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

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.

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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
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
From the factory floor to the living room: 22 mobile robots keep TV production running

From the factory floor to the living room: 22 mobile robots keep TV production running

In a significant advancement for warehouse operations, a company has successfully transitioned from manual electric carts to fully automated transport systems utilizing autonomous mobile robots. This shift, which took place recently, aims to enhance efficiency and streamline logistics within the facility. By implementing these robots, the company seeks to reduce the need for human intervention in material handling, thereby minimizing the risk of accidents and improving overall productivity. The integration of this technology marks a pivotal change in how goods are transported within the warehouse, reflecting a broader trend towards automation in the industry.

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.

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

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

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

Allgemein Antriebs- und Lineartechnik Robotik
Phase stability regulator based on two dynamic parameters for autonomous mobile robots

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

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

Autonomous Mobile Robots (AMRs) Logistics Manufacturing Mobility / Navigation News Opinion
The Future of Cobot Palletizing: Autonomous Mobile Robots and Modular Systems

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

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

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
Hybrid Velocity Obstacle‐Nonlinear Control Method for Real‐Time Collision Avoidance of Nonholonomic Mobile Robots

Hybrid Velocity Obstacle‐Nonlinear Control Method for Real‐Time Collision Avoidance of Nonholonomic Mobile Robots

In May 2026, researchers published a study in the Journal of Field Robotics, exploring advancements in robotic technology and its applications in various fields. The study highlights the integration of artificial intelligence and machine learning in enhancing the capabilities of field robots. Conducted by a team of engineers and scientists, the research aims to address challenges faced in agriculture, search and rescue operations, and environmental monitoring. The findings demonstrate how these innovations can improve efficiency and accuracy in tasks traditionally performed by humans, thereby reducing labor costs and increasing safety in hazardous environments. The team employed a series of experiments to test the robots' performance in real-world scenarios, showcasing their ability to navigate complex terrains and make autonomous decisions. This research is significant as it underscores the potential of robotics to transform industries by providing solutions that are not only effective but also sustainable. The authors emphasize the importance of continued investment in robotic research to further develop these technologies and expand their applications.

RESEARCH ARTICLE
Chassis Pose Kinematic Model and Control for Terrestrial Mobile Robots With Active Flippers

Chassis Pose Kinematic Model and Control for Terrestrial Mobile Robots With Active Flippers

The Journal of Field Robotics has published an EarlyView article highlighting recent advancements in robotic technology. Researchers from various institutions have collaborated to explore innovative applications of robotics in fields such as agriculture, search and rescue, and environmental monitoring. This study, released in October 2023, emphasizes the growing importance of autonomous systems in enhancing efficiency and safety across these sectors. The research team conducted extensive field tests to demonstrate how robots can perform complex tasks, such as crop monitoring and disaster response, with minimal human intervention. By integrating artificial intelligence and machine learning, the robots are designed to adapt to dynamic environments, showcasing their potential to revolutionize traditional practices. The motivation behind this research stems from the increasing demand for automation in response to labor shortages and the need for more effective solutions to global challenges. The findings underscore the necessity for continued investment in robotic technology to address pressing issues such as food security and disaster management. As the field of robotics continues to evolve, this publication serves as a critical resource for professionals and researchers aiming to leverage these advancements for practical applications. The collaborative effort reflects a commitment to pushing the boundaries of what is possible in robotics, paving the way for future innovations that could significantly impact various industries.

RESEARCH ARTICLE
Dynamic Environment Adaptive Path Planning for Mobile Robots: A Hybrid Enhanced Path‐Planning Approach

Dynamic Environment Adaptive Path Planning for Mobile Robots: A Hybrid Enhanced Path‐Planning Approach

The Journal of Field Robotics has published a new study highlighting advancements in autonomous robotic systems. Researchers from various institutions collaborated on this project, aiming to enhance the efficiency and safety of robots used in field applications. The study, released in early October 2023, focuses on innovative algorithms that improve navigation and obstacle avoidance in complex environments. Conducted in diverse outdoor settings, the research demonstrates how these advancements can significantly reduce operational risks and increase productivity in sectors such as agriculture, search and rescue, and environmental monitoring. By integrating cutting-edge machine learning techniques, the team was able to develop robots that adapt to changing conditions in real-time, showcasing their potential for practical deployment. This research is particularly timely as industries increasingly seek automation solutions to address labor shortages and improve operational efficiency. The findings underscore the importance of continued investment in robotic technologies, which are poised to transform various sectors by enhancing capabilities and ensuring safer working conditions. The study serves as a pivotal step toward realizing the full potential of autonomous systems in real-world applications.

