Aircraft Artificial Intelligence Engineering Features AI deployment AI infrastructure
Teradyne Robotics unveils production-ready physical AI applications at Automate 2026

Teradyne Robotics unveils production-ready physical AI applications at Automate 2026

Teradyne Robotics, the parent company of Universal Robots and Mobile Industrial Robots, is set to showcase the impact of physical AI on industrial automation at the Automate 2026 trade show in Chicago from June 22 to 25. At booth #1250, attendees will witness demonstrations highlighting the capabilities of their robotic solutions. Jean-Pierre Hathout, President of the Teradyne Robotics Group, emphasized the significance of these innovations, stating that physical AI is prominently featured in their offerings. The event aims to illustrate how advancements in robotics are revolutionizing the industry and enhancing operational efficiency.

Events Features AI data centers ai robotics Automate 2026 autonomous mobile robots
Robotics Investment Grows Across European Logistics

Robotics Investment Grows Across European Logistics

Warehouse automation is rapidly advancing across Europe as logistics providers enhance their operations through investments in robotics, artificial intelligence, and flexible automation systems. This surge is driven by the growing demand for e-commerce and the need for resilient supply chains. Companies throughout the sector are expanding their automated fulfillment networks, deploying more autonomous mobile robots, and implementing next-generation distribution technologies. This trend reflects a broader commitment to improving efficiency and adaptability in response to evolving market conditions.

AMR and AGV Automation Systems and Shuttles Materials Handling AGV AMR europe
Locus Array expands picking ability with Nexera Robotics’ NeuraGrasp

Locus Array expands picking ability with Nexera Robotics’ NeuraGrasp

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

Autonomous Mobile Robots (AMRs) End Effectors / Grippers Grippers Logistics Mergers & Acquisitions News
Video: Pudu Robotics Equips Delivery Bot with Dual Arms in New FlashBot Arm

Video: Pudu Robotics Equips Delivery Bot with Dual Arms in New FlashBot Arm

Pudu Robotics has unveiled its latest innovation, the FlashBot Arm, a cutting-edge service robot that features dual seven-degree-of-freedom arms and dexterous hands mounted on a mobile delivery base. This advanced robot is engineered to perform a variety of tasks, including operating elevators and opening doors, thereby enhancing its functionality in diverse service environments. The introduction of the FlashBot Arm signifies a significant step towards integrating autonomous navigation with sophisticated manipulation capabilities, allowing for greater versatility in settings such as hotels, hospitals, and restaurants. By combining these technologies, Pudu Robotics aims to improve efficiency and service delivery in industries increasingly reliant on automation.

pudu robotics flashbot arm
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
Hikvision Robotics Delivers More Than 200,000 Robots: A Shift Beyond Just Numbers

Hikvision Robotics Delivers More Than 200,000 Robots: A Shift Beyond Just Numbers

Hikvision Robotics has marked a significant achievement by delivering over 200,000 mobile robots since 2026, showcasing its rapid growth in manufacturing capabilities. This milestone underscores the company's proficiency in translating unique engineering solutions into standardized and scalable applications across various industries. The initiative aims to establish a comprehensive knowledge system that boosts operational efficiency in diverse industrial settings, reflecting Hikvision's commitment to innovation and adaptability in the evolving robotics market.

Mobile Robots Industrial Automation Engineering Solutions Manufacturing Technology
Robust.AI chooses Aptiv PULSE sensor for Gen 3 Carter mobile robot

Robust.AI chooses Aptiv PULSE sensor for Gen 3 Carter mobile robot

Robust.AI has selected Aptiv's PULSE sensor for its third-generation Carter mobile robot, enhancing the robot's ability to navigate safely around people. This collaboration leverages Aptiv's advanced sensor fusion technology, which integrates radar and vision systems powered by artificial intelligence. The integration aims to improve the operational safety and efficiency of the Carter robot in various environments. This development marks a significant step forward in the robotics industry, as it addresses the growing need for autonomous systems to operate safely in human-populated spaces.

