Industry Briefing

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

Advantages of hypoid gearing over worm, bevel and bevel-planetary

Advantages of hypoid gearing over worm, bevel and bevel-planetary

Engineers in the field of mechanical design often face challenges in achieving an optimal balance between torque capacity and mechanical efficiency when utilizing right-angle gearing. A recent analysis highlights hypoid gearing as a superior alternative, providing a more favorable combination of mechanical efficiency, load-carrying capability, and a versatile single-stage ratio range. This insight into hypoid gearing's advantages over traditional options such as worm, bevel, and bevel-planetary gears was published on The Robot Report, underscoring its potential to enhance performance in various engineering applications.

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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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Capacity is the new capability

Capacity is the new capability

In response to evolving global threats, industry leaders are emphasizing the critical need for increased production speed to enhance combat capabilities. This call to action comes as military and defense sectors face unprecedented challenges that require rapid adaptation and innovation. The urgency of this initiative was highlighted in discussions among key stakeholders, including government officials and defense contractors, who gathered at a recent conference focused on modernizing military strategies. The event, held in Washington D.C., underscored the importance of agility in production processes to maintain a competitive edge in defense technologies. By leveraging advanced manufacturing techniques and data-driven decision-making, industry players aim to streamline operations and respond more effectively to emerging threats. This strategic shift is seen as essential for ensuring national security and maintaining readiness in a rapidly changing geopolitical landscape.

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Automation vs autonomy: What will shape the future of battlefield drones?

Automation vs autonomy: What will shape the future of battlefield drones?

Recent advancements in drone technology are enabling these unmanned aerial vehicles to operate autonomously, significantly enhancing their effectiveness in various operations. This shift towards autonomy is seen as a crucial development, particularly in military applications, where drones can act as force multipliers on the battlefield. The integration of autonomous capabilities allows drones to make real-time decisions without direct human intervention, although human oversight remains essential for critical kinetic decisions. This balance aims to improve operational efficiency while ensuring safety and accountability. The ongoing evolution of drone technology is expected to reshape strategies in both defense and civilian sectors, with implications for how aerial missions are conducted in the future.

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Europe rearms: Battle management, counter-UAS, and real AI at the edge

Europe rearms: Battle management, counter-UAS, and real AI at the edge

In a recent initiative aimed at enhancing military capabilities, European defense experts are focusing on the integration of advanced technologies, including drones and artificial intelligence, into modern warfare. This modernization effort is particularly evident in Eastern Europe, where the deployment of drone walls has become a strategic priority. The initiative underscores the growing recognition of the need for innovative solutions to address contemporary security challenges. Taking place throughout 2023, this movement is centered in various Eastern European nations, which are increasingly investing in cutting-edge military technologies to bolster their defense systems. The motivation behind this modernization is driven by the evolving geopolitical landscape and the necessity to respond effectively to potential threats. Experts are collaborating on developing systems that incorporate AI into military vehicles, such as tanks, enhancing their operational efficiency and decision-making capabilities. This integration of technology aims to create a more agile and responsive military force, capable of adapting to rapidly changing combat environments. As Europe navigates these advancements, the emphasis on modernization reflects a broader commitment to maintaining security and stability in the region, ensuring that military forces are equipped to meet future challenges. The ongoing efforts highlight the importance of innovation in defense strategies, positioning European nations at the forefront of military technology development.

Networks & Digital Warfare Sponsored Post artificial intelligence AI Counter UAS cUAS CUAS cyber security
Proposed Patent Bill Could Have Major Implications for Drone Industry Intellectual Property

Proposed Patent Bill Could Have Major Implications for Drone Industry Intellectual Property

A newly introduced bill in Congress, the Prohibiting Adversarial Patents Act of 2026 (PAPA), aims to address concerns over certain foreign technology companies by making specific patents unenforceable while retaining ownership rights. Sponsored by Rep. Scott Fitzgerald (R-WI), the legislation seeks to expand U.S. scrutiny into the realm of intellectual property rights, particularly impacting the drone industry. The bill reflects growing apprehension regarding the influence of foreign entities on American innovation and aims to safeguard domestic technological advancements. If passed, PAPA could significantly alter the landscape of patent enforcement, particularly for companies operating within the drone sector.

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How defense teams can scale AI without increasing data risk

How defense teams can scale AI without increasing data risk

Artificial Intelligence (AI) is significantly enhancing the mission data footprint within defense environments, prompting a growing demand for scalable and layered protection of data-at-rest (DAR). This development is crucial as defense sectors increasingly rely on vast amounts of sensitive information to support their operations. The expansion of AI capabilities is occurring in response to the evolving complexities of modern warfare and cybersecurity threats, necessitating robust data protection strategies. As military and defense organizations seek to secure their information assets, the implementation of advanced DAR solutions will play a vital role in safeguarding critical data against potential breaches and ensuring operational integrity.

