New York : , : Routledge, , 2013

1-317-93995-6

1-315-85952-1

1-317-93996-4

1 online resource (100 p.)

PotterWilliam Gray

027.7/0973

027.70973

Academic libraries - United States

Inglese

Description based upon print version of record.

Includes bibliographical references.

Cover; Half Title; Title Page; Copyright Page; Table of Contents; Introduction; Developments in Library Services; Emerging Technologies; The Evolution of Academic Library Architecture: A Summary; Library Cooperation; Panel Discussion; Reminiscences from the Professional Experiences of an Erstwhile Academic Librarian

Here is a fascinating first-hand perspective of the dramatic changes that have occurred in academic library administration over the past five decades. In Leadership in Academic Libraries, distinguished directors of academic and research libraries pay tribute to W. Porter Kellam, Director Emeritus of the University of Georgia, by presenting an overview of the course of academic and research libraries over the span of his 50 year career. Administrative leaders in academic librarianship including Stuart Forth, Richard Chapin, Frank Grisham, and Ken Toombs offer a frank, perceptive, and witty acco

Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2024

981-9776-44-9

1 online resource (92 pages)

SpringerBriefs in Computer Science, , 2191-5776

621.384

Computer networks

Wireless communication systems

Mobile communication systems

Multiagent systems

Internet of things

Computer Communication Networks

Wireless and Mobile Communication

Multiagent Systems

Internet of Things

Inglese

Includes bibliographical references.

Chapter 1 Introductions and Preliminaries -- Chapter 2 AI-Enabled opportunistic Spectrum Sharing -- Chapter 3 AI-Enabled Centralized Spectrum Sharing -- Chapter 4 AI-Enabled Distributed Spectrum Sharing -- Chapter 5: Conclusions.

Wireless edge networks aim to provide last-mile wireless connections between access points and diversified wireless end devices. Recent years witness the rapid development of wireless communication ecosystems including fundamental theory breakthroughs, manufacture capability improvements, as well as the explosively increasing wireless end devices and service demands. It is known that spectrum is the irreplaceable resource for wireless transmissions in edge networks. Nevertheless, it is quite challenging and inefficient to allocate dedicated spectrum for each single transmission link due to the severe shortage of spectrum resource. Alternatively, by enabling different links to use

the same spectrum, spectrum sharing is envisioned to be a promising paradigm to properly accommodate the conflict between the scarce spectrum resource and substantial spectrum demands. Conventionally, model-driven optimization methods are widely adopted to optimize the spectrum sharing policy in the edge network and achieve friendly coexistence among different transmission links. However, future wireless edge network is predicted to be large-scale and heterogeneous, model-driven optimization methods will be problematic such as imperfect modelling and unacceptable overheads. Different from the existing related books on spectrum sharing or spectrum management for wireless edge networks, our book leverages the artificial intelligence (AI) to achieve smart spectrum sharing for wireless edge networks and elaborates AI-enabled spectrum sharing technique in typical scenarios, which can guide the development of next-generation spectrum sharing standards, as well as provide innovative spectrum sharing methods for related practitioners, including research fellow, lecturers, and students.