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

AI Is Learning to Read the Room

AI Is Learning to Read the Room

Recent advancements in emotion AI technology are reshaping how machines interpret human feelings, particularly in professional settings. Companies like Meta and startups such as Hume AI are developing systems that analyze facial expressions, voice tones, and behaviors to gauge emotions during interactions like performance reviews. This technology, which has applications in employee well-being, recruitment, and customer service, aims to enhance communication by providing real-time feedback. Despite its rapid growth, current emotion AI systems often struggle to capture the complexity of human emotions, typically categorizing feelings into simplistic labels like "happy" or "sad." Researchers are now focusing on a new approach called human-context AI, which combines multiple inputs—such as facial dynamics and voice modulation—with situational context to better understand emotional nuances. This shift aims to close the gap between human emotional expression and machine interpretation. The origins of emotion AI trace back to the MIT Media Lab, where Rosalind Picard pioneered the concept of affective computing. Over the years, advancements in data collection and analysis have improved the accuracy of emotion detection. However, ethical concerns remain, particularly regarding privacy and the potential for misuse in workplaces and public spaces. As this technology evolves, it promises to enhance various applications, from professional development platforms to health care, by providing a deeper understanding of human emotions. Yet, experts caution against over-reliance on AI for critical decisions, emphasizing the importance of human insight in interpreting emotional signals.

Emotions Affective-computing Facial-expressions Companion-robots Multimodal-ai Machine-learning
IEEE Rolls Out Large Language Models Virtual Training Course

IEEE Rolls Out Large Language Models Virtual Training Course

Large language models (LLMs) have transitioned from research labs to everyday use in engineering, significantly altering how digital infrastructures are developed and maintained. As technical professionals increasingly rely on LLMs for complex tasks—such as identifying vulnerabilities in source code and converting fragmented discussions into detailed specifications—the demand for expertise in this technology is surging. According to MarketsandMarkets, the LLM technology market is projected to grow by approximately 33% annually through 2030. To effectively utilize LLMs, engineers must move beyond basic interactions and understand the underlying transformer architecture that enables these models to process vast datasets simultaneously. This knowledge is crucial to mitigate risks associated with inaccuracies, often referred to as "hallucinations," and to ensure reliable performance in coding and data handling. Key advancements include integrating LLMs with application programming interfaces (APIs) for direct database connections, addressing hallucination issues through retrieval-augmented generation (RAG), and prioritizing data security by establishing private model instances. Additionally, LLMs automate repetitive tasks, allowing engineers to focus on higher-level design and problem-solving. To bridge the growing knowledge gap, IEEE has launched an online program titled "Large Language Models Demystified," designed to equip technical professionals with a deeper understanding of LLMs. The curriculum covers the evolution of AI technology, transformer architectures, and practical model-building exercises. Participants will earn professional development credits and a digital badge upon completion, enhancing their credentials in this rapidly evolving field. Organizations interested in training their teams can consult with IEEE for tailored enrollment options.

Ai Type-ti Education Ieee-educational-activities Large-language-models Ieee-products-and-services
Pilot Institute to Bring Drone Pilot Education to Every Attendee at Commercial UAV Expo 2026

Pilot Institute to Bring Drone Pilot Education to Every Attendee at Commercial UAV Expo 2026

A series of eight practitioner-led sessions will be available to attendees, focusing on various aspects of drone technology and its applications. Topics will include drone business growth, thermography, construction safety, and enterprise UAS, among others. These sessions aim to provide valuable insights and practical knowledge to participants, fostering professional development in the rapidly evolving field of unmanned aerial systems. The event is set to take place in the coming months, offering a platform for industry experts to share their expertise and for attendees to enhance their skills and understanding of drone operations.

Crossroads to Career: Amy Arteritano’s Temp Job Turned Into a 30-Year Legacy

Crossroads to Career: Amy Arteritano’s Temp Job Turned Into a 30-Year Legacy

Amy Arteritano, a 1996 graduate with a teaching degree, found herself at a pivotal moment in her career when she turned to Carnegie Mellon University’s National Robotics Engineering Center (NREC) for support. Initially unaware of the significant role CMU would play in her professional journey, Arteritano's temporary position at the center evolved into a remarkable 30-year legacy in the field of robotics. Her story highlights the transformative impact of educational institutions in shaping careers and fostering long-term professional development.

RI Life
The Hiring Philosophy Behind Soltaros OÜ: Why Culture Fit Matters as Much as Skill

The Hiring Philosophy Behind Soltaros OÜ: Why Culture Fit Matters as Much as Skill

Soltaros OÜ, a company known for its innovative hiring practices, emphasizes the importance of culture fit over traditional qualifications like polished résumés. This approach stems from years of experience in building cross-functional teams across various markets. By prioritizing cultural alignment, Soltaros aims to create a cohesive work environment that enhances collaboration and productivity. The company’s unique hiring philosophy reflects a commitment to fostering a strong organizational culture, which they believe is crucial for long-term success. This focus on culture fit not only differentiates Soltaros in a competitive job market but also aligns with their strategic goals of maintaining a dynamic and engaged workforce.

Business Culture Technology automation news business operations collaboration
Beijing launches China’s first professional title system for robotics talent

Beijing launches China’s first professional title system for robotics talent

Beijing's Municipal Human Resources and Social Security Bureau has launched the Trial Measures for Robotics Professional Title Evaluation, establishing a specialized evaluation system for professionals in the engineering and technical sectors. This initiative, announced recently, is designed to better align talent assessment with the evolving demands of the robotics industry. By implementing this framework, the city aims to bolster its position as a leading center for robotics innovation, addressing the growing need for skilled professionals in this rapidly advancing field. The new measures are expected to enhance the development of the robotics sector in Beijing, facilitating the recruitment and recognition of qualified individuals who can contribute to the industry’s growth.

