The requirement for the huge bandwidth-demanding applications has urged researchers to develop improved data pipes that could allow smooth data flow. Revolutionary growth has been witnessed in the domain of the telecommunication industry, which has opened new horizons for connectivity among humans and devices alike especially, in the era of 5G. The advancement from TDM multiplexed signal transmitted over copper wire to the flexible and smart grid along with ethernet passive optical networks or space division multiplexed over optic fiber introducing enormous speed in 100 of Gbps has contributed to the fastest communication. The heterogeneous structure and network complexity require the automating of telecommunication services which have been assisted with the incorporation of machine learning and artificial intelligence, highlighting the new era of communication with the reliability and fastest accessibility. This survey reports the evolution of optical carrier generations and advancement in networks along with the fundamental achievements to comprehend the supportive competition while highlighting the gaps and challenges for future work.
In this paper, we examine an orthogonal frequency division multiplexing (OFDM) system under imperfect channel conditions and pilot-insertion- based channel estimation. However, unlike conventional pilot-insertion-based channel estimation, some inserted pilot symbols are set to zero where the index of the zero-pilot symbols is employed to transmit extra data bits. In this paper, we employ a minimum mean squared error (MMSE) to detect transmitted pilot symbols; these symbols are then used to estimate channel coefficients. Furthermore, the impact of zero-pilot symbols on the mean-squared error of channel estimation and on system error performance is examined. Our findings show that the index of zero-pilot symbols can be used to improve system throughput by carrying extra information bits without harming channel estimation accuracy or degrading system error performance. Simulation results show that, at a high signal-to-noise ratio, the bit error rate for data bits transmitted via zero-pilot symbols index selection is lower than that of data bits transmitted over data subcarriers.
<p><span lang="EN-US">Index modulation (IM) techniques have been employed in different communication systems to improve bandwidth efficiency by carrying additional information bits. In high-mobility communication systems and under both time-selective and frequency-selective fading channels with Doppler spread, channel variations can be tracked by employing pilot-aided channel estimation with minimum mean-squared error estimation. However, inserting pilot symbols among information symbols reduces the system's spectral efficiency in pilot-aided channel estimation schemes. We propose pilot-aided channel estimation with zero-pilot symbols and an energy detection scheme to tackle this issue. Part of the information bit-stream is conveyed by the indices of zero-pilot symbols leading to an increase in the system's spectral efficiency. We used an energy detector at the receiver to detect the transmitted zero-pilot symbols. This paper examines the impacts of diversity order on the zero-pilot symbol detection error probability and the mean-squared of error estimation. The impacts of pilot symbols number and the zero-pilot symbol number on the mean-squared error of the minimum mean-squared error (MMSE) estimator and the system error performance are also investigated in this paper.</span></p>
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