KEYWORDS: Transmitters, Receivers, Genetic algorithms, Data modeling, Signal to noise ratio, Telecommunications, Correlation function, Orthogonal frequency division multiplexing, Nickel, Distortion
Main disadvantage of a multicarrier communication system is high peak to average power ratio (PAPR) of the
transmitted signal. The high PAPR causes the performance degradation due to nonlinear distortion in the high power
amplifier (HPA). PAPR value is closely depends on transmitted power and correlation properties of the user’s spreading code. High peak and low average value of the transmitted power increases the PAPR. On the other side high auto correlation function (ACF) value and low cross correlation function (CCF) value of the spreading code also increases the PAPR. But to eliminate the multiple access interference (MAI) in receiver end, ACF should be peak and CCF should be posses zero for all time shifts. So, there is a conflicting nature of PAPR and bit error rate (BER). That’s why an exhaustive effort has been made in this paper for proper distribution of transmitted power within an acceptable range of peak transmitted power and evaluates the new spreading codes using Genetic Algorithms (GA). In general, to obtain optimum PAPR reduction using GA, total searching time to find out the proper amplitude and phase parameters must be accomplished. Simulation results show that PAPR and BER performance using this proposed technique is better than conventional network.
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