Connecting the Internet of Things: Iot Connectivity Standards and Solutions
Kumar, Anil, Hussain, Jafer, Chun, Tony
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商品描述
Navigating the fragmented IoT connectivity ecosystem of standards, protocols, and architectures can be a challenge. Not to mention scaling a solution to a viable product. This book guides you through this fractured landscape with real world examples and projects that can be leverage for an IoT product.
Backed by an overview of IoT use cases and key connectivity elements of IoT solutions, you'll gain an understanding of the breadth of the IoT landscape and the fragmentation of connectivity standards and solutions and the challenge in navigating the many standards and technologies. You'll also be able to understand the essentials of connectivity including, hardware, software, and business models.
IoT is essential for increasing productivity of many industries and quality of life (making the world smart and autonomous). Both wired and wireless connectivity technologies are essential ingredients in an IoT product. Written by Intel engineers and architects, Connecting the Internet of Things understands that connectivity is a key topic of IoT and comprehensively covers the topic from a system engineering and practical perspective.
What You'll Learn
- Understand the trade offs between different wireless technologies and network topologies
- Use wireless technologies in IoT products
- Examine connectivity technologies and considerations on selecting it for the IoT use cases
- Assemble all of the components of a working solution
- Scale your solution to a product
- Review emerging connectivity technologies for addressing new use cases
- Advance and optimize the performance of existing technologies
Who This Book Is For
Researchers, managers, strategists, technologists, makers, and students in the embedded and Internet of Things (IoT) space trying to understand and implement connectivity in the devices/platforms.
作者簡介
Anil Kumar is a Principal Engineer in the High Speed Silicon and Platform Engineering Division of IOTG at Intel Corporation, and is responsible for the Connectivity Platform Architecture across IOTG. In this role, he led the effort with the planning team to create IOTG's first ever roadmap for connectivity solutions. He is currently driving platform and chip level integration of several key connectivity and communication technologies which are critical for Cyber Physical Systems. Anil joined Intel in 2007 as a design engineer in Digital Home Group. He served as Platform Architect for several Intel Architecture based Media Processors for TV and Set Top Box applications. As the chief architect in Intel Media Group Anil lead several designs that resulted in award winning consumer electronic device designs at CES. The world's first Google TV devices were based on reference design efforts lead by Anil as well. Prior to joining Intel, Anil held design engineering positions at multinational companies such as Fujitsu & Alcatel. He was instrumental in taking several designs from concept to production throughout his career. Anil is a co-author of Demystifying Internet of Things Security (Apress 2019)
Jafer Hussain is a Platform Architect in the Internet of Things Group at Intel Corporation. Jafer joined Intel in 2014 in Wireless Communications Group where he led the development and integration of wireless connectivity solutions in Intel Architecture platforms. In his current role, he supports wireless connectivity strategy, enablement, and customer engagements for a variety of IoT segments. Jafer is an accomplished inventor who has co-authored 10 patents in the area of embedded systems, wireless technologies, and system-on-chip. He received B.S. in Electrical Engineering from University of Engineering and Technology Taxila Pakistan, and M.S. in Management of Technology from the National University of Singapore.
Dr. Anthony (Tony) Chun is an architect and wireless planner in the Internet of Things Group at Intel Corporation. Tony Chun joined Intel in 2000 and was a research scientist in Intel Labs where he developed architectures for reconfigurable software defined radios and accelerators. In his current role, he is responsible for definition of wireless connectivity roadmaps for the IOTG business units. He has co-authored 20 patents in the area of wireless architectures and accelerators. He has co-authored several papers in engineering journals and received best paper awards at Intel Design Technology and Test Conference 2011 and at the IEEE Computer Society Annual Symposium on VLSI, 2009. He has B.S., M.S. and PhD degrees in Electrical Engineering from Stanford University, Stanford, California.