RESEARCH ARTICLE
First Autonomous Mobile Robots Roll Off the Line at Rockwell Automation’s Milwaukee Headquarters

First Autonomous Mobile Robots Roll Off the Line at Rockwell Automation’s Milwaukee Headquarters

Rockwell Automation has achieved a significant milestone with its OTTO by Rockwell Automation platform, following the company's acquisition of Clearpath Robotics in 2023. This development underscores Rockwell's dedication to enhancing smart manufacturing through automation technologies. The integration of Clearpath Robotics is expected to bolster the capabilities of the OTTO platform, positioning Rockwell as a leader in the evolving landscape of automated manufacturing solutions.

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.

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.

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Scaling automation in contract manufacturing: Interview with Rodrigo DallOglio of Flex

Scaling automation in contract manufacturing: Interview with Rodrigo DallOglio of Flex

Manufacturers are increasingly turning to automation to enhance productivity, quality, and resilience amid rising product complexity. This shift is evident as technologies like collaborative robots, autonomous mobile robots (AMRs), and advanced physical AI are transitioning from experimental stages to widespread implementation in large-scale production settings. The move towards automation is driven by the need to streamline operations and meet the demands of modern manufacturing. As companies adapt to these technological advancements, they are finding new ways to optimize their processes and improve overall efficiency in the factory environment.

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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
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
Breakthrough in Mobile Electrostatic Grippers: Soft on Contact, Rigid During Transport

Breakthrough in Mobile Electrostatic Grippers: Soft on Contact, Rigid During Transport

Researchers at Harbin Institute of Technology have unveiled a groundbreaking electrostatic gripper capable of adjusting its stiffness on demand. This innovative device remains soft when in contact with objects, allowing for improved adherence, and transitions to a rigid state during transport to mitigate the risk of drop-offs caused by inertia. The development aims to enhance the stable handling of diverse surfaces and has been integrated into mobile robots, significantly boosting their operational performance. This advancement represents a significant step forward in robotic manipulation technology, promising to improve efficiency in various applications.

Electrostatic Grippers Robotics Mobile Manipulation Variable Stiffness Technology
Sonair Launches Safety-Certified Sensor for Robots and Industrial Automation

Sonair Launches Safety-Certified Sensor for Robots and Industrial Automation

A leading technology company has announced the launch of a groundbreaking sensor, touted as the first of its kind, specifically designed for autonomous mobile robots (AMRs) and industrial automation. This innovative product aims to enhance operational efficiency and precision in various industrial applications. The announcement was made earlier this week, highlighting the company's commitment to advancing automation technology. By integrating this sensor into AMRs, businesses can expect improved navigation and obstacle detection, ultimately streamlining their processes. The development of this sensor reflects the growing demand for advanced automation solutions in the industry, driven by the need for increased productivity and reduced labor costs.

Factory / Sensors
Where to start with mobile automation

Where to start with mobile automation

During a recent presentation at Automate, Formova's leadership provided insights on the critical factors companies must evaluate when integrating Automated Guided Vehicles (AGVs) or Autonomous Mobile Robots (AMRs) into their operations. The discussion emphasized the importance of assessing existing workflows, employee training needs, and the potential impact on productivity. By addressing these considerations, businesses can ensure a smoother transition to automation technologies. The event, held in October 2023, served as a platform for industry leaders to share best practices and strategies for leveraging automation to enhance efficiency and competitiveness in the market.

Podcast: Revolutionising Warehouses – The Rise of Autonomous Robots

Podcast: Revolutionising Warehouses – The Rise of Autonomous Robots

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

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.

