面向物联网的下一代网络编码技术

2017 8th International Conference on Computing, Communication and Networking Technologies (ICCCNT) Pub Date : 2020-07-01 DOI:10.1109/ICCCNT49239.2020.9225314

G. Akilandeswary, J. Manickam

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引用次数: 4

摘要

重编码是随机线性网络编码(RLNC)的独特之处。它有助于减少传播的次数。它提供低延迟。RLNC是下一代网络编码技术。它在目的地恢复数据包的能力，即使在传输过程中有数据包丢失而不重传。接收方可以在目的地恢复原始数据包。在编码向量的帮助下，可以恢复丢失的数据包。编码向量在目的地提供了足够的信息，以了解发送方在编码过程中使用了哪些编码系数。在这里，我已经成功地演示了4个不同的概念在RLNC。它们是(i)多播发送-接收(ii)使用随机系数编码解码(iii)重编码(iv)动态编码解码。在Kodo网络编码库的帮助下，采用异构架构成功实现了该系统。此外，我还贡献了一份关于RLNC技术现状的调查，并指出了它的优点和缺点。滑动窗口是RLNC中使用的另一个重要概念。

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Next Generation Network Coding Technique for IoT

Recoding is the unique feature of Random Linear Network Coding (RLNC). It helps to reduce the number of transmissions. It provides low delay. RLNC is a next-generation network coding technique. Its ability to recover packet at the destination, even if there is a packet loss during transmission without retransmission. The receiver can recover back original packets at the destination. The recovery of lost packets is possible with the help of an encoding vector. The encoding vector provides sufficient information at the destination to know what coding coefficients are being used during the encoding process at the sender's side. Here I have successfully demonstrated 4 different concepts in RLNC. They are (i)Multicast sender-receiver (ii) Encode Decode using Random Coefficients (iii) Recoding (iv) Encode Decode on the fly. It is successfully implemented by using heterogeneous architecture and with the help of the Kodo network coding Library. Also, I contributed a survey on the state of the art techniques in RLNC and pointed out the advantages and disadvantages of it. The sliding window is yet another significant concept used in RLNC.

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2017 8th International Conference on Computing, Communication and Networking Technologies (ICCCNT)

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