哪位大侠能帮我翻译一下这个东西,翻译好了发我邮箱 ztq77@tom.com
哪位大侠能帮我翻译一下这个东西,翻译好了发我邮箱 ztq77@tom.com
Error Control and Concealment for
Video Communication: A Review
The problem of error control and concealment in video communication is becoming increasingly important because of the growing interest in video delivery over unreliable channels such as wireless networks and the Internet. This paper reviews the techniques that have been developed for error control and concealment in the past 10–15 years. These techniques are described in three categories according to the roles that the encoder and decoder play in the underlying approaches. Forward error concealment includes methods that add redundancy at the source end to enhance error resilience of the coded bit streams. Error concealment by postprocessing refers to operations at the decoder to recover the damaged areas based on characteristics of image and video signals.Last, interactive error concealment covers techniques that are dependent on a dialogue between the source and destination. Both current research activities and practice in international standards are covered. Keywords—Error concealment, error control in video transport,video communications.
I. INTRODUCTION
One inherent problem with any communications system is that information may be altered or lost during transmission due to channel noise. The effect of such information loss can be devastating for the transport of compressed video because any damage to the compressed bit stream may lead to objectionable visual distortion at the decoder. In addition, real-time/interactivity requirements exclude the deployment of some well-known error-recovery techniques for certain applications. Last, issues such as audio-visual synchronization and multipoint communications further complicate the problem of error recovery.Transmission errors can be roughly classified into two categories: random bit errors and erasure errors. Random bit errors are caused by the imperfections of physical channels, which result in bit inversion, bit insertion, and bit deletion. Depending on the coding methods and the affected information content, the impact of random bit errors can range from negligible to objectionable. When fixed-length
coding is used, a random bit error will only affect one code word, and the caused damage
Error Control and Concealment for
Video Communication: A Review
The problem of error control and concealment in video communication is becoming increasingly important because of the growing interest in video delivery over unreliable channels such as wireless networks and the Internet. This paper reviews the techniques that have been developed for error control and concealment in the past 10–15 years. These techniques are described in three categories according to the roles that the encoder and decoder play in the underlying approaches. Forward error concealment includes methods that add redundancy at the source end to enhance error resilience of the coded bit streams. Error concealment by postprocessing refers to operations at the decoder to recover the damaged areas based on characteristics of image and video signals.Last, interactive error concealment covers techniques that are dependent on a dialogue between the source and destination. Both current research activities and practice in international standards are covered. Keywords—Error concealment, error control in video transport,video communications.
I. INTRODUCTION
One inherent problem with any communications system is that information may be altered or lost during transmission due to channel noise. The effect of such information loss can be devastating for the transport of compressed video because any damage to the compressed bit stream may lead to objectionable visual distortion at the decoder. In addition, real-time/interactivity requirements exclude the deployment of some well-known error-recovery techniques for certain applications. Last, issues such as audio-visual synchronization and multipoint communications further complicate the problem of error recovery.Transmission errors can be roughly classified into two categories: random bit errors and erasure errors. Random bit errors are caused by the imperfections of physical channels, which result in bit inversion, bit insertion, and bit deletion. Depending on the coding methods and the affected information content, the impact of random bit errors can range from negligible to objectionable. When fixed-length
coding is used, a random bit error will only affect one code word, and the caused damage
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回顾:视频通讯中的错误控制和消除
由于人们对基于并不可靠的信道如因特网和无线网络进行的视频传输越来越感兴趣,视频通讯中的错误控制和消除问题也越来越重要.这篇论文对过去10-15年中开发的错误控制和消除技术进行了回顾和评价.这些技术根据在编码器和解码器中起到的不同作用根据下列方法进行了分类,主要分三类进行描述.前向错误消除包括在源末端增加余量提高编码比特流的错误恢复力的方法.通过后处理进行错误消除指的是解码器中的操作,基于图像和视频信号特性对损伤区域进行恢复.最后一种是交互式错误消除,该技术基于源和目的地之间的对话.包含了目前按照国际标准进行的研究活动和实践.
关键词---错误消除,视频传输中的错误控制,视频通讯
1. 简介
任何通讯系统固有的一个问题是由于传输信道的噪音问题,信息在传输过程中可能会改变或者丢失.这种信息丢失的影响对压缩视频的传输可以说是毁灭性的,因为压缩比特流中的任何损坏都可能导致解码器中有害的视觉失真.另外,在某些应用中实时/交互要求不包括一些有名的错误恢复技术的使用.最后,像视听同步和多点通讯一类的问题是错误恢复更加复杂化.传输错误可以粗略的分为两种:任意字节错误和消磁错误.任意字节错误是由不合格的物理信道导致的,这种不合格的信道导致字节的倒置,字节的插入和删除.根据编码方法和影响的信息内容,任意字节错误影响程度可以从可忽略到有害的.使用固定长度编码时,任意字节错误只会影响一个编码,并导致损坏.
回顾:视频通讯中的错误控制和消除
由于人们对基于并不可靠的信道如因特网和无线网络进行的视频传输越来越感兴趣,视频通讯中的错误控制和消除问题也越来越重要.这篇论文对过去10-15年中开发的错误控制和消除技术进行了回顾和评价.这些技术根据在编码器和解码器中起到的不同作用根据下列方法进行了分类,主要分三类进行描述.前向错误消除包括在源末端增加余量提高编码比特流的错误恢复力的方法.通过后处理进行错误消除指的是解码器中的操作,基于图像和视频信号特性对损伤区域进行恢复.最后一种是交互式错误消除,该技术基于源和目的地之间的对话.包含了目前按照国际标准进行的研究活动和实践.
关键词---错误消除,视频传输中的错误控制,视频通讯
1. 简介
任何通讯系统固有的一个问题是由于传输信道的噪音问题,信息在传输过程中可能会改变或者丢失.这种信息丢失的影响对压缩视频的传输可以说是毁灭性的,因为压缩比特流中的任何损坏都可能导致解码器中有害的视觉失真.另外,在某些应用中实时/交互要求不包括一些有名的错误恢复技术的使用.最后,像视听同步和多点通讯一类的问题是错误恢复更加复杂化.传输错误可以粗略的分为两种:任意字节错误和消磁错误.任意字节错误是由不合格的物理信道导致的,这种不合格的信道导致字节的倒置,字节的插入和删除.根据编码方法和影响的信息内容,任意字节错误影响程度可以从可忽略到有害的.使用固定长度编码时,任意字节错误只会影响一个编码,并导致损坏.
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你能帮帮他们吗