ByteDance builds more than 1,000 robots with long-term goal of embodied intelligence: report

ByteDance builds more than 1,000 robots with long-term goal of embodied intelligence: report

ByteDance has made significant strides in the robotics sector, producing over 1,000 robots in just two and a half years. An exclusive report by LatePost revealed that the company’s robotics research and development team has grown to approximately 150 members. This expansion is part of ByteDance's long-term objective to develop embodied intelligence in robotics. Currently, the company is concentrating on the production of wheeled logistics robots, also known as Autonomous Mobile Robots (AMRs), which are designed to enhance efficiency in various operational environments.

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Comau unveils MYMR, a scalable autonomous mobile robot family engineered to optimize intralogistics efficiency

Comau unveils MYMR, a scalable autonomous mobile robot family engineered to optimize intralogistics efficiency

Comau, a leader in automation solutions, has announced the launch of three new Autonomous Mobile Robots (AMRs) aimed at improving intralogistics and warehouse automation. This development comes as part of the company's ongoing efforts to enhance operational efficiency and reduce labor costs in the logistics sector. The introduction of these robots is set to take place in October 2023, with the deployment expected to revolutionize the way goods are transported within warehouses. By utilizing advanced navigation and AI technology, the AMRs will facilitate seamless movement of materials, allowing for increased productivity and safety in busy warehouse environments. This strategic move reflects Comau's commitment to innovation and its response to the growing demand for automated solutions in the supply chain industry.

Kunda Automation Integrates Humanoid Robots into Production Lines

Kunda Automation Integrates Humanoid Robots into Production Lines

Kunda Automation has recently obtained substantial funding aimed at advancing its mobile robots and smart assembly systems, reflecting a growing emphasis on the operational stability and adaptability of robots in manufacturing. As industries increasingly integrate robotic technology, particularly in the automotive and aerospace sectors, the focus has shifted from the human-like appearance of robots to their ability to execute complex tasks effectively in real-world environments. This funding will enable Kunda Automation to enhance its offerings, ensuring that their robots can meet the demands of modern manufacturing processes.

Mobile Robots Smart Manufacturing Automation Solutions Industrial Robotics
What is an AMR?

What is an AMR?

In recent years, the industrial sector has witnessed a significant shift with the increasing adoption of Autonomous Mobile Robots (AMRs) in factories and warehouses. Traditionally, industrial robots were confined to specific production cells and operated behind safety barriers. However, AMRs are now gaining prominence due to their ability to navigate autonomously and transport materials efficiently within facilities. This transition reflects a growing interest among manufacturers in leveraging advanced robotics technology to enhance operational efficiency and streamline logistics processes. As industries seek to optimize their workflows, the integration of AMRs is becoming a crucial component in modern manufacturing and warehousing strategies.

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Video Friday: Digit Learns to Dance—Virtually Overnight

Video Friday: Digit Learns to Dance—Virtually Overnight

In a recent roundup of advancements in robotics, IEEE Spectrum highlighted several notable developments and upcoming events in the field. Among the key innovations is Digit, a humanoid robot that can learn new whole-body control capabilities overnight through sim-to-real reinforcement training, enhancing its performance in various tasks. Additionally, the introduction of GEN-1 marks a significant milestone in robot learning, achieving a 99% success rate in simple physical tasks and drastically reducing task completion time. Unitree has made strides by open-sourcing the UnifoLM-WBT-Dataset, a comprehensive dataset for humanoid robot teleoperation, which has been available since March 5, 2026. Meanwhile, researchers presented MRReP, a Mixed Reality interface that allows users to guide autonomous mobile robots in human-shared environments through hand gestures. In other developments, Sanctuary AI showcased its advanced hydraulic hands capable of dexterous manipulation, while China’s Yuxing 3-06 satellite successfully completed an in-orbit refueling test, paving the way for future satellite servicing. Furthermore, Japan Railway West collaborated with Serendix to utilize 3D printing technology for rapid construction at Hatsushima station, demonstrating innovative solutions to infrastructure challenges. Upcoming robotics events include ICRA 2026 in Vienna from June 1-5, and the Summer School on Multi-Robot Systems in Prague from July 29 to August 4, 2026, providing platforms for further exploration and collaboration in the robotics sector.

