东南大学学报(英文版)
東南大學學報(英文版)
동남대학학보(영문판)
JOURNAL OF SOUTHEAST UNIVERSITY
2007年
1期
1-6
,共6页
王芳%程时昕%陈明%王海峰
王芳%程時昕%陳明%王海峰
왕방%정시흔%진명%왕해봉
LDPC码%正交频分复用%排序%自适应%密度演进
LDPC碼%正交頻分複用%排序%自適應%密度縯進
LDPC마%정교빈분복용%배서%자괄응%밀도연진
low-density parity-check codes%orthogonal frequency-division multiplexing%ordering%adaptive%density evolution
为了在正交频分复用(OFDM)系统中充分利用非正则低密度奇偶校验(LDPC)码编码比特错误概率不同的特性,提出了一种新的基于自适应排序LDPC码的OFDM传输技术.假设发射机已知信道状态信息(CSI),非正则LDPC码的编码比特根据度进行排序,并被分配到相应的子载波上,度高的比特分配到轻度衰落的子载波,度低的节点分配到深度衰落的子载波.为了降低反馈信道的开销,可以对反馈的CSI进行量化.该传输技术的性能可以由密度演进算法进行分析.分析和仿真结果表明,相对于传统的无排序LDPC码编码OFDM系统,所提出的基于自适应排序LDPC码的OFDM系统可以获得1~1.5 dB的性能增益,并且对CSI的量化具有鲁棒性.
為瞭在正交頻分複用(OFDM)繫統中充分利用非正則低密度奇偶校驗(LDPC)碼編碼比特錯誤概率不同的特性,提齣瞭一種新的基于自適應排序LDPC碼的OFDM傳輸技術.假設髮射機已知信道狀態信息(CSI),非正則LDPC碼的編碼比特根據度進行排序,併被分配到相應的子載波上,度高的比特分配到輕度衰落的子載波,度低的節點分配到深度衰落的子載波.為瞭降低反饋信道的開銷,可以對反饋的CSI進行量化.該傳輸技術的性能可以由密度縯進算法進行分析.分析和倣真結果錶明,相對于傳統的無排序LDPC碼編碼OFDM繫統,所提齣的基于自適應排序LDPC碼的OFDM繫統可以穫得1~1.5 dB的性能增益,併且對CSI的量化具有魯棒性.
위료재정교빈분복용(OFDM)계통중충분이용비정칙저밀도기우교험(LDPC)마편마비특착오개솔불동적특성,제출료일충신적기우자괄응배서LDPC마적OFDM전수기술.가설발사궤이지신도상태신식(CSI),비정칙LDPC마적편마비특근거도진행배서,병피분배도상응적자재파상,도고적비특분배도경도쇠락적자재파,도저적절점분배도심도쇠락적자재파.위료강저반궤신도적개소,가이대반궤적CSI진행양화.해전수기술적성능가이유밀도연진산법진행분석.분석화방진결과표명,상대우전통적무배서LDPC마편마OFDM계통,소제출적기우자괄응배서LDPC마적OFDM계통가이획득1~1.5 dB적성능증익,병차대CSI적양화구유로봉성.
A novel adaptive ordered LDPC (low-density parity-check) coded OFDM (orthogonal frequency-division multiplexing) transmission technique is proposed to exploit different error probabilities of irregular LDPC coded bits in OFDM systems.Assuming that the CSI (channel state information) is known at the transmitter,the irregular LDPC coded bits are ordered according to their degrees and then allocated into subcarriers adaptively.Bits with higher degrees are allocated into less attenuated subcarriers and bits with lower degrees are allocated into deep attenuated subcarriers.Quantization on CSI feedback can be applied to minimize the signaling overhead.Performance of this strategy is analyzed by density evolution and numerical simulation.Simulation results show that about a 1 to 1.5 dB gain in terms of SNR (signal to noise ratio) can be achieved over frequency-selective fading channels compared to conventional LDPC coded OFDM systems without ordering, and the proposed scheme is robust to CSI quantization.
