Abstract—In order to make cognitive radio systems a practical technology to be deployed in real-world scenarios, the core Software Defined Radio (SDR) systems must meet the stringent requirements of the target application, especially in terms of performance and energy consumption for mobile platforms. In this paper we present a feasibility study of hardware acceleration as an energy-efficient implementation for SDR. We identified the amplifier function from the Software Communication Architecture (SCA) for hardware acceleration since it is one of the functions called for most frequently and it requires intensive floating-point computation. Then, we used the Virtex5 Field-Programmable Gate Array (FPGA) to perform a comparison between compile...
This book addresses Software-Defined Radio (SDR) baseband processing from the computer architecture ...
This article explores several hardware design methods used to implement a reconfigurable software de...
Jungeblut T, Dreesen R, Porrmann M, Thies M, Rückert U, Kastens U. A Framework for the Design Space ...
Software-Defined Radio (SDR) provides the flexibility to enable cost-effective multi-mode terminals....
The increase in the consumer demand and the exponential growth for wireless systems, which enables c...
Dedicated radio hardware is no longer promising as it was in the past. Today, the support of diverse...
Emerging communication paradigms like opportunistic spectrum access and wireless heterogeneous netwo...
The world of wireless communications is under constant change. Radio standards evolve and new standa...
A shrinking energy budget for mobile devices and increasingly complex communication standards make a...
of software defined radio (SDR) has produced designs which have been able to deliver the efficiency ...
Software defined radio (SDR) is a technical effort to use programmable hardware in wireless communic...
This paper describes a flexible hardware and software architecture that is simple, works with almost...
Today, modern System-on-a-Chip (SoC) systems have grown rapidly due to the increased processing powe...
A major challenge of software-defined radio (SDR) is to realize many giga operations per second of f...
Software defined radio (SDR) is a technical effort to use programmable hardware in wireless communic...
This book addresses Software-Defined Radio (SDR) baseband processing from the computer architecture ...
This article explores several hardware design methods used to implement a reconfigurable software de...
Jungeblut T, Dreesen R, Porrmann M, Thies M, Rückert U, Kastens U. A Framework for the Design Space ...
Software-Defined Radio (SDR) provides the flexibility to enable cost-effective multi-mode terminals....
The increase in the consumer demand and the exponential growth for wireless systems, which enables c...
Dedicated radio hardware is no longer promising as it was in the past. Today, the support of diverse...
Emerging communication paradigms like opportunistic spectrum access and wireless heterogeneous netwo...
The world of wireless communications is under constant change. Radio standards evolve and new standa...
A shrinking energy budget for mobile devices and increasingly complex communication standards make a...
of software defined radio (SDR) has produced designs which have been able to deliver the efficiency ...
Software defined radio (SDR) is a technical effort to use programmable hardware in wireless communic...
This paper describes a flexible hardware and software architecture that is simple, works with almost...
Today, modern System-on-a-Chip (SoC) systems have grown rapidly due to the increased processing powe...
A major challenge of software-defined radio (SDR) is to realize many giga operations per second of f...
Software defined radio (SDR) is a technical effort to use programmable hardware in wireless communic...
This book addresses Software-Defined Radio (SDR) baseband processing from the computer architecture ...
This article explores several hardware design methods used to implement a reconfigurable software de...
Jungeblut T, Dreesen R, Porrmann M, Thies M, Rückert U, Kastens U. A Framework for the Design Space ...