Towards Reliable Low-Latency Massive Wireless Communications

  • Owing to the ever-growing volume of mobile traffic and wireless devices as shown in network traffic reports over the last decades, the wireless mobile technology is required and expected to offer continuous improvements on the major communication performance such as data rate and connection density. Besides expanding such communication performance, various application-centric Quality of Service (QoS) requirements have been raised from a wide range of application fields, imposing on the research community the need of diverse wireless solutions to satisfy such heterogeneous QoS requirements. In light of the above, this dissertation intends to contribute to the aforementioned trend by addressing three essentials in future wireless systems: massive connectivity, low-latency, and reliability, offering the corresponding algorithm design(s) and quantitative analyses to evaluate the performance. Numerical performance assessments via computer simulations are offered to evaluate the aforementioned proposed methods, illustrating their advantages against existing counterparts.

Download full text

Cite this publication

  • Export Bibtex
  • Export RIS

Citable URL (?):

Search for this publication

Search Google Scholar Search Catalog of German National Library Search OCLC WorldCat Search Catalog of GBV Common Library Network Search Catalog of Jacobs University Library Search Bielefeld Academic Search Engine
Meta data
Publishing Institution:IRC-Library, Information Resource Center der Jacobs University Bremen
Granting Institution:Jacobs Univ.
Author:Hiroki Iimori
Referee:Mathias Bode, Eduard Jorswieck
Advisor:Giuseppe Thadeu Freitas de Abreu
Persistent Identifier (URN):urn:nbn:de:gbv:579-opus-1010623
Document Type:PhD Thesis
Language:English
Date of Successful Oral Defense:2022/01/25
Date of First Publication:2022/03/21
Academic Department:Computer Science & Electrical Engineering
PhD Degree:Electrical Engineering
Focus Area:Mobility
Call No:2022/2

$Rev: 13581 $