共查询到20条相似文献,搜索用时 93 毫秒
1.
高速无线数据服务的需求的增长,要求下一代无线网络显著提高其吞吐量。文章研究了自动重发请求(ARQ)机制,来满足这些新的要求。针对基于速率兼容纠错码的速率自适应I类混合ARQ机制和增量冗余重传II类混合ARQ机制,提出了一种系统框架,并对其在无线瑞利衰落信道上的性能进行了分析。数值结果表明,增量冗余重传(IRR)II类HARQ机制与速率自适应(RA)I类HARQ机制相比,有较高的吞吐量,而RAI类HARQ机制的延迟较小。 相似文献
2.
为了减少无线传感器网络(WSN)用于恢复丢失数据包的重传次数,降低重传导致的能量开销,提出了WSN多播应用中一种利用网络节点的缓冲区存储和重传网络编码包进行丢包恢复的机制;分析了该机制和基于传统缓冲策略的跳到跳自动重传请求(ARQ)机制中,WSN进行丢包恢复所需的重传次数,给出了相应的数学模型,并进行了实验比较。实验结果表明,提出的丢包恢复机制,能够显著减少重传次数,从而减少无线传感器网络中重传引起的能量损耗。 相似文献
3.
4.
5.
介绍多载波系统中,采用Turbo码的混合自动重传请求(HARQ)的差错控制方案,并从易于实现的角度提出了两种基于OFDM的自适应HARQ机制.仿真分析表明,其中基于数据帧全部重传的机制可以提高系统稳健性,而基于数据帧部分重传的机制可以提高系统吞吐率. 相似文献
6.
TCP协议应用在3G无线网络中时,其传输性能受到了无线网络物理层帧差错率的严重影响。链路层重传技术可以大大改善TCP数据传输性能因无线信道误码率大而下降的情况。主要研究了CDMA2000中链路层重传技术对无线TCP数据传输的影响,并结合TCP层重传超时机制,提出了一种新的自适应链路层重传算法,提高了TCP在无线链路的数据传输性能。最后对该算法进行仿真,验证了此算法可以显著提高TCP吞吐率。 相似文献
7.
Internet视频点播差错控制 总被引:5,自引:0,他引:5
针对Internet传输方式和视频点播应用的特点,提出一种基于ARQ的差错控制机制,该差错控制机制包括失序差错检测,NACK差错通告,选择重传,缓冲区管理和请求队列管理几个部分,具有差错反应迅速,允许多次请求重传,状态信息和控制信息少的特点,通过缓冲区管理和请求队列管理,避免了无交的重传请求和重传数据包,进一步降低主机和网络资源需求,接收者驱动的ARQ差错控制机制不需要修改现有网络协议,容易实现,实验证明,Internet视频点播差错控制机制在保证视频信息实时性要求的前提下,能有效降低视频数据包在Internet传输中的包丢失率,从而改善视频回放质量。 相似文献
8.
针对IEEE 802.11 DCF不能为实时业务提供服务质量(QoS)保证,提出了一种基于数据包重传的区分服务机制。该机制通过对不同优先级的数据流采用不同的重传机制和重传次数,实现饱和吞吐量、饱和时延和分组丢弃概率的相对区分。然后采用二维Markov Chain模型对该机制进行数学分析与评价。数学分析表明,该机制能够有效支持区分服务,并且能够显著提高系统饱和吞吐量,获得更好的性能。 相似文献
9.
10.
11.
12.
Reliable multicast, the lossless dissemination of data from one sender to a group of receivers, has a wide range of important applications in wireless networks. In this paper, we are interested in the reliable single-hop wireless multicast. As the wireless channel is inherently error prone, it is challenging to achieve high channel utilization in reliable wireless multicast. Most schemes proposed by now for reliable single-hop wireless multicast share the same weakness in that an entire frame will be retransmitted even if it has single error bit. To alleviate this problem, this paper presents an efficient reliable multicast scheme based on block-level ARQ and network coding technique. The new scheme breaks the data stream into blocks and retransmits only erroneous blocks (rather than the entire corrupted frame), where the novel network coding technique is further adopted to minimize the total number of block retransmissions. The theoretical analysis and simulation are conducted to demonstrate the performance of the new scheme and also some typical available schemes in terms of their bandwidth efficiency. The simulation and theoretical results indicate that new reliable wireless multicast scheme can significantly enhance the channel utilization, especially in the scenarios where bit error rate is high and the number of receivers is large. 相似文献
13.
可靠组播差错控制研究及热点 总被引:1,自引:0,他引:1
可靠组播(ReliableMulticast)通过差错控制保证组播的可靠传输,是组播研究中的一个热点。文章综述可靠组播中的差错控制和当前研究热点。 相似文献
14.
15.
16.
杨鹏 《计算机工程与设计》2008,29(11):2776-2778
如何采用有效的机制来保证多播数据的可靠传输是移动Ad Hoc网络中的一个难题.针对IEEE 802.11 MAC层进行改进,提出了一种基于使用NACK消息的可靠多播协议,该协议仅当数据分组传输出错时才发送NACK消息要求重传数据.仿真结果表明使用该协议能提高多播路由传输数据的吞吐量,同时降低了平均时延. 相似文献
17.
Multicasting has become increasingly important with the emergence of Internet-based applications such as IP telephony, audio/video conferencing, distributed databases and software upgrading. IP multicasting is an efficient way to distribute information from a single source to multiple destinations at different locations. In practice IP is considered as a layer 3 protocol. Multiprotocol Label Switching (MPLS) replaces the IP forwarding by a simple label lookup. MPLS combines the flexibility of layer 3 routing and layer 2 switching.In order to provide QoS in group communications for real time applications such as video conferencing, reliable multicasting is used. Miscellaneous efforts have been undertaken to provide reliability on top of IP multicast. Two error control strategies have been popular in practice. These are the FEC (Forward Error Correction) strategy, which uses error correction alone, and the ARQ (Automatic Repeat Request) strategy, which uses error detection, combined with retransmission of data.In this paper, we present a new fair share policy (FSP) that utilizes Differentiated Services to solve the problems of QoS and congestion control when reliable ARQ multicast is used. The results should provide insight into the comparisons of the residual packet loss probability between IP multicast in MPLS networks using FSP and plain IP multicasting using the same policy when DiffServ are adopted and when reliable ARQ multicast is considered. 相似文献
18.
19.