The COVID‐19 crisis is having a significant impact on the quality of life and future of young people; it can also lead to disruption in education. A disruption would pose a severe threat to the entire society in the postcrisis period. Therefore, educational institutions must respond quickly and ensure the continuity of the educational processes. Our research goal has been to develop and implement a model enabling a rapid transition from the traditional to the distance learning model in a state of emergency. Our focus has been on conceiving technical, organizational, and pedagogical changes that educational organizations need to implement to enable different interaction methods, ensure continuity, and provide high‐quality education. We have defined and implemented a model, which is described in detail in this paper, thus giving guidelines for a rapid transition to distance learning, which is not restricted to the crisis times only. We have evaluated our approach by monitoring the IT solutions and surveying students and teachers at the School of Computing, Union University of Belgrade. The results indicate the high satisfaction of these participants in the educational processes. They imply the acceptability of prolonged distance learning, if needed, and embrace the hybrid education model for the next generation of students.
The rapid expansion of new technologies and services significantly affects society’s development and initiates significant changes within public administration. Many have decided to implement citizen-centric, data-driven, and performance-focused governance and prepare to transform the existing e-government system into a smart government. Along the way, they have encountered problems such as flaws in existing legislation and in the integration of heterogeneous infrastructure from technical, financial, and privacy perspectives. We propose a new approach to information system modeling that introduces an integration layer for existing databases and services and suggests the application of several innovative technologies to achieve better problem-solving, optimal utilization of resources, and policy innovation. To test the effectiveness of the proposed solution, we have used corresponding weighted digraph models to confirm that the proposed solution achieves the desired effects. We have used the time required to collect documents to measure similarity. The obtained results prove the efficiency of the proposed model and indicate that the same model could be used elsewhere in public administration.
Software-defined networking (SDN) provides many benefits, including traffic programmability, agility, and network automation. However, budget constraints burdened with technical (e.g., scalability, fault tolerance, security issues) and, sometimes, business challenges (user acceptance and confidence of network operators) make providers indecisive for full SDN deployment. Therefore, incremental deployment of SDN functionality through the placement of a limited set of SDN devices among traditional devices represents a rational and efficient environment that can offer customers modern and more data-intensive services. However, while hybrid SDN provides many benefits, it also has specific challenges addressed in the literature. This paper answers one of these challenges by presenting the research and development of a new load balancing scheme
Software‐defined networking (SDN) is an emerging technology that allows efficient and flexible management of networking equipment through standard interfaces. In order to encourage the seamless adoption of this technology, a new approach for the education of network engineers should be established, shifting the focus from conventional vendor specific technologies toward the concepts of standardized network management. In this paper, we propose an approach for designing an SDN course where students are encouraged to learn how to design and manage software‐defined networks in general, rather than focusing on the specifics of one vendor in particular. In addition, deeper student involvement is achieved through the use of globally available Open APIs and open source software which are the backbone of the course. The approach was evaluated at the graduate studies at the Faculty of Organizational Sciences, University of Belgrade. The results indicate that the proposed approach can have a positive impact on the learning process, and in time hopefully serve as a stepping stone for the education of the new generation of network engineers.
5G and 6G represent next‐generation communication technologies that provide high spectral and energy efficiency, low latency, and massive connectivity due to extensive growth in Internet‐of‐Things devices. Their impact on the quality of life will be significant and enable them to shape modern society's future. The intensive network softwarization and cloudification represent leading drivers for future core network development. Therefore, educational institutions must respond quickly and ensure these technologies' easy and rapid adoption. It is necessary to introduce new approaches to engineers' education, shifting the focus from traditional network technologies toward more programmable network concepts based on network softwarization and cloudification. Our research goal has been to develop and implement a course while focusing on conceiving technical and pedagogical solutions to provide high‐quality education. We have used globally available APIs, tools, and open‐source software to achieve deeper student involvement in our course. We have evaluated our approach by surveying students at the School of Computing, Union University of Belgrade. The results indicate students' high satisfaction with the proposed course. At the same time, they reveal specific problems that affect the effective acceptance of knowledge from certain areas covered in the course. Finally, we have prepared a list of guidelines for teaching courses of 5G/6G core.
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