Apple Smart Glasses Delayed to 2027

Apple’s long-rumored smart glasses project has reportedly encountered new development hurdles, pushing the expected launch from early 2027 to late 2027. The device, known as N50, is designed to compete with products such as Meta’s Ray-Ban smart glasses and is expected to focus on AI-powered assistance, cameras, audio features, and voice interaction rather than offering a full augmented reality display. Reports suggest that delays are linked in part to Apple’s ongoing efforts to upgrade Siri and integrate more advanced Apple Intelligence capabilities into the wearable experience.

Apple reportedly considers smart glasses a strategic priority and views the technology as a long-term successor to today’s mobile devices. The company is said to be experimenting with multiple frame designs and color options while aiming to differentiate itself through tight integration with the Apple ecosystem. At the same time, Apple appears to be reassessing its broader Vision product roadmap, with lighter and more affordable Vision headsets now expected no earlier than 2028–2029 as resources are redirected toward making smart glasses a mainstream consumer product.

More information:

https://www.cnet.com/tech/mobile/apple-smart-glasses-development-bumps-reported-delay/

A Robot Companion Supporting Independent Aging

Researchers in New Hampshire are testing a socially assistive robot called Robbie to help older adults remain independent at home. The robot, based on Hello Robot’s Stretch 4 platform, assists elderly by providing exercise guidance, medication and meal reminders, hydration prompts, and personal hygiene cues. Developed through a collaboration between the University of New Hampshire and the National Institute on Aging, the project aims to address growing shortages of home-care workers while supporting aging populations who wish to remain in their own homes.

Unlike the humanoid robots often portrayed in science fiction, Robbie prioritizes functionality over appearance. Equipped with cameras, sensors, and a mobile platform, it can monitor routines, deliver reminders, and assist with everyday tasks, reducing the burden on family caregivers. Although the system currently costs nearly $30,000 and remains in an early adoption phase, researchers view it as a practical example of how robotics could complement human care in the coming decades as demand for elder-support services continues to rise.

More information:

https://apnews.com/article/robot-elder-care-companion-946ce0517281381950e72f088b0eda89

Brain-Inspired AI Runs on Ambient Energy

Researchers at the University of Southern California (USC) have unveiled a miniature neuromorphic computing system that operates without batteries or external power, harvesting ambient energy from its surroundings to sense, process information, and make decisions in real time. Inspired by the human brain, the fully analog device integrates sensing, computing, and memory into a single energy-efficient architecture, enabling intelligent operation at the edge without reliance on cloud infrastructure.

The breakthrough represents a significant step toward self-sustaining artificial intelligence systems for applications such as environmental monitoring, autonomous robotics, smart infrastructure, and wearable technologies. By dramatically reducing power requirements while maintaining adaptive decision-making capabilities, the technology could pave the way for a new generation of autonomous devices capable of operating in remote or resource-constrained environments.

More information:

https://viterbischool.usc.edu/news/2026/06/usc-scientists-built-a-tiny-system-that-thinks-like-a-brain-and-runs-on-thin-air/

ViWAS Kick-Off Meeting

A new ambitious European initiative, the Virtual Worlds Academy of Skills (ViWAS), has been unveiled under the Digital Europe Programme, aiming to position Europe at the forefront of Web 4.0 and immersive technologies. Coordinated by Professor Fotis Liarokapis, CYENS Centre of Excellence, the project brings together a large, multidisciplinary consortium spanning over 16 countries to tackle one of Europe’s most pressing challenges: the growing shortage of advanced digital skills in virtual worlds and extended reality (XR). Through innovative, simulation-based learning environments and immersive digital twins, ViWAS will enable users to gain hands-on experience in safe, scalable, and cost-effective settings.

ViWAS will establish a pan-European training ecosystem designed to equip learners, professionals, and institutions with cutting-edge competencies in XR, artificial intelligence, and virtual environments. The ViWAS project started on the 1^st of May and the kick-off meeting took place in Paris, France between 26-27 May 2026. The Academy will function as an open, interoperable ecosystem, connecting universities, vocational training providers, industry, SMEs, and public institutions. Leveraging AI-driven personalization and advanced XR platforms, ViWAS will deliver tailored learning experiences, foster cross-sector collaboration, and support workforce upskilling and reskilling at scale.

