作为一种新型的数字版权保护技术,数字指纹通过在出售给每个消费者的数字拷贝中秘密地嵌入一个唯一的序列码来实现版权保护与盗版者追踪的目的。一旦发现未授权的数字拷贝时,内容提供商能够通过所提取到的序列码追踪到相应的盗版者。提...作为一种新型的数字版权保护技术,数字指纹通过在出售给每个消费者的数字拷贝中秘密地嵌入一个唯一的序列码来实现版权保护与盗版者追踪的目的。一旦发现未授权的数字拷贝时,内容提供商能够通过所提取到的序列码追踪到相应的盗版者。提出了一种多媒体指纹方案,其中IPP(identifi able parent property)码被用来构造消费者的序列码,以抵抗多个消费者之间的合谋攻击。实验结果表明,该方案具有较好的抗合谋性能。展开更多
By leveraging the 5G enabled vehicular ad hoc network(5G-VANET), it is widely recognized that connected vehicles have the potentials to improve road safety, transportation intelligence and provide in-vehicle entertain...By leveraging the 5G enabled vehicular ad hoc network(5G-VANET), it is widely recognized that connected vehicles have the potentials to improve road safety, transportation intelligence and provide in-vehicle entertainment experience. However, many enabling applications in 5G-VANET rely on the efficient content sharing among mobile vehicles, which is a very challenging issue due to the extremely large data volume, rapid topology change, and unbalanced traffic. In this paper, we investigate content prefetching and distribution in 5G-VANET. We first introduce an edge computing based hierarchical architecture for efficient distribution of large-volume vehicular data. We then propose a multi-place multi-factor prefetching scheme to meet the rapid topology change and unbalanced traffic. The content requests of vehicles can be served by neighbors, which can improve the sharing efficiency and alleviate the burden of networks. Furthermore, we use a graph theory based approach to solve the content distribution by transforming it into a maximum weighted independent set problem. Finally, the proposed scheme is evaluated with a greedy transmission strategy to demonstrate its efficiency.展开更多
文摘作为一种新型的数字版权保护技术,数字指纹通过在出售给每个消费者的数字拷贝中秘密地嵌入一个唯一的序列码来实现版权保护与盗版者追踪的目的。一旦发现未授权的数字拷贝时,内容提供商能够通过所提取到的序列码追踪到相应的盗版者。提出了一种多媒体指纹方案,其中IPP(identifi able parent property)码被用来构造消费者的序列码,以抵抗多个消费者之间的合谋攻击。实验结果表明,该方案具有较好的抗合谋性能。
基金the support of National Science and Technology Major Project of the Ministry of Science and Technology of China under Grant No.2016ZX03001025003the Natural Science Foundation of Beijing under Grant No.4181002+2 种基金the Natural Science Foundation of China under Grant No.91638204BUPT Excellent Ph.D. Students Foundation under Grant No.CX2018210Natural Sciences and Engineering Research Council (NSERC),Canada
文摘By leveraging the 5G enabled vehicular ad hoc network(5G-VANET), it is widely recognized that connected vehicles have the potentials to improve road safety, transportation intelligence and provide in-vehicle entertainment experience. However, many enabling applications in 5G-VANET rely on the efficient content sharing among mobile vehicles, which is a very challenging issue due to the extremely large data volume, rapid topology change, and unbalanced traffic. In this paper, we investigate content prefetching and distribution in 5G-VANET. We first introduce an edge computing based hierarchical architecture for efficient distribution of large-volume vehicular data. We then propose a multi-place multi-factor prefetching scheme to meet the rapid topology change and unbalanced traffic. The content requests of vehicles can be served by neighbors, which can improve the sharing efficiency and alleviate the burden of networks. Furthermore, we use a graph theory based approach to solve the content distribution by transforming it into a maximum weighted independent set problem. Finally, the proposed scheme is evaluated with a greedy transmission strategy to demonstrate its efficiency.
