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

Hiroshi Fujiwara and Robert Little Selected for 2026 Joseph F. Engelberger Robotics Awards

Hiroshi Fujiwara and Robert Little Selected for 2026 Joseph F. Engelberger Robotics Awards

Hiroshi Fujiwara, Executive Director of the Japan Robot Association, and Robert Little, co-founder of ATI Industrial Automation, have been honored with the 2026 Joseph F. Engelberger Robotics Awards, the highest accolade in the robotics field. The announcement was made by the Association for Advancing Automation (A3) on April 28, 2026. The awards recognize Fujiwara for his extensive contributions to advancing robotics and fostering international collaboration, while Little is celebrated for his pivotal role in enhancing the practical application of robotics in manufacturing. The awards ceremony will take place on June 24, 2026, from 5:15 to 8:30 p.m. CT at McCormick Place in Chicago, coinciding with Automate 2026, North America's largest robotics and automation event. Attendees can purchase tickets through the Automate registration process. A3 President Jeff Burnstein emphasized the significance of both winners, noting that their efforts have greatly contributed to the growth and practical implementation of robotics. Fujiwara has been instrumental in strengthening Japan's robotics ecosystem and promoting collaboration across various sectors, while Little has dedicated his career to providing manufacturers with the tools necessary for effective automation. Together, their achievements embody the spirit of the Engelberger Awards, celebrating innovation and leadership in the robotics industry.

A3’s Automate 2026 breaks records as demand for robotics, AI and automation grows

A3’s Automate 2026 breaks records as demand for robotics, AI and automation grows

Automate, North America’s largest robotics and automation event, celebrated its most successful show to date, drawing more than 50,000 registrants and 1,230 exhibitors to McCormick Place in Chicago from June 22-25. Hosted by the Association for Advancing Automation (A3), Automate 2026 filled 425,000 square feet of show floor space with the latest technologies in robotics, […]

Events Features a3 amrs artificial intelligence association for advancing automation
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
Flexiv launches new ‘adaptive robots’ for industrial automation

Flexiv launches new ‘adaptive robots’ for industrial automation

Flexiv has introduced two innovative adaptive robots aimed at enhancing tactile sensing and physical AI capabilities within the realm of industrial automation. The company unveiled its flagship Enlight robotic arm and the Mico dual-arm robotic platform, marking a notable advancement in force-controlled robotics and embodied intelligence. The Enlight arm features a seven-axis design, allowing for greater flexibility and precision in various applications. This launch, which took place recently, underscores Flexiv's commitment to pushing the boundaries of robotics technology to meet the evolving needs of the manufacturing sector. By integrating advanced sensing and control mechanisms, these robots are expected to improve operational efficiency and adaptability in complex industrial environments.

Industrial robots News adaptive robots cobots collaborative robots embodied ai
Enhancing Industrial Automation: Why Compact Mini PCs Are Quietly Becoming the Default Choice for Robotic Controllers

Enhancing Industrial Automation: Why Compact Mini PCs Are Quietly Becoming the Default Choice for Robotic Controllers

In recent years, the evolution of control cabinets in modern factories has significantly transformed, with a notable increase in the complexity of components housed within them. Engineers are now tasked with integrating advanced technologies such as vision systems, sensors, controllers, and networking equipment into increasingly confined spaces. This shift has prompted the adoption of compact industrial computers, which are designed to efficiently manage the growing demands of industrial automation. As manufacturers seek to optimize their operations and streamline processes, these compact solutions are becoming essential for maintaining productivity and enhancing system capabilities. The trend reflects a broader movement towards more sophisticated and space-efficient technologies in the manufacturing sector, driven by the need for innovation and efficiency in an ever-competitive landscape.

Automation Computing Factories Industry automation hardware automation news
Launchpad Build AI offers MLM to speed industrial automation design

Launchpad Build AI offers MLM to speed industrial automation design

Launchpad Build AI has introduced its Manufacturing Language Model (MLM), aimed at democratizing automation in high-mix, low-volume production environments. This innovative tool allows users to input data through various formats, including photos, videos, or CAD files, streamlining the design process for industrial automation. The launch of MLM represents a significant advancement in making automation accessible to a broader range of manufacturers, enabling them to enhance efficiency and adapt to diverse production needs.

Aerospace Artificial Intelligence Artificial Intelligence / Cognition Assembly Defense / Security Manufacturing
Apptronik Launches Elevate Robotics for "Superhuman" Industrial Automation

Apptronik Launches Elevate Robotics for "Superhuman" Industrial Automation

Apptronik, the company recognized for its Apollo humanoid robot, has launched a new subsidiary named Elevate Robotics. This initiative is focused on creating and marketing industrial automation solutions designed to function beyond the limitations of human capabilities. The establishment of Elevate Robotics aims to transform the landscape of heavy-duty work by introducing advanced robotic systems that can enhance efficiency and productivity in various industrial sectors. This strategic move reflects Apptronik's commitment to innovation and its vision of redefining the future of work through automation.

Elevate Robotics Industrial Automation Apptronik robotics
The Hidden Lifecycle Challenge Behind Industrial Automation Growth

The Hidden Lifecycle Challenge Behind Industrial Automation Growth

The rapid advancement of automation is reshaping infrastructure demands across factories and shipping centers. As industries strive to enhance production efficiency, reduce errors, and minimize waste, the integration of smarter technologies has become essential. This shift is characterized by the increasing reliance on robots, artificial intelligence, and self-operating machines, which require sophisticated systems to function effectively. The ongoing evolution in manufacturing and logistics is not only transforming operational processes but also necessitating significant upgrades in infrastructure to support these advanced technologies. As companies adapt to these changes, the focus remains on optimizing the movement of goods and ensuring seamless operations in an increasingly automated environment.

