Abstract
Growth in technology has led to unprecedented demand for high speed architectures for complex signal processing applications. In 4G wireless communication systems, bandwidth is a precious commodity, and service providers are continuously met with the challenge of accommodating more users with in a limited allocated bandwidth. To increase data rate of wireless medium with higher performance, OFDM (orthogonal frequency division multiplexing) is used. Recently DWT (Discrete wavelet transforms) is adopted in place of FFT (Fast Fourier transform) for frequency translation. Modulation schemes such as 16-QAM, 32-QAM, 64-QAM and 128-QAM (Quadrature amplitude modulation) have been used in the developed OFDM system for both DWT and FFT based model. In this paper we propose a DWT-IDWT based OFDM transmitter and receiver that achieve better performance in terms SNR and BER for AWGN channel. It proves all the wavelet families better over the IFFT-FFT implementation. The OFDM model is developed using Simulink, various test cases have been considered to verify its performance. The DWTOFDM using Lifting Scheme architecture is implemented on FPGA optimizing hardware, speed & cost. The wavelet filter used for this is Daubechies (9, 7) with N=2. The RTL code is written in Verilog-HDL and simulated in Modelsim. The design is then synthesized in Xilinx and implemented on Virtex5 FPGA board and the results were validated using ChipScope.
Highlights
A combination of modulation and multiplexing constitutes to Orthogonal Frequency Division Multiplexing Independent signals that are sub-set of a main signal are multiplexed in OFDM and the signal itself is first split into independent channels, modulated by data and remultiplexed to create OFDM carrier
From the BER plot above, it is seen that DWT (Haar) outperformed FFT-OFDM system by nearly 1.5db for 16-QAM modulation scheme for the same BER of 0.001
We presented the simulation result approaches for DWT-OFDM as an alternative form for FFT-OFDM system
Summary
A combination of modulation and multiplexing constitutes to Orthogonal Frequency Division Multiplexing Independent signals that are sub-set of a main signal are multiplexed in OFDM and the signal itself is first split into independent channels, modulated by data and remultiplexed to create OFDM carrier. Orthogonality of subcarriers is the main concept in OFDM. The property of orthogonality allows simultaneous transmission of a lot of sub-carriers in a tight frequency space without interference from each other. This acts as an undue advantage in OFDM. OFDM is becoming the chosen modulation technique for wireless communication
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