Autonomous Mobile Robots (AMRs) Collaborative Robots Logistics Manufacturing Mobility / Navigation News
Samsung's Rainbow Robotics pilots warehouse robot at Coupang

Samsung's Rainbow Robotics pilots warehouse robot at Coupang

Rainbow Robotics, a subsidiary of Samsung Electronics, has deployed its mobile dual-arm robot, RB-Y1, at a Coupang fulfillment center as part of a trial to assess the robot's capabilities in warehouse operations. The testing, reported by ETNews, focuses on the robot's reliability and efficiency in sorting and moving goods. Should the RB-Y1 demonstrate satisfactory performance, it could lead to a significant order from Coupang. The trial is part of ongoing efforts to enhance automation in e-commerce logistics.

All News
Arnold Machinery Company Partners With Prime Robotics to Deliver Warehouse Automation Consulting Solutions Across Colorado

Arnold Machinery Company Partners With Prime Robotics to Deliver Warehouse Automation Consulting Solutions Across Colorado

Arnold Machinery Company has formed an exclusive distribution partnership with Prime Robotics, aimed at enhancing warehouse automation in Colorado. This collaboration will introduce advanced autonomous mobile robot technology to local businesses, positioning Arnold Machinery as a leading consultant in the state's warehouse automation and robotics sector. The partnership is expected to significantly improve operational efficiency for companies looking to modernize their logistics and warehousing processes.

Rajant Health (RHI) and Chord Robotics Expand Cowbell Platform to Enable Scalable, Multi-Domain Collaborative Autonomy

Rajant Health (RHI) and Chord Robotics Expand Cowbell Platform to Enable Scalable, Multi-Domain Collaborative Autonomy

Rajant Health (RHI) and Chord Robotics have announced an expanded partnership to enhance their Cowbell platform, introducing advanced "Flying Cowbell" capabilities aimed at enabling scalable, multi-domain collaborative autonomy. This collaboration, revealed on May 22, 2026, integrates RHI's Kinetic Mesh® networking with Chord Robotics' TEMPO™ software, facilitating real-time control of mixed fleets operating across air, land, and sea. The "Flying Cowbell" system transforms mobile nodes, including unmanned aerial systems (UAS) and unmanned surface vehicles (USVs), into active participants in a distributed compute and autonomy framework. This architecture allows for distributed workload execution, dynamic cluster formation, and transport-agnostic operations, even in connectivity-constrained environments. The partnership aims to address the need for persistent coverage and dynamic mission adaptation in complex scenarios where traditional infrastructure may be lacking. By leveraging Rajant's InstaMesh® networking capabilities alongside TEMPO, operators can manage heterogeneous fleets effectively, ensuring that each vehicle can make independent decisions while collaborating seamlessly. RHI's CEO, Robert J. Schena, emphasized that the initiative represents a shift from static infrastructure to a mobility-native system, while Chord Robotics' CEO, James Cooney, highlighted the potential for scaling autonomous fleets in challenging environments. Together, the companies are poised to redefine collaborative autonomy in unmanned systems, enhancing operational efficiency and adaptability.

SEER Robotics showcases capabilities of its all-robot platform with new AMRs at MODEX 2026

SEER Robotics showcases capabilities of its all-robot platform with new AMRs at MODEX 2026

SEER Robotics showcased its latest advancements in intelligent automation at MODEX 2026, held in Atlanta. The company presented live demonstrations of its new autonomous mobile robots (AMRs), designed for a variety of applications across different industries. This event, which took place recently, highlighted SEER Robotics' commitment to innovation in automation technology. By utilizing its all-robots platform, the company aims to enhance operational efficiency and address the evolving needs of businesses seeking to integrate automation solutions. The demonstrations provided attendees with a firsthand look at how these AMRs can streamline processes and improve productivity in various settings.

