Eldar Zaerov
Radoslav Simionov
ABSTRACT
The proposed paper is mainly aimed at passing the collected data from smart devices to a server to build a smarter university. The idea is to create the so-called Smart University. The smart university infrastructure includes two main components: IT infrastructure and intelligent engineering systems. Smart engineering systems include power supply systems, water supply, air conditioning, fire protection systems, lighting, access control and video surveillance systems. Part of the proposed systems as elements of smart infrastructure were built at University. Upgrading of the infrastructure with additional elements is forthcoming. The idea is to achieve full synchronization in the work of all university systems using an Internet service.
- Mirjana Maksimović. 2017. Green Internet of Things (G-IoT) at engineering education institution: the classroom of tomorrow Faculty of Electrical Engineering University of East SarajevoEast Sarajevo, Bosnia and INFOTEH-JAHORINA Vol. 16, March.Google Scholar
- S. Koegler, IoT in the classroom, https://networkingexchange-blog.att.com/.Google Scholar
- Долчинков P., Геориева П 2012. Светодиодно осветление с вятърна и слънчева енергия, Електронно списание за компютърни науки и комуникации, бp.1, ISSN 1314-7846.Google Scholar
- S. Mollova, R. Simionov, K. Seymenliyski. 2018. A study of the energy efficiency of a computer cluster. In Proceedings of the 7th International Conference on Telecommunications and Remote Sensing (ICTRS '18). ACM, New York, NY, USA. Google ScholarDigital Library
- R. Simionov, K. Totev, H. Hrusafov. 2018. IoT in advantage of the university, Yearbook of BFU, 2019, Volume XXXIX, ISSN: 1311-221-X.Google Scholar
- N. Cavus and D. Ibrahim. 2007. Is blended learning the solution to web-based distant engineering education. In Proceedings of the 7th International Educational Technology Conference (IETC '07), Nicosia, Cyprus.Google Scholar
- Itai Asseo, Johnson Maggie, Nilsson Bob, Chalapathy Net, TJ Costello, The internet of things: Riding the Wave in Higher Education, EDUCAUSE review, 2016, www. educause.edu.Google Scholar
- P. Rahnev, Mollova S., Letskovska S., Current state of the distance learning system, Innovation in education, Shumen University "Bishop Konstantin Preslavski", Collection scientific works 2010, ISBN 978-954-400-298-5.Google Scholar
- D. Popova, Letskovska S., Seymenliyski K., 2013. Information visualization systems - opportunities and perspectives, Burgas Free University, Yearbook of BFU, Volume XXIX, ISSN: 1311-221-X.Google Scholar
- R. Dolchinkov. 2013. Teaching methods in computer design of technological systems. In Proceedings of the 6th International Conference of Education, Research and Innovation, ISBN 978-84-616-3849-9.Google Scholar
- P. Долчинков. 2012. 3-D моделиране на фотоволтаичен панел със задвижващ механизъм, Годишник БСУ, TOM XXVII, ISBN 1311-221-X.Google Scholar
- P. V. Georgieva and R. Dolchinkov. 2019. Fuzzy models for managing a micro grid PV system. In Proceedings of the 42nd International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO '19).Google Scholar
- Penka Georgieva. 2018. Parameters of GFSSAM: coding the parameters of a hybrid genetic fuzzy system. In Proceedings of the 7th International Conference on Telecommunications and Remote Sensing (ICTRS '18). Association for Computing Machinery, New York, NY, USA. Google ScholarDigital Library
- M. Matsankov and M. Ivanova. 2019. Selection of optimal variant of hybrid system under conditions of uncertainty. In Proceedings of the 2nd International Conference on Electrical Engineering and Green Energy, Roma, Italy.Google Scholar
- E. Vasileva and M. Matsankov. 2017. Defining the undelivered energy when exploitation of decentralized energy sources. ICTTE '17, Yambol, Bulgaria, ISSN 1314-9474.Google Scholar
- P. Долчинков. 2013. Механизми и машини във ВЕИ, Електронно списание на ЦИТН за компютърни науки и комуникации, бp. 3, ISSN 1314-7846.Google Scholar
- P. Долчинков, П. Георгиева. 2012. Ефективност на системи за слънчево проследяване, Годишник БСУ, том XXVII, ISBN 1311-221-X.Google Scholar
- PV System Monitoring by IoT in Smart University
Recommendations
Enablement of IoT Based Context-Aware Smart Home with Fog Computing
The recent advent of Internet of Things IoT, has given rise to a plethora of smart verticals-smart homes being one of them. Smart Home is a classic example of IoT, wherein smart appliances connected via home gateways constitute a local home network to ...
Secure and energy-efficient smart building architecture with emerging technology IoT
AbstractWith the advent of the Internet-of-Things (IoT), it is considered to be one of the latest innovations that offer interesting opportunities for different vertical industries. One of the most relevant IoT technology areas is smart ...
Internet of Things for enabling smart environments: A technology-centric perspective
The Internet of Things (IoT) is a computing paradigm whereby everyday life objects are augmented with computational and wireless communication capabilities, typically through the incorporation of resource-constrained devices including sensors and ...
Comments