Networks & Digital Warfare Sponsored Post artificial intelligence AI Cigent Cigent custom cyber security
Daimon Robotics and Galbot jointly launches RobOmni for benchmarking tactile perception and dexterous manipulation

Daimon Robotics and Galbot jointly launches RobOmni for benchmarking tactile perception and dexterous manipulation

Daimon Robotics and Galbot have announced the launch of RobOmni, a new platform designed to benchmark tactile perception and dexterous manipulation in the field of embodied AI. This development marks a significant shift from traditional vision-centric approaches to a more comprehensive understanding of physical interactions. The collaboration aims to enhance the capabilities of robots in performing complex tasks that require fine motor skills and sensitivity to touch. The launch event took place recently, highlighting the growing importance of tactile feedback in robotics and its applications across various industries. By integrating advanced tactile sensing technologies, RobOmni is set to provide researchers and developers with the tools needed to push the boundaries of robotic dexterity and perception.

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GENISOM AI debuts deployable robotics platforms at ICRA 2026

GENISOM AI debuts deployable robotics platforms at ICRA 2026

At the International Conference on Robotics and Automation (ICRA) 2026, GENISOM AI showcased its innovative deployable robotics platforms, marking its presence as a significant player in the robotics industry. Although the company may have been unfamiliar to many attendees, it is not a fledgling startup but rather an established entity with advanced technology ready for practical application. The event, held in May 2026, provided a platform for GENISOM AI to demonstrate its cutting-edge solutions, aimed at enhancing operational efficiency in various sectors. By unveiling these robotics platforms, the company seeks to address the growing demand for automation and intelligent systems in an increasingly competitive market. Through live demonstrations and presentations, GENISOM AI illustrated how its technology can be integrated into existing workflows, showcasing its potential to revolutionize industries reliant on robotics.

Actuators / Motors / Servos Artificial Intelligence Controllers Development Tools / SDKs / Libraries Mobility / Navigation News
CVPR 2026 fields 16,000+ paper submissions on technical advances in AI

CVPR 2026 fields 16,000+ paper submissions on technical advances in AI

The program committee for the 2026 Conference on Computer Vision and Pattern Recognition (CVPR), a premier event in artificial intelligence and computer vision research, has unveiled the details of this year's technical program. Co-sponsored by the IEEE Computer Society and the Computer Vision Foundation, the conference has attracted a record number of submissions, reflecting the growing interest and advancements in the field. Scheduled to take place in 2026, CVPR will serve as a platform for researchers and industry professionals to share their latest findings and innovations. The committee's announcement highlights the importance of collaboration and knowledge exchange in advancing computer vision technologies.

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How humanoids learn to read the room

How humanoids learn to read the room

Analog Devices Inc. is sponsoring a discussion on the complexities of designing humanoid robots, which are among the most challenging applications in the field of robotics. These advanced systems must autonomously manage a variety of functions, including movement, balance, vision, and reactivity, all while navigating a sophisticated network of joints, sensors, and data processing. This intricate design process is particularly crucial when humanoid robots are required to operate in dynamic environments, where their ability to interpret and respond to surroundings is essential for effective performance. The exploration of these capabilities highlights the ongoing advancements in robotics technology and the increasing importance of integrating sensory data for improved interaction with the world.

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GMSL and the growing ecosystem around robotic vision systems

GMSL and the growing ecosystem around robotic vision systems

In recent years, the expectations for robotic capabilities have significantly evolved, driven by advancements in technology and changing industry needs. Site owners are now seeking robots that not only navigate from point A to point B but also operate at increased speeds and adapt to dynamic environments filled with various obstacles. This shift reflects a broader trend in the robotics industry, where the integration of advanced vision systems is becoming essential for enhancing the functionality and efficiency of robotic operations. Sponsored by Analog Devices Inc., this development highlights the growing ecosystem surrounding robotic vision systems, which are crucial for meeting the rising demands of modern automation. As the industry progresses, the focus on improving robotic agility and intelligence is set to reshape the landscape of automation in various sectors.

Sponsored Content ADI Analog Devices
Beyond satellites: Why FOG inertial navigation is the new imperative for land warfare

Beyond satellites: Why FOG inertial navigation is the new imperative for land warfare

The landscape of military navigation is undergoing a significant transformation as counterspace threats and electronic warfare challenge the previously uncontested dominance of GPS technology. Exail is at the forefront of this shift, introducing its Fiber Optic Gyro (FOG) technology, which offers enhanced stability and serves as a reliable "source of truth" for land maneuvering and precision targeting in environments where Global Navigation Satellite Systems (GNSS) are compromised. This innovation is crucial for modern military operations, enabling forces to maintain operational effectiveness despite the increasing prevalence of electronic warfare tactics. As the battlefield evolves, Exail’s advancements in navigation technology are poised to play a vital role in ensuring that military units can navigate and execute missions with precision and confidence, even in the most challenging conditions.

