By Topic
Pagination
The scope of this course will cover an overview of the current traditional approaches to spectrum management and their limitations; new approaches to spectrum management focusing on spectrum authorisation regime to improve efficient and optimum use of the spectrum resources through adoption of advanced spectrum allocation, assignment and management techniques, and modern spectrum licensing management processes based on operational requirements and technical and economic viability.
This course will cover an in-depth understanding of theories, tools and practices involved in spectrum management strategic planning and policy developments that are aligned with forward-looking analytical spectrum management approaches enabling wireless innovation.
This course will focus on the economics of spectrum management. The aim of this course is to introduce students to the main economic principles and market-based mechanisms of spectrum management. It presents and analyses available market tools for economic efficiency in the use of spectrum, such as auctions and spectrum pricing. It takes into account students’ need to understand the overall context - especially how and where market- and price- based tools fit into a country’s chosen regime of modern spectrum management.
This module will provide learners with an understanding of the management of radio spectrum related to satellite communications systems.
The course covers the role, functions and basic techniques of spectrum monitoring, and purpose and capabilities of different types of spectrum monitoring equipment.
This course covers a comprehensive view of some of the most dynamically developing business areas of radiocommunications. The course aims at describing the technologies and their lines of development which are present in the World in the given field.
The independent course provides high-level technical knowledge.
This course covers spectrum engineering foundations for students to be able to perform link budget calculations, interference analysis, and provide an understanding of 3D propagation modeling for radio communications services frequency planning. This is intended to support modern spectrum management. The aim of this course is to provide students with spectrum engineering foundations in order to be able to perform link budget calculations, interference analysis, and provide understanding of 3D propagation modelling for radio communications services frequency planning.
This course provides a comprehensive overview of spectrum management for aeronautical and radio determination services, including both commercial and military domains. Participants will gain a deep understanding of aeronautical systems, spectrum regulations, and practical spectrum management skills.
Through interactive lectures, practical exercises, and case studies, participants will develop the expertise to address complex challenges in aeronautical spectrum management.
This training course focuses on the whole Radio Spectrum ecosystem in general and HF Band use in particular and on the best international practices as far as radio communication is concerned.
This course covers the concepts of opportunistic spectrum access in its different variants (overlay and underlay), identify spectrum sensing techniques and different approaches used to exploit White spaces, and learn the current regulations about Cognitive Radio and White Spaces.