ABSTRACT
The COVID-19 pandemic has led to a major disruption of education worldwide, affecting an estimated 1.6 million students. Classroom education has been suspended and will be replaced by e-learning online forums. In higher education, e-learning is made available through recorded lectures, and online forums become an integral part of the entire system. With this background 6G plays a vital role for online learning platforms by providing high-speed uninterrupted internet. While fifth generation (5G) dispatches are being rolled out worldwide, sixth generation (6G) dispatches have attracted important attention from both the assiduity and academia with respect to online learning. Though 6G is supposed to have more advanced capabilities than 5G, there’s yet no clear description of what 6G is. A new paradigm of wireless communication, the sixth generation (6G) system, with the full support of artificial intelligence, is anticipated to be stationed between 2027 and 2030. Beyond 5G, some abecedarian issues that need to be addressed are advanced system capacity, advanced data rate, lower latency, and bettered quality of service (QoS) compared to the 5G system. This paper presents the vision of unborn 6G wireless communication and its conditions and operations. We bandy the arising technologies similar to artificial intelligence, terahertz dispatches, optic wireless technology, blockchain, three-dimensional networking, unmanned upstanding vehicle, cell free dispatches, holographic beamforming, and big data analytics that can help the 6G architecture development in guaranteeing QoS. We present the anticipated operations similar as mm-Wave and Internet of Things (IoT) with the conditions and the possible technologies for 6G communication. We also outline the possible challenges as cost, sequestration, transceiver design, and energy and exploration enterprise to reach this thing.