Automation Industry automation infrastructure automation news circular economy data security
Automate 2026: Orbbec Brings AI-Powered Vision Solutions to Address Industrial Automation Challenges

Automate 2026: Orbbec Brings AI-Powered Vision Solutions to Address Industrial Automation Challenges

Orbbec, a prominent player in robotics and 3D vision technology, is presenting its innovative 3D vision products and solutions aimed at enhancing industrial automation during the Automate 2026 event. The exhibition is taking place at Booth 14045 in the North Building. This showcase highlights Orbbec's commitment to advancing automation processes in various industries, reflecting the growing demand for efficient and intelligent manufacturing solutions. By leveraging cutting-edge technology, Orbbec aims to demonstrate how its products can streamline operations and improve productivity in the industrial sector.

KUKA brings hands-on industrial automation to the classroom

KUKA brings hands-on industrial automation to the classroom

KUKA is enhancing its educational initiatives by focusing on technical training in automation at vocational schools and universities. The company is introducing modular robot learning cells and AI-supported applications to facilitate hands-on training, enabling educational institutions to effectively incorporate industrial automation into their curricula. This initiative aims to provide students with a clear, application-oriented understanding of modern production environments, ensuring they are well-prepared for future workforce demands. By investing in these educational resources, KUKA seeks to bridge the gap between academic training and industry requirements, fostering a new generation of skilled professionals in automation.

Mantis Robotics Extends Potential of Physical AI with New Dual-Arm Fenceless Robot for Industrial and Retail Automation

Mantis Robotics Extends Potential of Physical AI with New Dual-Arm Fenceless Robot for Industrial and Retail Automation

Mantis Robotics has introduced its latest innovation, the MR-X dual-arm robot, at Automate 2026 in Chicago, showcasing advancements in physical AI for industrial and retail automation. This high-performance robot, capable of lifting up to 70 lbs and operating at speeds of 10.6 m/s, is designed to function without safety fences, allowing for flexible deployment in complex environments. The MR-X is inspired by human biomechanics, enabling it to perform demanding tasks that require both strength and dexterity. Its patented SafetyCore platform provides continuous awareness of its surroundings, allowing the robot to autonomously react to nearby humans without interrupting its operations. This feature eliminates the need for traditional safety infrastructure, enhancing efficiency while maintaining safety standards. Mantis Robotics aims to revolutionize automation with the MR-X, which builds on the success of its predecessor, the MR-1, known for its certified fenceless operation. CEO Gerry Vannuffelen emphasized that the MR-X is not just another humanoid robot, but a first-in-class dual-arm system that surpasses both collaborative robots and humanoids in speed and safety. Visitors to Booth 1261 in the South Hall at Automate 2026 can witness the MR-X's capabilities firsthand, interact with the MR-1, and explore the technology that enables rapid deployment without disruption. Mantis Robotics invites attendees to schedule personalized walkthroughs and learn about priority access for early customers.

A Piece of Automation History in Steel Construction

A Piece of Automation History in Steel Construction

Liebherr Group has taken a significant step in automation by fully automating the production of complex component assemblies at its facility in Telfs, Austria. This milestone marks the first time the construction machinery manufacturer has implemented such advanced automation in its production processes. The autonomous manufacturing cell, developed and built by Yaskawa, utilizes three Motoman industrial robots to handle all manipulation and assembly tasks, culminating in the efficient output of finished components. This innovation reflects Liebherr's ongoing commitment to pushing the boundaries of automation in their manufacturing operations.

Allgemein Anwendungen & Lösungen Lösungen
Industrial Automation and Robotics for Educators: Training the Next Generation

Industrial Automation and Robotics for Educators: Training the Next Generation

The rapid evolution of industrial automation and robotics is reshaping global manufacturing, leading to an increased need for a skilled workforce adept at managing advanced machinery. As educators strive to connect theoretical engineering principles with the practical demands of modern smart factories, there is a pressing requirement for classroom tools that reflect real-world equipment. By 2026, the integration of robotics into STEM curricula is expected to be crucial for fostering critical thinking and technical literacy among students. Educational programs are shifting towards "Embodied Intelligence," where learners engage with sophisticated technologies like industrial robot arms, enhancing their understanding of vision systems, sensor feedback, and machine learning. This hands-on experience equips students with essential skills in industrial safety, workflow optimization, and predictive maintenance, preparing them for careers as automation engineers and technicians. However, challenges persist, including the high costs and complexities associated with traditional industrial robots, which often require specialized facilities and safety measures. To address these issues, educational institutions are exploring "all-in-one" solutions that prioritize safety and usability while maintaining industrial-grade performance. JAKA Robotics is stepping up to meet these educational needs by providing tools that facilitate a safe learning environment. Their JAKA Academy offers a comprehensive training platform with courses ranging from basic operations to advanced software development. The versatile JAKA Zu and S series robots are designed for both research and classroom use, allowing students to engage in practical tasks and develop innovative AI-driven workflows. By incorporating JAKA's technology into educational settings, students are empowered to become the next generation of leaders in industrial automation.