Path Robotics Launches Rove, Bringing Mobility to Welding Automation Powered by Physical AI

Path Robotics Launches Rove, Bringing Mobility to Welding Automation Powered by Physical AI

Path Robotics has unveiled Rove™, a mobile robotic welding system that integrates its advanced Obsidian™ physical AI model with a quadruped robot, marking a significant advancement in welding automation. Announced on April 16, 2026, this innovative system allows for intelligent welding directly at the workpiece, rather than requiring the part to be moved to a fixed welding cell. This development comes at a crucial time as industries face skilled welder shortages and the challenges of large-scale fabrication environments, such as shipbuilding and heavy construction. Rove is designed to operate effectively in high-variability settings, overcoming the traditional limitations of legged robots in precision welding. Early adopter Saronic Technologies, a leader in autonomous maritime vessels, is set to evaluate Rove's capabilities in its shipbuilding operations in Franklin, Louisiana. John Morgan, Head of Manufacturing at Saronic, emphasized the importance of adaptable tooling in modernizing shipyard operations. The Rove system will be showcased at the Sea-Air-Space 2026 maritime expo in National Harbor, Maryland, from April 19 to 22, where attendees can witness its capabilities firsthand. Path Robotics aims to revolutionize manufacturing processes by combining artificial intelligence, machine learning, and computer vision to enhance production quality and efficiency. For more information, interested companies can visit Path Robotics' website.

Onward Robotics Showcases Innovative Fulfillment Orchestration Platform With Live Demonstrations at MODEX 2026

Onward Robotics Showcases Innovative Fulfillment Orchestration Platform With Live Demonstrations at MODEX 2026

Onward Robotics, a leader in intelligent fulfillment automation, is showcasing its innovative Pyxis Suite™ Fulfillment Orchestration Platform and Lumabot® autonomous mobile robots (AMRs) at MODEX 2026, the largest supply chain trade show. The event, taking place on April 14, 2026, invites attendees to witness live demonstrations that highlight how Onward's software-driven Meet Me® automation solution enhances fulfillment efficiency and accuracy across warehousing, logistics, distribution, and manufacturing sectors. At Booth #B14357, visitors can engage with the Pyxis-powered fulfillment system, interact with Lumabot's intuitive put-to-light technology, and test the user-friendly Pyxis Point™ wearable devices. The demonstrations will showcase how Pyxis Conductor™ directs operations in real time, transforming traditional fulfillment processes into agile and efficient systems. CEO Lance VandenBrook emphasized that the future of fulfillment lies not in adding more automation but in creating a cohesive system that integrates people, robots, and workflows seamlessly. The Lumabot AMR, guided by Pyxis Conductor, represents the latest advancements in technology, offering enhanced speed and agility in dynamic environments. As demand grows for flexible, software-driven fulfillment models, Onward Robotics is positioned to lead the shift from fragmented automation to a unified platform. Attendees are encouraged to visit the booth to explore how the Pyxis Suite can be customized to meet their operational needs. For more details, interested parties can visit onwardrobotics.com/modex26.

AppliCAD hợp tác với JAKA Robotics để định vị Thái Lan như một trung tâm chiến lược, thúc đẩy các nhà máy hướng tới kỷ nguyên tự động hóa bằng trí tuệ nhân tạo.

AppliCAD hợp tác với JAKA Robotics để định vị Thái Lan như một trung tâm chiến lược, thúc đẩy các nhà máy hướng tới kỷ nguyên tự động hóa bằng trí tuệ nhân tạo.

AppliCAD Co., Ltd. partnered with JAKA Robotics to host the "JAKA Thailand User Conference 2026," a significant event showcasing collaborative robot (cobot) technology integrated with AI vision systems and automation. Held recently, the conference aimed to propel Thai factories into the AI automation era, attracting over 150 executives and engineers from various industries. During the event, AppliCAD leaders, including Deputy Director Patipat Klampracha, emphasized that AI automation and cobots are not intended to replace human labor but to serve as "intelligent assistants" that enhance capabilities, efficiency, and sustainable productivity in manufacturing. JAKA Robotics announced its strategic intent to establish Thailand as a hub for automation in Southeast Asia, highlighting the potential of the Thai industrial sector. The conference introduced JAKA's new technologies, including the JAKA K1 humanoid industrial robot, the JAKA Lumi AI training platform, and the JAKA S³ AMR mobile robot with integrated robotic arms for internal logistics tasks. These innovations signify a shift from fixed to flexible automation, catering to modern production demands for high adaptability. Live demonstrations allowed attendees to experience the capabilities of these intelligent systems firsthand. Additionally, a panel discussion featured successful case studies, focusing on return on investment while improving accuracy, reducing waste, and ensuring long-term quality. The collaboration aims to foster partnerships within the automation ecosystem, including Zimmer Group and Mech-Mind Robotics, to develop comprehensive solutions that enhance the efficiency and quality of Thai manufacturing. This initiative marks a significant step towards building a robust automation ecosystem, driving Thailand's manufacturing sector towards smart production and global competitiveness.

