This book provides a common framework for mobility
management that considers the theoretical and practical aspects of
systems optimization for mobile networks.
In this book, the authors show how an optimized system of
mobility management can improve the quality of service in existing
forms of mobile communication. Furthermore, they provide a
theoretical approach to mobility management, as well as developing
the model for systems optimization, including practical case
studies using network layer and mobility layer protocols in
different deployment scenarios. The authors also address the
different ways in which the specific mobility protocol can be
developed, taking into account numerous factors including security,
configuration, authentication, quality of service, and movement
patterns of the mobiles.
Key Features:
* Defines and discusses a common set of optimization
methodologies and their application to all mobility protocols for
both IPv4 and IPv6 networks
* Applies these technologies in the context of various layers:
MAC layer, network layer, transport layer and application layer
covering 802.11, LTE, Wi Max, CDMA networks and protocols such as
SIP, MIP, HIP, Vo IP, and many more
* Provides a thorough analysis of the required steps during a
mobility event such as discovery, network selection, configuration,
authentication, security association, encryption, binding update,
and media direction
* Includes models and tables illustrating the analysis of
mobility management as well as architecture of sample wireless and
mobility test beds built by the authors, involving inter-domain and
intra-domain mobility scenarios
This book is an excellent resource forprofessionals and systems
architects in charge of designing wireless networks for commercial
(3G/4G), LTE, IMS, military and Ad Hoc environment. It will be
useful deployment guide for the architects wireless service
providers. Graduate students, researchers in industry and academia,
and systems engineers will also find this book of interest.
Tentang Penulis
Dr. Ashutosh Dutta
Dr. Ashutosh Dutta obtained his Ph.D. in EE from Columbia
University, M.S. in Computer Science from NJIT, USA and BSEE from
NIT, Rourkela, India. As a seasoned mobility and security architect
and an accomplished networking and computer science expert with
20-plus years experience, Ashutosh directed multiple IT operations,
led the research and development for leading global technology
corporations and top university and has in-depth expertise in
developing and implementing research, analysis and design
initiatives.
His career spanning 25 years includes LMTS (Lead Member of
Technical Staff) at AT&T, NJ; CTO Wireless at NIKSUN, NJ;
Senior Scientist in Telcordia Technologies, NJ; CRF Director at
Columbia University, NY and Computer Engineer with TATA Motors,
India. Ashutosh’s research interests include wireless
Internet, multimedia signaling, mobility management, 4G networks,
IMS (IP Multimedia Subsystems), Vo IP and session control
protocols. He has published more than 80 conference, journal
papers and Internet drafts, three book chapters, and has given
tutorials in mobility management at various conferences. Ashutosh
has 19 issued security and mobility related US patents.
Ashutosh is a senior member of IEEE and ACM. He has served as an
IEEE volunteer and leader at the section, region, chapter, society,
MGA, and EAB level. Ashutosh is recipient of the 2009 IEEE Region
1, IEEE MGA and 2010 IEEE-USA Leadership Awards.
Prof. Henning Schulzrinne
Prof. Henning Schulzrinne, Levi Professor of Computer Science
at Columbia University, received his Ph.D. from the
University of Massachusetts in Amherst, Massachusetts. He was
an MTS at AT&T Bell Laboratories and an associate department
head at GMD-Fokus (Berlin), before joining the Computer Science and
Electrical Engineering departments at Columbia University. He
served as chair of the Department of Computer Science from 2004 to
2009, as Engineering Fellow at the US Federal Communications
Commission (FCC) in 2010 and 2011, and as Chief Technology Officer
at the FCC since 2012.
He has published more than 250 journal and conference papers, and
more than 70 Internet RFCs. Protocols co-developed by him,
such as RTP, RTSP and SIP, are now Internet standards, used by
almost all Internet telephony and multimedia applications.
His research interests include Internet multimedia systems,
ubiquitous computing, and mobile systems.
He is a Fellow of the IEEE, has received the New York City Mayor’s
Award for Excellence in Science and Technology, the VON Pioneer
Award, TCCC service award, the IEEE Region 1 William Terry Award
for Lifetime Distinguished Service to IEEE and the UMass Computer
Science Outstanding Alumni recognition.