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Course with employment: "The profession of a methodologist from scratch to PRO"
Find out moreHistory, geography, and languages will be taught in virtual reality
Virtual reality (VR) and augmented reality (AR) technologies VR and AR technologies are rapidly developing in the educational sector. Experts predict that by 2025, investment in projects using these technologies will reach $12.6 billion, compared to only $1.8 billion in 2018. Today, the market offers a variety of VR devices, ranging from budget solutions like Google Cardboard, which uses a smartphone as a screen, to more sophisticated systems like the Oculus Rift and Valve Index. These advanced devices often come with additional accessories, including controllers, gloves, and proximity sensors, allowing for a more immersive experience. The integration of VR and AR technologies into educational processes opens up new horizons for learning, making it more interactive and engaging.
With a VR headset, you are immersed in a fully rendered virtual space, while the real world is absent. In contrast, AR glasses overlay graphics on objects around you. AR apps for smartphones operate on a similar principle: they display a blended image consisting of what the camera captures and superimposed graphics. For example, on your phone screen, you could watch exotic African animals moving around your apartment. This approach creates unique interactive experiences and expands the possibilities for interacting with the world around you.
For inexpensive headsets that use a smartphone as a screen, software can be found on Google Play and the App Store. Owners of more expensive VR headsets have access to software developed by the manufacturers of these devices. Both free and paid apps offering a variety of augmented and virtual reality capabilities are available in app stores.
Virtual reality (VR) is already being actively used to train medical professionals. In this context, the experiences of doctors mastering heart surgery skills using VR technology are particularly interesting. These innovative training methods allow doctors to practice in a safe environment, improving their skills and confidence before real surgical interventions. The use of VR in medicine not only improves the quality of physician training but also helps reduce risks during surgeries, which can ultimately lead to improved patient outcomes.
Augmented reality (AR) and virtual reality (VR) technologies have become a popular tool for museum tours, interactive geography and history lessons, and career exploration. For example, the Unimersiv platform offers a unique opportunity to study dinosaurs using augmented reality. Using your mobile phone camera, you can walk with a dinosaur, making learning more engaging and educational. These technologies not only enrich the educational process but also promote deep immersion in the material being studied, making it accessible to a wider audience.
Mondly offers a unique immersive language learning experience. The platform provides the opportunity to learn the vocabulary needed to communicate in a variety of typical situations, such as talking on the train, visiting a restaurant, or checking into a hotel. This approach helps you quickly master the language and use it confidently in everyday life.
Artificial Intelligence Will Create Personalized Curriculums
Artificial intelligence (AI) technology will increasingly be implemented in education. According to one report, the pace of AI integration into educational processes will increase significantly in the next five years. By 2025, global investment in this area is expected to reach $6 billion. The greatest growth is observed in China, followed by the United States. These two countries together account for more than half of the global spending on AI in education. The integration of AI into educational systems will improve the quality of learning, personalize the educational process, and optimize the management of educational institutions.
Machine learning is a vital part of artificial intelligence, enabling computers to learn by analyzing data rather than simply following predetermined program instructions. Given the right conditions and sufficient data, machine learning algorithms can improve their accuracy and efficiency over time. This makes machine learning an indispensable tool in a variety of fields, such as data analysis, forecasting, and process automation.
Personalized learning is one area where artificial intelligence and machine learning are expected to have a significant impact. According to a Learning House survey, over 60% of students prefer this approach to learning. Personalized learning allows for the educational process to be tailored to the individual needs and pace of students, which promotes more effective learning and increased motivation. The introduction of AI in this area opens up new opportunities for the creation of adaptive curricula that can take into account the unique characteristics of each student, improving the overall quality of education.
Automatic recommendation systems analyze student behavior, profile, and academic performance to provide personalized learning. They track student mastery through testing and, based on the data, suggest additional learning resources. These can include videos, interactive games, hands-on activities, and other forms of content. Furthermore, personalized curricula developed using artificial intelligence and machine learning can increase student motivation and reduce course dropout rates. Such systems help create a more effective learning environment tailored to the needs of each student.
Artificial intelligence is finding increasing applications in education, including student selection and the automation of routine processes such as grading and test creation. The implementation of AI simplifies the task of adding metadata and tags to learning materials, which traditionally requires significant effort from teachers. This manual process involves reading the text and selecting appropriate tags. Thanks to AI, finding relevant topics in educational chats where assignments and answers to student questions are posted becomes significantly easier and faster. The use of tags improves navigation through materials and reduces the time required to find them. This allows students to focus on learning, while teachers can focus on more important aspects of the educational process.
One of the key tasks of artificial intelligence in education is to determine a student's knowledge level through testing and the creation of a personalized curriculum. Derek Li, founder of the Chinese EdTech unicorn Squirrel AI, notes: "In three hours of working with AI, we can understand students better than experienced teachers who have spent three years with them." This confirms the effectiveness of using AI to personalize the educational process and optimize learning, which leads to higher results and improved learning.
The Century Tech platform offers effective math and English language learning by analyzing student progress across various tasks and topics. Using insights into how thinking and memory work, the system identifies gaps in students' knowledge and recommends appropriate learning materials. An automated answer marking system simplifies the grading process. Teachers can track the performance of both individual students and the entire class through a user-friendly dashboard, fostering a more personalized approach to learning.
Artificial intelligence is actively used to evaluate student handwritten work. An example of such an application is Gradescope, an online grading application created by researchers at the University of California, Berkeley. To train an algorithm for recognizing handwritten answers, the developers used the cuDNN deep neural network library and a computational framework for building machine learning models. Thanks to these technologies, the application effectively analyzes and recognizes the content of work, reducing grading time by 50–75%. The use of AI in the educational process significantly increases the effectiveness of teachers and improves the quality of student assessment.
According to Forbes, in the coming years, devices equipped with artificial intelligence will be able to recognize students' facial expressions using built-in cameras. By analyzing facial expressions and reactions, such systems will be able to detect whether students are experiencing difficulties in mastering the material. This will allow curricula to be tailored to the individual needs of each student, which is especially relevant in online learning, where maintaining motivation can be difficult. While detailed descriptions of this technology are currently lacking, its potential for improving the educational process is clear.
Large educational platforms often face the challenge of student motivation. With a large number of students, it can be difficult to give individual attention. An effective solution to this problem is working in small groups with an assigned tutor, both online and offline. We adhere to this approach in our courses. It is important to recognize that online classes require a different approach compared to offline learning. Most Russian educational platforms are in the early stages of adopting innovative methods and technologies that improve learning effectiveness, according to Valentin Dombrovsky, founder of Learn Python courses.
According to forecasts, 47% of organizations plan to implement AI-powered chatbots in the coming years. These chatbots will be able to answer common student questions and also provide assistance with technical issues, such as software setup or payment questions. Integrating AI chatbots will significantly improve user interaction and increase service efficiency.
