Welcome to FUTOSpace
FUTOSpace is the Federal University of Technology, Owerri open-access repository that collects, preserves and make available in digital format the intellectual output of the university's community:
Communities in FUTOSpace
Select a community to browse its collections.
- This community features addresses and speeches delivered by the University management and other official visitors to FUTO
- A community of media or content used to convey information about an event organized at the university
- This community features books, book chapters and books published by faculty members in the university
- This Community features the proceedings of conferences, seminars and workshops hosted by the FUTO or other bodies but had staff from FUTO attending and making presentations
- This community features research articles from FUTO staff published in journals hosted by FUTO
- A community of series of scholarly public lectures designed to commemorate a faculty member's appointment to a professorship
- Scholarly resources with relevant discussion points for use by faculty as teaching lectures, student reading content, and study guides
- A community of printed document containing information about activities in FUTO
- A community of series of lectures aimed at educating FUTO staff and the public about a specific area of study
- A community of question(s) administered to FUTO students in an examination
- Published Research Outputs
- Theses and dissertations by students and staff from all the Schools in FUTO
Recent Submissions
Complex Textile Design
(Federal University of Technology, Owerri, 2010) School of Engineering and Engineering Technology, Department of Polymer and Textile Engineering.
A comprehensive review on the feasibility and challenges of millimeter wave in emerging 5G mobile communication
(U. P., 2019) Agubor, Cosmas Kemdirim; Akwukwuegbu, Isdore; Olubiwe, Mathew; Nosiri, Chikezie Onyebuchi; Ehinomen, Atimati; Olukunle, Akande Akinyinka; Okozi, Samuel Okechukwu; Ezema, Longinus; Okeke, Benjamin Chukwujekwu
This article presents a comprehensive review on the feasibility and challenges of millimeter wave in emerging fifth generation (5G) mobile communication. 5G, a multigigabit wireless network is the next generation wireless communication network. The mmWave cellular system which operates in the 30-300 GHz band has been proposed for use as the propagation channel. Its large bandwidth potential makes it a candidate for the next-generation wireless communication system which is believed to support data rates of multiple Gb/s. High frequency bands such as mmWave have channel impairments. These impairments are challenges that are necessary to be properly understood. Employing mmWave as a propagation channel requires dealing with these challenges which this paper is aimed at reviewing. One aim of the work is to discuss these challenges in a more elaborate manner using simple mathematical equations and graphics to ensure clarity. To achieve this, current related works were studied. Challenges and solutions are identified and discussed. Suggested research directions for future work are also presented. One is developing suitable electronic such as fast analog-to-digital (ADC) and digital-to-analog (DAC) systems necessary for the transmitter/receiver (TX/RX) system.
Engineering Technology of Elastomers
(Federal University of Technology, Owerri, 2015-05-06) School of Engineering and Engineering Technology, Department of Polymer and Textile Engineering.
Complex Textile Designs
(Federal University of Technology, Owerri, 2015) School of Engineering and Engineering Technology, Department of Polymer and Textile Engineering.
Structural Mechanics 1
(Federal University of Technology, Owerri, 2014) School of Environmental Sciences, Department of Building Technology.