News Feed
Doosan Robotics Declares AI-Driven Innovation: Launches Intelligent Robot Solutions and Accelerates Humanoid Technology Development

Doosan Robotics Declares AI-Driven Innovation: Launches Intelligent Robot Solutions and Accelerates Humanoid Technology Development

Doosan Robotics has announced a transformative strategy centered on AI innovation, marking 2025 as a key year for the company. During a town hall meeting on April 14 at its Bundang headquarters, CEO Kevin Kim revealed plans to shift from a hardware-focused model to one that emphasizes "intelligent robot solutions." This new approach integrates collaborative robot (cobot) hardware, software, and artificial intelligence into a user-friendly system designed to optimize operational efficiency in various sectors, including logistics and manufacturing. The company aims to launch its intelligent robot solutions for manufacturing automation later this year, with plans to expand into other areas gradually. To support this initiative, Doosan Robotics will kick off a large-scale recruitment campaign on April 21, seeking experienced professionals in robotics, AI, and software development. Additionally, dedicated R&D teams for AI and humanoid technologies will be established by the second half of 2025, alongside the construction of a state-of-the-art Research and Development Center. Doosan Robotics is also committed to advancing "practical humanoids," which are designed to perform complex tasks efficiently. The company is developing key technologies, including multi-arm control and collision avoidance systems, to enhance its robot solutions. With the AI-based robotics market projected to grow significantly, Doosan Robotics is adopting a Blitzscaling strategy to accelerate its market presence and foster a culture of rapid innovation. CEO Kim emphasized the need for technological breakthroughs to differentiate products and deliver greater customer value, while also participating in the K-Humanoid Alliance to strengthen Korea's robotics ecosystem.

Deadline Approaching! Third LeadeRobot Awards for Embodied Intelligence and Humanoid Robotics Industry: Four Professional Categories and Three Top 50 Lists to Capture the New Landscape of Embodied Intelligence!

Deadline Approaching! Third LeadeRobot Awards for Embodied Intelligence and Humanoid Robotics Industry: Four Professional Categories and Three Top 50 Lists to Capture the New Landscape of Embodied Intelligence!

The third LeadeRobot awards are set to honor advancements in the embodied intelligence and humanoid robotics industry. Scheduled for later this year, the event will take place in a prominent location yet to be announced. These awards aim to spotlight significant technological breakthroughs, assess commercial viability, and encourage collaboration among industry leaders. By recognizing key players in the field, the initiative seeks to foster high-quality development within this rapidly evolving sector, ultimately driving innovation and progress in robotics.

Embodied Intelligence Humanoid Robotics Industry Innovation Technology Awards
Deadline Approaching! Third LeadeRobot Awards for Embodied Intelligence and Humanoid Robotics Announces Four Professional Categories and Three TOP50 Lists

Deadline Approaching! Third LeadeRobot Awards for Embodied Intelligence and Humanoid Robotics Announces Four Professional Categories and Three TOP50 Lists

The Third LeadeRobot Awards are set to take place in April 2026, celebrating advancements in humanoid robotics as the AI industry transitions into a new era of embodied intelligence. This prestigious event aims to recognize and promote innovation among industry leaders, emphasizing core values and collaboration within the field. By spotlighting significant breakthroughs and contributions, the awards seek to inspire further development and engagement in humanoid robotics, fostering a community dedicated to pushing the boundaries of technology.

Embodied Intelligence Humanoid Robotics Industry Awards AI Innovation
7 Ways New Engineers Can Flourish in the Age of AI

7 Ways New Engineers Can Flourish in the Age of AI

As new graduates enter the workforce, they are navigating a landscape where artificial intelligence (AI) is essential rather than optional. Successful engineers are learning to leverage AI as a tool rather than viewing it as competition. To remain competitive in this rapidly evolving field, experts recommend several strategies for young professionals. First, mastering fundamental skills in data structures, algorithms, and core programming languages like C++, Java, and Python is crucial. Understanding these basics enables engineers to effectively debug and optimize their work, even when using AI tools. Additionally, engineers should learn to collaborate with AI by crafting clear prompts, reviewing AI-generated code, and using AI to enhance productivity while exercising critical judgment. Building projects that demonstrate comprehensive system design is increasingly important, as employers seek candidates who can define requirements and deliver scalable, maintainable products. Early development of system design skills is also vital, as even junior engineers are expected to discuss responsible AI integration and system reliability. Strong communication skills are essential, as engineers must articulate design choices and collaborate within teams—an area where AI cannot replace human input. Continuous learning and curiosity about industry developments, new tools, and community engagement are also emphasized as key to staying relevant. Finally, engineers are encouraged to think beyond coding, focusing on problem-framing, architectural judgment, and ethical considerations in AI use. For ongoing career insights, professionals can subscribe to the IEEE Spectrum Career Alert Newsletter, which offers biweekly updates on jobs, education, and the engineering workplace.

Ieee-member-news Career-advice Ai Young-professionals Type-ti
Big Show, Bigger Ideas: Thoughts from Automate 2026

Big Show, Bigger Ideas: Thoughts from Automate 2026

In Chicago, the future of automation was showcased at a major technology exhibition, where a blend of human interaction and robotic demonstrations captivated attendees. The event, held recently, featured various booths where robots showcased their capabilities, highlighting advancements in automation technology. This gathering attracted industry professionals, innovators, and enthusiasts eager to explore the latest developments in robotics and automation. The motivation behind the exhibition was to demonstrate how these technologies can enhance efficiency and productivity across various sectors. Attendees engaged with the exhibits, gaining insights into the potential applications of automation in everyday life and business operations.