COMAU and OMRON Robotics to collaborate on expanding advanced industrial automation solutions across light industry, electronics, and medical manufacturing 

COMAU and OMRON Robotics to collaborate on expanding advanced industrial automation solutions across light industry, electronics, and medical manufacturing 

COMAU and OMRON Robotics have entered into a strategic collaboration agreement to enhance the adoption and deployment of advanced industrial automation solutions for manufacturers globally. This partnership, announced recently, aims to leverage both companies' expertise in robotics and automation technology to streamline manufacturing processes and improve operational efficiency. By combining their resources and knowledge, COMAU and OMRON intend to address the growing demand for innovative automation solutions in various industries. The collaboration reflects a commitment to driving technological advancements that support manufacturers in navigating the complexities of modern production environments.

How ProAV Impacts Industrial Automation Networks

How ProAV Impacts Industrial Automation Networks

Recent advancements in deterministic Ethernet and time-sensitive networking standards are transforming industrial networks, enhancing both safety and speed. These developments are particularly significant as certification programs are now facilitating multi-vendor interoperability, allowing different systems and devices to work seamlessly together. This progress is crucial for industries that rely on real-time data transmission and require reliable communication between various components. By implementing these standards, companies can expect improved operational efficiency and reduced downtime, ultimately leading to more robust industrial environments. The push for these technologies reflects a growing demand for smarter, more connected industrial solutions that can adapt to the complexities of modern manufacturing and automation.

Factory / Communication
Are Industrial Cobots Better Than Custom-Built Automation Machinery?

Are Industrial Cobots Better Than Custom-Built Automation Machinery?

JAKA, a leader in industrial automation, is actively comparing its collaborative robot solutions to traditional custom-built machinery amid the rapid evolution of the industry. Many manufacturers are grappling with issues related to flexibility, scalability, and overall costs associated with bespoke automation. In contrast, JAKA's industrial collaborative robots, such as the JAKA Pro16, offer significant adaptability, allowing for quick transitions between tasks like palletizing, machine tending, and welding with minimal reconfiguration. The JAKA Pro16 is designed to thrive in demanding environments, boasting an IP68 rating that protects it from dust and liquids, making it a robust choice for dynamic industrial settings. This flexibility not only reduces downtime but also enables manufacturers to respond swiftly to production changes. Moreover, JAKA's collaborative robots present a lower total cost of ownership compared to traditional machinery, requiring less specialized installation and engineering time. The JAKA Pro16 can be deployed in weeks rather than months, facilitating easier scaling and adjustments in operations. Its high payload capacity and precision, even in harsh conditions, contribute to consistent performance and reduced quality variations. Overall, JAKA's experience suggests that industrial cobots provide greater flexibility, faster deployment, and enhanced reliability compared to custom-built solutions. While bespoke machinery may still be necessary for highly specialized tasks, JAKA believes that collaborative robots offer a practical and cost-effective solution for many industries facing modern automation challenges.

The History and Development of Industrial Cobots in Modern Automation

The History and Development of Industrial Cobots in Modern Automation

Industrial automation has undergone significant transformation over the past few decades, with collaborative robots, or cobots, playing a pivotal role in this evolution. JAKA, a leading company in this field, has highlighted how these robots enhance manufacturing processes by allowing safe and efficient collaboration with human workers. Unlike traditional robots that operate in isolation, cobots are designed to work alongside humans, improving workplace efficiency, reducing exposure to hazardous tasks, and ensuring consistent product quality. The journey of industrial cobots began in the early 1990s when researchers sought to merge automation with human collaboration. Initially, safety concerns limited robots to isolated environments, but advancements in technology have since enabled them to operate safely in shared spaces. JAKA has utilized these innovations to develop the JAKA Pro5, a robot that ensures precise handling while minimizing workplace accidents. Today, cobots are increasingly utilized across various sectors, including electronics, automotive, and logistics. Their ability to take on repetitive or dangerous tasks allows human operators to concentrate on more complex decision-making roles. The JAKA Pro5, for instance, is highly adaptable and can be quickly reprogrammed for different production needs, enhancing operational flexibility and reducing costs associated with equipment changes. Looking ahead, JAKA envisions a future where collaborative robots will continue to advance, incorporating intelligent sensing and adaptive learning. This evolution aims to create smart factories where humans and machines work together seamlessly, ensuring that automation remains both productive and safe.

Automation and Industrial Robotics for Small Workshops: Overcoming Budget Barriers

Automation and Industrial Robotics for Small Workshops: Overcoming Budget Barriers

Small workshops are increasingly recognizing the potential of automation and industrial robotics, despite initial investment concerns. A company specializing in these technologies is addressing the challenges faced by smaller operations by promoting the integration of collaborative robots, or cobots, such as the JAKA Pro5. This solution allows workshops to enhance productivity and efficiency without the burden of significant upfront costs. The JAKA Pro5 is designed for easy deployment in limited spaces, featuring a maintenance-free integrated joint system that ensures high precision with minimal upkeep. Its robust environmental adaptability makes it suitable for various industrial conditions, allowing small teams to automate multiple processes effectively. To alleviate budget constraints, the company collaborates with clients to identify key areas for automation, enabling a gradual implementation of robotic capabilities. This approach allows workshops to spread costs over time while achieving measurable improvements in productivity and maintaining safety standards. By strategically adopting JAKA technology, small workshops can unlock their industrial potential, optimize workflows, and remain competitive in the market, even with limited financial resources. The company emphasizes that advanced industrial automation is accessible to businesses of all sizes, empowering smaller operations to innovate and grow.

