Design and Protocols of Heterogeneous Mobile Communication Networks

Major: Telecommunications and Radio Engineering
Code of subject: 7.172.02.E.40
Credits: 5.00
Department: Telecommunication
Lecturer: PhD, assistant lecturer Beshley Mykola
Semester: 2 семестр
Mode of study: денна
Learning outcomes: 1. Knowledge of the current state of telecommunication systems of mobile communication and the possibility of their integration. 2. Knowledge of the features of the operation of communication and data communication networks (GSM, Wi-Fi, Wi-MAX, LTE, LTE-A, GPS, satellite communications and television). Technical solutions and equipment. 3. Knowledge of models and algorithms of common management of resources in wireless heterogeneous networks. 4. Ability to simulate and test elements of systems of heterogeneous network of mobile communication. 5. Ability to assess the quality of service delivery to end users of a heterogeneous network. 6. Ability to provide information security in a heterogeneous environment. 7. The ability to provide the mobile device with efficient and continuous service in heterogeneous wireless networks, based on the requirements of mobile device functions and the development of optimal algorithms for initiating a vertical handover.
Required prior and related subjects: • Technology of software platforms development • Construction theory and protocols of infocommunication networks • Telecommunication systems and networks design • System programming of infocommunications
Summary of the subject: The purpose of the course is to provide students with a comprehensive knowledge of the principles of deployment heterogeneous networks and basic mobile communication platforms of the new generation of their technical characteristics, features of the functioning of systems and radio equipment, which is used when deploying appropriate communication networks,understanding the basics of design and operation.
Assessment methods and criteria: • written reports on laboratory work, prautychni roboty- oral examination (50%) • control examination (50% control measure, exam), writing (45%) - oral form (5%)
Recommended books: 1. Khalid Hamied, Juan Ramiro. Self-Organizing Networks: Self-Planning, Self-Optimization and Self-Healing for GSM, UMTS and LTE,2012. 2. Pablo Tapia, Antti Toskala, Harri Holma .HSPA+ Evolution to Release 12: Performance and Optimization,2014. 3. Wireless Communication and Network:Proceedings of 2015 International Workshop on Wireless Communication and Network (IWWCN2015). 4. Telecommunication and Information Networks: Textbook [for higher education] / P.P. Vorobienko, LA Nikitiuk, P.I. Reznichenko - K .: SAMMIT-Book, 2010. -708 p.

Design and Protocols of Heterogeneous Mobile Communication Networks (курсовий проєкт)

Major: Telecommunications and Radio Engineering
Code of subject: 7.172.02.E.41
Credits: 3.00
Department: Telecommunication
Lecturer: PhD, assistant lecturer Beshley Mykola
Semester: 2 семестр
Mode of study: денна
Learning outcomes: 1. Knowledge of the current state of telecommunication systems of mobile communication and the possibility of their integration. 2. Knowledge of the features of the operation of communication and data communication networks (GSM, Wi-Fi, Wi-MAX, LTE, LTE-A, GPS, satellite communications and television). Technical solutions and equipment. 3. Knowledge of models and algorithms of common management of resources in wireless heterogeneous networks. 4. Ability to simulate and test elements of systems of heterogeneous network of mobile communication. 5. Ability to assess the quality of service delivery to end users of a heterogeneous network. 6. Ability to provide information security in a heterogeneous environment. 7. The ability to provide the mobile device with efficient and continuous service in heterogeneous wireless networks, based on the requirements of mobile device functions and the development of optimal algorithms for initiating a vertical handler.
Required prior and related subjects: • Technology of software platforms development • Construction theory and protocols of infocommunication networks • Telecommunication systems and networks design • System programming of infocommunications
Summary of the subject: The purpose of the coursework is to provide students with a comprehensive knowledge of the principles of deployment heterogeneous networks and basic mobile communication platforms of the new generation of their technical characteristics, features of the functioning of systems and radio equipment, which is used when deploying appropriate communication networks.
Assessment methods and criteria: • written work by task course project (70%); • final control (100% oral defense test): oral form (30%)
Recommended books: 1. Khalid Hamied, Juan Ramiro. Self-Organizing Networks: Self-Planning, Self-Optimization and Self-Healing for GSM, UMTS and LTE,2012. 2. Pablo Tapia, Antti Toskala, Harri Holma .HSPA+ Evolution to Release 12: Performance and Optimization,2014. 3. Wireless Communication and Network:Proceedings of 2015 International Workshop on Wireless Communication and Network (IWWCN2015). 4. Телекомунікаційні та інформаційні мережі : Підручник [для вищих навчальних закладів] / П.П. Воробієнко, Л.А. Нікітюк, П.І. Резніченко. – К.: САММІТ-Книга, 2010. –708 с. 5. Bhushan N. Network densification: the dominant theme for wireless evolution into 5G / N. Bhushan, Li Junyi, D. Malladi et al. // IEEE Communications Magazine.– USA: Institute of Electrical and Electronics Engineers, 2014 – vol. 52, no. 2 – P.82-89. 6. Hoydis J. Massive MIMO: How Many Antennas Do We Need? / J. Hoydis, S. ten Brink, and M. Debbah // 49th Annual Allerton Conf. Commun., Control, and Computing – Sept. 2011 – P. 545–50 7. Damnjanovic A. A Survey on 3GPP Heterogeneous Networks / A. Damnjanovic, J. Montojo, Y. Wei et al. // IEEE Wireless Communications – USA: Institute of Electrical and Electronics Engineers, 2011 – vol. 18 – no. 3 – P.10-21. 8. Insoo N. A Holistic View on Hyper-Dense Heterogeneous and Small Cell Networks / H. Insoo, S. Bongyong, S.S. Soliman // IEEE Communications MagazineUSA: Institute of Electrical and Electronics Engineers, 2013 – vol. 51 – no. 6 – P.20-27.