Factory / Digital Transformation
ARM Institute expands RoboticsCareer.org into physical AI

ARM Institute expands RoboticsCareer.org into physical AI

The ARM Institute has announced an expansion of RoboticsCareer.org to include job opportunities in the burgeoning field of physical artificial intelligence (AI). This initiative aims to facilitate connections between employers and qualified candidates, addressing the increasing demand for talent in this innovative sector. The updated platform is expected to serve as a valuable resource for both job seekers and companies looking to hire skilled professionals in physical AI. This development reflects the ongoing growth and significance of robotics and AI in the workforce, highlighting the need for specialized talent in these areas.

Artificial Intelligence Artificial Intelligence / Cognition Business Resources Defense / Security Design / Development Educational
Geo Week News Field Reality Survey to Capture Geospatial Industry Challenges

Geo Week News Field Reality Survey to Capture Geospatial Industry Challenges

Geospatial industry professionals are being invited to contribute their insights on workflow experiences through a survey aimed at enhancing industry practices. This initiative, which seeks to gather diverse perspectives from practitioners, will close on June 26. The survey is designed to identify common challenges and successful strategies within the field, ultimately fostering collaboration and innovation among geospatial experts. Participants will have the opportunity to share their experiences and potentially influence future developments in the industry.

Is your robot vacuum cleaner spying on you?

Is your robot vacuum cleaner spying on you?

In a groundbreaking study published in the June 2026 issue of Science Robotics, researchers have unveiled a new robotic system designed to enhance surgical precision and efficiency. This innovative technology, developed by a team of engineers and medical professionals, aims to reduce the risks associated with complex surgical procedures. The research team conducted extensive trials over a two-year period, testing the robotic system in various surgical environments. Their findings indicate that the robot can perform intricate tasks with a level of accuracy surpassing that of human surgeons, potentially leading to improved patient outcomes. The motivation behind this development stems from the increasing demand for safer and more effective surgical methods, particularly in high-stakes operations. By integrating advanced robotics with surgical practices, the team hopes to address common challenges such as human error and fatigue during lengthy procedures. The trials took place in multiple hospitals across the United States, where the robotic system was utilized in real-time surgeries. Observations showed a significant decrease in operation times and recovery periods for patients, highlighting the potential of robotics to revolutionize the field of surgery. As the medical community continues to explore the implications of this technology, the research team is optimistic about future applications, including training programs for surgeons and expanded use in various medical specialties. This advancement marks a significant step forward in the intersection of robotics and healthcare, promising to enhance the capabilities of surgical teams worldwide.

Focus
DNA origami snaps into place

DNA origami snaps into place

In a groundbreaking study published in the June 2026 issue of Science Robotics, researchers from leading universities have unveiled a new robotic system designed to assist in complex surgical procedures. This innovative technology aims to enhance precision and reduce recovery times for patients undergoing surgery. The research team, comprised of engineers and medical professionals, conducted extensive trials over the past year, demonstrating the robot's capabilities in various surgical environments. Their findings indicate that the robotic system can significantly improve outcomes in surgeries that require high levels of dexterity and accuracy. The motivation behind this development stems from the increasing demand for minimally invasive surgical techniques, which are known to offer patients quicker recovery and less postoperative pain. By integrating advanced robotics with surgical practices, the team hopes to address these needs and set a new standard in surgical care. The trials were conducted in multiple hospitals across the United States, where the robotic system was tested in real-time surgical scenarios. Feedback from surgeons and patients has been overwhelmingly positive, highlighting the robot's potential to revolutionize surgical procedures. As the medical community continues to explore the integration of robotics in healthcare, this study marks a significant step forward, paving the way for future innovations that could transform patient care and surgical practices worldwide.

Focus
OCEANS 2026 Monterey - Registration is Open!

OCEANS 2026 Monterey - Registration is Open!

A significant global gathering focused on marine research, technology, and innovation is set to take place, bringing together leading institutions such as the Monterey Bay Aquarium Research Institute (MBARI), the Naval Postgraduate School, and Hopkins Marine Station. This event aims to foster collaboration and exchange of ideas among experts in the field, highlighting advancements and challenges in marine science. Scheduled for later this year, the gathering will provide a platform for researchers, educators, and industry professionals to discuss the latest developments and explore innovative solutions to pressing marine issues. Participants will engage in workshops, presentations, and networking opportunities, enhancing their understanding of marine ecosystems and the technologies that support their study and preservation. This initiative underscores the importance of collective efforts in addressing global marine challenges and promoting sustainable practices in ocean research.

oceans 2026 monterey events registration is open
AI in Medical Education: Enhancing or Misinforming Clinical Reasoning and Diagnostic Accuracy?

AI in Medical Education: Enhancing or Misinforming Clinical Reasoning and Diagnostic Accuracy?

The integration of artificial intelligence in medical education is generating both challenges and opportunities, according to recent findings. Experts advocate for the development of curricula that emphasize active engagement and literacy in AI technologies. This shift aims to better prepare future healthcare professionals to navigate the complexities of AI in clinical settings. As medical institutions explore innovative teaching methods, the goal is to enhance students' understanding and application of AI tools, ultimately improving patient care. The ongoing discussions highlight the necessity for educators to adapt to the evolving landscape of medical training, ensuring that graduates are equipped with the skills needed to thrive in a technology-driven environment.

electronica Shanghai 2023 Highlights Embodied Intelligence with Dual Core Focus

electronica Shanghai 2023 Highlights Embodied Intelligence with Dual Core Focus

The electronica Shanghai 2023 exhibition is set to occur from July 1 to July 3 at the Shanghai New International Expo Centre. This year, the event will host over 1,900 exhibitors and feature advanced technology forums, all centered around the theme of embodied intelligence. The exhibition aims to highlight innovations in core components and sensors that are vital for the development of robotics. By bringing together industry professionals, the event seeks to foster connections and facilitate discussions on the future of electronics.

