![]() Through practical experimental results, we could verify two major research goals. We have performed extensive measurements from a prototype system. A practical prototype system has been implemented. The capacity variations should be promptly reflected in traffic splitting in order to accomplish an equal load-balance. Wireless link capacity varies widely over time due to dynamic radio conditions. Motivated by this observation, we investigate how to split multimedia flows over heterogeneous links. However, multimedia streaming services allow some tolerance to transmission delay. This has an adverse impact on TCP and even UDP-based delay sensitive applications. Multipath transmission suffers from the intrinsic problem of out-of-order packet delivery. In this paper, we consider multi-access networks, where WiMAX and WiFi links are set up at the same time. N2 - To meet the bandwidth requirements of multimedia services, multipath transmission is a promising solution. T1 - Adaptive multimedia flow splitting over WiMAX and WiFi links It is shown that the adaptive technique is effective under dynamic radio environments.", It has been widely investigated under various radio conditions and different monitoring intervals. The other is an adaptation capability to varying link quality. One is that multimedia splitting can improve the overall network performance (e.g., the permitted multimedia sessions or the aggregated bandwidth) while still keeping an acceptable media quality. It is shown that the adaptive technique is effective under dynamic radio environments.Ībstract = "To meet the bandwidth requirements of multimedia services, multipath transmission is a promising solution. To meet the bandwidth requirements of multimedia services, multipath transmission is a promising solution.
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