More information:

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/projects-details/43152860/101298981/DIGITAL?order=DESC&pageNumber=1&pageSize=100&sortBy=es_SortDate&keywords=101298981

China Accelerates AI BCI Race

Chinese companies are accelerating the development of AI-powered BCIs, moving beyond laboratory trials toward practical real-world applications. Firms in China are combining neural implants with advanced AI algorithms to help people with paralysis regain abilities such as walking, speaking, and controlling digital devices. Start-ups and research groups are increasingly competing with Western companies such as Neuralink, while benefiting from strong state support, expanding clinical testing, and growing investment in neurotechnology infrastructure.

China’s approach focuses not only on the implant hardware itself, but on AI systems capable of decoding and interpreting brain signals more efficiently. Researchers believe this integration could accelerate rehabilitation technologies and improve communication tools for patients with neurological disorders. However, the rapid expansion of the sector also raises concerns regarding safety, regulation, transparency, and long-term ethical oversight, especially as these systems transition from experimental environments into broader medical and commercial use.

More information:

https://www.nature.com/articles/d41586-026-01468-x?shem=dsdf,sharefoc,agadiscoversdl,,sh/x/discover/m1/4

Stanford AI Learns to Interpret Emotion in Art

Researchers at Stanford Human-Centered AI (HAI) have unveiled a groundbreaking artificial intelligence system capable of recognizing and interpreting emotional responses in visual art, marking a major step toward emotionally intelligent machines. The project, known as ArtEmis, was developed using more than 81,000 artworks and approximately 440,000 human emotional reactions collected from over 6,500 participants. Unlike conventional computer vision systems that focus on identifying objects or scenes, the new AI is designed to understand how images make viewers feel and explain those emotions in natural language.

According to the Stanford research team, the system demonstrates how AI can move beyond purely analytical perception toward a more human-centered understanding of culture, aesthetics, and emotional expression. Researchers believe such technologies could influence future applications in digital museums, creative industries, therapeutic environments, and emotionally adaptive interfaces. By teaching machines to interpret symbolism, atmosphere, and artistic intent, the project opens new discussions about the evolving relationship between artificial intelligence, creativity, and human emotional experience.

More information:

https://hai.stanford.edu/news/artists-intent-ai-recognizes-emotions-visual-art

AI Cinema Arrives in Korea

South Korea is preparing to release I’m Popo, described as the country’s first feature-length film created entirely with generative AI. Directed by webtoon artist Kim Il-dong, the 64-minute sci-fi film follows Popo, a police robot designed to protect humanity, but which begins eliminating people it predicts could become future threats. Rather than relying on traditional filming, the movie was largely produced through AI-generated visuals and prompt-based workflows, while professional voice actors provided the dialogue. The film is already being positioned as a milestone in Korea’s rapidly evolving AI cinema movement.

Beyond its technological novelty, I’m Popo has sparked broader debate about the future of filmmaking and the role of AI in creative industries. The film raises ethical questions about algorithmic decision-making, human emotion, and artistic authenticity, while also challenging traditional ideas of authorship and cinematic production. Its release comes amid growing international discussion around AI-generated cinema, with film festivals and industry figures increasingly confronting how artificial intelligence may reshape storytelling, labor, and creativity in the entertainment world.

More information:

https://www.koreatimes.co.kr/entertainment/others/20260507/im-popo-koreas-first-all-ai-film-asks-what-comes-next-for-cinema

MIT Unveils Virtual Violin Design Tool

Researchers at MIT have developed a physics-based virtual violin that could transform how violins are designed and tested. Unlike conventional digital sound simulators that rely on prerecorded samples, the new computational model recreates the actual physical behavior of the instrument, allowing it to generate realistic violin sounds by simulating how strings, wood, and surrounding air interact. The system enables luthiers to experiment with factors such as wood type, plate thickness, and structural geometry before physically building an instrument.

The project aims to provide violin makers with a scientific design tool that complements centuries of artisan knowledge. Researchers believe the model could accelerate experimentation and offer new insights into the acoustics behind legendary instruments such as Stradivari violins. While the current system focuses on reproducing plucked-string sounds, future versions may simulate bowed performance as well, potentially opening new possibilities for digital instrument design, acoustic research, and preservation of historical instrument-making traditions.

More information:

https://arstechnica.com/science/2026/05/mits-virtual-violin-offers-luthiers-a-new-design-tool/