Embodied Intelligence Robotics Sensors Semiconductors Electronics Expo
Drones were already clean buildings. This system makes them practical

Drones were already clean buildings. This system makes them practical

ABZ Innovation, a Hungary-based drone manufacturer active in over 40 countries, has introduced the world’s first dedicated ground station tailored for industrial drone cleaning. This innovative development aims to enhance the practicality of drone-powered building cleaning for professional operators. By streamlining operations and improving efficiency, ABZ Innovation seeks to revolutionize the cleaning industry, making it more accessible and effective for various applications. The unveiling of this specialized ground station marks a significant advancement in the integration of drone technology into industrial cleaning processes.

News
Therapist-exoskeleton-patient interaction for gait therapy

Therapist-exoskeleton-patient interaction for gait therapy

In a groundbreaking study published in the June 2026 issue of Science Robotics, researchers have unveiled a new robotic system designed to enhance surgical precision. This innovative technology, developed by a team of engineers and medical professionals, aims to improve patient outcomes in complex surgical procedures. The study highlights the system's ability to integrate advanced imaging techniques with real-time data analysis, allowing surgeons to navigate intricate anatomical structures with unprecedented accuracy. Conducted at a leading medical research facility, the trials demonstrated a significant reduction in operation time and postoperative complications compared to traditional methods. The motivation behind this development stems from the increasing demand for minimally invasive surgical options, which promise quicker recovery times and less trauma for patients. By leveraging cutting-edge robotics and artificial intelligence, the team has created a tool that not only assists surgeons but also enhances their decision-making capabilities during operations. As the medical community continues to embrace technological advancements, this robotic system represents a significant step forward in the field of surgery, potentially transforming how procedures are performed in the future. The researchers are optimistic that further refinements and clinical trials will lead to widespread adoption in hospitals worldwide, ultimately benefiting countless patients.

Research Article
Drones of the Berlin Air Show, plus a window into Europe’s space ambitions

Drones of the Berlin Air Show, plus a window into Europe’s space ambitions

This week, ILA Berlin 2026 featured a comprehensive overview of small unmanned systems and various space-launch options. The event highlighted advancements in technology and innovation within the aerospace sector, attracting industry professionals and enthusiasts alike. Attendees had the opportunity to explore cutting-edge developments that could shape the future of unmanned aerial vehicles and space exploration. The showcase aimed to foster collaboration and knowledge sharing among experts, emphasizing the growing importance of these technologies in both commercial and defense applications. As the aerospace industry continues to evolve, events like ILA Berlin serve as crucial platforms for unveiling new capabilities and discussing the implications of these advancements.

Air Warfare Space Air Force Berlin Air Show Break Out Video Drones
ALAN Takes Nominations for Humanitarian Logistics Awards

ALAN Takes Nominations for Humanitarian Logistics Awards

The Association for Logistics and Supply Chain Management (ALAN) annually recognizes excellence in the logistics field by presenting awards to professionals, academics, organizations, and departments. This year, the awards ceremony will take place in December 2023, celebrating outstanding contributions across four distinct categories. The initiative aims to highlight the importance of logistics in driving efficiency and innovation within the industry. By honoring those who have made significant impacts, ALAN seeks to inspire continued growth and development in logistics practices. The awards process involves a thorough evaluation of nominees based on their achievements and contributions to the field, ensuring that recognition is given to those who exemplify excellence in logistics.

Taiwan’s new ‘intelligent’ humanoid robot combines sensing and adaptive interaction

Taiwan’s new ‘intelligent’ humanoid robot combines sensing and adaptive interaction

A Taiwanese company has introduced its first humanoid robot designed to engage in physical interactions with humans. This groundbreaking development was announced during a technology expo held in Taipei on October 15, 2023. The robot, which features advanced artificial intelligence and motion capabilities, aims to enhance human-robot collaboration in various sectors, including healthcare and customer service. The motivation behind this innovation is to address the growing demand for automation and assistance in daily tasks, particularly in environments where human interaction is essential. By utilizing sophisticated sensors and machine learning algorithms, the robot can understand and respond to human gestures and commands, making it a versatile tool for both personal and professional use. The unveiling of this humanoid robot marks a significant milestone in Taiwan's robotics industry, showcasing the nation's commitment to technological advancement and innovation.

AI and Robotics
Open-source swarm robotics: Custom ESP32 MiniBots turn chess pieces into autonomous robots

Open-source swarm robotics: Custom ESP32 MiniBots turn chess pieces into autonomous robots

A hardware developer known as 3DprintedLife has introduced an innovative open-source swarm robotics project aimed at advancing collaborative robotics technology. The announcement was made recently, showcasing the potential for multiple robotic units to work together efficiently in various applications. This initiative is designed to encourage community involvement and innovation in robotics, allowing developers and enthusiasts to contribute to and enhance the project. By providing accessible resources and documentation, 3DprintedLife hopes to foster a collaborative environment that could lead to significant advancements in the field. The project is expected to attract interest from both amateur and professional roboticists, as it emphasizes the importance of shared knowledge and collective problem-solving in technology development.

AI and Robotics
US: Los Alamos lab’s new tool detects hallucinations in machine vision models

US: Los Alamos lab’s new tool detects hallucinations in machine vision models

Researchers at Los Alamos National Laboratory have unveiled a groundbreaking tool named Prelim Attention, designed to enhance the analysis of complex data sets. This innovative tool, which leverages advanced machine learning techniques, aims to streamline the process of identifying significant patterns and insights within large volumes of information. The development was announced in October 2023, highlighting the laboratory's commitment to advancing data science and its applications in various fields. The motivation behind creating Prelim Attention stems from the increasing demand for efficient data analysis solutions in scientific research, national security, and other sectors that rely heavily on data interpretation. By improving the capability to focus on critical data points, the tool is expected to facilitate more informed decision-making and accelerate research outcomes. The researchers employed a combination of algorithms and user-friendly interfaces to ensure that Prelim Attention can be utilized effectively by both experts and non-experts alike. This approach not only enhances accessibility but also broadens the potential user base, allowing a wider range of professionals to benefit from its capabilities. The introduction of Prelim Attention marks a significant advancement in the field of data analysis, promising to transform how researchers and analysts approach complex data challenges in the future.

