Authors:
Helps to fill a gap on how to manage Network Performance and Faults in LTE Service Provider Networks
Provides unprecedented insights on LTE Service Provider Network Architectures, Network Performance and Fault Management, Gaps, and innovations on how to fill those gaps
Relates key innovations based on years of experience
Delivers valuable insights on network KPIs that cannot be found anywhere
Includes supplementary material: sn.pub/extras
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Table of contents (9 chapters)
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Front Matter
About this book
 This book is intended to describe how to leverage emerging technologies big data analytics and SDN, to address challenges specific to LTE and IP network performance and fault management data in order to more efficiently manage and operate an LTE wireless networks. The proposed integrated solutions permit the LTE network service provider to operate entire integrated network, from RAN to Core , from UE to application service, as one unified system and correspondingly collect and align disparate key metrics and data, using an integrated and holistic approach to network analysis. The LTE wireless network performance and fault involves the network performance and management of network elements in EUTRAN, EPC and IP transport components, not only as individual components, but also as nuances of inter-working of these components. The key metrics for EUTRAN include radio access network accessibility, retainability, integrity, availability and mobility. The key metrics for EPC include MME accessibility, mobility and capacity, SGW, PGW capacity and connectivity. In the first parts of the book, the authors  describe fundamental analytics techniques, and various key network partitions - RAN, Backhaul, Metro and Core of a typical LTE Wireless Service Provider Network. The second part of the book develops more advanced analytic techniques that can be used to solve complex wireless network problems. The second part of this book also describes practical and novel solutions for LTE service network performance and fault management systems using big data engineering. Self-organizing network (SON) architecture is presented as a way to utilize network performance and fault analytics to enable network automation. SON can significantly improve operational efficiencies and speed up network deployment. This book provides various ways to leverage data science to more intelligently and reliably to automate and manage a wireless network. The contents of the book should be useful to professional engineers and networking experts involved in LTE network operations and management. The content will also be of interest to researchers, academic and corporate, interested in the developments in fault analytics in LTE networks.
Authors and Affiliations
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Network Analytics, Google, Mountain View, USA
Deepak Kakadia
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Wireless Technology and Strategy, Verizon Communications, Orinda, USA
Jin Yang
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Technical Infrastructure, Facebook, Inc., Menlo Park, USA
Alexander Gilgur
About the authors
Jin Yang received her B.Sc. (Honors), and Ph.D. degrees from Tsinghua University. Dr. Jin Yang is a Fellow at Verizon Communications, responsible for wireless technology and strategy. She is leading next generation wireless network architecture and technologies, including self-organizing network, machine type communications, heterogeneous network, LTE-advanced and 5G access technologies. She has played a key role in development and commercialization of LTE network in 2010, Verizon’s choice of LTE as 4G technology in 2007, various CDMA network developments since 1995 at Verizon, Vodafone and AirTouch Communications. She has managed the development of CDMA design and planning tool at AirTouch. Dr. Jin Yang was an adjunct professor at Portland State University where she taught wireless communications. She has contributed to establish US IS-95 CDMA standards. Dr. Jin yang has more than 35 granted patents and 30 pending patents on wireless communications. She has published numerous papers, and co-authors of 3 published books.
Alexander Gilgur is a Data Scientist and Systems Analyst with over 20 years of experience in a wide variety of domains - Control Systems, Chemical Industry, Aviation, Semiconductor manufacturing, Information Technologies, and Networking. He received his M.S. in Electrical Engineering from Moscow Institute of Chemical Engineering and M.S. in Sport Psychology from Capella University. He has completed Six Sigma Black Belt certification requirements and holds a Professional Engineering license for Chemical Engineering. Alexander has authored and co-authored a number of know-hows and published numerous papers and patents. He has a solid track record of implementing his innovations in production and enjoys applying the beauty of mathematics and statistics to solving System Capacity and Performance problems and is interested in non-stationary processes, which make the core of IT problems today. Presently, he is a Network Data Scientist at Facebook. Prior to Facebook, he was a Network Analyst at Google and a faculty member/lecturer for Machine Learning at UC Berkeley's MIDS program. He is also a father and a husband; a skier, a soccer coach, and a music aficionado.Bibliographic Information
Book Title: Network Performance and Fault Analytics for LTE Wireless Service Providers
Authors: Deepak Kakadia, Jin Yang, Alexander Gilgur
DOI: https://doi.org/10.1007/978-81-322-3721-1
Publisher: Springer New Delhi
eBook Packages: Engineering, Engineering (R0)
Copyright Information: Springer (India) Pvt. Ltd. 2017
Hardcover ISBN: 978-81-322-3719-8Published: 11 October 2017
Softcover ISBN: 978-81-322-3895-9Published: 18 May 2018
eBook ISBN: 978-81-322-3721-1Published: 27 September 2017
Edition Number: 1
Number of Pages: XVIII, 204
Number of Illustrations: 146 b/w illustrations
Topics: Communications Engineering, Networks, Computer Communication Networks, Information Systems and Communication Service