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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.

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Toyota introduces over 400 Geekplus AMRs to multiple factories to enhance automated logistics.

Toyota introduces over 400 Geekplus AMRs to multiple factories to enhance automated logistics.

Geek Plus has announced the implementation of its autonomous mobile robots (AMRs) in multiple Toyota manufacturing plants. Currently, over 400 Geek Plus AMRs are operational across Toyota's facilities, with each system managing up to approximately 200 units. This deployment aims to enhance efficiency in the production process, reflecting the growing trend of automation in the automotive industry.

Visual Components launches version 5.1 to enable manufacturers to simulate and validate large-scale autonomous robot operations before deployment

Visual Components launches version 5.1 to enable manufacturers to simulate and validate large-scale autonomous robot operations before deployment

A recent software release has empowered manufacturers to simulate hundreds of Autonomous Mobile Robots (AMRs) and Automated Guided Vehicles (AGVs) with enhanced dynamic collision avoidance capabilities. This update significantly boosts performance, achieving speeds up to ten times faster than previous versions. The integration of updated PhysX technology further enhances the realism of physics simulations, providing a more accurate representation of real-world scenarios. This advancement is expected to streamline operations in various manufacturing environments, allowing for more efficient planning and deployment of robotic systems. The release, which reflects the latest developments in simulation technology, aims to meet the growing demand for automation in the manufacturing sector.

indie Launches Edge AI SoC to Power Smarter Perception Systems for Automotive and Humanoids

indie Launches Edge AI SoC to Power Smarter Perception Systems for Automotive and Humanoids

indie, an automotive solutions innovator based in Aliso Viejo, CA, has announced the launch of its next-generation edge AI system-on-chip (SoC), the iND881, designed to enhance smart camera technology for automotive and robotic applications. Unveiled on June 10, 2026, the iND881 integrates an AI compute engine with indie’s advanced low-latency multi-camera image signal processor (ISP), providing an efficient solution for developers. The iND881 is engineered for low power consumption and real-time responsiveness, featuring a Neural Processing Unit (NPU), a versatile Digital Signal Processor (DSP), and a quad-core ARM Cortex-A53 CPU. This architecture is tailored for demanding edge perception tasks, making it particularly beneficial for advanced driver assistance systems, including driver and occupant monitoring and smart mirrors with blind-spot detection. In addition to automotive applications, the iND881 supports robotics and physical AI automation, facilitating accurate sensing and navigation for autonomous mobile robots. The device's capabilities include multi-channel video compression, high-dynamic-range ISP, and compatibility with various sensor modalities such as infrared and LiDAR, ensuring robust performance in complex environments. The iND881 is ASIL-B compliant and automotive qualified, currently available for sampling. It will be showcased at the upcoming AutoSens and InCabin USA 2026 events. Fred Jarrar, indie's senior vice president, emphasized that the launch not only expands their product portfolio but also positions indie as a comprehensive solutions provider in the edge AI market.

Automate 2026 Q&A with Roboteon

Automate 2026 Q&A with Roboteon

At Automate Booth #19019, attendees will witness a demonstration of advanced robotics technology featuring three Autonomous Mobile Robots (AMRs) and one collaborative order picking robot (Cobot) from four distinct vendors. This showcase highlights the seamless interoperability of these systems, which operate together as a unified fleet. The event aims to illustrate the potential of collaborative robotics in enhancing operational efficiency and productivity in various industries. By presenting this integrated approach, the exhibitors seek to emphasize the importance of interoperability in modern automation solutions. The demonstration is set to take place during the Automate event, which runs through October 2023, attracting industry professionals eager to explore the future of robotics and automation.

Automated setup processes system combined with AMR.

Automated setup processes system combined with AMR.