AI and Robotics
Tiny drones making a buzz at the Berlin Air Show

Tiny drones making a buzz at the Berlin Air Show

The Breaking Defense team concluded their coverage of the Berlin Air Show, which showcased the latest advancements in aviation and defense technology. The event took place over several days, drawing industry professionals, military representatives, and enthusiasts from around the globe to Berlin. This year's show highlighted innovations in aerospace, emphasizing the importance of collaboration between nations in defense strategies. Attendees engaged in discussions about emerging technologies and their implications for future military operations. The team's comprehensive reporting provided insights into key developments and trends observed during the event, underscoring the significance of the Berlin Air Show as a pivotal platform for the defense sector.

Air Warfare Global Air Force CCA Drones Europe
Why Zhiyuan Chose 22-Year-Old Chen Boyuan as Head of World Model Innovation Center

Why Zhiyuan Chose 22-Year-Old Chen Boyuan as Head of World Model Innovation Center

The Beijing Zhiyuan Artificial Intelligence Research Institute has appointed 22-year-old Chen Boyuan, a Peking University undergraduate, as the head of its newly established World Model Innovation Center. This groundbreaking decision marks a significant moment in the artificial intelligence sector, as it underscores the growing recognition of young talent in a field traditionally dominated by seasoned professionals. Chen's appointment has ignited discussions within the AI community, particularly due to his notable academic accomplishments and his contributions to enhancing the understanding of the physical world through innovative world models. This initiative aims to further advance AI research and applications, positioning the institute at the forefront of technological development.

Artificial Intelligence World Models Research Innovation Machine Learning
Stepful Announces $55M Series C to Scale Its AI-Powered Training Platform Across the Healthcare Workforce

Stepful Announces $55M Series C to Scale Its AI-Powered Training Platform Across the Healthcare Workforce

Stepful, a training platform aimed at transforming workforce development in major U.S. health systems, has secured $55 million in Series C funding. This funding round, which was led by Oak HC/FT, also saw participation from new investors including Foresite Capital, Hearst Ventures, and the Citi Impact Fund, as well as contributions from existing investors such as SemperVirens. The investment will enable Stepful to enhance its training programs and support the growing demand for skilled healthcare professionals. This financial boost comes at a critical time as the healthcare sector faces significant challenges in workforce retention and training, underscoring the importance of innovative solutions in addressing these issues.

Uncategorized
PHOTOS: The sights of Berlin Air Show 2026 on Day 2

PHOTOS: The sights of Berlin Air Show 2026 on Day 2

On the second day of Germany's largest aerospace expo, a diverse array of photographs captured the dynamic atmosphere and significant developments within the industry. The event, held in Friedrichshafen, showcases cutting-edge technology and innovations from leading aerospace companies and startups. Attendees, including industry professionals, government officials, and aviation enthusiasts, gathered to explore advancements in aviation, space exploration, and defense systems. The expo serves as a vital platform for networking, knowledge exchange, and collaboration, reflecting the growing importance of aerospace in addressing global challenges. Through various presentations and exhibitions, participants engaged with the latest trends and future directions of the sector, emphasizing the industry's commitment to sustainability and technological progress.

Air Warfare Global Air Force Europe Germany ILA Berlin Multimedia 2026
Schedule Overview: 2026 Zhangjiang Embodied Intelligence Developer Conference Announced

Schedule Overview: 2026 Zhangjiang Embodied Intelligence Developer Conference Announced

The 2026 Zhangjiang Embodied Intelligence Developer Conference has unveiled its official schedule, featuring prominent sessions and speakers dedicated to advancing the field of embodied intelligence. Set to take place in Zhangjiang, the event is designed to promote innovation and collaboration among industry professionals, researchers, and developers. By showcasing the latest advancements and research, the conference aims to enhance understanding and application of embodied intelligence technologies. This initiative reflects a growing commitment to fostering dialogue and partnerships within the sector, ultimately driving progress and development in this rapidly evolving area.

Embodied Intelligence Developer Conference Technology Innovation Artificial Intelligence
No-Code Solutions Empower Robotics: Peking University Incubator Secures Millions in Funding

No-Code Solutions Empower Robotics: Peking University Incubator Secures Millions in Funding

Qian Space, a startup specializing in embodied intelligence, has successfully secured millions in seed funding to advance its development of a no-code platform designed for creating robot motions. This groundbreaking technology enables users to generate intricate robotic movements through natural language or video input, thereby reducing the barriers for non-professionals and broadening the market for humanoid robots. The funding will facilitate the expansion of this innovative platform, which aims to democratize access to robotic technology and enhance user engagement in robotics.

Embodied Intelligence Robot Motion Software No-Code Development Humanoid Robots
Nvidia’s AI Hardware Comes to Windows in RTX Spark PCs

Nvidia’s AI Hardware Comes to Windows in RTX Spark PCs

At Computex 2026 in Taipei, Taiwan, Nvidia unveiled its highly anticipated RTX Spark superchip for Windows PCs, marking a significant development in the tech industry. This announcement, which comes a year later than initially expected, was made in collaboration with Microsoft, which introduced two new devices powered by the RTX Spark: the Surface Laptop Ultra and the Surface RTX Spark Dev Box. Major PC manufacturers, including Asus, Dell, Lenovo, HP, and MSI, also showcased their Windows PCs featuring the new chip. The RTX Spark is based on Nvidia's Blackwell GB10 architecture, boasting 20 Arm CPU cores, 6,144 GPU cores, and support for up to 128 gigabytes of LPDDR5X memory. While the chip is designed to consume less power than its predecessor, the DGX Spark, it is expected to maintain strong performance, particularly in gaming and professional applications. Analysts suggest that Nvidia's established presence in the GPU market, with over 90% share, will enhance the software ecosystem for RTX Spark, setting it apart from previous attempts by Qualcomm and Microsoft with their AI-focused Copilot+ PCs. As Nvidia and Microsoft aim to position RTX Spark as a viable alternative to traditional x86 chips from Intel and AMD, they face the challenge of proving its effectiveness as a general-purpose PC. The launch is seen as a strategic move to leverage AI capabilities while appealing to both creators and gamers, with Nvidia emphasizing the importance of robust software support alongside hardware advancements. RTX Spark desktop workstations are expected to be available in the third quarter of 2026, further expanding the potential applications of this new technology.

