性能更好的差错控制协议将进一步提高多播的效率,满足日益复杂的网络应用。
The error control schemes with better performance will further improve multicast efficiency and meet the demands of complicated network applications.
该模型依照资源预定协议,并采用混合差错控制方式,将前向纠错编码技术加以完善,增加了重传机制。
This transport model improves forward error correction-coding technology with adding a retransmission function in it. This model bases on both resource reservation protocol and hybrid error control.
本文首先介绍了ALE协议的基本内容,分析了ALE系统的结构和设计思路,然后对8cpfsk信号的调制解调技术、差错控制技术进行了理论研究。
Firstly, ALE system's base content is introduced, then an analysis of ALE system's structure and design is put forward, and then 8cpfsk modulation theory and error control technique are discussed.
其中主要对网络通信中的通信协议、差错控制策略进行了研究和设计。
Communication protocols in network communication and error control strategy were researched and designed.
文中对监控系统的硬件结构、通信协议、信息编码方案及通信软件的设计进行了详细的阐述,并从理论上讨论了信息编码方案的差错控制性能。
The hardware construction, communication protocol, signal coding schemes and the communication software are described in detail, and the performance of the error control schemes is analyzed in theory.
该文对多种可靠组播传输协议中的差错控制机制进行了分析与比较,并且讨论了应用和网络环境对差错控制机制的影响。
This paper analyses and compares the error control mechanisms of several reliable multicast protocols, and discusses the impact of applications and networks on the error control mechanisms.
针对这一问题,在单向链路卫星组播结构基础上,融合分组级FEC和自适应速率技术,提出了一种新的可靠组播协议,经过理论分析可知,新的协议具有较好的差错控制和拥塞控制能力。
According to this problem, in this paper, a new reliable multicast protocol is proposed which integrates packet-level FEC and rate-adaptive technology on the basis of unidirectional satellite link.
针对这一问题,在单向链路卫星组播结构基础上,融合分组级FEC和自适应速率技术,提出了一种新的可靠组播协议,经过理论分析可知,新的协议具有较好的差错控制和拥塞控制能力。
According to this problem, in this paper, a new reliable multicast protocol is proposed which integrates packet-level FEC and rate-adaptive technology on the basis of unidirectional satellite link.
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