Fuji has introduced a new system unit called the Auto Kitting Station, designed to automate the process of loading feeders with belt rolls for component supply in assembly machines. This innovation aims to enhance efficiency in automated setup processes, particularly when integrated with Autonomous Mobile Robots (AMR). The development reflects Fuji's commitment to advancing automation in manufacturing, streamlining operations, and reducing manual labor requirements.

Allgemein Lösungen
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
New Integration Expands Mixed-Fleet AGV Interoperability

New Integration Expands Mixed-Fleet AGV Interoperability

As the trend of automation in warehouses and manufacturing facilities accelerates, operators are prioritizing the coordination of autonomous vehicles through unified control systems. This growing demand for Mixed-Fleet AGV Interoperability is driven by companies looking to integrate automated guided vehicles (AGVs), autonomous mobile robots (AMRs), and manually operated equipment into their operations. The push for seamless integration aims to enhance efficiency and streamline processes, reflecting the industry's shift towards more sophisticated automation solutions.

AMR and AGV IT in Logistics Materials Handling AGV fleet integration
AMR×DPS導入で梱包時間2倍・電力40%削減を実現 再春館製薬所

AMR×DPS導入で梱包時間2倍・電力40%削減を実現 再春館製薬所

Saishunkan Pharmaceutical Co., Ltd. has implemented a new system at its shipping center located within the integrated headquarters and factory known as "Saishunkan Hilltop." This innovative system combines autonomous mobile robots (AMR) with a digital picking system (DPS) to enhance operational efficiency. The introduction of this technology aims to streamline logistics processes and improve productivity within the company.

Seven Sense for Excellence: Geek+ Adds MEA Debut Wins to Five European SCEA Titles

Seven Sense for Excellence: Geek+ Adds MEA Debut Wins to Five European SCEA Titles

Geek+, a prominent player in the field of autonomous mobile robots (AMR), has garnered notable accolades in the Middle East and Africa by securing two esteemed awards: the Retail Supply Chain Excellence Award and the Best Use of Robotics Award. These honors, received recently, underscore the effectiveness of Geek+'s collaborations with Takealot Fulfilment Services in South Africa and Starlinks in Saudi Arabia. The recognition highlights the company's innovative robotic solutions, which significantly improve operational efficiency within the logistics industry.

Autonomous Mobile Robots Warehouse Automation Supply Chain Excellence E-commerce Logistics Robotic Solutions
Geek+ Unveils Innovative RoboShuttle V5 Autonomous Picking Solution

Geek+ Unveils Innovative RoboShuttle V5 Autonomous Picking Solution

Geek+ has unveiled the RoboShuttle V5, marking a significant advancement in warehouse automation as it becomes the world's first autonomous picking solution that combines goods-to-person autonomous mobile robots (AMRs) with intelligent robotic picking stations. This innovative system is designed to improve fulfillment efficiency and bolster business resilience by facilitating fully automated operations around the clock. The launch of the RoboShuttle V5 reflects the growing demand for enhanced logistics solutions in an increasingly competitive market, allowing companies to streamline their warehouse processes and respond more effectively to customer needs.

Autonomous Robots Warehouse Automation Robotic Picking Systems AI Technology
Geekplus Brings Pioneering 'Geekplus Brain' Embodied Intelligence and Integrated Robotics Platform to LogiMAT 2026

Geekplus Brings Pioneering 'Geekplus Brain' Embodied Intelligence and Integrated Robotics Platform to LogiMAT 2026

At LogiMAT 2026 in Stuttgart, Geekplus, a prominent provider of autonomous mobile robots, presented its cutting-edge 'Geekplus Brain' embodied intelligence technology along with a range of robotic solutions designed to revolutionize warehouse automation. The company conducted live demonstrations of its Robot Arm Picking Station, showcasing its capabilities in improving operational efficiency within logistics. Additionally, Geekplus introduced the humanoid robot Gino 1, further emphasizing its commitment to advancing automation in the industry. This event highlights the growing importance of innovative technologies in streamlining logistics processes and enhancing productivity.

Autonomous Mobile Robots Warehouse Automation Logistics Robotics Supply Chain Management
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.

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.