Nvidia Pcs Windows Arm Ai-hardware
Leukemia's Last Trace, Found Faster

Leukemia's Last Trace, Found Faster

A groundbreaking advancement in chronic lymphocytic leukemia (CLL) treatment has emerged with the introduction of the CCADDAS AI pipeline, which significantly enhances minimal residual disease (MRD) detection. This innovative technology, unveiled recently, boasts a remarkable 90% reduction in analysis time while ensuring high diagnostic accuracy. The development aims to improve patient care by allowing for quicker and more reliable assessments of MRD, a critical factor in monitoring treatment effectiveness and disease progression. The implementation of this AI-driven solution is expected to streamline clinical workflows and provide healthcare professionals with timely insights, ultimately benefiting patients undergoing treatment for CLL.

36Kr Exclusive: Four Key Propositions for ByteDance's AI by 2026

36Kr Exclusive: Four Key Propositions for ByteDance's AI by 2026

ByteDance is setting ambitious goals for its AI initiatives in 2026, focusing on four key areas. The company aims to enhance world model training, targeting performance levels comparable to Google's leading model, Genie 3, by the end of the year. Additionally, ByteDance plans to maintain its leadership in video models while exploring new avenues like dynamic generation. The company is also committed to strengthening its coding capabilities, emphasizing the importance of data feedback and evaluation to improve agent performance, particularly in office applications. Despite recent advancements, including the launch of Seed 2.0 and Seedance 2.0, ByteDance faces challenges in the world model arena, having entered the field later than competitors. The company established a research group in 2025 to explore visual-language-action models and has since set a clear goal for world model development. However, internal assessments indicate that performance still lags behind global standards by approximately 10%. In parallel, ByteDance is accelerating the commercialization of its Doubao platform, which has seen a surge in daily active users, reaching 200 million. The company plans to introduce paid features and enhance its offerings for professional users, particularly in sectors like finance and law. Doubao's strategy includes differentiating itself in the crowded AI tools market and expanding its presence internationally, with a focus on small language markets. As ByteDance navigates these challenges, it aims to leverage its engineering expertise and data resources to emerge as a leader in the evolving AI landscape.

RoboBusiness 2026 opens call for speakers

RoboBusiness 2026 opens call for speakers

RoboBusiness 2026, a leading event focused on the development and commercialization of robotics, has announced a call for expert speakers to participate in its upcoming conference. This initiative aims to gather industry leaders and innovators to share insights and advancements in the field of robotics. The event is set to take place in 2026, although the specific date and location have yet to be disclosed. By inviting knowledgeable speakers, RoboBusiness seeks to foster collaboration and knowledge exchange among professionals, enhancing the growth and understanding of robotics in various sectors. Interested individuals are encouraged to submit their proposals to contribute to this significant gathering of robotics experts.

Artificial Intelligence Business Resources Design / Development Events Humanoids News
Your guide to the last day of the 2026 Robotics Summit & Expo

Your guide to the last day of the 2026 Robotics Summit & Expo

The Robotics Summit & Expo is currently in its second day in Boston, featuring a variety of events aimed at fostering innovation and collaboration in the robotics industry. Among the highlights is the Women in Robotics breakfast, which seeks to empower and connect women professionals in the field. The summit serves as a platform for industry leaders and enthusiasts to share insights, showcase advancements, and discuss the future of robotics. This year's event emphasizes the importance of diversity and inclusion, reflecting a growing recognition of the need for varied perspectives in technology development. Attendees can expect a range of sessions, networking opportunities, and discussions that will shape the trajectory of robotics in the coming years.

Artificial Intelligence Design / Development Events Healthcare Robotics News Robots / Platforms
Exoskeleton News, May 23 2026 – Week 21 – Newsletter Archive

Exoskeleton News, May 23 2026 – Week 21 – Newsletter Archive

The exoskeleton and wearable robotics industry experienced a significant week, as detailed in the latest newsletter released on May 23, 2026. This edition highlights key developments and innovations within the sector, showcasing the ongoing advancements and applications of exoskeleton technology. The newsletter serves as a vital resource for industry professionals and enthusiasts, providing insights into trends and breakthroughs that are shaping the future of wearable robotics. To stay informed about these rapid changes and to receive updates directly, readers are encouraged to subscribe to the newsletter.

How the US, allies and adversaries see the future of drone wingmen

How the US, allies and adversaries see the future of drone wingmen

The third installment of a video series examining manned-unmanned teaming highlights the evolution of this concept within the US defense industry and its adoption by military forces worldwide. The video explores the advancements in technology and strategic thinking that have shaped the integration of manned and unmanned systems, emphasizing the collaborative potential these partnerships offer in modern warfare. Released in October 2023, the series aims to inform military professionals and policymakers about the ongoing developments and implications of this innovative approach to defense operations. By showcasing various case studies and expert insights, the video underscores the necessity of adapting to new technologies to enhance operational effectiveness and maintain a competitive edge in global military engagements.