Automation and Industrial Robotics for Education: Training Programs and Platforms

Automation and Industrial Robotics for Education: Training Programs and Platforms

JAKA, a leader in industrial automation and robotics, is revolutionizing technical education by integrating hands-on experience with industrial cobot systems into learning environments. This initiative aims to prepare students for future careers in manufacturing and engineering by providing practical knowledge that complements traditional theoretical studies. The company has developed training programs centered around the JAKA Pro16, an industrial cobot designed to operate in challenging environments, allowing students to engage in tasks such as palletizing, machine tending, and precision welding without damaging sensitive equipment. This hands-on approach helps learners understand the practical challenges of modern industrial settings. JAKA's modular platforms facilitate both individual and collaborative learning, enabling students to program trajectories, test automation sequences, and analyze data from integrated sensors. This immersive experience connects theoretical concepts with real-world applications, enhancing problem-solving skills and technical confidence. The goal of these educational programs is to equip students with the skills necessary for careers in manufacturing, engineering, and technology. By interacting with advanced robotics like the JAKA Pro16, students gain insights into mechanical operations, control systems, and safety protocols. JAKA also provides instructor guides and safety materials to ensure effective and secure learning. Through this commitment to integrating automation and robotics into education, JAKA is helping to bridge the gap between classroom learning and industry requirements, ultimately preparing the next generation for the evolving challenges of modern manufacturing.

The Impact of Automation and Industrial Robotics on Small and Midsize Enterprises

The Impact of Automation and Industrial Robotics on Small and Midsize Enterprises

The landscape of automation and industrial robotics is evolving, enabling small and midsize enterprises to access advanced manufacturing tools previously deemed unattainable. JAKA, a key player in this transformation, focuses on creating industrial collaborative robots (cobots) designed for flexibility and ease of use. These modern cobots lower traditional barriers to entry by allowing existing shop floor personnel to manage automation without requiring extensive technical expertise. With intuitive programming and plug-and-play connectivity, JAKA's cobots can be quickly integrated into production processes, enhancing operational efficiency. Their compact design allows for easy redeployment across various tasks, making them ideal for businesses facing space constraints and fluctuating order demands. Moreover, the economic impact of these cobots extends beyond productivity. They improve operational consistency, reduce material waste, and enhance product quality, ultimately protecting brand reputation. By taking over repetitive and ergonomically challenging tasks, JAKA's cobots also help mitigate workplace fatigue and injuries, contributing to a safer work environment. As accessible automation reshapes the capabilities of smaller manufacturers, JAKA aims to empower these businesses with practical robotic solutions that deliver immediate benefits while fostering long-term growth and resilience.

Laser micro-perforation with camera: enhancing reliability in packaging films through industrial vision.

Laser micro-perforation with camera: enhancing reliability in packaging films through industrial vision.

In the contemporary flexible packaging industry, achieving excellence extends beyond aesthetics to become a critical functional requirement. The optimization of permeability has emerged as a fundamental pillar in preserving the freshness of products, where every technical detail plays a vital role in extending shelf life and minimizing food waste. Recent advancements in laser micro-perforation technology, combined with industrial vision systems, are enhancing the reliability of packaging films. This innovative approach not only improves product preservation but also addresses the growing demand for sustainable packaging solutions. The integration of these technologies is transforming how the industry approaches packaging efficiency and effectiveness.

À la une IA Industrie Robotique conservation des aliments contrôle qualité automatisé
Themes of AI in Industrial Automation Influence Automate 2026 Keynotes

Themes of AI in Industrial Automation Influence Automate 2026 Keynotes

The Association for Advancing Automation is set to host a series of keynote speakers who will delve into the transformative impact of artificial intelligence on automation and industry dynamics. This event, scheduled for later this month, aims to provide insights into how AI technologies are reshaping various sectors and driving innovation. Industry leaders and experts will share their perspectives on the integration of AI in automation processes, highlighting both the opportunities and challenges that arise from this technological evolution. Attendees will have the chance to engage with thought leaders and gain valuable knowledge on the future of automation in an increasingly AI-driven landscape.

Factory / Communication
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
Smarter Automation with Industrial PCs and HMIs

Smarter Automation with Industrial PCs and HMIs

In a recent episode of the Automation World podcast, host Chris McNamara engaged with Chris Barber, product marketing manager at Phoenix Contact, to explore the evolving landscape of industrial automation. The discussion, which aired on June 24, 2026, delved into the transition towards web-based Human-Machine Interfaces (HMIs), industrial PCs, edge computing, and software-defined control systems. Barber highlighted Phoenix Contact’s innovative PLCnext approach, which integrates traditional operational technology (OT) programming with IT-friendly tools, aiming to simplify integration, enhance real-time processing, and bridge the gap between IT and OT. Barber provided a practical example from the water-wastewater sector, illustrating how edge PCs can significantly improve local alarm handling and data reliability. The conversation also touched on Phoenix Contact’s strengths in hardware and customer support, as well as emerging trends such as cloud-edge convergence and the development of smarter, connected systems that facilitate easier deployment. This insightful dialogue underscores the ongoing advancements in automation technology and its implications for various industries.

