Impact of 5g on EdTech

EdTech is all set to boom with 5G on it’s way

One of the most promising areas for 5G-powered innovation has always been education. Educators and software developers may polish digital teaching tools to an unprecedented degree, while simultaneously building new ones that shatter the two-dimensional lesson plan, thanks to the huge bandwidth and drastically reduced latency of a next-generation wireless network. The next generation cellular connections improves both speed and simultaneity, allowing more devices to connect at the same time while also providing faster download and upload speeds. That’s a significant plus for higher education, since the number of devices on campus is steadily increasing.

When it comes to videoconferencing with faraway peers and specialists in the classroom, the enhanced speed will bring students and faculty closer to a seamless experience. It also means that instead of waiting for slow downloads or dealing with other connectivity issues, class time may be allocated to instruction. This speed will be especially useful when downloading instructional films and other educational resources, as 5G will allow you to do so very instantly. This is crucial as teachers continue to employ more video-based content in the classroom and outside of it as part of blended learning approaches.

5G will also assist accelerate the introduction of virtual reality in higher education. Because many VR experiences consume a lot of bandwidth, having a network that can deliver immersive content properly will make it easier for teachers to employ this powerful learning tool. To fully utilise VR and augmented reality, stronger connectivity will be required than currently exists. 5G will enable new sorts of content, such as augmented reality and virtual reality, which currently demand more bandwidth than currently existing Wi-Fi technology.

VR can also be used to give opportunities for active learning. While faculty members may already be aware of this anecdotally, research supports the success of pedagogies that encourage students to collaborate, solve problems, and communicate with instructors on a two-way basis. Students “learned better when participating in classrooms that adopted so-called active-learning methodologies,” according to a new Harvard research.

The influence of 5G on education isn’t only about instruction. It may also influence how people collaborate. Group projects have been shown to boost children’s ability to cooperate and foster empathy, and 5G Ultra Wideband might make cooperation a potent tool in teachers’ arsenals, both in and out of the classroom. 5G Ultra Wideband’s low latency, in particular, might help enable instances where remote cooperation between students seems as natural as talking between desks. Kids from separate classrooms might meet in a virtual art studio and collaborate on a mural in near-real time if a school has a 5G Ultra Wideband uplink.

5G in education presents the possibility for new avenues of teaching and classroom engagement, allowing students to learn not just how to utilise advanced technologies, but also how to innovate and create with them, thanks to its near-real-time reaction. Initiatives like the Verizon 5G EdTech Challenge have uncovered intriguing inventions, demonstrating that the only limitations imposed on 5G-powered educational content creators are their own imaginations. Learning might be hampered by a lack of connectivity. Through a revolutionary, STEM-based education curriculum, initiatives like Verizon Innovative Learning help create digital inclusion in under-resourced communities. Verizon introduced its first 5G-enabled Verizon Innovative Learning classroom in 2019, where students may learn about artificial intelligence, augmented reality, and virtual reality. This technology has created textbooks to life by allowing entire classrooms to participate in immersive learning programmes that let students to tour the inside of an atom, explore the remnants of a dying star, or meet historically underrepresented figures.

The 5G network will be based on the current LTE network, but it will operate on much higher frequency bands. Initial plans for 5G deployment use a fixed wireless network, which means installing a higher density of smaller cells, because these higher-frequency signals are easier to block and do not travel as far. These cells are expected to power a hundredfold increase in device capability and a tenfold boost in network density, immensely increasing the chances of IoT integration, according to the developers. Schools in grades K–12 have already begun to experiment with IoT integration. Expanding the capacity of IoT devices through 5G, on the other hand, is expected to significantly improve teachers’ abilities in the classroom. Being automatically logged into the classroom as soon as you enter the room, being distracted by a signal as soon as you lose concentration during a lecture, and receiving real-time feedback from a lecturer about areas where students still need help based on real-time analysis of their notes are just a few examples of how IoT and connected classroom can improve learning and teaching.

