The security of the cipher block chaining message authentication code
Journal of Computer and System Sciences
A receiver-centric transport protocol for mobile hosts with heterogeneous wireless interfaces
Proceedings of the 9th annual international conference on Mobile computing and networking
Performance of peer-to-peer networks: service capacity and role of resource sharing policies
Performance Evaluation - P2P computing systems
On effectively exploiting multiple wireless interfaces in mobile hosts
Proceedings of the 5th international conference on Emerging networking experiments and technologies
Journal of Network and Computer Applications
Buffer occupancy feedback security control and changing encryption keys to protect MOD services
PSIVT'06 Proceedings of the First Pacific Rim conference on Advances in Image and Video Technology
A Reciprocal and Extensible Architecture for Multiple-Target Tracking in a Smart Home
IEEE Transactions on Systems, Man, and Cybernetics, Part C: Applications and Reviews
Accelerating peer-to-peer networks for video streaming using multipoint-to-point communication
IEEE Communications Magazine
Streaming video over the Internet: approaches and directions
IEEE Transactions on Circuits and Systems for Video Technology
Inferring video QoE in real time
IEEE Network: The Magazine of Global Internetworking
Engineering Applications of Artificial Intelligence
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The bandwidth-hunger applications of SHE (Smart Home Environment) can take advantage of the multipoint-to-point (MPP) connections to aggregate more bandwidth to gain user-perceived Quality of Experience (QoE) and network Quality of Service (QoS). The receiver-centric transport-layer R^2CP (Radial Reception Control Protocol) was proposed to resolve the incapability of the MPP communication in conventional TCP and UDP. However, R^2CP has no consideration to discriminate the importance in a packet payload which is critical to QoE and brings an issue for critical data packets that may be dropped in great risk of network congestion. In this paper, we thus present P-R^2CP (Prioritized R^2CP) to effectively decrease the loss ratio of critical data packets in MPP video streaming while the network is congested. P-R^2CP is a cross-layer protocol that considers both the transport-layer issues and the media content's properties in application-layer. Then, an example on MPP-UVS (MPP ubiquitous video surveillance) is presented as UVS is now a very important Internet application that requires QoS/QoE management to protect lives and assets especially in SHE. Our experiments are conducted on different kinds of surveillance videos over MPP links with different bandwidth and packet loss inserted. The experimental results demonstrate that, as the loss of critical packets is decreased by an order and much less critical data packets are dropped, P-R^2CP can highly guard not only QoS but also QoE of SHE surveillance video streaming.