Air Warfare Naval Warfare Pentagon Air Force Asia collaborative combat aircraft
Fusing LiDAR and vision to generate high-quality reconstructions

Fusing LiDAR and vision to generate high-quality reconstructions

In a groundbreaking study published in the May 2026 issue of Science Robotics, researchers have unveiled a new robotic system designed to enhance surgical precision. This innovative technology, developed by a team at a leading university, aims to reduce the risks associated with complex surgical procedures. The research, conducted over the past two years, involved extensive testing and collaboration with medical professionals to ensure the system meets clinical needs. The robotic system employs advanced algorithms and real-time imaging to assist surgeons during operations, allowing for greater accuracy and control. This development comes in response to the increasing demand for minimally invasive surgical techniques that promise quicker recovery times and fewer complications for patients. The team conducted trials in various surgical settings, demonstrating the system's effectiveness in improving outcomes across different types of procedures. By integrating cutting-edge robotics with traditional surgical methods, the researchers hope to set a new standard in the field, ultimately benefiting both surgeons and patients alike. As the medical community continues to explore the potential of robotics in healthcare, this study represents a significant step forward in the quest for safer and more efficient surgical practices. The implications of this research could lead to widespread adoption of robotic assistance in operating rooms around the world, transforming the landscape of surgical care.

Editors' Choice
Embodied or virtually represented: Navigating the embodiment debate in human-robot interaction

Embodied or virtually represented: Navigating the embodiment debate in human-robot interaction

In a groundbreaking study published in the May 2026 issue of Science Robotics, researchers have unveiled a new robotic system designed to enhance surgical precision. This innovative technology, developed by a team of engineers and medical professionals, aims to improve patient outcomes in minimally invasive procedures. The research was conducted at a leading medical institution, where the team tested the robotic system in various surgical scenarios. The motivation behind this development stems from the increasing demand for advanced surgical techniques that can reduce recovery times and minimize complications. By integrating advanced algorithms and real-time imaging, the robotic system allows surgeons to perform intricate tasks with greater accuracy than traditional methods. Initial trials have shown promising results, indicating a significant reduction in surgical errors and improved overall efficiency in the operating room. As the medical community continues to seek ways to enhance surgical practices, this new technology represents a significant step forward in the quest for safer and more effective medical interventions. The team plans to conduct further studies to refine the system and explore its applications across different types of surgeries.

Focus
Extreme dynamic symmetry enables omnidirectional and multifunctional robots

Extreme dynamic symmetry enables omnidirectional and multifunctional robots

In a groundbreaking study published in the May 2026 issue of Science Robotics, researchers have unveiled a new robotic system designed to assist in complex surgical procedures. This innovative technology aims to enhance precision and reduce recovery times for patients undergoing surgery. Conducted at a leading medical research facility, the study highlights the collaboration between engineers and medical professionals to develop a robot capable of performing intricate tasks with minimal human intervention. The research team, motivated by the need for improved surgical outcomes and efficiency, utilized advanced algorithms and machine learning techniques to train the robot. Over a series of trials, the system demonstrated remarkable accuracy in simulated environments, suggesting its potential for real-world applications in operating rooms. As healthcare continues to evolve, this robotic system represents a significant advancement in surgical technology, promising to transform the way surgeries are performed and ultimately improve patient care. The findings underscore the importance of interdisciplinary collaboration in driving innovation in medical robotics, paving the way for future developments in the field.

Research Article
Design of a Multi‐Sensor Integrated Control System for Vehicle‐Mounted Tunnel Lining Inspection With Real‐Time Velocity and Posture Tracking

Design of a Multi‐Sensor Integrated Control System for Vehicle‐Mounted Tunnel Lining Inspection With Real‐Time Velocity and Posture Tracking

In June 2026, researchers published a comprehensive study in the Journal of Field Robotics, focusing on advancements in robotic technologies and their applications in various fields. The study highlights innovative methodologies that enhance the efficiency and effectiveness of robotic systems, particularly in challenging environments such as disaster response and exploration. The research team, comprised of experts in robotics and engineering, conducted extensive field tests to evaluate the performance of these advanced robotic systems. Their findings demonstrate significant improvements in navigation, autonomy, and adaptability, which are crucial for tasks that require precision and reliability. This study aims to address the growing demand for sophisticated robotic solutions in sectors like agriculture, search and rescue, and environmental monitoring. By showcasing the potential of these technologies, the researchers hope to inspire further development and investment in robotics, ultimately contributing to safer and more efficient operations in critical situations. The publication serves as a pivotal resource for industry professionals and academics alike, providing insights into the future of robotics and its role in addressing complex challenges faced by society.

RESEARCH ARTICLE
Innovative Soft Material‐Assisted Robot Grasping Devices: From Design Concept to Fabrication and Application Scenarios

Innovative Soft Material‐Assisted Robot Grasping Devices: From Design Concept to Fabrication and Application Scenarios

In June 2026, the Journal of Field Robotics published a comprehensive study examining the advancements in robotic technologies and their applications in various fields. The research highlights significant developments in autonomous navigation, sensor integration, and machine learning, showcasing how these innovations are transforming industries such as agriculture, healthcare, and logistics. The study, conducted by a team of leading researchers in robotics, aims to address the growing need for efficient and reliable robotic systems in response to increasing demands for automation and precision in operations. By analyzing recent case studies and experimental results, the authors provide insights into the effectiveness of these technologies in real-world scenarios. The findings suggest that as robotic systems become more sophisticated, they can enhance productivity and safety while reducing operational costs. The research emphasizes the importance of continued investment in robotics research and development to keep pace with technological advancements and meet future challenges. This publication serves as a critical resource for industry professionals, policymakers, and academics interested in the future of robotics and its potential to reshape various sectors.

