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A comprehensive primer on the new telecom network implementation methodology of virtualization, described in the context of 5G and beyond which is highly topical today. This book will cover the business and technical areas of virtualization that will enable the transformation and innovation that the operators are seeking. It will also identify some forward-looking gaps where the technology continues to develop, specifically packet acceleration and timing requirements, which are today still not fully virtualized. This book is intended to be of interest to those entering this technical domain, those that are going to build and operate these networks, and those that are seeking to learn more about the telco network, and why you just can't do it all in the cloud today. Useful to both novice and experienced telecom infrastructure practitioners who want to get up to speed on this new technology. It will also be of high interest to mobile network engineers who need to understand how the architectures of mobile networks will be transformed by the new technologies of virtualization and cloud computing. Overall, I enjoyed reviewing this work and learned quite a lot myself. I appreciated the opportunity to review the work and help improve its quality.
Practical, covering what real world battery engineers need to know to do their jobs, this is the first book that aligns with the many calculations and considerations that a battery engineer faces daily. Battery technologies play more and more important roles in our life. Not only phones or laptops but also electric vehicles use Li-ion batteries. Together with the growth of the battery market, more battery engineering jobs are demanded worldwide. To be successful in the industry, a wide variety of knowledge is required, ranging from electrochemistry to material science, physical chemistry, machine learning, etc. Covering the basics (battery design, impedance, charging, manufacturing, etc.) and the many questions on alternatives (supercaps, energy harvesting, fuel cells, etc.), and new frontiers (better algorithms, new chemistries like Si anode and Li metal anode, and new AI/ML/DL possibilities) it will help you obtain practical knowledge with intuitive explanations; real battery problem sets and answers. A great resource for a battery engineer to expand their knowledge to broader areas and anyone, including college students
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