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Small Industrial Robots Pros and Cons: An Honest Review for Lean Automation

Small Industrial Robots Pros and Cons: An Honest Review for Lean Automation

In a bid to enhance manufacturing efficiency through "Lean Automation," many producers are turning to small industrial robots, such as the JAKA MiniCobo, which offers a compact solution to traditional bulky systems. These mini robot arms, designed to fit in tight spaces, provide a low-risk entry into automation, allowing manufacturers to maximize productivity while minimizing waste. The JAKA MiniCobo, weighing just 9.4 kg and featuring a 580 mm reach with a 1 kg payload, is particularly suited for delicate tasks in sectors like electronics and medical services. Its integrated intelligent drive module simplifies installation, eliminating the need for bulky control cabinets and enabling a plug-and-play experience. While small robots offer advantages such as energy efficiency, lower total cost of ownership, and safer operation near human workers, they also face limitations. Most can handle payloads under 2 kg and may struggle with high-torque tasks due to their lightweight construction. Additionally, they require careful management in high-temperature environments to prevent overheating. The JAKA MiniCobo exemplifies the principles of Lean Automation by reducing space and complexity while maintaining precision, making it an attractive option for manufacturers looking to streamline operations.

The Impact of Industrial Automation and Robotics on Global Supply Chain Resilience

The Impact of Industrial Automation and Robotics on Global Supply Chain Resilience

Global supply chains are increasingly strained due to demand fluctuations, labor shortages, and heightened delivery accuracy requirements. Experts emphasize that enhancing supply chain resilience now extends beyond logistics optimization to include bolstering manufacturing capabilities through industrial automation and robotics. By implementing structured automation strategies, manufacturers can achieve greater control over production stability, consistency in inspections, and quicker responses to external disruptions. A reliable supply chain relies on predictable production processes, and automation significantly reduces variability associated with manual operations, particularly in inspection and quality assurance. Automated systems ensure consistent inspection outcomes, regardless of workforce changes, allowing supply chain partners to plan inventory and delivery schedules with greater confidence. Innovative solutions like the JAKA Zu3 Inspection system facilitate non-destructive testing and precise measurement of complex components, integrating seamlessly with existing production lines. This adaptability enables manufacturers to adjust inspection capacities swiftly in response to changing supply chain conditions, minimizing downtime. As labor availability remains unpredictable, replacing manual inspection with automated systems enhances efficiency and quality, allowing workers to focus on higher-value tasks. This transition supports long-term resilience, ensuring that production schedules remain reliable and delivery commitments can be met even under challenging circumstances. In summary, the integration of industrial automation and robotics is crucial for strengthening supply chain resilience, enhancing manufacturing stability, and enabling flexible deployment in response to global challenges.

Industrial Robot Arm Pros and Cons: An Honest Review for Automation

Industrial Robot Arm Pros and Cons: An Honest Review for Automation

Manufacturers are increasingly turning to industrial automation to enhance safety, stability, and adaptability in production processes. JAKA, a leader in robotics, emphasizes the importance of understanding the strengths and limitations of industrial robot arms before implementing automation solutions. The company advocates for a tailored approach, focusing on realistic application outcomes and long-term flexibility rather than viewing robotic systems as one-size-fits-all solutions. One significant advantage of industrial robot arms is their ability to maintain consistent motion accuracy during repetitive tasks, particularly in polishing and grinding operations. This consistency not only ensures stable surface quality but also reduces human error and workplace accidents by minimizing direct human interaction with hazardous equipment. JAKA's Pro5 system exemplifies this capability, contributing to lower defect rates and a more controlled production environment. However, the deployment of industrial robot arms comes with challenges. Integrating these systems into existing production lines often necessitates adjustments to fixtures and tooling, requiring collaboration between automation engineers and production teams. Additionally, while robotic systems excel in certain applications, careful validation is needed to address factors like material variation and surface tolerance. Modern industrial robot arms offer flexibility and reprogrammability, allowing manufacturers to adapt to changing production demands without significant hardware changes. This adaptability supports quicker product modifications and reduces the need for additional investments in equipment. In summary, when applied thoughtfully, industrial robot arms can significantly enhance safety, consistency, and adaptability in manufacturing. JAKA's approach underscores the importance of aligning robotic systems with realistic process goals and flexible programming strategies to achieve sustainable automation outcomes.

Schneider Electric Launches Industrial Automation Service Built on HPE Infrastructure

Schneider Electric Launches Industrial Automation Service Built on HPE Infrastructure

A new service has been launched to assist industrial operators in modernizing their operations without interrupting production. This initiative, powered by HPE's cloud infrastructure and software, aims to streamline the modernization process, enabling businesses to enhance efficiency and adopt advanced technologies. The service is designed to cater to the unique needs of the industrial sector, ensuring that upgrades can be implemented seamlessly. By leveraging HPE's robust cloud solutions, operators can transition to modern systems while maintaining continuous production flow. This development comes at a time when many industries are seeking innovative ways to improve their operations and stay competitive in a rapidly evolving market.

Factory / Digital Transformation
Complete Guide to CNC Pallet Changers in Machining Automation Centers

Complete Guide to CNC Pallet Changers in Machining Automation Centers

The manufacturing industry is experiencing increasing pressure to enhance productivity by producing more quickly and with fewer human errors. In response to these challenges, the automation of machining centers is emerging as a documented and effective solution. Central to this transformation are automatic pallet changers and CNC loading systems, which facilitate a seamless transition to more efficient operations. This shift towards automation is detailed in a comprehensive guide featured in Robot Magazine, highlighting the significance of these technologies in modern manufacturing processes.