Resources in Palo Alto will be focused on emerging technology, education, and big data. With 5G on the horizon, this center’s innovations could pave the way for the next generation of education. Verizon has launched a competition for universities and nonprofit organisations to submit ideas for how to use AR/VR in K–12 classrooms, with the winners receiving funding and 5G access. We need to alter the educational opportunities and life paths of a large number of students. 5G will open doors in the classroom that we have yet to imagine, giving students the ability to be successful, engaged, and gain access to higher education and new career paths.

Communications behemoths are investing in research to see how 5G can best be used in education to help steer the world toward 5G. Verizon has announced that, following the success of its first 5G innovation centre in New York, it will build four more across the country, each with a different focus. The innovation centers will be located in Waltham, Massachusetts; Washington, DC; Los Angeles, California; and Palo Alto, California, according to a press release. We’re making our 5G network open to the public because we believe that the next-generation solutions that will run on it will be the result of collaboration and innovation from a wide range of developers.

Although the Ed-Tech sector has enabled students to learn from the comfort of their own homes, the situation is not the same for everyone. This is due to the fact that various students use different devices and network conditions to access the online platforms. Fortunately, adopting a Content Delivery Network can assist in ensuring a pleasant user experience (CDN). A content delivery network (CDN) is a globally dispersed platform with several servers that work together to deliver internet material more quickly. It assists in the delivery of material to end users based on their geographic location as well as the origin webpage.

CDNs are critical to the performance of Ed-Tech platforms that deliver live classes with rich media formats, as well as interactive and engaging learning content to students. A CDN can deliver complicated content to students even in the face of difficult network conditions, as well as minimise page load time and increase website security. By reducing buffering time and improving workflow on both websites and mobile applications, a CDN ensures that content can be played even on devices with limited capabilities, ensuring quality education without interruption.

CDNs are critical to the performance of Ed-Tech platforms that deliver live classes with rich media formats, as well as interactive and engaging learning content to students. A CDN can deliver complicated content to students even in the face of difficult network conditions, as well as minimise page load time and increase website security. By reducing buffering time and improving workflow on both websites and mobile applications, a CDN ensures that content can be played even on devices with limited capabilities, ensuring quality education without interruption.

CDN can help development in the EdTech field through multiple ways. They help in loading the websites faster especially content heavy websites that might generally take a very long time. The video content and heavy smart project can reach out to students easily through this medium. For any website owner working in the EdTech field, having a CDN facility is a must, it does not matter how extensive and well prepared your course is but if your website is slow no one is going  to stay. The content is delivered to the website by the nearest CDN server, which speeds up the loading process. As a result, users notice a reduction in the time it takes for a page to load. Because the bounce rate is reduced, people spend more time on the website.

CDNs can also help in making the whole process economical and safe. Bandwidth cost can be very high at times and CDNs can help in bringing it down. It reduces the host cost for the website hosting. Along with that it can also provide added security to your website and web application protecting it from various cyber attacks.

Mogi’s Proprietary Video Tech

Mogi’s Video Tech solutions are available end-to-end (Video Transcoding + Video Player + Mogi Streaming Engine (Multi-CDN delivery) + DRM + Video Analytics) or you can use individual products from the entire suite like just the Video Transcoding. Mogi also provides white-label end-to-end plug n play solutions for OTT and Edtech Platforms, with Web, Android and iOS apps as well as a dedicated CMS for OTT and LMS for EdTech.

One of the best individual products we have is our Transcoding Architecture, which is a unique cluster-based process, does the transcoding within 30% of the content length. The transcoding architecture’s result includes a highly compressed video of up to 50% with no loss in quality, and if you choose quality enhancement, a 40% compression with the enhanced video quality.

The pricing for Transcoding is very competitive as well, and along with it you get a highly compressed output with the same or higher quality. This means not only is your contractual pricing is low due to competitive pricing, but your bandwidth consumption also reduces, and user experiences increase multifold. It’s a win-win for all of us (Users, Clients, Mogi).

Contact us now to make your website load faster, rank Higher on SEO, and reduce bounce rates – susheel.srinivas@mogiio.com

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