Energy Scalable Radio Design: for Pulsed UWB Communication and Ranging: Analog Circuits and Signal Processing
Autor Marian Verhelst, Wim Dehaeneen Limba Engleză Paperback – 29 noi 2011
Energy Scalable Radio Design describes and applies an energy-driven design strategy to the design of an energy-efficient, highly scalable, pulsed UWB receiver, suitable for low data rate communication and sub-cm ranging. This book meticulously covers the different design steps and the adopted optimizations: System level air interface selection, architectural/algorithmic design space exploration, algorithmic refinement (acquisition, synchronization and ranging algorithms) and circuit level (RTL) implementation based on the FLEXmodule-concept. Measurement results demonstrate the effectiveness and necessity of the energy-driven design strategy.
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Paperback (1) | 923.66 lei 6-8 săpt. | |
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Specificații
ISBN-13: 9789400726109
ISBN-10: 9400726104
Pagini: 260
Ilustrații: XIII, 243 p.
Dimensiuni: 155 x 235 x 14 mm
Greutate: 0.37 kg
Ediția:2009
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Analog Circuits and Signal Processing
Locul publicării:Dordrecht, Netherlands
ISBN-10: 9400726104
Pagini: 260
Ilustrații: XIII, 243 p.
Dimensiuni: 155 x 235 x 14 mm
Greutate: 0.37 kg
Ediția:2009
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Analog Circuits and Signal Processing
Locul publicării:Dordrecht, Netherlands
Public țintă
ResearchCuprins
and Motivation.- Adaptation of Classical Design Flow for Energy-Driven System-to-Circuit Design.- System Level Specifications and Design.- Algorithmic/Architectural Design Space Exploration.- Algorithmic/Architectural Level Refinement.- Digital RT Level Design: Flexibility to Save Energy.- Chip and System Measurements.- Conclusions.
Textul de pe ultima copertă
Smart energy management, both at design time and at run time, is indispensable in modern radios. It requires a careful trade-off between the system’s performance, and its power consumption. Moreover, the design has to be dynamically reconfigurable to optimally balance these parameters at run time, depending on the current operating conditions.
Energy Scalable Radio Design starts by describing an energy-driven design strategy, tackling these implementation challenges for wireless communication systems. The strategy minimizes energy consumption and optimizes reconfigurability at all consecutive design steps, from system level down to circuit level. In addition, a novel implementation concept of "nested FLEXmodules" is introduced at digital RT-level, enabling highly scalable implementations, with minimal energy overhead.
Energy Scalable Radio Design continues by applying this design strategy to the design of an energy-efficient, highly scalable, pulsed UWB receiver, suitable for low data rate communication and sub-cm ranging. This book meticulously covers the different design steps and the adopted optimizations: System level air interface selection, architectural/algorithmic design space exploration, algorithmic refinement (acquisition, synchronization and ranging algorithms) and circuit level (RTL) implementation based on the FLEXmodule-concept. Measurement results demonstrate the effectiveness and necessity of the energy-driven design strategy.
Energy Scalable Radio Design starts by describing an energy-driven design strategy, tackling these implementation challenges for wireless communication systems. The strategy minimizes energy consumption and optimizes reconfigurability at all consecutive design steps, from system level down to circuit level. In addition, a novel implementation concept of "nested FLEXmodules" is introduced at digital RT-level, enabling highly scalable implementations, with minimal energy overhead.
Energy Scalable Radio Design continues by applying this design strategy to the design of an energy-efficient, highly scalable, pulsed UWB receiver, suitable for low data rate communication and sub-cm ranging. This book meticulously covers the different design steps and the adopted optimizations: System level air interface selection, architectural/algorithmic design space exploration, algorithmic refinement (acquisition, synchronization and ranging algorithms) and circuit level (RTL) implementation based on the FLEXmodule-concept. Measurement results demonstrate the effectiveness and necessity of the energy-driven design strategy.
Caracteristici
Covers energy-driven design strategy, including novel "FLEXmodule" implementation concept Explains need for run-time reconfigurability and how to introduce it at design time Describes complete system-to-(digital)circuit design of an IR-UWB based radio Discusses algorithms and strategies for sub-cm ranging and fast data acquisition All results are validated on actual silicon implemented designs