À la une IA Industrie Robotique automatisation centre d’usinage automatisation CNC
Industrial Automation Is Quietly Becoming a Software Discipline

Industrial Automation Is Quietly Becoming a Software Discipline

A recent exploration into software-defined automation highlights its pivotal role in advancing toward autonomous systems. Industry experts gathered at a technology conference in San Francisco on October 15, 2023, to discuss the transformative potential of this innovative approach. The event showcased how organizations are increasingly adopting software-defined automation to enhance operational efficiency and reduce human error in various sectors, including manufacturing and logistics. The motivation behind this shift stems from the growing demand for smarter, more responsive systems capable of adapting to real-time data and changing environments. By leveraging advanced algorithms and machine learning, companies are streamlining processes and achieving greater levels of autonomy in their operations. Participants emphasized the importance of collaboration between technology providers and end-users to ensure successful implementation. Demonstrations of real-world applications illustrated how software-defined automation can optimize workflows and improve decision-making capabilities. As industries continue to evolve, the integration of these technologies is expected to drive significant advancements in productivity and innovation. The discussions also touched on the challenges that accompany this transition, including the need for robust cybersecurity measures and the potential impact on the workforce. As organizations navigate these complexities, the journey toward full autonomy remains a focal point for future developments in technology.

Factory / Control
Why Latency Still Haunts Industrial Automation and What Engineers Are Doing About It

Why Latency Still Haunts Industrial Automation and What Engineers Are Doing About It

Recent advancements in network technology are transforming the industrial landscape by enabling near-zero latency and deterministic timing, which are crucial for the seamless integration of various technologies on the factory floor. This evolution is particularly significant for the coexistence of robotics and 5G systems, allowing them to operate efficiently alongside one another. The developments are driven by the need for enhanced operational efficiency and productivity in manufacturing environments. By leveraging smart network design, industries can optimize their processes, ensuring that machines communicate in real-time without delays. This innovation not only improves workflow but also enhances the overall performance of automated systems, paving the way for a more interconnected and responsive manufacturing ecosystem. As these technologies continue to evolve, they promise to redefine traditional manufacturing practices and set new standards for industrial operations.

Factory / Communication
EIB: €50 million to Comau for research and development in robotics, advanced automation and digital technologies for various industrial sectors

EIB: €50 million to Comau for research and development in robotics, advanced automation and digital technologies for various industrial sectors

The European Investment Bank (EIB) has announced a significant financial commitment of €50 million to Comau, a leading company in the field of robotics and advanced automation. This funding, aimed at bolstering research and development efforts, will focus on innovative technologies in robotics and digital automation. The investment is part of the EIB's broader strategy to support technological advancement and enhance competitiveness within the European Union. The funding agreement was finalized in October 2023, with the intention of fostering growth and innovation in the manufacturing sector, particularly as industries increasingly rely on automation to improve efficiency and productivity. Through this partnership, Comau aims to leverage the financial support to accelerate its R&D initiatives, ultimately contributing to the evolution of smart manufacturing solutions across Europe.

Kawasaki Robotics showcases 8-axis Physical AI robot and intelligent automation technologies at Automate 2026

Kawasaki Robotics showcases 8-axis Physical AI robot and intelligent automation technologies at Automate 2026

Kawasaki Robotics unveiled its latest advancements in automation technology at the Automate 2026 trade show held in Chicago. The event, which took place recently, highlighted the transformative impact of robotics, artificial intelligence, machine learning, vision systems, and real-time control on industrial automation. A key feature of the showcase was the introduction of the new “RL030N” robot platform, which boasts eight degrees of freedom and is specifically designed for Physical AI applications. This innovation reflects Kawasaki Robotics' commitment to pushing the boundaries of automation and enhancing operational efficiency across various industries.

Industrial robots News Robotics 8-axis robot Automate 2026 BA013L
Automation is Leaving the Factory Floor and Moving into the Back Office

Automation is Leaving the Factory Floor and Moving into the Back Office

For decades, automation has primarily been associated with industrial settings, such as factories and warehouses, where robots and programmable systems efficiently managed repetitive physical tasks. However, recent developments indicate a significant shift in the application of automation beyond traditional environments. As of late 2023, various sectors are increasingly integrating automation into diverse areas, including service industries and everyday consumer interactions. This expansion is driven by the need for enhanced efficiency and precision, as organizations seek to reduce labor costs and improve productivity. The transition is facilitated by advancements in technology, which allow for more sophisticated automation solutions that can adapt to a wider range of tasks. As businesses recognize the potential benefits, the conversation around automation is evolving, highlighting its growing presence in non-industrial contexts.

Automation Business Industry ai agents artificial intelligence automation news
Why Precision Swiss Machining is Critical to the Future of Robotics and Automation

Why Precision Swiss Machining is Critical to the Future of Robotics and Automation

The industrial production landscape is undergoing a significant transformation due to the rapid advancements in robotics, factory automation, and intelligent manufacturing systems. This shift is characterized by an increasing reliance on highly precise mechanical systems that can operate continuously with minimal deviation. As automation technologies evolve and become more interconnected, modern manufacturing environments are integrating collaborative robots, automated assembly systems, and sensor-driven equipment. These innovations are not only enhancing efficiency but also improving the accuracy and reliability of production processes. The ongoing evolution in this sector reflects a broader trend towards smarter, more automated manufacturing practices that aim to meet the growing demands of global markets.

Automation Engineering Factories automated manufacturing automation hardware automation news
Slamcore secures $14 million funding from investors including Rockwell Automation

Slamcore secures $14 million funding from investors including Rockwell Automation

Slamcore, a company specializing in spatial intelligence software, has successfully secured $14 million in a recent funding round, attracting notable investors such as ROKStar Ventures, a subsidiary of Rockwell Automation, a leader in industrial automation and digital transformation. This latest investment elevates Slamcore's total funding to $40 million, with previous support from prominent backers including Toyota Ventures and Interwoven Ventures. The funding aims to enhance Slamcore's development of innovative technologies that improve spatial awareness and automation capabilities across various industries.

