亞洲知識產權資訊網為知識產權業界提供一個一站式網上交易平台，協助業界發掘知識產權貿易商機，並與環球知識產權業界建立聯繫。無論你是知識產權擁有者正在出售您的知識產權，或是製造商需要購買技術以提高操作效能，又或是知識產權配套服務供應商，你將會從本網站發掘到有用的知識產權貿易資訊。

返回搜索結果

Improved Joint Fountain and Network Coding For Loss-Tolerant Data Transmission

詳細技術說明: None

*Abstract

Makes Networks Faster and More Secure
This joint FoUntain coding and Network (FUN) coding system increases data throughput and decreases transmission delay along a data link. FUN is a forward error correction method that combines features of fountain coding, intra-session network coding, and cross-next-hop network coding. Ultimately, the design prevents packet information loss that occurs in traditional lossy networks, such as 3G and 4G networks, making the network significantly faster and more secure. With available coding systems, as the number of data transfers or data hops between data links increase, packet information loss also increases. University of Florida researchers have creating a joint coding system that significantly increases data throughput and information spreading over multi-hop lossy networks, thereby increasing the speed of the network, increasing revenue of network service providers, and providing a more secure network environment. This network coding can be applied to 5G wireless networks, cellular phone networks, Wi-Fi networks, and software security systems.

Application

Network coding for increasing data throughput, speed and security

Advantages

Achieves significantly higher throughput than 3G and 4G wireless networks, increasing revenue of network service providers
Allows for forward error correction of packets, decreasing network data loss and securing information
Minimizes transmission delay between source nodes and sink nodes, increasing network speed

Technology

Joint FoUntain coding and Network coding (FUN) boosts information spreading over multi-hop lossy networks. The FUN approach combines the best features of fountain coding, digital signal coding, intra-session network coding, and cross-next-hop network coding and is used between each transmission along a data link, increasing throughput and decreasing delay transmission. The FUN coding system flows between a source node to a sink node through relay nodes. Results show that in multi-hop networks, FUN coding yielded optimal throughput and performed signiﬁcantly better than traditional fountain codes and existing network coding schemes.

*Principal Investigation: Name: Dapeng Wu
Department:

Name: Huazi Zhang
Department:

Name: Kairan Sun
Department:

Name: Qiuyuan Huang
Department:

其他

國家/地區: 美國

欲了解更多信息，請點擊這裡