A Crawling Robotic Hand

Recently researchers introduced a novel robotic hand design that integrates both manipulation and autonomous mobility in a single device. Unlike traditional anthropomorphic hands, this system features a symmetrical, reversible finger architecture that enables grasping from either side and supports a broader range of grasp configurations. The hand can detach from a robotic arm and crawl independently, allowing it to retrieve objects outside the reach of the arm or perform loco-manipulation tasks. The design leverages optimization algorithms to balance finger placement, grasp dexterity, and crawling capability, achieving robust multi-object manipulation and extended functionality beyond conventional end-effector systems.

In experiments and simulations, the robotic hand demonstrates advanced capabilities such as executing standard grasp taxonomies, simultaneously holding multiple objects, and performing role switching between manipulation and locomotion. The reversible finger mechanism also improves recovery from failures (e.g., after a flip), simplifies motion planning, and enhances overall versatility. The researchers present detailed control strategies and a physical prototype that validate the hand’s performance, highlighting potential applications in industrial, service, and exploratory robotics where both dexterous interaction and autonomous movement are required.

More information:

https://www.nature.com/articles/s41467-025-67675-8

Blink-Powered Eye Tracker

Researchers at Qingdao University in China have developed an innovative self-powered eye-tracking system that could dramatically improve accessibility for people with severe mobility impairments, such as those with ALS. Traditional eye-tracking devices can help users type or steer wheelchairs using gaze alone, but they tend to be bulky, require external power, and struggle in low-light conditions. The new system uses triboelectric nanogenerators to harvest tiny electrical charges generated by the friction of eyelids blinking to both power the device and serve as a precise sensor.

It achieves around 99% tracking precision, detects subtle eye movements, works even in complete darkness, and is lightweight and comfortable, like wearing regular glasses. Because it doesn’t rely on batteries or heavy hardware, this blink-powered tracker could make gaze-based control more practical and empowering for daily use. Beyond helping paralyzed patients communicate or operate wheelchairs, the technology might find applications in fields like space exploration (where hands-free controls are valuable), driver monitoring in vehicles, and energy-efficient virtual-reality systems.

More information:

https://interestingengineering.com/science/blink-powered-eye-tracker-paralyzed-patients

OriRing VR Ring

Researchers at Sungkyunkwan University, in collaboration with EPFL, have developed a novel wearable haptic device called OriRing. This ring-shaped interface uses a 3-axis force sensor to provide users with realistic sensations of the weight and stiffness of virtual objects when interacting in VR. Unlike traditional haptic systems that rely on simple vibrations or bulky mechanisms, OriRing is ultra-lightweight (about 18 g) and capable of sensing multi-directional forces through micro-structured polymer surfaces, allowing precise tactile feedback directly at the fingertip.

Testing showed that users can not only perceive object properties like size and hardness but also adjust virtual object characteristics in real time using just finger movements. Because of its high force-to-weight performance and compact wearable form, OriRing offers advantages over glove-type devices and has potential applications beyond VR and gaming, such as rehabilitation, medical use, and remote robotic control. The research was published in Nature Electronics and marks a step forward in creating more immersive and physically grounded human-computer interaction technologies.

More information:

https://www.dongascience.com/en/news/75940

China Proposes Rules to Regulate Human-Like AI Interactions

China’s cyberspace regulator on December released draft rules for public comment aimed at tightening oversight of artificial intelligence systems that mimic human personality traits and interact emotionally with users. The proposed regulations would apply to consumer-facing AI products and services in China that simulate human-like thinking, communication, and emotional engagement through text, images, audio, or video, signaling Beijing’s intent to shape the rapid rollout of such AI with stronger safety and ethical standards.

Under the draft framework, AI providers would be responsible for ensuring safety throughout the product lifecycle, including algorithm review, data security and personal information protections. Companies would have to warn users against excessive use, monitor emotional states and signs of addiction, and intervene when necessary. The rules also set “red lines” banning AI content that could threaten national security, spread rumors, or promote violence or obscenity, and are now open for public comment before finalization.