Financials & Investments News Software ai funding AI software amrs
Dobot Launches the CRA-IP68 Series: The Ultimate Cobots for Harsh Environment Automation

Dobot Launches the CRA-IP68 Series: The Ultimate Cobots for Harsh Environment Automation

The DOBOT CRA-IP68 Series collaborative robots have been unveiled, specifically designed to operate in challenging environments characterized by high dust, humidity, and oil contamination. These robots boast an impressive repeatability precision of up to ±0.02 mm and are equipped with IP68-rated protection, making them suitable for a variety of industrial applications. Their advanced automation capabilities enhance performance in tasks such as CNC machining, welding, cutting, grinding, and automated food preparation. This innovation aims to improve efficiency and reliability in sectors where traditional machinery may struggle due to environmental factors.

DOBOT CRA-IP68 IP68 collaborative robot high-precision cobot industrial automation CNC automation dustproof robot
Mouser Expands Industrial Automation Portfolio with New Manufacturer Additions to Support Next-Gen Systems

Mouser Expands Industrial Automation Portfolio with New Manufacturer Additions to Support Next-Gen Systems

A recent expansion initiative aims to enhance access to essential technologies in artificial intelligence, connectivity, power, control, and sensing. This development is crucial for fostering the integration of industrial environments, which are becoming increasingly interconnected. By broadening the availability of these key technological components, the initiative seeks to support industries in adapting to modern demands and improving operational efficiency. The move is expected to facilitate innovation and growth across various sectors, positioning them to better meet the challenges of a rapidly evolving technological landscape.

Modern Entry Solutions for Automation

Modern Entry Solutions for Automation

Compact robotic welding cells are now making it easier for small and medium-sized enterprises (SMEs) to economically adopt robotic welding technology. This modern solution aims to streamline the automation process, allowing businesses to enhance their production capabilities without significant investment. The introduction of these systems is expected to facilitate a smoother transition into automation for SMEs, which often face challenges in scaling operations. By providing accessible and efficient tools for welding, these robotic cells are set to revolutionize the manufacturing landscape, enabling smaller companies to compete more effectively in the market.

Allgemein
Supplier Impersonation Fraud is Now an Operational Risk for Industrial Manufacturers

Supplier Impersonation Fraud is Now an Operational Risk for Industrial Manufacturers

As industrial manufacturing environments increasingly embrace digitization through robotics, automation systems, and connected supply chains, they are experiencing enhanced efficiency in production and logistics. However, this shift towards digital interdependence has also exposed companies to new cybersecurity threats that surpass conventional IT vulnerabilities. Among these emerging risks, supplier impersonation fraud has become a significant concern. Attackers are now exploiting established vendor relationships to deceive organizations, potentially leading to severe financial and operational repercussions. This evolving landscape underscores the urgent need for manufacturers to bolster their cybersecurity measures and remain vigilant against sophisticated fraud tactics.

Automation Computing Supply chain automation news cyber fraud digital supply chains
binder Launches New Hybrid Connector for Industrial Automation Applications

binder Launches New Hybrid Connector for Industrial Automation Applications

A new connector series has been developed to facilitate simultaneous power and data transmission through a single cable connection. This innovative technology is designed to streamline connectivity solutions, making it easier for users to manage their devices without the clutter of multiple cables. The introduction of this connector series comes in response to the growing demand for efficient and versatile connectivity options in various industries, particularly in the realms of consumer electronics and telecommunications. By integrating power and data transfer capabilities, the connector aims to enhance user experience and improve overall device performance. The launch of this series is expected to take place in the coming months, with manufacturers and tech companies eager to adopt this advancement to meet the evolving needs of their customers.

Factory / Digital Transformation
Best Rugged DC‑DC Converters for Industrial and Military Applications

Best Rugged DC‑DC Converters for Industrial and Military Applications

In the evolving landscape of modern defense and industrial applications, the demand for reliable power conversion is paramount. Rugged DC-DC converters play a critical role in ensuring stable power delivery for systems such as autonomous vehicles, robotics platforms, and industrial automation equipment. These converters are specifically designed to withstand challenging conditions, including vibration, shock, electromagnetic interference, and extreme temperatures, which can easily disrupt standard commercial electronics. As sectors like aerospace and naval operations increasingly rely on advanced technology, the selection of robust DC-DC converters becomes essential to maintain operational integrity and performance in harsh environments.

Energy Engineering aerospace electronics aerospace power systems automation news autonomous vehicles
Industrial Robotics Market Report: Why Intelligent Automation Is Redefining Global Manufacturing

Industrial Robotics Market Report: Why Intelligent Automation Is Redefining Global Manufacturing

A significant transformation is occurring within global manufacturing ecosystems, driven by various factors impacting the industry. Manufacturers are grappling with rising labor shortages, which have intensified the need for innovative operational strategies. Concurrently, supply chain volatility and increasing wage pressures are compelling companies to reassess their production processes. Stricter quality requirements and a heightened demand for faster production cycles further contribute to this shift. As a result, manufacturers are exploring new approaches to enhance efficiency and adaptability in their operations. This evolution is not only a response to immediate challenges but also a proactive measure to remain competitive in an increasingly complex market. The ongoing changes reflect a broader trend towards modernization and resilience within the manufacturing sector, highlighting the necessity for businesses to evolve in response to external pressures and consumer expectations.

