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Low Complexity, High throughput wireless architecture

Digital Up Converter. Digital to Analog Converter. Transmitter Front-End. Symbols. IFFT, Add CP. Computer. Packet Detection Timing Recovery, Remove CP, FFT. Digital Down Converter. Analog to Digital Converter. Receiver Front-End. Symbols. Analog Impairment. FPGA.

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Low Complexity, High throughput wireless architecture

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  1. Digital Up Converter Digital to Analog Converter Transmitter Front-End Symbols IFFT, Add CP Computer Packet Detection Timing Recovery, Remove CP, FFT Digital Down Converter Analog to Digital Converter Receiver Front-End Symbols Analog Impairment FPGA Low Complexity, High throughput wireless architecture Dayu Huang Advisor: Prof. Sean Meyn, Prof. Ada S.Y. Poon Illinois Center for Wireless Systems GOAL PROPOSED METHODOLOGY • Wireless Architecture • High Throughput • Low Complexity • Energy Efficient • Signaling with energy efficient constellation which is also of low decoding complexity. • Exploring channel fading mechanism. ISSUES • Optimal Constellation matching to channel statistic leads to simple suboptimal constellation that outperforms in throughput conventional QAM of the same decoding complexity, as indicated by the capacity plot. • Capacity plot implies ideal case; Study with simulation of system with proposed constellation is in progress, using more realistic channel model. • Impacts of Analog Impairment on proposed constellation will be investigated by experiment with a FPGA-based Test Bed. • Constellation on the right has the same decoding complexity as 16QAM, but considerably outperforms 64QAM (left) at high SNR. WORK IN PROGRESS • FPGA-based Test Bed • the system diagram of the test bed

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