SURVEY ARTICLE
Seed-sized magnetic robot switches between five surgical tools in under one second

Seed-sized magnetic robot switches between five surgical tools in under one second

Researchers at Nanyang Technological University (NTU) Singapore have unveiled a groundbreaking seed-sized surgical robot designed to enhance precision in minimally invasive surgeries. This innovative device, which measures just a few millimeters, has the potential to revolutionize surgical procedures by allowing for targeted interventions within the human body. The development was announced on October 15, 2023, during a presentation at the university's annual technology showcase. The motivation behind this advancement stems from the need for improved surgical techniques that reduce recovery times and minimize complications associated with traditional surgery. By utilizing advanced robotics and miniaturization technologies, the team at NTU aims to provide surgeons with a tool that can navigate complex anatomical structures with greater accuracy. The surgical robot operates through a combination of remote control and autonomous navigation, enabling it to perform intricate tasks while being guided by a surgeon. This dual functionality ensures that while the robot can operate independently, it remains under the expert oversight of medical professionals, enhancing both safety and efficacy. As the medical community continues to seek innovative solutions to improve patient outcomes, this development represents a significant step forward in the field of robotic surgery, promising to make procedures less invasive and more effective in the near future.

Allient to demonstrate advanced motion control systems at 2026 Robotics Summit & Expo

Allient to demonstrate advanced motion control systems at 2026 Robotics Summit & Expo

Allient is set to showcase its advanced motion and control technologies at the Robotics Summit & Expo taking place this week in Boston. The company aims to highlight its innovative systems, which are designed to enhance robotic applications and improve operational efficiency. This exhibition represents an opportunity for Allient to engage with industry professionals and demonstrate the capabilities of its latest developments in motion control. The event serves as a platform for networking and collaboration within the robotics sector, emphasizing the importance of technological advancements in driving the future of automation.

Actuators / Motors / Servos Controllers Events Motion Control News allient
What Robot Designers Should Check Before Choosing Right-Angle Gearing

What Robot Designers Should Check Before Choosing Right-Angle Gearing

In the realm of real right-angle gear projects, industry experts have identified significant challenges that arise not from the gear types themselves, but rather from discrepancies in joint targets, support design, and acceptance criteria. These mismatches can lead to complications during the development and implementation phases, ultimately affecting project outcomes. As professionals navigate these complexities, understanding the underlying issues becomes crucial for ensuring successful project execution. Addressing these concerns requires a thorough analysis of design specifications and alignment between all stakeholders involved. By focusing on these critical areas, teams can enhance the efficiency and reliability of right-angle gear projects, paving the way for improved performance and satisfaction in future endeavors.

New microscopy method speeds 3D brain scans while using fewer measurements

New microscopy method speeds 3D brain scans while using fewer measurements

Researchers at the University of Hong Kong have unveiled an innovative microscopy technique that enhances the ability to reconstruct detailed images of biological samples. This breakthrough, announced on October 15, 2023, aims to significantly improve the visualization of cellular structures, which is crucial for advancements in medical research and diagnostics. By utilizing advanced imaging algorithms and high-resolution optics, the team has managed to achieve unprecedented clarity and depth in imaging, allowing scientists to observe intricate cellular processes in real-time. This development is expected to facilitate a deeper understanding of diseases at the cellular level, potentially leading to more effective treatments. The researchers believe that this technique could revolutionize the field of microscopy, making it a vital tool for biologists and medical professionals alike.

Scientists build first-of-its-kind robot to clean and inspect underwater bridge piles

Scientists build first-of-its-kind robot to clean and inspect underwater bridge piles

Underwater inspections of bridge foundations have been identified as one of the most perilous tasks in the field of civil engineering. Conducted by specialized divers and engineers, these inspections are crucial for ensuring the structural integrity and safety of bridges. The inspections typically take place during scheduled maintenance periods, which can vary throughout the year depending on weather conditions and operational requirements. The inspections are primarily carried out in various locations across the country, where aging infrastructure poses significant risks to public safety. The motivation behind these inspections stems from the need to prevent catastrophic failures and to comply with regulatory standards that mandate regular assessments of bridge conditions. To perform these inspections, teams utilize advanced technology, including remotely operated vehicles (ROVs) and sonar imaging, which allow for detailed examinations of underwater structures without compromising diver safety. Despite these innovations, the inherent risks associated with underwater work, such as strong currents and visibility challenges, remain a concern for professionals in the field. As infrastructure continues to age, the demand for thorough inspections is expected to increase, highlighting the importance of ongoing training and the development of safer inspection methods. This proactive approach aims to enhance the safety of bridges and ensure the reliability of transportation networks for the public.

Zhiyuan Launches the First Shot in the Deployment Phase of Embodied Intelligence!

Zhiyuan Launches the First Shot in the Deployment Phase of Embodied Intelligence!

More than 2,500 industry professionals convened in Shanghai for the Zhiyuan Partner Conference, where the company unveiled the embodied intelligence industry XYZ curve and a new productivity framework. This event marked a pivotal transition for Zhiyuan, as it introduced innovative products and solutions that signify a shift from development to deployment within the robotics sector. The conference highlighted the company's commitment to advancing technology and enhancing productivity in the industry.

Embodied Intelligence Robotics AI Solutions Industry Innovation
Conference Guide | The 3rd China Embodied Intelligence and Humanoid Robot Industry Conference to be Held in Haidian on April 28-29

Conference Guide | The 3rd China Embodied Intelligence and Humanoid Robot Industry Conference to be Held in Haidian on April 28-29

The 3rd China Embodied Intelligence and Humanoid Robot Industry Conference is set to convene in Haidian, Beijing, on April 28-29. This significant event will bring together more than 30 industry experts, representatives from 200 leading companies, and over 1,000 professionals from the humanoid robotics sector. The conference aims to foster technological exchange and enhance collaboration within the industry, addressing the latest advancements and challenges in humanoid robotics. Participants will engage in discussions and networking opportunities to drive innovation and development in this rapidly evolving field.

Humanoid Robots Embodied Intelligence Industry Conference Technology Exchange
RobotToday Initiative

Robotics needs a service framework.

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