Land Warfare Sponsored Post Army autonomy electronic warfare (EW) Exail
How drones can navigate without GPS 

How drones can navigate without GPS 

In contested and denied environments, the importance of absolute positioning has become increasingly critical. As military operations evolve, forces must rely on precise location data to navigate and execute strategies effectively. This need has been underscored by recent developments in warfare, where traditional navigation methods may be compromised. Experts emphasize that accurate positioning is essential for mission success, particularly in scenarios where GPS signals may be jammed or spoofed. As a result, military organizations are investing in advanced technologies and training programs to enhance their capabilities in these challenging conditions. By integrating innovative solutions, they aim to ensure reliable navigation and operational effectiveness, even in the most complex environments. The ongoing focus on absolute positioning reflects a broader trend in military strategy, where adaptability and technological advancement are paramount. As conflicts continue to evolve, the ability to maintain accurate situational awareness will be crucial for ground forces and their overall mission objectives.

Networks & Digital Warfare Space Sponsored Post anti-drone artificial intelligence AI C4ISR
How coupling stiffness and misalignment compensation impact servo performance

How coupling stiffness and misalignment compensation impact servo performance

Engineers focusing on servo performance often prioritize the motor, drive, and gearbox, but recent insights highlight the critical role of couplings in these systems. Couplings serve as the link between a servo motor's shaft and the gearbox, directly influencing motion accuracy and the overall longevity of the system. This understanding underscores the importance of coupling stiffness and the ability to compensate for misalignment, which can significantly impact performance. The findings emphasize that attention to these components is essential for optimizing servo functionality and ensuring reliable operation in various applications.

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ASELSAN at SAHA 2026: Introducing next-generation multi-domain defense systems

ASELSAN at SAHA 2026: Introducing next-generation multi-domain defense systems

At the SAHA 2026 exhibition, ASELSAN introduced its latest defense portfolio, showcasing a comprehensive and integrated defense architecture. This innovative framework combines electronic warfare, counter-unmanned aerial vehicle (UAV) systems, and capabilities for both airborne and naval operations. The unveiling highlights ASELSAN's commitment to advancing military technology and enhancing operational efficiency in response to evolving security challenges. By integrating these diverse capabilities, the company aims to provide a unified solution that meets the complex demands of modern defense environments.

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The future of unmanned surface vessels includes ISR and counter-UAS

The future of unmanned surface vessels includes ISR and counter-UAS

Red Cat, a prominent player in the aerial drone industry, has announced the launch of Blue Ops, a new venture focused on the mass production of unmanned surface vehicles (USVs). This strategic move comes as part of Red Cat's ongoing efforts to diversify its product offerings and capitalize on the growing demand for advanced maritime technology. The announcement was made recently, signaling the company's commitment to innovation and expansion within the unmanned vehicle market. By establishing Blue Ops, Red Cat aims to leverage its expertise in drone technology to develop and manufacture USVs that meet the evolving needs of various sectors, including defense, surveillance, and environmental monitoring. The initiative reflects a broader trend in the industry, where companies are increasingly investing in unmanned systems to enhance operational capabilities and efficiency.

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CVPR 2026 Showcases How AI Is Powering the Next Era of Robotics Innovation

CVPR 2026 Showcases How AI Is Powering the Next Era of Robotics Innovation

The 2026 Conference on Computer Vision and Pattern Recognition (CVPR) is set to take place from June 3 to June 7 at the Colorado Convention Center in Denver, Colorado. This premier event, co-sponsored by the IEEE Computer Society and the Computer Vision Foundation, will showcase groundbreaking advancements in artificial intelligence (AI) and robotics, highlighting how these technologies are transforming real-world applications. With a focus on embodied AI, multi-modal AI, and robotic perception, CVPR 2026 will feature workshops, technical paper presentations, and competitions, including the ManipArena Competition, which challenges participants to demonstrate physical reasoning and decision-making in real-world tasks. The conference aims to illustrate the rapid innovation in robotics and automation, with over 75% of the expo dedicated to leading AI and robotics companies that have collectively invested heavily in the field. As the global robotics market is projected to reach $124.37 billion this year, industry leaders will gather to discuss the implications of AI advancements on productivity and human-machine interaction. Grace A. Lewis, President of IEEE CS, emphasized the conference's role in bringing AI's potential to life, showcasing how these technologies are poised to reshape various industries. Media registration for the event is currently open, inviting participants to explore the future of intelligent machines.

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