Synopses & Reviews
This book addresses challenges faced by both the algorithm designer and the chip designer, who need to deal with the ongoing increase of algorithmic complexity and required data throughput for today's mobile applications. The focus is on implementation aspects and implementation constraints of individual components that are needed in transceivers for current standards, such as UMTS, LTE, WiMAX and DVB-S2. The application domain is the so called outer receiver, which comprises the channel coding, interleaving stages, modulator, and multiple antenna transmission. Throughout the book, the focus is on advanced algorithms that are actually in use in modern communications systems. Their basic principles are always derived with a focus on the resulting communications and implementation performance.
Synopsis
This book addresses readers in electrical engineering, computer engineering, and computer science with an interest in the field of communications engineering, architectures, and microelectronic design. The focus is on implementation aspects and implementation constraints of individual components that are needed in transceivers for current standards, such as UMTS, LTE, WiMAX and DVB-S2. The application domain is the so called outer receiver, which comprises the channel coding, interleaving stages, modulator, and multiple antenna transmission. Throughout the book, the focus is on advanced algorithms that are actually in use in modern communications systems. Their basic principles are always derived with a focus on the resulting communications and implementation performance.
Synopsis
This book presents advanced algorithms used in modern communications systems. It will help algorithm designers and chip designers meet challenges posed by the ongoing increase of algorithmic complexity and required data throughput for mobile applications.
About the Author
Frank Kienle is a research team member at TU Kaiserslautern.
Table of Contents
Introduction.- Digital Transmission System.- Channel Coding Basics.- Hardware Design of Individual Components.- Turbo Codes.- Low-Density Parity Check Codes.- Bit-Interleaved Coded MIMO System.- Comparing Architectures.