Smart Education System makes efficient use of IT technology that takes advantage of IoT and cloud computing technologies to track and act on multiple educational system components. To maximize the battery life of IoT nodes, the systems need to provide access to nodes and gateways by that introduce an architecture that allows not only the latest wireless and wired technologies to provide a fair communication range but also reduced energy usage. Like other sectors integrating intelligent cultures, the education sector is no exception to this. The IoT confirms its important role in the field of Information and Communication Technology and social growth. More devices are linked in education; campus leaders will be able to derive even more value from the continuous stream of data and knowledge, helping them transition from a transactional relationship to an iterative process with students, teachers, administrators, and providers. A small, person-centered environment helps smart campuses to complement and fit with the overall smart environment strategy, allowing educational institutions to achieve full productivity, promote sustainability, and enhance their constituents' everyday conditions. This analysis of the literature is generated using the secondary data obtained by reviewing a good number of papers published in journals and online sources. The study aims to explain IoT's use in the growth of the Smart Education System. The limitation of the study is that it deals only with the subject matter's application components which leave physical components.
Elections are the backbone of democracy. It is through elections that individuals assert their voice, their perspectives, and choose a person whose philosophies most complement them. Elections allow citizens to choose their representatives. They are also important for the people to express their resentment at the ruling government. When there is high voter participation, the election process is considered successful. Unfortunately, developing countries such as India are facing a decline in the turnout. People in rural areas move to metropolitan cities or other countries, in most developing countries to make their livelihood or schooling. During elections, visiting their hometown and casting their votes becomes burdensome for them because of their commitment to their workplace. Challenges in moving to poll places and sometimes adverse weather conditions, cause people to miss the chance to choose the candidate of their choice. People with disabilities and senior citizens also refuse to go to the polling station due to travel-related difficulty. Therefore, many elections record only 50-70 percent electoral turnout, sometimes, even less than 50%. Only when all eligible voters are granted fair opportunities to exercise their franchise then only such a democratic system is considered fool proof. The need for the hour is such a fool proof framework that enables all eligible voters to cast their vote by visiting Polling Station or doing so remotely. This paper proposes a conceptual framework for the Integrated, Smart, and Secure Remote Public Voting System (SSRPVS) that allows voters from any part of India to exercise their franchise without moving place to place and wasting time and money. To develop the Framework, emerging technologies such as IoT, Cloud Computing, Edge Computing, Blockchain, and Data Analytics are included. The system will guarantee security through four different levels, Smart Voting Card based on RFID, One Time Password, Thumb Recognition, and Retina Recognition. The only theoretical model of the system that is open for further analysis and development is provided here.
The goal of the election is not only to determine the outcomes but also to lend credence to the winners, even for those voters who did not bother voting for them. This underlines the necessity of holding free, fair, and hidden elections. Component of all this is that elections are controlled by open and accountable, neutral, and autonomous electoral-management bodies. Utilizing technology in voting procedures can make it quicker, more efficient, and less susceptible to security breaches. The technology can ensure the safety of every vote, better and faster and much more accurate counting and automatic tallying. The design of a sophisticated voting system is a complex task as it has to fulfill several essential criteria. The secrecy of an elector’s poll is to be well-preserved. The voting system should not give any evidence that proves which candidate receives a particular voter’s vote. The process uses minimum paper documents and is therefore environmentally friendly. Bio-metric or retina scans can be used to ensure security. The e-voting system is vulnerable to several serious attacks from external sources. There is indeed a likelihood that anybody who has immediate access to the e-voting system can access it suspiciously. Malevolent software can steal one candidate's votes and assign them to some other. An attacker may deny officials access to the e-voting arrangement or render an e-voting structure unavailable for the Election Day voting process. This is known as a service denial (DoS) attack. But this kind of threat is hard to detect. A large number of questionable and invalid votes are the big problem with traditional paper-ballot based voting system. This phenomenon will be eliminated if the e-voting system is used. In addition to the speed of counting and reduction of errors the e-voting system offers some more advantages such as accessibility, verifiability, and availability. When the e-voting system is integrated with the Internet, any eligible voter can vote from anywhere as there will be two or more levels of authenticity checks. In this paper, the authors reviewed the application of technology in the development of smart, secure, and versatile public voting systems. Also, they outlined research gaps and recommend new approaches to the existing systems.
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