VR, AR, and MR Technologies
Immersive Learning in the Innovative Remote Education System by The World of Geniuses
Virtual Reality (VR), Augmented Reality (AR), and Mixed Reality (MR) technologies are key tools in the education system of the future. In the remote learning program developed by The World of Geniuses, VR technology is not just for entertainment—it serves as a fully immersive educational environment where children can deeply engage with subjects like quantum physics, astroengineering, or neurobiology. This innovative approach transforms learning into an interactive, experimental, and hands-on experience.
Why
We Focus
on VR
- VR technology creates a unique educational environment that completely transforms the learning experience. Dull textbook theory is replaced with an immersive, multisensory experience that enables children to deeply understand scientific concepts at various levels of complexity. It also fosters imaginative and creative thinking, unlocking their full genius. This isn’t about fantasy or illusion—it’s education built on a rigorous, unique methodology backed by scientific research and cutting-edge technology.
How VR Enhances Learning
- 1Spatial Learning: 3D Immersion Over Traditional Textbooks
The human brain evolved in a three-dimensional environment, where success depended on analyzing spatial relationships and interactions between objects. VR leverages this natural ability, engaging the neural networks responsible for spatial perception and making learning more intuitive and effective.
- Long-Term Memory
3D immersion stimulates the hippocampus, enhancing long-term memory formation. Experiences gained in virtual reality are retained more easily, require less cognitive effort, and stay in memory far longer than traditional learning methods.
- Comprehensive Understanding
A child’s learning is no longer limited to flat images on a classroom board or textbook pages. They can step inside a molecule, observe atomic collisions, or explore brain neurons from within. This approach allows them to view subjects from extraordinary perspectives, fostering creative and out-of-the-box thinking.
- 2Emotional Engagement: Learning Through Personal Experience
VR-based learning triggers dopamine release more effectively than traditional methods, making the learning and memory process more engaging and immersive.
- Emotions Enhance Learning
Immersive scenarios transform learning into a personal experience. Students can walk on Mars, explore the history of space travel, or observe electron movement up close. Since emotional experiences are easier to retain than neutral ones, VR helps integrate knowledge through emotional connections.
- 3Multisensory Integration:Learning Through All Senses
In VR, children don’t just see and hear—they physically engage with the learning process. Haptic suits and motion platforms allow them to ‘touch’ virtual objects, sensing vibrations, temperature, and movement. They can even experience what it’s like to be a protein traveling through the body, fully immersing themselves in its life cycle of transformations.
- Tactile Feedback
In chemistry lessons, for instance, tactile gloves replicate molecular vibrations, while sensors monitor the child’s reactions. This multimodal stimulation strengthens neural connections, reduces the risk of atrophy, and forms new neural networks. By turning abstract theories into a “tangible” experience, it seamlessly integrates theoretical knowledge with practical skills. A child doesn’t just learn physics or chemistry—they experience them on both a physical and cognitive level.
- Sensory Expansion
VR allows children to 'slow down time' to explore atomic structures or 'scale themselves up' to the size of a galaxy. This trains the brain to think beyond patterns and limitations, surpassing the boundaries of the physical body.
The ability to explore objects from unusual perspectives and scales—from micro to macro—develops the capacity to view subjects of study in an unconventional way. This, in turn, allows individuals to recognize new connections and potential where others may have overlooked them, deepening understanding and strengthening long-term memory.
What We’re Working On
Optimizing Hardware and Developing a Unified Learning Environment
Modern VR/AR suits, neuro interfaces, and biosensors require significant refinement to achieve maximum biocompatibility, ergonomics, and functionality. Simply having the equipment is not enough—we are developing solutions that seamlessly integrate all system components into a cohesive and efficient learning mechanism.
Component Synchronization
Ensuring full synchronization of all system elements, including neurointerfaces, biosensors, VR/AR devices, and educational programs. To achieve this, we are developing a specialized AI capable of processing data in real-time, adjusting the learning environment, and adapting educational materials accordingly.
Scalability and Performance
The system is being designed with scalability in mind—it must support millions of users online simultaneously while maintaining stability, high performance, and extensive customization options for individual learners.
Immersion and Realism
We are developing a highly realistic educational VR environment that enables full immersion and an authentic learning experience. Achieving this requires the creation of a high-detail, photorealistic virtual space where objects behave just like their real-world counterparts, incorporating accurate material properties, lighting, and environmental interactions. This level of realism is especially critical for conducting experiments, adjusting variables, and observing real-time results, where precise simulation of physical processes is essential. Additionally, sensory integration plays a key role. We are incorporating multi-sensory feedback, including realistic sound, tactile sensations via haptic devices, and adaptive responses based on biometric data (such as stress levels, focus, and other physiological indicators) to create a truly personalized and engaging learning experience.
- According to current estimates, the basic version of the educational system for preschool and supplemental education will launch in 2030. By 2040, a comprehensive educational platform covering preschool, school, and university programs will be fully introduced.