现有的有源电力滤波器(Active Power Filter,APF)存在数据存储量小、历史数据少、远程监控能力差等问题,因此,需要有效地技术手段来解决这些问题。在230 M无线数传电台组网的电力负荷管理系统基础上,提出在有源电力滤波器的控制系统中...现有的有源电力滤波器(Active Power Filter,APF)存在数据存储量小、历史数据少、远程监控能力差等问题,因此,需要有效地技术手段来解决这些问题。在230 M无线数传电台组网的电力负荷管理系统基础上,提出在有源电力滤波器的控制系统中增加无线调制解调模块,通过DSP实现数字化的前向纠错算法,构建了可靠的无线远程监控系统。在无线数传电台组网的基础上,有源电力滤波器配合上位机的电力能效测评系统软件,实现了电力能效监测、无人值守运行、远程实时监控、数据动态显示、故障报警和历史数据查询等功能。实验证明,该方法可以有效地解决无线通信中信噪干扰和信号衰落问题,具有很好的检错纠错能力和较高的数据传输效率,从而对有源电力滤波器进行有效地监控,提高了供电系统的安全性能和管理水平。展开更多
For communication systems with heavy burst noise, an optimal Forward Error Correction(FEC) scheme is expected to have a large burst error correction capability while simultaneously owning moderate random error correct...For communication systems with heavy burst noise, an optimal Forward Error Correction(FEC) scheme is expected to have a large burst error correction capability while simultaneously owning moderate random error correction capability. This letter presents a new FEC scheme based on multiple-symbol interleaved Reed-Solomon codes and an associated two-pass decoding algorithm. It is shown that the proposed multi-symbol interleaved Reed-Solomon scheme can achieve nearly twice as much as the burst error correction capability of conventional single-symbol interleaved Reed-Solomon codes with the same code length and code rate.展开更多
Based on the genetic algorithm(GA),a new genetic probability decoding(GPD) scheme for forward error correction(FEC) codes in optical transmission systems is proposed.The GPD scheme can further offset the quantificatio...Based on the genetic algorithm(GA),a new genetic probability decoding(GPD) scheme for forward error correction(FEC) codes in optical transmission systems is proposed.The GPD scheme can further offset the quantification error of the hard decision by making use of the channel interference probability and statistics information to restore the maximal likelihood transmission code word.The theoretical performance analysis and the simulation result show that the proposed GPD scheme has the advantages of lower decoding complexity,faster decoding speed and better decoding correction-error performance.Therefore,the proposed GPD algorithm is a better practical decoding algorithm.展开更多
文摘现有的有源电力滤波器(Active Power Filter,APF)存在数据存储量小、历史数据少、远程监控能力差等问题,因此,需要有效地技术手段来解决这些问题。在230 M无线数传电台组网的电力负荷管理系统基础上,提出在有源电力滤波器的控制系统中增加无线调制解调模块,通过DSP实现数字化的前向纠错算法,构建了可靠的无线远程监控系统。在无线数传电台组网的基础上,有源电力滤波器配合上位机的电力能效测评系统软件,实现了电力能效监测、无人值守运行、远程实时监控、数据动态显示、故障报警和历史数据查询等功能。实验证明,该方法可以有效地解决无线通信中信噪干扰和信号衰落问题,具有很好的检错纠错能力和较高的数据传输效率,从而对有源电力滤波器进行有效地监控,提高了供电系统的安全性能和管理水平。
文摘For communication systems with heavy burst noise, an optimal Forward Error Correction(FEC) scheme is expected to have a large burst error correction capability while simultaneously owning moderate random error correction capability. This letter presents a new FEC scheme based on multiple-symbol interleaved Reed-Solomon codes and an associated two-pass decoding algorithm. It is shown that the proposed multi-symbol interleaved Reed-Solomon scheme can achieve nearly twice as much as the burst error correction capability of conventional single-symbol interleaved Reed-Solomon codes with the same code length and code rate.
基金supported by the National Natural Science Foundation of China (Nos.61071117 and 61003256)the Natural Science Foundation of Chongqing CSTC (No.2010BB2409)the Science and Technology Foundation of Chongqing Municipal Education Commission (No.KJ110519)
文摘Based on the genetic algorithm(GA),a new genetic probability decoding(GPD) scheme for forward error correction(FEC) codes in optical transmission systems is proposed.The GPD scheme can further offset the quantification error of the hard decision by making use of the channel interference probability and statistics information to restore the maximal likelihood transmission code word.The theoretical performance analysis and the simulation result show that the proposed GPD scheme has the advantages of lower decoding complexity,faster decoding speed and better decoding correction-error performance.Therefore,the proposed GPD algorithm is a better practical decoding algorithm.