This paper proposes arbitrary ratio sample rate conversion (SRC) architectures and a simpler B-spline interpolation algorithm for orthogonal frequency division multiplexing (OFDM) based software defined radios (SDRs) with multiband and multi-channel capabilities. Different from conventional standalone digital front-end designs for SDRs, the proposed SRC architectures combine the B-spline interpolation with OFDM modulation and equalization for OFDM transmitter and receiver respectively. With this combined design, the passband droop introduced by the B-spline interpolation can be more efficiently compensated using frequency-domain pre-distortion, instead of conventional time-domain pre-filtering, and hence an overall system complexity reducti...
Software defined radio (SDR) is an emerging technology, thought to realize flexible radio systems, m...
Radio transmitters are evolving towards digital-intensive solutions to exploit reconfigurability and...
The objective of this research project is to develop low power reconfigurable receiver architectures...
Arbitrary ratio sampling rate conversion (SRC) structure using B-spline interpolation is proposed fo...
Based on the sequential sample rate conversion (SRC) structure using B-spline interpolation for orth...
The modern software defined radios (SDRs) use complex signal processing algorithms to realize effici...
This paper presents efficient processing engines for software-defined radio (SDR) front-ends. These ...
The principal idea behind the design of a software radio is to place the analog-to-digital and digit...
An efficient sample rate conversion (SRC) method for software radio (SWR) systems is proposed. The p...
This thesis describes the specification, design and implementation of a software-defined radio syste...
Abstract. In modern communication, sensor and signal pro-cessing systems digitisation methods are ga...
Abstract — The problem of variable sample rate conversion (SRC) has received much attention on accou...
This paper is a four section investigation of various communication principles to demonstrate the ca...
190 p.Software Defined Radio (SDR) is a technology thought to build flexible radio systems, multi-se...
Software Radio represents the future of communication devices. By moving a radio's hardware function...
Software defined radio (SDR) is an emerging technology, thought to realize flexible radio systems, m...
Radio transmitters are evolving towards digital-intensive solutions to exploit reconfigurability and...
The objective of this research project is to develop low power reconfigurable receiver architectures...
Arbitrary ratio sampling rate conversion (SRC) structure using B-spline interpolation is proposed fo...
Based on the sequential sample rate conversion (SRC) structure using B-spline interpolation for orth...
The modern software defined radios (SDRs) use complex signal processing algorithms to realize effici...
This paper presents efficient processing engines for software-defined radio (SDR) front-ends. These ...
The principal idea behind the design of a software radio is to place the analog-to-digital and digit...
An efficient sample rate conversion (SRC) method for software radio (SWR) systems is proposed. The p...
This thesis describes the specification, design and implementation of a software-defined radio syste...
Abstract. In modern communication, sensor and signal pro-cessing systems digitisation methods are ga...
Abstract — The problem of variable sample rate conversion (SRC) has received much attention on accou...
This paper is a four section investigation of various communication principles to demonstrate the ca...
190 p.Software Defined Radio (SDR) is a technology thought to build flexible radio systems, multi-se...
Software Radio represents the future of communication devices. By moving a radio's hardware function...
Software defined radio (SDR) is an emerging technology, thought to realize flexible radio systems, m...
Radio transmitters are evolving towards digital-intensive solutions to exploit reconfigurability and...
The objective of this research project is to develop low power reconfigurable receiver architectures...