標題: 次世代智慧室內無線五十億級位元傳輸率之基頻傳收機技術應用與隨機運算IP-子計畫二:前瞻無線寬頻、具十億位元以上接收功能之綠能基頻前端訊號編解碼器研究設計( I )
Design of Green Baseband Front-End Signal Coder/Decoder for Advanced Broadband Multi-Gbps Wireless Communication
作者: 陳紹基
CHEN SAU-GEE
國立交通大學電子工程學系及電子研究所
關鍵字: 無線個人區域網路;波束成形;波束編碼簿;盲目估測;剩餘載波頻率偏移;符元取樣偏移;精密同步;軟體無線電;前端濾波運算;快速傅立葉轉換;低密度奇偶校驗碼;基因演算法;最大可能性解碼;訊息傳遞;WPAN(Wireless Personal Area Network);Beamforming;Beam Codebook;Residual Carrier Frequency Offset (RCFO);Symbol Timing Offset (STO);Fine Synchronization;SDR;front-end filter;FIR filter;Fast filtering algorithm;FFT;LDPC code;Genetic algorithm;Ma
公開日期: 2011
摘要: 本計畫至目前為止產出諸多成果,以下列出四個較主要之成果: (1) 提出一個超高產出率(throughput)之快速富利葉轉換(FFT)處理器,具低面積、低功耗等特性,其效能優於目前文獻上所載各式FFT處理器之性能。(2) 分別提出一個四倍平行和八倍平行具面積效率之快速濾波演算法架構,與文獻上所載濾波器相比,此架構適用於各種長度之濾波器,且複雜度低。(3) 提出之改良符元式的碼書波束成形的方法具有比現有技術更低複雜度但具有同樣效能。(4) 所提出的GA-MP與目前文獻上效能最佳的演算法做比較,此兩種演算法都能接近ML解,但我們的方法仍略勝一籌,而且我們所提出的方法其複雜度較低且易於實現。上述成果除了有些已經有被IEEE期刊論文及會議論文接受外,尚有一些在整理發表中,成果獲得專業肯定。
Based on the codebook beamforming scheme in IEEE 802.15.3c, we propose a low-complexity codebook beamforming with angle-of-departure estimation (CB-AoDE) technique along with its analysis for enhancing the performance with a much lower computational complexity compared with the optimal beamforming. The experimental results show that CB-AoDE can outperform the existing codebook beamforming by up to 1.8dB in the BER performance. Besides, a scheme for blind joint estimations of residual carrier frequency (RCFO) and symbol timing offsets (STO) is proposed which doesn’t need the assistance of UW, while it can achieve the ideal estimation performance. This project also proposes a high data-rate and low-complexity reconfigurable multi-mode and multi-stream parallel filter architectures, which can be appropriately configured to meet the front-end filtering specifications of various communication systems. Next, this project presents a high-throughput FFT processor for SDR (Soft-defined Radio) application. The processor has low complexity and high operation speed due to its optimized pipelined structure. Moreover, a conflict-free multibank memory addressing scheme is devised to support up to 16-way parallel and normal-order data input/output. Without needing to reorder the input/output data, this scheme helps a high-throughput design result. The EDA synthesis results show that the whole FFT processor area is only 1.2 mm2, and the power consumption is 15.5 mW with 90nm process. The SQNR performance is over 70 dB with 16-bit wordlength implementation for each FFT length.Finally, for channel coding, although MP (Message Passing) algorithm family have already good decoding performances, they do not perform as good as the maximum likelihood (ML) decoding. This project proposes a GA-MP algorithm based on the concept of genetic algorithm and MP algorithm. The decoding performance of GA-MP decoding is close to the ML decoding for various parity check matrices.
官方說明文件#: NSC100-2220-E009-026
URI: http://hdl.handle.net/11536/99556
https://www.grb.gov.tw/search/planDetail?id=2310916&docId=361189
顯示於類別:研究計畫