More information:

https://www.reuters.com/world/asia-pacific/china-issues-drafts-rules-regulate-ai-with-human-like-interaction-2025-12-27/

Real-Time Speech-to-Text App for Deaf Users

A technology company in Nagoya has developed a new smartphone app designed to help people who are deaf or hard of hearing by converting spoken language into text in real time. The app uses advanced speech-recognition algorithms to transcribe what others are saying into readable captions instantly, filling a gap left by existing tools that often struggle with accuracy or lag.

This innovation is aimed at improving everyday communication for users, making conversations more accessible without needing a human interpreter or manual input. By leveraging recent advances in artificial intelligence and machine learning, the app can handle nuanced speech patterns and offer translations as well, supporting smoother interaction in various contexts such as social situations, work, or public services.

More information:

https://www.asahi.com/ajw/articles/16206171

Humanoid Robots Learn to Work Like Humans

Boston Dynamics is increasingly using artificial intelligence to train its humanoid robot, Atlas, to perform real-world work tasks previously done by humans. In a recent 60 Minutes segment, the company showed how Atlas is being tested at Hyundai’s new Georgia factory, practicing duties like sorting roof racks on an assembly line. The modern Atlas blends machine learning with advanced hardware, using techniques like motion capture, simulation training, and direct human demonstration to learn movement and tasks that were once difficult to program manually. 

 

Boston Dynamics’ CEO and researchers acknowledge that while humanoids aren’t yet replacing large numbers of workers, they are poised to change the nature of labor by taking on repetitive or hazardous jobs, potentially relieving humans from backbreaking work and enabling operations in environments unsafe for people. They stress that robots will still require human oversight, maintenance, and training, and dismiss dystopian fears of autonomous machines running amok, even as the robotics industry races competitors globally and eyes a multi billion-dollar future market.

More information:

https://www.cbsnews.com/amp/news/boston-dynamics-training-ai-humanoids-to-perform-human-jobs-60-minutes/

XR4ED Invited Talk at UnitedXR Europe 2025

On the 8^th of December 2025, I presented at UnitedXR Europe in Brussels an overview and results of the XR4ED EU Project. XR4ED focuses on fostering innovation in education through extended reality (XR) technologies. The project created a sustainable, centralised platform where educators, developers, and learners can access XR tools, applications, and resources tailored for learning and training purposes. By uniting the EdTech and XR communities across multiple EU member states, XR4ED overcomes fragmentation in the digital education technology ecosystem and supports the development and market readiness of immersive educational solutions that go beyond traditional teaching methods.

Throughout the presentation, project results are highlighted, including efforts to create an open marketplace for XR content, support for start-ups and SMEs via open calls and grants, and building links with related initiatives to strengthen Europe’s leadership in XR for education. The XR4ED platform is designed to enable personalised, innovative, and inclusive learning experiences, facilitating hands-on engagement and skills-based teaching. XR4ED also considers ethical, privacy, and inclusivity standards as part of its ecosystem, while encouraging adoption of immersive tools across schools, universities, industry training, and research communities.

More information:

https://youtu.be/tAi76BlXWis

Virtual Reality Brings Connection and Joy to Senior Living

Virtual reality is being used in retirement communities to help older adults combat social isolation and enrich their daily lives. Residents at places in California use VR headsets to virtually explore new places, revisit meaningful memories, and take part in shared activities like underwater swims or concerts. These immersive experiences often spark conversation, improve cognitive engagement, and strengthen connections among peers who may otherwise struggle with loneliness.

Researchers and caregivers see VR as especially accessible for seniors compared with other technologies, and early evidence suggests it can support emotional well-being and social interaction without replacing traditional activities. They emphasize that while VR should complement rather than replace real-world engagement, it has shown potential benefits for those with memory challenges, including positive responses to virtual hikes and other simulations.

More information:

https://apnews.com/article/virtual-reality-senior-living-social-isolation-b20dc156f4aa0735d7f0cc7558de9bfc