IJSRD Found one good Research work on Computer Engineering
IJSRD - International Journal for Scientific Research & Development| Vol. 1, Issue 2, 2013 | ISSN (online): 2321-0613
Nirav Chauhan1 Dr. Shruti Oza2 Dr. Kiran Parmar3
1PG Student
2,3Associate Professer, Head
1,2Kalol Institute of Technology & Research Centre, Kalol, Ahmedabad, Gujarat, India
3L.D. College of Engineering, Ahmedabad, Gujarat, India
Abstract— In the last few years wireless communications
have experienced a fast growth due to the high mobility that
they allow. However, wireless channels have some
disadvantages like multipath fading that make them difficult
to deal with. A modulation that efficiently deals with
selective fading channels is OFDM. There are a large
number of FFT algorithms and architectures in the signal
processing literature. Therefore, the state of art algorithms
and architectures should be analyzed and compared. Based
on different algorithms and architectures, different power
consumptions, area and speed of the processor will be
achieved. So their ASIC suitability should be analyzed and
the effort should be focused on the choosing algorithms and
architectures and optimization. In this paper FFT Processor
with Pipelined Architecture and CORDIC based ROM-free
twiddle factor generator is proposed. The proposed
algorithm and architecture should be validated by MATLAB
simulation before implementation. After that, it is
implemented on DSP Processor kit with Code Composer
Studio. The synthesis results will be compared with other
published FFT processor results.
Keywords: FFT, IFFT, DFT, Pipelining, Parallel Processing,
Orthogonal Frequency Division Multiplexing (OFDM),
Coordinate Rotation Digital Computer (CORDIC).
I. INTRODUCTION
Orthogonal Frequency Division Multiplexing (OFDM)
system is famous for its robustness against frequency
selective fading channel. The Fast Fourier Transform (FFT)
and Inverse FFT (IFFT) processor are used as the
modulation/demodulation kernel in the OFDM systems. The
sizes of FFT/IFFT Processors are varied in the different
applications of OFDM systems. The terms Fast Fourier
Transform (FFT) and Inverse Fast Fourier Transform (IFFT)
are used to denote efficient and fast algorithms to compute
the Discrete Fourier Transform (DFT) and the Inverse
Discrete Fourier Transform (IDFT) respectively. The
FFT/IFFT is widely used in many digital signal processing
applications and the efficient implementation of the
FFT/IFFT is a topic of continuous research.
During the last years, communication systems based on
Orthogonal Frequency Division Multiplexing (OFDM) have
been an important driver for the research in FFT/IFFT
algorithms and their implementation. OFDM is a bandwidth
efficient multiple access scheme for digital communications.
Many of nowadays most important wireless communication
systems use this OFDM technique: Broadcasting (DAB),
Digital Video Broadcasting (DVB) (ETS, 2004), Wireless
Local Area Network (WLAN) (IEE, 1999), Wireless
Metropolitan Area Network (WMAN) (IEE, 2003) and
Multi Band –OFDM Ultra Wide Band (MB–OFDM UWB)
(ECM, 2005). Moreover, this technique is also employed in
important wired applications such as Asymmetric Digital
Subscriber Line (ADSL) or Power Line Communication
(PLC).
OFDM systems rely on the IFFT for an efficient
implementation of the signal modulation on the transmitter
side, whereas the FFT is used for efficient demodulation of
the received signal. The FFT/IFFT becomes one of the most
critical modules in OFDM transceivers. In fact, the most
computationally intensive parts of an OFDM system are the
IFFT in the transmitter and the Viterbi decoder in the
receiver. The FFT is the second computationally intensive
part in the receiver. Therefore, the implementation of the
FFT and IFFT must be optimized to achieve the required
throughput with the minimum penalty in area and power
consumption.
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