KUKA presents the future of packaging at interpack 2026 – fast, flexible, autonomous

KUKA presents the future of packaging at interpack 2026 – fast, flexible, autonomous

At the upcoming interpack 2026, KUKA will showcase its advanced automation solutions designed to enhance efficiency in packaging processes. The event, scheduled to take place in Düsseldorf, Germany, will feature KUKA's innovations including fast pick-and-place systems, hygienic oil and cleanroom robots, palletizing solutions, heavy-duty robots, and autonomous mobile robots (AMRs). Visitors can explore these technologies at Hall 6, Booth B74. KUKA aims to demonstrate how its smart and clean automation can streamline operations in the packaging, food, and consumer goods sectors, addressing the growing demand for efficient and hygienic production methods.

How AMRs Can Empower Employees and Create New Jobs

How AMRs Can Empower Employees and Create New Jobs

As autonomous mobile robots continue to expand their capabilities across various sectors, concerns about job displacement are growing. This emerging technology, while offering innovative solutions, has sparked fears among workers that automation may lead to significant job losses. The apprehension surrounding these robots reflects a broader anxiety about the impact of technological advancements on employment. As industries increasingly adopt these automated systems, the dialogue around their implications for the workforce intensifies, highlighting the need for strategies to address potential job disruptions.

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.

piCOBOT® Electric for Logistics & Warehousing

piCOBOT® Electric for Logistics & Warehousing

The logistics and warehousing sectors are undergoing a significant transformation as they increasingly adopt collaborative robots (cobots), autonomous mobile robots (AMRs), and flexible automation solutions. This shift is driven by the need for enhanced operational efficiency and sustainability, as companies face mounting pressure to reduce energy consumption and lower emissions. The integration of these advanced technologies allows for rapid reconfiguration of operations, enabling businesses to adapt quickly to changing demands. As the industry moves away from traditional utility reliance, the focus on innovative automation methods is expected to reshape the future of logistics and warehousing, promoting both environmental responsibility and improved productivity.

Geekplus Powers Live Warehouse Robotics for Immersive, Shoppable Fashion Runway

Geekplus Powers Live Warehouse Robotics for Immersive, Shoppable Fashion Runway

Geekplus is set to sponsor an innovative event, the world's first AI-driven, immersive, shoppable fashion runway, scheduled for February 26, 2026, in Manchester, UK. This groundbreaking showcase will demonstrate the fusion of robotics and e-commerce, with Geekplus' autonomous mobile robots executing real-world warehouse operations. The event aims to emphasize the critical role of automation in shaping the future of retail, offering attendees a unique experience that blends fashion with cutting-edge technology.

Warehouse Robotics E-commerce Fashion Technology Retail Automation
Infios Triples Dental City’s Productivity with New Robotics Solution

Infios Triples Dental City’s Productivity with New Robotics Solution

Infios has successfully integrated Locus Robotics' autonomous mobile robots (AMRs) at the Dental City distribution center, significantly enhancing operational efficiency. This implementation, which took place recently, aims to improve pick rates and overall fulfillment performance at the facility. The collaboration between Infios and Locus Robotics is driven by the need to streamline processes and increase capacity in response to growing demand in the dental supply sector. By utilizing advanced robotics technology, the distribution center is expected to achieve faster order processing and better inventory management, ultimately benefiting customers with improved service delivery.

Dematic and Hai Robotics Now Partnering to Provide Flexible AMR Robotics Solutions

Dematic and Hai Robotics Now Partnering to Provide Flexible AMR Robotics Solutions

Dematic and Hai Robotics have announced a strategic partnership aimed at advancing warehousing automation solutions throughout Europe. By integrating their respective technologies and expertise in autonomous mobile robots (AMR), the two companies seek to enhance the efficiency and flexibility of automation options available to customers. This collaboration is designed to improve order fulfillment systems in warehouses and distribution centers, ultimately streamlining operations and boosting productivity. The partnership reflects a growing trend in the logistics sector to adopt innovative technologies that meet the increasing demands of modern supply chains.

Warehouse Automation Autonomous Mobile Robots Logistics Supply Chain Solutions
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