AppliCAD ผนึก JAKA Robotics วางไทยเป็น Strategic Hub ดันโรงงานสู่ยุค AI Automation

AppliCAD ผนึก JAKA Robotics วางไทยเป็น Strategic Hub ดันโรงงานสู่ยุค AI Automation

AppliCAD Public Company Limited has partnered with JAKA Robotics to host the "JAKA Thailand User Conference 2026," a significant event focused on advancing AI automation in Thai manufacturing. Held recently, the conference attracted over 150 industry executives and engineers, showcasing collaborative robot (Cobot) technologies integrated with AI vision and automation systems. During the opening remarks, AppliCAD's Deputy Director, Patipat Klampracha, emphasized that AI automation is no longer a futuristic concept but a strategic tool for modern factories. He highlighted how Cobots and AI can reduce production losses, enhance precision, minimize human error, and support flexible automation, which is crucial for lean manufacturing and smart factories in the era of Industry 4.0. JAKA Robotics announced its commitment to establishing Thailand as a strategic hub for automation in Southeast Asia, presenting its "Practical Automation" approach that emphasizes straightforward implementation and clear return on investment. The event featured the launch of new technologies, including the JAKA K1 Humanoid Dual-Arm Robot, the JAKA Lumi AI training platform, and the JAKA S³ AMR, an autonomous mobile robot designed for intralogistics. Attendees experienced live demonstrations of these innovations and participated in discussions on successful case studies that focused on payback periods, accuracy, waste reduction, and long-term quality stability. The collaboration between AppliCAD and JAKA Robotics aims to create a robust automation ecosystem that enhances the efficiency and competitiveness of Thai manufacturing on a global scale.

Understanding Robotics and Autonomous Systems in Next-Gen Smart Factories

Understanding Robotics and Autonomous Systems in Next-Gen Smart Factories

Factories are experiencing a significant transformation as they shift from traditional linear automation to interconnected, intelligent production ecosystems. This change is driven by the integration of robotics and autonomous systems, with JAKA positioning its industrial cobots as essential components within this advanced network. The industrial cobot serves as a flexible link between manual workstations and fully automated lines, enabling manufacturers to adapt quickly to varying tasks such as assembly and inspection. This adaptability is crucial for high-mix production environments, allowing workflows to respond in near real-time to digital directives from a central Manufacturing Execution System (MES). The evolution of true autonomy is facilitated by the connectivity of individual machines within a coordinated network. JAKA's robotic arms can communicate seamlessly with autonomous mobile robots and vision systems, creating a responsive operational loop. For example, an autonomous robot can deliver components to a JAKA cobot, which then executes tasks based on cloud-based analytics. JAKA emphasizes the importance of reliable, connected hardware to support these systems, focusing on high-precision control technology that ensures accurate task execution. This reliability is essential for advancing towards lights-out production in certain processes. As the next-generation smart factory emerges, the industrial cobot is positioned as a versatile agent within a complex architecture of robotics and autonomous systems. JAKA aims to provide manufacturers with the necessary hardware to build increasingly responsive and autonomous production environments, enhancing efficiency and complexity management in the manufacturing landscape.

Saddle Creek Logistics Transforms Container Unloading with Anyware Robotics’ Pixmo

Saddle Creek Logistics Transforms Container Unloading with Anyware Robotics’ Pixmo

Saddle Creek has announced a partnership with Anyware Robotics, a prominent company specializing in multi-purpose mobile robots that utilize advanced physical AI technology. This collaboration focuses on the deployment of Pixmo, an innovative AI-powered mobile robot specifically engineered for box handling tasks. Pixmo is designed to autonomously unload containers and trailers, enhancing operational efficiency in logistics and supply chain management. This partnership marks a significant step forward in automating warehouse processes, aiming to streamline operations and reduce labor costs. The initiative is part of a broader trend towards integrating robotics in industrial settings, reflecting the growing demand for automation solutions in the logistics sector.

RobotToday Initiative

Robotics needs a service framework.

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