Open Radio Access Network (O-Ran) Systems Architecture and Design - Rouwet, Wim
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Open Radio Access Network (O-RAN) Systems Architecture and Design, 2nd edition, gives a jump start to engineers developing O-RAN hardware and software systems, providing a top-down approach to O-RAN systems design from an author with a silicon, software, and system background. It gives an introduction into why wireless systems look the way they do today before introducing relevant O-RAN and 3GPP standards. The remainder of the book discusses hardware and software aspects of O-RAN system design, including dimensioning and performance targets, and some practical use case examples that include 5G…mehr

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Produktbeschreibung
Open Radio Access Network (O-RAN) Systems Architecture and Design, 2nd edition, gives a jump start to engineers developing O-RAN hardware and software systems, providing a top-down approach to O-RAN systems design from an author with a silicon, software, and system background. It gives an introduction into why wireless systems look the way they do today before introducing relevant O-RAN and 3GPP standards. The remainder of the book discusses hardware and software aspects of O-RAN system design, including dimensioning and performance targets, and some practical use case examples that include 5G advanced topics. This edition includes comprehensive updates in key areas such as postquantum security and radio unit design. Additionally, it addresses emerging 5G advanced topics, including Industrial & URLLC, nonterrestrial networking, the role of artificial intelligence, 5G reduced capabilities for IoT, and self-organizing networks.
Autorenporträt
Wim Rouwet is a Distinguished Member of Technical Staff at NXP. He has a MSc in Electrical Engineering from Eindhoven University of Technology in the Netherlands. He spent 15+ years in Motorola, Freescale and NXP in networking and network processing, wireless algorithm development, system and modem architecture. His focus is on 3GPP LTE and 5G as well as 802.11 processing stacks and their implementation. In this role, he has been responsible for 4G and 5G stack development, small cells, and CRAN implementations associated with many wireless infrastructure projects. He has lead key next generation R&D projects including multi-standard modem architecture, virtualization and 5G small cell as well as CPE products.