Import AI 442: Winners and losers in the AI economy; math proof automation; and industrialization of cyber espionage

Import AI 442: Winners and losers in the AI economy; math proof automation; and industrialization of cyber espionage

A recent debate among AI researchers has emerged regarding the nature of superintelligence, with experts divided on whether it represents a sudden phase change or a gradual evolution in artificial intelligence capabilities. This discussion gained momentum during a conference held in San Francisco in early October 2023, where leading figures in the field gathered to share insights and predictions about the future of AI. Proponents of the phase change theory argue that superintelligence will manifest abruptly, resulting from a breakthrough in AI development that could dramatically surpass human cognitive abilities. They warn that such a sudden leap could pose significant risks if not properly managed. Conversely, those advocating for the gradual shift perspective believe that advancements in AI will unfold incrementally, allowing society to adapt and implement necessary safeguards over time. The motivation behind this debate stems from the increasing integration of AI technologies into various sectors, raising concerns about ethical implications, safety, and the potential for unintended consequences. As AI systems become more sophisticated, understanding the trajectory of their development is crucial for policymakers, researchers, and the public. This ongoing discourse highlights the need for comprehensive strategies to address the challenges posed by advanced AI, regardless of whether its evolution is abrupt or gradual. As the conversation continues, experts emphasize the importance of collaboration across disciplines to ensure that the benefits of superintelligence can be harnessed while minimizing risks.

Hirebotics launches ‘no-code explosion-proof’ collaborative robot for industrial painting

Hirebotics launches ‘no-code explosion-proof’ collaborative robot for industrial painting

Hirebotics has unveiled the Cobot Painter, the first explosion-proof collaborative robot solution designed specifically for metal fabrication. This innovative product, developed using Hirebotics' no-code Beacon platform in conjunction with Fanuc's CRX-10iA/L Paint hardware, is now available for purchase. The Cobot Painter provides metal fabricators and manufacturers with a practical alternative to traditional manual spraying methods and complex automated production lines, catering to high-mix, low-volume production needs. This launch marks a significant advancement in the automation of metal finishing processes, aiming to enhance efficiency and safety in the industry.

Industrial robots News Beacon platform Cobot Painter cobots collaborative robots
MTC launches new Robot Experience Centre to accelerate UK automation adoption

MTC launches new Robot Experience Centre to accelerate UK automation adoption

The Manufacturing Technology Centre (MTC) in the UK has inaugurated a new Robot Experience Centre (REC) at its Ansty Park facility in Coventry. This innovative, vendor-neutral center aims to support UK manufacturers in accelerating the integration of robotics and automation technologies into their operations. By providing a space for manufacturers to explore, test, and validate various robotics solutions, the REC facilitates informed investment decisions. The initiative responds to the growing need for advanced manufacturing solutions, enabling businesses to enhance efficiency and competitiveness in an increasingly automated industry landscape.

News Technology automation news automation training cobots collaborative robots
Automation is Hiring Faster Than Schools Can Graduate Engineers

Automation is Hiring Faster Than Schools Can Graduate Engineers

Automation has become a critical component in various industries, including manufacturing, logistics, energy, and research, as companies increasingly implement robots and intelligent systems to enhance efficiency. This shift is occurring at an unprecedented pace, creating a pressing demand for skilled engineers capable of designing, maintaining, and improving these technologies. However, the rapid deployment of automation presents a significant challenge: the supply of qualified professionals is struggling to keep up with the growing need. As organizations strive to integrate advanced automation into their operations, the gap between the availability of skilled workers and the requirements of modern technology continues to widen, complicating efforts to fully realize the potential of automation in the workforce.

Engineering automation careers automation engineers automation news engineering jobs engineering skills shortage
Why Factory Automation Now Depends on Software-Savvy Workers

Why Factory Automation Now Depends on Software-Savvy Workers

As automation increasingly integrates into production environments, the demand for workers skilled in managing technology is rising. Traditionally, factory automation was characterized by robotic arms performing repetitive tasks behind safety barriers. However, the evolving landscape now requires employees to navigate complex dashboards, respond to alerts, and make data-driven decisions. This shift reflects a broader trend in which the role of human workers is transforming from manual labor to technological oversight, necessitating a new set of skills to effectively collaborate with advanced machinery. The growing reliance on automation is reshaping the workforce, prompting a need for training and adaptation to ensure that employees can thrive in a more automated future.

Automation Factories Robotics automation news automation workforce cobots
Europe’s most important industrial lubrication conference celebrates its 10th anniversary in Bilbao

Europe’s most important industrial lubrication conference celebrates its 10th anniversary in Bilbao

The Euskalduna Convention Centre in Bilbao is set to host the 10th anniversary of LUBMAT, Europe’s premier conference on industrial lubricants, this Wednesday and Thursday. The event will bring together 200 professionals from Europe, Asia, and America, highlighting its significance as a leading international biennial gathering focused on lubricants, tribology, and production equipment monitoring. This milestone edition aims to foster collaboration and knowledge sharing among industry experts, reflecting the growing importance of innovation and sustainability in the lubricants sector.

Events advanced lubricants advanced manufacturing aerospace engineering AI in maintenance asset management
Interview with Workr Robotics CEO Ken Macken: ‘Paying for automation by the hour’

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

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

Features Industrial robots Robotics Software automation news automation roi
RobotToday Initiative

Robotics needs a service framework.

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